gabapentin and Pain, Postoperative studies

Gabapentin: A cyclohexane-gamma-aminobutyric acid derivative that is used for the treatment of PARTIAL SEIZURES; NEURALGIA; and RESTLESS LEGS SYNDROME.
gabapentin : A gamma-amino acid that is cyclohexane substituted at position 1 by aminomethyl and carboxymethyl groups. Used for treatment of neuropathic pain and restless legs syndrome.

Research Excerpts

Excerpt	Relevance	Reference
"The addition of gabapentin to moderate sedation during D&E did not result in lower maximum recalled procedural pain."	9.69	Gabapentin as an adjunct for pain management during dilation and evacuation: A double-blind randomized controlled trial. ( Brant, AR; Floyd, S; Lotke, PS; Reeves, MF; Scott, RK; Tefera, E; Ye, PP, 2023)
"Gabapentin and intravenous patient-controlled analgesia (PCA) can reduce postoperative pain scores, postoperative opioid use, and time to completing physical therapy compared to PCA alone after posterior spinal fusion (PSF) for adolescent idiopathic scoliosis (AIS)."	9.41	Gabapentin and intrathecal morphine combination therapy results in decreased oral narcotic use and more consistent pain scores after posterior spinal fusion for adolescent idiopathic scoliosis. ( Caird, MS; Hong, RA; Leis, A; Li, Y; Robbins, C; Swallow, J, 2021)
" The randomized clinical trials included were focused on patients with adolescent idiopathic scoliosis who underwent posterior fusion surgery and were treated with gabapentin versus placebo medicine."	9.41	Efficacy of perioperative gabapentin use in patients with idiopathic scoliosis undergoing fusion surgery: a systematic review and meta-analysis. ( Bas, JL; Bas, P; Bas, T; Bonilla, F; Bovea-Marco, M; Mariscal, G; Pérez, S; Rubio-Belmar, PA, 2023)
"Adolescent patients undergoing idiopathic scoliosis surgery were randomized to receive a single preoperative dose of gabapentin 600 mg or placebo."	9.19	Analgesic effects of gabapentin after scoliosis surgery in children: a randomized controlled trial. ( Campbell, F; Mayell, A; Peliowski, A; Srinivasan, I, 2014)
"Preoperative administration of gabapentin reduced intraoperative propofol requirements and postoperative analgesic consumption in breast cancer patients undergoing total mastectomy."	9.17	Effect of gabapentin pretreatment on propofol consumption, hemodynamic variables, and postoperative pain relief in breast cancer surgery. ( Bala, I; Bharti, N; Narayan, V; Singh, G, 2013)
"Gabapentin has demonstrated efficacy in clinical trials as a pre-emptive analgesic and in acute postoperative pain management."	9.15	Effect of pre-emptive gabapentin on postoperative pain following lower extremity orthopaedic surgery under spinal anaesthesia. ( Marashi, SH; Nadjafi, A; Panah Khahi, M; Yaghooti, AA, 2011)
"To evaluate the effect of gabapentin on the incidence and severity of postoperative nausea and vomiting (PONV) after open cholecystectomy."	9.14	Effects of preoperative gabapentin on postoperative nausea and vomiting after open cholecystectomy: a prospective randomized double-blind placebo-controlled study. ( Asefi, A; Ghaffarpasand, F; Heiran, HR; Khademi, S, 2010)
"Pre-emptively administered gabapentin, 1200 mg, does not reduce the incidence, or the severity, of post-thoracotomy shoulder pain in patients receiving thoracic epidural analgesia."	9.13	Gabapentin does not reduce post-thoracotomy shoulder pain: a randomized, double-blind placebo-controlled study. ( Chouinard, P; Ferraro, P; Girard, F; Huot, MP; Lafontaine, ER; Ruel, M, 2008)
"In this randomized pilot clinical trial, the authors tested the hypothesis that using gabapentin as an add-on agent in the treatment of postoperative pain reduces the occurrence of postoperative delirium."	9.12	Pilot clinical trial of gabapentin to decrease postoperative delirium in older patients. ( Ames, C; Chou, D; Dahl, JB; Leung, JM; Petersen, KL; Rico, M; Rowbotham, MC; Sands, LP; Weinstein, P, 2006)
"We investigated the effects of gabapentin and dexamethasone given together or separately 1 h before the start of surgery on laryngoscopy, tracheal intubation, intraoperative hemodynamics, opioid consumption, and postoperative pain in patients undergoing varicocele operations."	9.12	The preoperative use of gabapentin, dexamethasone, and their combination in varicocele surgery: a randomized controlled trial. ( Koç, S; Memis, D; Sut, N, 2007)
" After standard premedication, 25 patients in each group received propofol, fentanyl, and local anesthesia at the operative site."	9.11	The analgesic effects of gabapentin in monitored anesthesia care for ear-nose-throat surgery. ( Karamanlioğlu, B; Memiş, D; Pamukçu, Z; Turan, A; Yağiz, R; Yavuz, E, 2004)
"Gabapentinoids are frequently used in the management of cancer pain."	8.98	A critical appraisal of gabapentinoids for pain in cancer patients. ( Bennett, MI; Jordan, RI; Mulvey, MR, 2018)
"The purpose of this meta-analysis from randomized controlled trials (RCTs) was to determine the efficacy and safety of the preoperative use of gabapentin for the treatment of acute and chronic postoperative pain following breast cancer surgery."	8.98	The efficacy of gabapentin in reducing pain intensity and morphine consumption after breast cancer surgery: A meta-analysis. ( Huang, Q; Jiang, Y; Li, J; Lin, H; Rong, Z; Wang, T; Xiong, J; Zhang, Q; Zhang, S, 2018)
" Gabapentin was used as an adjunct for the management of acute pain in approximately half of enhanced recovery programs."	8.95	Gabapentin can decrease acute pain and morphine consumption in spinal surgery patients: A meta-analysis of randomized controlled trials. ( Li, C; Peng, C; Qu, J; Wu, D, 2017)
" We included studies enrolling adult patients undergoing breast cancer surgery who were randomly assigned to preoperative gabapentin or pregabalin versus placebo or active control and assessed acute (≤24 h) or chronic (≥2 months) pain."	8.95	Preoperative pregabalin or gabapentin for acute and chronic postoperative pain among patients undergoing breast cancer surgery: A systematic review and meta-analysis of randomized controlled trials. ( Busse, JW; Choi, S; Clarke, H; Devereaux, PJ; Dhaliwal, J; Khan, JS; Rai, AS, 2017)
" Further studies should determine the optimal dose and whether pregabalin is superior to gabapentin in controlling acute pain after spine surgery."	8.95	A meta-analysis of the preoperative use of gabapentinoids for the treatment of acute postoperative pain following spinal surgery. ( Liu, B; Liu, R; Wang, L, 2017)
"Multiple, large, high-quality trials have demonstrated the safety and efficacy of gabapentin and pregabalin in neuropathic pain."	8.84	Gabapentin and pregabalin for chronic neuropathic and early postsurgical pain: current evidence and future directions. ( Gilron, I, 2007)
"From December 2012 to February 2019, 682 hospitalizations for posterior spinal fusion in adolescent idiopathic scoliosis were identified with complete inpatient data; 49% were administered gabapentin."	8.31	Effect of gabapentin on length of stay, opioid use, and pain scores in posterior spinal fusion for adolescent idiopathic scoliosis: a retrospective review across a multi-hospital system. ( Brenn, B; Cho, R; Poon, SC; Samdani, A; Zhang, DA, 2023)
"The authors will collect RCTs related to the use of gabapentin to prevent chronic pain in adults following surgery."	8.02	Evaluation on curative effects of gabapentin for the prevention of chronic pain in adults following surgery: A protocol for systematic review and meta-analysis. ( Chen, Y; Zhang, GZ, 2021)
"Widely used for acute pain management, the clinical benefit from perioperative use of gabapentinoids is uncertain."	7.96	Perioperative Use of Gabapentinoids for the Management of Postoperative Acute Pain: A Systematic Review and Meta-analysis. ( Cossi, MJ; Lauzier, F; Leblanc, G; Neveu, X; Perron, C; Pinard, AM; Savard, X; Turgeon, AF; Verret, M; Zarychanski, R, 2020)
"Our study will provide the best level of evidence to inform the effect of gabapentinoids in the management of postoperative acute pain."	7.91	Perioperative use of gabapentinoids for the management of postoperative acute pain: protocol of a systematic review and meta-analysis. ( Cossi, MJ; Lauzier, F; Leblanc, G; Pinard, AM; Savard, X; Turgeon, AF; Verret, M; Zarychanski, R, 2019)
"The purpose of this study was to evaluate the effects of gabapentin on time to achieve physical therapy goals following posterior spinal fusion in adolescents with scoliosis."	7.88	Utility of gabapentin in meeting physical therapy goals following posterior spinal fusion in adolescent patients with idiopathic scoliosis. ( Brinton, JT; Cohen, MN; Garg, S; Levek, C; Quick, HD; Thomas, JJ, 2018)
"Further study of gabapentin and postoperative pain is needed employing rigorous and robust methodology and diversity of the sample selections."	6.82	Opioid-Sparing Anesthesia: Gabapentin and Postoperative Pain. ( Ladich, EM; Moore, CB; Spence, DL; Zhou, KQ, 2022)
"Gabapentin has antihyperalgesic and anxiolytic properties."	6.71	Preoperative gabapentin decreases anxiety and improves early functional recovery from knee surgery. ( Adam, F; Chauvin, M; Guignard, B; Ménigaux, C; Sessler, DI, 2005)
"Gabapentinoid use has increased substantially in the past several years after initial promising data with regard to acute perioperative pain control."	6.61	The role of gabapentinoids in acute and chronic pain after surgery. ( Habib, AS; Kumar, AH, 2019)
"Gabapentin was efficacious in reducing postoperative pain, total morphine consumption, and morphine-related complications following laparoscopic cholecystectomy."	6.55	The efficacy of gabapentin in reducing pain intensity and postoperative nausea and vomiting following laparoscopic cholecystectomy: A meta-analysis. ( Dong, Y; Tan, H; Wang, L; Zhang, J, 2017)
"It is a novel drug used for the treatment of postoperative pain with antihyperalgesic properties and a unique mechanism of action."	6.50	Gabapentin in acute postoperative pain management. ( Challa, CK; Chang, CY; Eloy, JD; Shah, J, 2014)
"Gabapentin is an antiepileptic drug, also used in the treatment of neuropathic pain, which is the subject of a Cochrane review, currently under revision."	6.46	Single dose oral gabapentin for established acute postoperative pain in adults. ( Derry, S; McQuay, HJ; Moore, RA; Straube, S; Wiffen, PJ, 2010)
"The addition of gabapentin to moderate sedation during D&E did not result in lower maximum recalled procedural pain."	5.69	Gabapentin as an adjunct for pain management during dilation and evacuation: A double-blind randomized controlled trial. ( Brant, AR; Floyd, S; Lotke, PS; Reeves, MF; Scott, RK; Tefera, E; Ye, PP, 2023)
"Gabapentin and intravenous patient-controlled analgesia (PCA) can reduce postoperative pain scores, postoperative opioid use, and time to completing physical therapy compared to PCA alone after posterior spinal fusion (PSF) for adolescent idiopathic scoliosis (AIS)."	5.41	Gabapentin and intrathecal morphine combination therapy results in decreased oral narcotic use and more consistent pain scores after posterior spinal fusion for adolescent idiopathic scoliosis. ( Caird, MS; Hong, RA; Leis, A; Li, Y; Robbins, C; Swallow, J, 2021)
" The randomized clinical trials included were focused on patients with adolescent idiopathic scoliosis who underwent posterior fusion surgery and were treated with gabapentin versus placebo medicine."	5.41	Efficacy of perioperative gabapentin use in patients with idiopathic scoliosis undergoing fusion surgery: a systematic review and meta-analysis. ( Bas, JL; Bas, P; Bas, T; Bonilla, F; Bovea-Marco, M; Mariscal, G; Pérez, S; Rubio-Belmar, PA, 2023)
"The objective of this study was to validate the efficacy of gabapentin as part of a multimodal pain regimen in a double-blind, randomized controlled trial for patients aged 10-19 years with idiopathic scoliosis undergoing posterior spinal fusion."	5.34	Multimodal pain control in adolescent posterior spinal fusion patients: a double-blind, randomized controlled trial to validate the effect of gabapentin on postoperative pain control, opioid use, and patient satisfaction. ( Anderson, DE; Duletzke, NT; Halsey, MF; Pedigo, EB, 2020)
" Recently, preoperative pain facilitation has been associated with chronic pain after TKA, and gabapentin has been shown to decrease pain facilitation."	5.27	The influence of pre- and perioperative administration of gabapentin on pain 3-4 years after total knee arthroplasty. ( Arendt-Nielsen, L; Hansen, LT; Husted, H; Kehlet, H; Kjær Petersen, K; Laursen, MB; Lunn, TH; Simonsen, O, 2018)
" Other outcomes were overall pain during well-defined mobilizations and at rest and sedation during the first 48 hours and from days 2-6, morphine use, anxiety, depression, sleep quality, and nausea, vomiting, dizziness, concentration difficulty, headache, visual disturbances, and adverse reactions."	5.20	Analgesic and sedative effects of perioperative gabapentin in total knee arthroplasty: a randomized, double-blind, placebo-controlled dose-finding study. ( Hansen, LT; Husted, H; Kehlet, H; Laursen, MB; Lunn, TH, 2015)
" The following data were recorded: total daily pethidine and diclofenac consumption, numeric sedation score, and the postoperative nausea, vomiting, and dizziness scores."	5.19	Clinical study evaluating pregabalin efficacy and tolerability for pain management in patients undergoing laparoscopic cholecystectomy. ( Al Taher, WM; Bekawi, MS; El Wakeel, LM; Mageed, WM, 2014)
"Adolescent patients undergoing idiopathic scoliosis surgery were randomized to receive a single preoperative dose of gabapentin 600 mg or placebo."	5.19	Analgesic effects of gabapentin after scoliosis surgery in children: a randomized controlled trial. ( Campbell, F; Mayell, A; Peliowski, A; Srinivasan, I, 2014)
"Patients undergoing craniotomy received either placebo (group D) or gabapentin (600 mg) (group GD) premedication orally, 2 hours before induction of anesthesia."	5.17	The effect of gabapentin premedication on postoperative nausea, vomiting, and pain in patients on preoperative dexamethasone undergoing craniotomy for intracranial tumors. ( Misra, S; Parthasarathi, G; Vilanilam, GC, 2013)
"Preoperative administration of gabapentin reduced intraoperative propofol requirements and postoperative analgesic consumption in breast cancer patients undergoing total mastectomy."	5.17	Effect of gabapentin pretreatment on propofol consumption, hemodynamic variables, and postoperative pain relief in breast cancer surgery. ( Bala, I; Bharti, N; Narayan, V; Singh, G, 2013)
"The purpose of this study was to evaluate the analgesic effects of perioperative gabapentin on postoperative acute and chronic pain after coronary artery bypass graft (CABG) surgery with median sternotomy and internal mammary artery harvesting."	5.15	The effects of gabapentin on acute and chronic postoperative pain after coronary artery bypass graft surgery. ( Onan, B; Selcuk, I; Sen, H; Turan, A; Ucak, A; Yilmaz, AT, 2011)
"Gabapentin has demonstrated efficacy in clinical trials as a pre-emptive analgesic and in acute postoperative pain management."	5.15	Effect of pre-emptive gabapentin on postoperative pain following lower extremity orthopaedic surgery under spinal anaesthesia. ( Marashi, SH; Nadjafi, A; Panah Khahi, M; Yaghooti, AA, 2011)
"To evaluate the effect of gabapentin on the incidence and severity of postoperative nausea and vomiting (PONV) after open cholecystectomy."	5.14	Effects of preoperative gabapentin on postoperative nausea and vomiting after open cholecystectomy: a prospective randomized double-blind placebo-controlled study. ( Asefi, A; Ghaffarpasand, F; Heiran, HR; Khademi, S, 2010)
"Pre-emptively administered gabapentin, 1200 mg, does not reduce the incidence, or the severity, of post-thoracotomy shoulder pain in patients receiving thoracic epidural analgesia."	5.13	Gabapentin does not reduce post-thoracotomy shoulder pain: a randomized, double-blind placebo-controlled study. ( Chouinard, P; Ferraro, P; Girard, F; Huot, MP; Lafontaine, ER; Ruel, M, 2008)
"In this randomized pilot clinical trial, the authors tested the hypothesis that using gabapentin as an add-on agent in the treatment of postoperative pain reduces the occurrence of postoperative delirium."	5.12	Pilot clinical trial of gabapentin to decrease postoperative delirium in older patients. ( Ames, C; Chou, D; Dahl, JB; Leung, JM; Petersen, KL; Rico, M; Rowbotham, MC; Sands, LP; Weinstein, P, 2006)
"We investigated the effects of gabapentin and dexamethasone given together or separately 1 h before the start of surgery on laryngoscopy, tracheal intubation, intraoperative hemodynamics, opioid consumption, and postoperative pain in patients undergoing varicocele operations."	5.12	The preoperative use of gabapentin, dexamethasone, and their combination in varicocele surgery: a randomized controlled trial. ( Koç, S; Memis, D; Sut, N, 2007)
" After standard premedication, 25 patients in each group received propofol, fentanyl, and local anesthesia at the operative site."	5.11	The analgesic effects of gabapentin in monitored anesthesia care for ear-nose-throat surgery. ( Karamanlioğlu, B; Memiş, D; Pamukçu, Z; Turan, A; Yağiz, R; Yavuz, E, 2004)
" Fifty patients scheduled for breast cancer surgery were blindly randomized to receive gabapentin, eutectic mixture of local anesthetics cream, and ropivacaine in the wound or three placebos."	5.11	Multimodal analgesia with gabapentin and local anesthetics prevents acute and chronic pain after breast surgery for cancer. ( Fassoulaki, A; Melemeni, A; Sarantopoulos, C; Triga, A, 2005)
" Ketamine was shown to increased postoperative nausea and vomiting."	5.05	Perioperative Analgesia for Patients Undergoing Thyroidectomy and Parathyroidectomy: An Evidence-Based Review. ( Lin, H; Nguyen, BK; Pashkova, AA; Pinto, J; Quan, D; Stathakios, J; Svider, PF, 2020)
"Gabapentinoids are frequently used in the management of cancer pain."	4.98	A critical appraisal of gabapentinoids for pain in cancer patients. ( Bennett, MI; Jordan, RI; Mulvey, MR, 2018)
"The purpose of this meta-analysis from randomized controlled trials (RCTs) was to determine the efficacy and safety of the preoperative use of gabapentin for the treatment of acute and chronic postoperative pain following breast cancer surgery."	4.98	The efficacy of gabapentin in reducing pain intensity and morphine consumption after breast cancer surgery: A meta-analysis. ( Huang, Q; Jiang, Y; Li, J; Lin, H; Rong, Z; Wang, T; Xiong, J; Zhang, Q; Zhang, S, 2018)
" Gabapentin was used as an adjunct for the management of acute pain in approximately half of enhanced recovery programs."	4.95	Gabapentin can decrease acute pain and morphine consumption in spinal surgery patients: A meta-analysis of randomized controlled trials. ( Li, C; Peng, C; Qu, J; Wu, D, 2017)
" We included studies enrolling adult patients undergoing breast cancer surgery who were randomly assigned to preoperative gabapentin or pregabalin versus placebo or active control and assessed acute (≤24 h) or chronic (≥2 months) pain."	4.95	Preoperative pregabalin or gabapentin for acute and chronic postoperative pain among patients undergoing breast cancer surgery: A systematic review and meta-analysis of randomized controlled trials. ( Busse, JW; Choi, S; Clarke, H; Devereaux, PJ; Dhaliwal, J; Khan, JS; Rai, AS, 2017)
" Further studies should determine the optimal dose and whether pregabalin is superior to gabapentin in controlling acute pain after spine surgery."	4.95	A meta-analysis of the preoperative use of gabapentinoids for the treatment of acute postoperative pain following spinal surgery. ( Liu, B; Liu, R; Wang, L, 2017)
" The complications of vomiting, nausea, dizziness and pruritus were also compiled to assess the safety of gabapentin and pregabalin."	4.93	The efficacy of preoperative administration of gabapentin/pregabalin in improving pain after total hip arthroplasty: a meta-analysis. ( Ding, W; Mao, Y; Wu, L, 2016)
"Multiple, large, high-quality trials have demonstrated the safety and efficacy of gabapentin and pregabalin in neuropathic pain."	4.84	Gabapentin and pregabalin for chronic neuropathic and early postsurgical pain: current evidence and future directions. ( Gilron, I, 2007)
"From December 2012 to February 2019, 682 hospitalizations for posterior spinal fusion in adolescent idiopathic scoliosis were identified with complete inpatient data; 49% were administered gabapentin."	4.31	Effect of gabapentin on length of stay, opioid use, and pain scores in posterior spinal fusion for adolescent idiopathic scoliosis: a retrospective review across a multi-hospital system. ( Brenn, B; Cho, R; Poon, SC; Samdani, A; Zhang, DA, 2023)
"The authors will collect RCTs related to the use of gabapentin to prevent chronic pain in adults following surgery."	4.02	Evaluation on curative effects of gabapentin for the prevention of chronic pain in adults following surgery: A protocol for systematic review and meta-analysis. ( Chen, Y; Zhang, GZ, 2021)
"Widely used for acute pain management, the clinical benefit from perioperative use of gabapentinoids is uncertain."	3.96	Perioperative Use of Gabapentinoids for the Management of Postoperative Acute Pain: A Systematic Review and Meta-analysis. ( Cossi, MJ; Lauzier, F; Leblanc, G; Neveu, X; Perron, C; Pinard, AM; Savard, X; Turgeon, AF; Verret, M; Zarychanski, R, 2020)
"Our study will provide the best level of evidence to inform the effect of gabapentinoids in the management of postoperative acute pain."	3.91	Perioperative use of gabapentinoids for the management of postoperative acute pain: protocol of a systematic review and meta-analysis. ( Cossi, MJ; Lauzier, F; Leblanc, G; Pinard, AM; Savard, X; Turgeon, AF; Verret, M; Zarychanski, R, 2019)
" Patients receiving gabapentin (GP) were matched (1:2) with patients who did not receive gabapentin (NG) based on age, sex and appendicitis severity."	3.88	Effectiveness of gabapentin as a postoperative analgesic in children undergoing appendectomy. ( Baxter, KJ; Giannopoulos, H; Hafling, J; Heiss, KF; Patel, AU; Raval, MV; Sterner, J, 2018)
"The purpose of this study was to evaluate the effects of gabapentin on time to achieve physical therapy goals following posterior spinal fusion in adolescents with scoliosis."	3.88	Utility of gabapentin in meeting physical therapy goals following posterior spinal fusion in adolescent patients with idiopathic scoliosis. ( Brinton, JT; Cohen, MN; Garg, S; Levek, C; Quick, HD; Thomas, JJ, 2018)
"116 consecutive patients scheduled for breast cancer surgery were prospectively scored according to pain, PONV and sedation after being introduced to a combined evidence-based, empiric multimodal opioid-sparing prevention and treatment regime consisting of Paracetamol, Celecoxib, Dextromethorphan, Gabapetin, Dexamethason and Ondansetron."	3.74	[Multimodal treatment of pain and nausea in breast cancer surgery]. ( Callesen, T; Gärtner, R; Kehlet, H; Kroman, N, 2008)
"Intrathecal gabapentin (30, 100, 200 microg) dose-dependently reduced incision-induced allodynia."	3.72	Magnesium chloride and ruthenium red attenuate the antiallodynic effect of intrathecal gabapentin in a rat model of postoperative pain. ( Chen, CC; Cheng, CR; Cheng, JK; Chiou, LC; Lai, YJ, 2003)
"Given the risk of postoperative pain and specifically neuropathic gluteal pain after a sacrospinous ligament suspension, we conducted a randomized trial to compare a 2-week course of gabapentin versus placebo on postoperative pain after a sacrospinous ligament fixation."	3.11	Randomized Clinical Trial of Gabapentin Versus Placebo for Pain After Sacrospinous Ligament Fixation. ( Dieter, AA; Feliciano, KM; Geller, EJ; Willis-Gray, M; Wu, JM, 2022)
" However, there is limited data regarding the opioid-sparing effect and adverse effect profiles of gabapentin in the bariatric surgical population."	3.01	Efficacy and Safety of Gabapentin on Postoperative Pain Management After Bariatric Surgery: A Systematic Review and Meta-Analysis. ( Bayaua, NE; Bramble, RS; Harmer, CM; Mijares, M; Tubog, TD, 2023)
"The primary outcomes assessed were postoperative pain scores and opioid requirements."	3.01	Perioperative Gabapentin May Reduce Opioid Requirement for Early Postoperative Pain in Patients Undergoing Anterior Cruciate Ligament Reconstruction: A Systematic Review of Randomized Controlled Trials. ( Aman, ZS; Blaber, OK; Dekker, TJ; DePhillipo, NN; LaPrade, RF, 2023)
"Gabapentin has played an integral role in this evolution of practice."	3.01	Perioperative gabapentin usage in pediatric patients: A scoping review. ( Afonso, AM; Cadwell, JB; Chen, O; Hagen, J; Matsoukas, K, 2023)
"Outcomes of interest included resting postoperative pain scores at 24 hours."	3.01	Comparative Efficacy of Adjuvant Nonopioid Analgesia in Adult Cardiac Surgical Patients: A Network Meta-Analysis. ( Ali, S; Deng, J; Heybati, K; Heybati, S; Hou, W; Krever, M; Lynn, MJ; Mughal, R; Ramakrishna, H; Tzanis, K; Zhou, F, 2023)
"To optimize postoperative pain control and minimize opioid requirements, interventions must occur at the preoperative, intraoperative, and postoperative time points."	3.01	Opioid-Sparing Pain Control after Rhinoplasty: Updated Review of the Literature. ( Lee, LN; Liu, RH; Xu, LJ, 2023)
" The optimal dosage of pregabalin and gabapentin for pain control and safety in these patients has not been well established."	3.01	Different Gabapentin and Pregabalin Dosages for Perioperative Pain Control in Patients Undergoing Spine Surgery: A Systematic Review and Network Meta-Analysis. ( Bydon, M; Durrani, S; El Sammak, S; Fu, TS; Ghaith, AK; Hu, CW; Krzyz, EZ; Lin, CCJ; Lin, TY; Tsai, SHL, 2023)
"Gabapentin-treated patients received a lower number of doses of ondansetron when compared with the placebo group (6 [5-6] vs 7 [6-9], P = 0."	2.94	Perioperative Gabapentin in Pediatric Thoracic Surgery Patients-Randomized, Placebo-Controlled, Phase 4 Trial. ( Fenikowski, D; Gawron, D; Komotajtys, H; Maciejewski, P; Tomaszek, L, 2020)
"However, it did reduce postoperative pain, which may prove to be a desired attribute of its use, particularly in cases where postoperative pain may be a greater challenge."	2.94	Gabapentin as an adjunct to paracervical block for perioperative pain management for first-trimester uterine aspiration: a randomized controlled trial. ( Cordes, SMD; Cwiak, CA; Ge, L; Gray, BA; Haddad, LB; Hailstorks, TP; Moore, RH, 2020)
"gabapentin can treat postoperative pain by preventing excessive sensitivity to the central nervous system."	2.94	The Effect Of Preoperative Gabapentin on Pain Severity After Posterior Urethral Surgery: A Randomized, Double-Blind, Placebo-Controlled Study. ( Alinezhad, A; Fallah-Karkan, M; Ghiasy, S; Hojjati, SA; Hosseini, J; Salimi, H; Tayebi-Azar, A, 2020)
"Gabapentin is an antiepileptic drug currently licensed to treat epilepsy and neuropathic pain but has been used off-label to treat acute postoperative pain."	2.94	Effectiveness, cost-effectiveness and safety of gabapentin versus placebo as an adjunct to multimodal pain regimens in surgical patients: protocol of a placebo controlled randomised controlled trial with blinding (GAP study). ( Abbadi, R; Alzetani, A; Baos, S; Casali, G; Chauhan, N; Collett, L; Culliford, L; de Jesus, SE; Edwards, M; Gibbison, B; Goddard, N; Lamb, J; McKeon, H; Molyneux, M; Pufulete, M; Rogers, CA; Stokes, EA; Wordsworth, S, 2020)
"Gabapentin and placebo were well tolerated, with no statistically significant difference in side effects or anxiety levels."	2.90	Gabapentin for Perioperative Pain Management for Uterine Aspiration: A Randomized Controlled Trial. ( Crabtree, D; Gray, BA; Haddad, LB; Hagey, JM; Pieper, CF; Weber, JM; Wynn, C, 2019)
"Gabapentin dosing was 600 mg (<65 years) or 300 mg (>65 years)."	2.90	Does low-dose gapapentin reduce opioid use postoperatively?: A randomized controlled trial in women undergoing reconstructive pelvic surgery. ( Alarab, M; Dawood, A; Lemos, N; Li, ALK; Lovatsis, D; McDermott, CD; Siddiqui, NT; Wadsworth, K, 2019)
"Gabapentin is an adjuvant antiepileptic agent and helps to reduce acute postoperative pain in several surgery settings."	2.90	Preoperative Gabapentin Administration Improves Acute Postoperative Analgesia in Patients Undergoing Craniotomy: A Randomized Controlled Trial. ( Dong, J; Han, R; Lin, N; Peng, K; Peng, Y; Wang, D; Zeng, M; Zhang, K; Zhang, W; Zhao, Y, 2019)
"Gabapentin was associated with increased dizziness, but it significantly reduced the use of antiemetic at any time in the first 24 postoperative hours."	2.90	A Triple-Blind Randomized Trial of Preemptive Use of Gabapentin Before Laparoscopic Hysterectomy for Benign Gynaecologic Conditions. ( Al-Malki, G; Ballesteros, LER; Krishnamurthy, S; Mansour, F; Moore, A; Suarthana, E; Tulandi, T, 2019)
"Acute postoperative pain is associated with the development of persistent postsurgical pain, but it is unclear which aspect is most estimable."	2.90	Factors Associated With Acute Pain Estimation, Postoperative Pain Resolution, Opioid Cessation, and Recovery: Secondary Analysis of a Randomized Clinical Trial. ( Carroll, I; Clay, D; Costouros, JG; Cramer, E; Curtin, C; Dirbas, FM; Goodman, S; Hah, JM; Hilmoe, H; Huddleston, J; Mackey, SC; Maloney, WJ; McCue, R; Ruchelli, G; Schmidt, P; Sharifzadeh, Y; Shrager, J; Trafton, J, 2019)
"Postoperative pain was evaluated up to 8 h after ovariohysterectomy using a multidimensional composite pain scale (MCPS) and the Glasgow pain scale (rCMPS-F)."	2.87	Analgesic effects of gabapentin and buprenorphine in cats undergoing ovariohysterectomy using two pain-scoring systems: a randomized clinical trial. ( Beauchamp, G; Benito, J; Doodnaught, GM; Evangelista, MC; Monteiro, BP; Steagall, PV, 2018)
" Optimal dosing and timing of perioperative gabapentin in the context of specific operations to decrease opioid use should be addressed in further research."	2.87	Effect of Perioperative Gabapentin on Postoperative Pain Resolution and Opioid Cessation in a Mixed Surgical Cohort: A Randomized Clinical Trial. ( Carroll, I; Clay, D; Costouros, JG; Curtin, C; Dirbas, FM; Efron, B; Goodman, S; Hah, J; Huddleston, J; Humphreys, K; Mackey, SC; Maloney, WJ; McCue, R; Ruchelli, G; Schmidt, P; Sharifzadeh, Y; Shrager, J; Trafton, J, 2018)
"Effective postoperative pain management increases patient satisfaction, reduces cost, reduces morbidity, and shortens hospitalizations."	2.87	Effect of Perioperative Gabapentin Use on Postsurgical Pain in Patients Undergoing Head and Neck Mucosal Surgery: A Randomized Clinical Trial. ( Bottros, M; Jackson, RS; Kallogjeri, D; Lindburg, M; Liou, T; Nussenbaum, B; Piccirillo, JF; Schoer, M; Scott-Wittenborn, N; Townsend, M, 2018)
"Postoperative pain is a frequent cause for delayed discharge following outpatient procedures, including anorectal surgery."	2.87	Preemptive Analgesia Decreases Pain Following Anorectal Surgery: A Prospective, Randomized, Double-Blinded, Placebo-Controlled Trial. ( Callas, P; Cataldo, PA; Dominick, T; Jordan, MR; Leahy, DT; Moore, JS; Van Backer, JT, 2018)
"Lamotrigine-treated patients were more comfortable throughout the study with significantly less (p<0."	2.84	Comparative pre-emptive analgesic efficacy study of novel antiepileptic agents gabapentin, lamotrigine and topiramate in patients undergoing major surgeries at a tertiary care hospital: a randomized double blind clinical trial. ( Bhosale, UA; Gupta, A; Sardesai, S; Shah, P; Yegnanarayan, R, 2017)
"Gabapentinoids also increase the risk of respiratory depression, in particular when paired with opioids."	2.82	Gabapentinoid Use in Perioperative Care and Current Controversies. ( Abrecht, CR; Patel, AS; Urman, RD, 2022)
"Further study of gabapentin and postoperative pain is needed employing rigorous and robust methodology and diversity of the sample selections."	2.82	Opioid-Sparing Anesthesia: Gabapentin and Postoperative Pain. ( Ladich, EM; Moore, CB; Spence, DL; Zhou, KQ, 2022)
"Preemptive analgesia may improve postoperative pain management, but the optimal regimen is unclear."	2.82	Efficacy of preemptive analgesia treatments for the management of postoperative pain: a network meta-analysis. ( Chin, V; Houle, TT; Li, C; Ma, H; Mueller, A; Wang, D; Wang, J; Xuan, C; Yan, W, 2022)
"Gabapentin was investigated as a single-dose adjunct to morphine for postoperative pain management."	2.80	Randomized controlled trial of gabapentin as an adjunct to perioperative analgesia in total hip arthroplasty patients. ( Avram, V; Buckley, N; Cheng, J; DeBeer, J; Nantha-Aree, M; Paul, JE; Punthakee, D; Shahzad, U; Thabane, L; Tidy, A; Winemaker, M; Wismer, D, 2015)
"Postoperative pain was measured at 24 and 48 h, at rest and on movement, on a visual analogue scale (VAS, 0 to 100 mm)."	2.80	A Perioperative Course of Gabapentin Does Not Produce a Clinically Meaningful Improvement in Analgesia after Cesarean Delivery: A Randomized Controlled Trial. ( Bernstein, P; Carvalho, JC; Downey, K; Hoppe, DW; Monks, DT; Shah, V, 2015)
"Secondary outcomes were postoperative pain scores, opioid-related side effects, and patient's length of hospital stay."	2.79	Effect of a preoperative gabapentin on postoperative analgesia in patients with inflammatory bowel disease following major bowel surgery: a randomized, placebo-controlled trial. ( Fischer, H; Friedman, Z; Guerina, L; Siddiqui, NT, 2014)
"Gabapentin is a popular anticonvulsant drug that has been used as an oral nonopioid analgesic in recent years."	2.79	The effects of gabapentin on severity of post spinal anesthesia headache. ( Izadi, F; Nadri, S; Vahabi, S, 2014)
" In this study, we compared the pharmacokinetic parameters and effect of preemptive analgesics administered to calves subjected to dehorning with local anesthesia."	2.78	The pharmacokinetics and effects of meloxicam, gabapentin, and flunixin in postweaning dairy calves following dehorning with local anesthesia. ( Allen, KA; Bergamasco, LL; Coetzee, JF; Dockweiler, JC; Edwards-Callaway, LN; Fraccaro, E; Glynn, HD; Jones, M; KuKanich, B; Lubbers, B, 2013)
"The role of preoperative gabapentin in postoperative pain management is not clear, particularly in patients receiving regional blockade."	2.77	Preoperative gabapentin for acute post-thoracotomy analgesia: a randomized, double-blinded, active placebo-controlled study. ( Alexander, SL; Allen, MS; Brown, MJ; Carns, PE; Cassivi, SD; Curry, TB; Deschamps, C; Hanson, AC; Hoehn, SL; Hooten, WM; Huntoon, MA; Kinney, MA; Long, TR; Mantilla, CB; Mauck, WD; Nichols, FC; Passe, MA; Pulido, JN; Rho, RH; Schroeder, DR; Shen, KR; Wass, CT; Weingarten, TN; Wigle, DA; Wilson, PR, 2012)
"Gabapentin has demonstrated analgesic effects in some studies."	2.77	Effects of gabapentin on postoperative pain, nausea and vomiting after abdominal hysterectomy: a double blind randomized clinical trial. ( Ajori, L; Amiri, Z; Mazloomfard, MM; Nazari, L, 2012)
"Postoperative pain was reduced in the gabapentin group (1."	2.77	Analgesic effects of preoperative gabapentin after tongue reconstruction with the anterolateral thigh flap. ( Burd, A; Chiu, TW; Lau, EY; Leung, CC, 2012)
"Gabapentin is a gamma aminobutyric acid analogue that is known as an anticonvulsant drug."	2.77	Effect of gabapentin on postoperative pain and operation complications: a randomized placebo controlled trial. ( Abrishamkar, M; Ayatollahi, V; Bafghi, AT; Behdad, S; Tezerjani, MD, 2012)
"When added to a standardized postoperative pain regimen, gabapentin use led to no additional improvement in PRK pain control compared with a placebo at the dose and the time intervals tested."	2.76	Oral gabapentin for photorefractive keratectomy pain. ( Bower, KS; Coe, CD; Eaddy, J; Edwards, J; Howard, RS; Kuhnle, MD; Kuzmowych, C; Ryan, DS, 2011)
"Gabapentin has been introduced as an effective agent for post-operative pain control."	2.76	Optimal dose of pre-incision/post-incision gabapentin for pain relief following lumbar laminectomy: a randomized study. ( Khan, RH; Khan, ZH; Makarem, J; Rahimi, M, 2011)
"Gabapentin significantly reduced postoperative pain after PRK compared to placebo, with no increase in reported side effects."	2.76	Gabapentin for postoperative pain after photorefractive keratectomy: a prospective, randomized, double-blind, placebo-controlled trial. ( Chayet, AS; Lichtinger, A; Purcell, TL; Schanzlin, DJ, 2011)
"However, in postoperative pain studies, the effects of each drug were examined separately."	2.76	Perioperative administration of gabapentin 1,200 mg day-1 and pregabalin 300 mg day-1 for pain following lumbar laminectomy and discectomy: a randomised, double-blinded, placebo-controlled study. ( Kecik, Y; Ozgencil, E; Tuna, H; Yalcin, S; Yorukoglu, D, 2011)
" These results suggest this dosing regimen of gabapentin is not efficacious in improving outcomes in patients undergoing shoulder arthroscopy under general anesthesia with an interscalene block."	2.76	Perioperative administration of gabapentin for shoulder arthroscopy: a prospective, randomized, double-blind, placebo-controlled study. ( Bowen, K; Goff, J; Maye, J; Mohan, E; Osborne, L; Spence, D, 2011)
" We, therefore, investigated the analgesic effect of gabapentin, dexamethasone and low-dose ketamine in combination with paracetamol and ketorolac as compared with paracetamol and ketorolac alone after hip arthroplasty."	2.75	Multimodal analgesia with gabapentin, ketamine and dexamethasone in combination with paracetamol and ketorolac after hip arthroplasty: a preliminary study. ( Christensen, BV; Dahl, JB; Dierking, G; Hilsted, KL; Larsen, TK; Mathiesen, O; Rasmussen, ML, 2010)
"Tramadol consumption was also reduced by 33% in gabapentin group."	2.75	Effect of preoperative gabapentin on postoperative pain and tramadol consumption after minilap open cholecystectomy: a randomized double-blind, placebo-controlled trial. ( Kumar, A; Mishra, AR; Mishra, S; Saraswat, N; Saxena, S; Srivastava, U, 2010)
" Other gabapentin doses or dosing regimens warrant further study."	2.75	Clinical evaluation of perioperative administration of gabapentin as an adjunct for postoperative analgesia in dogs undergoing amputation of a forelimb. ( Hellyer, PW; Mich, PM; Uhrig, SR; Wagner, AE, 2010)
"Gabapentin has opioid-sparing effects in adult surgical patients, but no reported studies have involved children and adolescents."	2.75	Gabapentin use in pediatric spinal fusion patients: a randomized, double-blind, controlled trial. ( Berens, RJ; Czarnecki, ML; Hainsworth, KR; Lyon, RM; Nelson, TJ; Rusy, LM; Tassone, JC; Thometz, JG; Weisman, SJ, 2010)
" These findings indicate that preoperative use of gabapentin followed by postoperative dosing for two days did not significantly affect the postoperative pain, sleep, opioid consumption or patient-perceived quality of recovery for patients undergoing cardiac surgery."	2.75	Effect of gabapentin on pain after cardiac surgery: a randomised, double-blind, placebo-controlled trial. ( Cornelissen, HR; Fraser, JF; Liessmann, CD; O'Connell, L; Rapchuk, IL, 2010)
"Of 200 consecutive breast cancer patients, 191 received the full package."	2.75	Multimodal prevention of pain, nausea and vomiting after breast cancer surgery. ( Callesen, T; Gärtner, R; Kehlet, H; Kroman, N, 2010)
"Gabapentin has been used in the treatment of neuropathic pain as well as postoperative pain with good result."	2.75	Analgesic effect of low gynaecological surgery under general anaesthesia. ( Bhattacharya, D; Chakrabarti, J; Chakraborty, S; Chowdhury, L; Mandals, M, 2010)
"Postoperative pain is one of the most troublesome aspects of tonsillectomy for patients."	2.74	The effectiveness of gabapentin on post-tonsillectomy pain control. ( Jeon, EJ; Kim, DH; Lee, SK; Park, SS; Park, YS, 2009)
"Assessment of postoperative pain at 1, 3 and 6 months was carried out with an 11-point numerical rating scale; 0 indicating 'no pain' and 10 indicating 'worst pain imaginable'."	2.74	The effects of gabapentin on acute and chronic pain after inguinal herniorrhaphy. ( Dağli, G; Inangil, G; Ozkan, S; Sen, H; Senol, MG; Sizlan, A; Sücüllü, I; Yanarateş, O, 2009)
"Gabapentin is an anticonvulsant drug that has analgesic properties for acute postoperative pain."	2.74	The analgesic effect of gabapentin as a prophylactic anticonvulsant drug on postcraniotomy pain: a prospective randomized study. ( Aykac, B; Bingol, CA; Karlikaya, G; Sayin, M; Türe, H; Türe, U, 2009)
"Prevention and treatment of postoperative pain, nausea and vomiting continues to be a major challenge in postoperative care."	2.73	Effects of gabapentin on early postoperative pain, nausea and vomiting in laparoscopic surgery for assisted reproductive technologies. ( Mohammadi, SS; Seyedi, M, 2008)
"Gabapentin was administered orally and intracerebroventricularly to rats on the day after paw incision, and withdrawal threshold to paw pressure was measured."	2.73	Gabapentin activates spinal noradrenergic activity in rats and humans and reduces hypersensitivity after surgery. ( Curry, R; DeGoes, S; Eisenach, JC; Hayashida, K, 2007)
"Gabapentin has demonstrated analgesic effects in clinical trials as a preemptive analgesic and in acute postoperative pain management."	2.73	Pre-emptive gabapentin significantly reduces postoperative pain and morphine demand following lower extremity orthopaedic surgery. ( Honarmand, A; Kashefi, P; Montazeri, K, 2007)
"The diurnal pattern of postoperative pain is described using pain intensity and analgesic consumption data from a recently published hysterectomy trial."	2.73	Chronobiological characteristics of postoperative pain: diurnal variation of both static and dynamic pain and effects of analgesic therapy. ( Boscariol, R; Gilron, I; Orr, E, 2007)
"To evaluate oral gabapentin for postoperative pain after photorefractive keratectomy (PRK)."	2.73	Oral gabapentin for the treatment of postoperative pain after photorefractive keratectomy. ( Babbar-Goel, A; Nissman, SA; Pasternak, JF; Tractenberg, RE, 2008)
"Gabapentin-treated patients had less motor block when compared with control group."	2.72	Effect of oral gabapentin on postoperative epidural analgesia. ( Apfel, CC; Karamanlioglu, B; Kaya, G; Pamukçu, Z; Turan, A, 2006)
"Gabapentin has been suggested to decrease acute postoperative pain."	2.72	Gabapentin attenuates late but not acute pain after abdominal hysterectomy. ( Fassoulaki, A; Hassiakos, D; Petropoulos, G; Sarantopoulos, C; Siafaka, I; Stamatakis, E, 2006)
"Gabapentin was prescribed to 60 consecutive out-patients with refractory pain persisting at four weeks or more after thoracic surgery or trauma."	2.72	The use of gabapentin for post-operative and post-traumatic pain in thoracic surgery patients. ( Lee, TW; Sihoe, AD; Thung, KH; Wan, IY; Yim, AP, 2006)
"Gabapentin might also reduce postoperative pain."	2.71	Gabapentin for the prevention of postoperative pain after vaginal hysterectomy. ( Haanpää, M; Kujansuu, E; Mennander, S; Pirhonen, R; Puura, A; Rintala, S; Rorarius, MG; Salmelin, R; Suominen, P; Yli-Hankala, A, 2004)
"Gabapentin has antihyperalgesic and anxiolytic properties."	2.71	Preoperative gabapentin decreases anxiety and improves early functional recovery from knee surgery. ( Adam, F; Chauvin, M; Guignard, B; Ménigaux, C; Sessler, DI, 2005)
"Morphine was administered via patient-controlled analgesia pump in the immediate postoperative period for first 8 hours."	2.71	Effect of preemptive gabapentin on postoperative pain relief and morphine consumption following lumbar laminectomy and discectomy: a randomized, double-blinded, placebo-controlled study. ( Bithal, PK; Chaturvedi, A; Radhakrishnan, M, 2005)
"In addition, handling patients with postoperative pain is challenging to otolaryngologists."	2.66	Update review of pain control methods of tonsil surgery. ( Jang, K; Kim, DH; Lee, HJ; Lee, S, 2020)
"Gabapentin is a non-opioid medication that has been used perioperatively to improve postoperative pain and limit opioid requirements."	2.61	Perioperative gabapentin and post cesarean pain control: A systematic review and meta-analysis of randomized controlled trials. ( Berghella, V; Carvalho, JCA; Felder, L; Monks, DT; Saccone, G; Scuotto, S; Zullo, F, 2019)
"Gabapentinoid use has increased substantially in the past several years after initial promising data with regard to acute perioperative pain control."	2.61	The role of gabapentinoids in acute and chronic pain after surgery. ( Habib, AS; Kumar, AH, 2019)
"Chronic postsurgical pain (CPSP) is an important and well recognized cause of much long-term suffering, which in some cases may be preventable and affects many people living with cancer."	2.58	Chronic postsurgical pain and cancer: the catch of surviving the unsurvivable. ( Bhaskar, A; Humble, SR; Jayaweera, A; Varela, N, 2018)
"The analgesic effect in neuropathic pain is well evidenced but the role in postoperative pain is less certain."	2.58	Analgesic mechanisms of gabapentinoids and effects in experimental pain models: a narrative review. ( Chincholkar, M, 2018)
"The experience of intense postoperative pain remains a significant problem in perioperative medicine."	2.55	Clinical application of perioperative multimodal analgesia. ( Bruhn, J; Scheffer, GJ; van Geffen, GJ, 2017)
"It has been argued that postoperative pain treatment should be "procedure-specific", since different analgesics may have specific effects dependent on the surgical procedure."	2.55	Gabapentin in procedure-specific postoperative pain management - preplanned subgroup analyses from a systematic review with meta-analyses and trial sequential analyses. ( Dahl, JB; Fabritius, ML; Geisler, A; Mathiesen, O; Petersen, PL; Wetterslev, J, 2017)
"This meta-analysis of randomized controlled trials (RCTs) was performed to compare the use of gabapentin with placebo in open hysterectomy regarding (1) the mean difference (MD) of postoperative opioid requirements; (2) the changes of visual analogue scale (VAS) scores in two groups; and (3) incidence rate of adverse effects."	2.55	Is gabapentin effective and safe in open hysterectomy? A PRISMA compliant meta-analysis of randomized controlled trials. ( Han, C; Li, XD; Yu, WL, 2017)
"Gabapentin was efficacious in reducing postoperative pain, total morphine consumption, and morphine-related complications following laparoscopic cholecystectomy."	2.55	The efficacy of gabapentin in reducing pain intensity and postoperative nausea and vomiting following laparoscopic cholecystectomy: A meta-analysis. ( Dong, Y; Tan, H; Wang, L; Zhang, J, 2017)
"Gabapentin is a third-generation antiepileptic drug that selectively affects the nociceptive process and has been used for pain relief after surgery."	2.55	The Efficacy of Preoperative Gabapentin in Spinal Surgery: A Meta-Analysis of Randomized Controlled Trials. ( Han, C; Kuang, MJ; Ma, JX; Ma, XL, 2017)
"Mechanistic approaches and multimodal analgesic techniques have been clearly demonstrated to be the most effective pain management strategy to improve outcomes."	2.55	Analgesia in the surgical intensive care unit. ( Brudney, CS; Ehieli, E; Pyati, S; Yalamuri, S, 2017)
"Optimal postoperative pain control allows for faster recovery, reduced complications, and improved patient satisfaction."	2.55	The Role of Multimodal Analgesia in Spine Surgery. ( Kreitz, T; Kurd, MF; Schroeder, G; Vaccaro, AR, 2017)
"Chronic postoperative pain is common."	2.53	Preventing chronic postoperative pain. ( Reddi, D, 2016)
"The risk ratios (95% CI) for postoperative nausea, vomiting, pruritus and sedation with gabapentin were: 0."	2.52	A systematic review and meta-regression analysis of prophylactic gabapentin for postoperative pain. ( Doleman, B; Faleiro, RJ; Heinink, TP; Lund, JN; Read, DJ; Williams, JP, 2015)
"It is a novel drug used for the treatment of postoperative pain with antihyperalgesic properties and a unique mechanism of action."	2.50	Gabapentin in acute postoperative pain management. ( Challa, CK; Chang, CY; Eloy, JD; Shah, J, 2014)
"Gabapentinoid treatment was associated with increased sedation, dizziness and visual disturbances, but the clinical relevance needs clarification."	2.50	Adverse effects of perioperative paracetamol, NSAIDs, glucocorticoids, gabapentinoids and their combinations: a topical review. ( Dahl, JB; Hamunen, K; Hansen, MS; Kjer, JJ; Kontinen, VK; Mathiesen, O; Nikolajsen, L; Pommergaard, HC; Rosenberg, J; Wetterslev, J, 2014)
" Delayed corneal reepithelialization was a common side effect of both topical anesthetics and topical NSAIDs."	2.50	Efficacy and safety of pain relief medications after photorefractive keratectomy: review of prospective randomized trials. ( Faktorovich, EG; Melwani, K, 2014)
"Recent awareness that chronic pain may occur after childbirth has prompted clinicians and researchers to investigate this topic."	2.49	Chronic pain after childbirth. ( Bollag, L; Landau, R; Ortner, C, 2013)
" Multiple dosing regimens may be beneficial in reducing acute and chronic pain; however, more robust randomized control studies are needed."	2.49	Is there a role for gabapentin in preventing or treating pain following thoracic surgery? ( Frazer, S; Hunt, I; Zakkar, M, 2013)
"Oral gabapentin was efficacious in the management of postoperative pain at all time points during the first day after surgery (SMD, -1."	2.49	Gabapentin and pregabalin in the management of postoperative pain after lumbar spinal surgery: a systematic review and meta-analysis. ( Li, M; Ran, B; Shi, Z; Yu, L, 2013)
"In the case of postoperative nausea and vomiting, administration of dexamethasone, droperidol and 5-HT3-antagonists is recommended, preferably in combination."	2.49	['Postoperative pain treatment' practice guideline revised]. ( Hollmann, MW; Houweling, PL; Molag, ML; van Boekel, RL; van Haelst, IM; Verbrugge, SJ, 2013)
"Three types of hyperalgesia can occur during the postoperative period: primary hyperalgesia, which disappears with wound healing, secondary or central hyperalgesia, which can lead to chronic pain, and opiate-induced hyperalgesia."	2.48	[Prevention of postoperative hyperalgesia]. ( Mamie, C, 2012)
" They have been shown to help in reaching the desired effect when administered at drug-specific modes and at proven effective dosing throughout the perioperative period."	2.48	Non-opioid IV adjuvants in the perioperative period: pharmacological and clinical aspects of ketamine and gabapentinoids. ( Weinbroum, AA, 2012)
"Gabapentin is an antiepileptic drug, also used in the treatment of neuropathic pain, which is the subject of a Cochrane review, currently under revision."	2.46	Single dose oral gabapentin for established acute postoperative pain in adults. ( Derry, S; McQuay, HJ; Moore, RA; Straube, S; Wiffen, PJ, 2010)
"Currently, treatment of postoperative pain is based mainly on opioids, but results are not quite satisfactory."	2.46	[Is postoperative pain only a nociceptive pain?]. ( Ceyhan, D; Güleç, MS, 2010)
"Adjuvants are compounds which by themselves have undesirable side-effects or low potency but in combination with opioids allow a reduction of narcotic dosing for postoperative pain control."	2.44	Useful adjuvants for postoperative pain management. ( Buvanendran, A; Kroin, JS, 2007)
" In this study we evaluated randomized, controlled trials examining the analgesic efficacy, adverse effects, and clinical value of gabapentinoids in postoperative pain."	2.44	Do surgical patients benefit from perioperative gabapentin/pregabalin? A systematic review of efficacy and safety. ( Hamunen, K; Kalso, E; Kontinen, VK; Tiippana, EM, 2007)
"Gabapentin is a second generation anticonvulsant that is effective in the treatment of chronic neuropathic pain."	2.44	Gabapentin: a multimodal perioperative drug? ( Irwin, MG; Kong, VK, 2007)
"Gabapentin's role in the treatment of chronic neuropathic pain is well known."	2.43	Preoperative gabapentin for postoperative analgesia: a meta-analysis. ( Paul, JE; Seib, RK, 2006)
"When gabapentin was administered at doses less than 1200 mg, pain intensity was also lower at 6 h (WMD, -22."	2.43	Gabapentin and postoperative pain--a systematic review of randomized controlled trials. ( Gan, TJ; Habib, AS; Ho, KY, 2006)
"Gabapentin is a crucial component of the BSTOP protocol."	1.91	Effectiveness of Bariatric Surgery Targeting Opioid Prescriptions (BSTOP) protocol on postoperative pain control. ( Appiah, D; Camacho, D; Choi, J; Goriacko, P; Kim, J; Moran-Atkin, E; Pereira, X; Seu, R; Yaghdjian, V, 2023)
"Gabapentin treatment for post-cesarean analgesia."	1.72	Post-cesarean gabapentin is not associated with lower opioid consumption or pain scores in women on chronic buprenorphine therapy: A 10-year retrospective cohort study. ( Bauchat, JR; Ende, HB; Feng, X; Raymond, BL; Richardson, MG; Shotwell, MS; Sorabella, LL, 2022)
"Gabapentin (n = 86) was not associated with a reduction in severe pain."	1.72	Non-opioid analgesics and post-operative pain following transoral robotic surgery for oropharyngeal cancer. ( Janus, JR; Kasperbauer, JL; Kruthiventi, SC; Moore, EJ; Noel, DB; Olsen, KD; Price, DL; Sauer, AB; Van Abel, KM; Weingarten, TN, 2022)
" However, the role of gabapentin has been questioned because of concerns of adverse effects, particularly in the elderly."	1.72	Analysis of Adverse Effects of Multimodal Gabapentin in Abdominal Wall Reconstruction. ( Brower, KI; Janis, JE; Joshi, GP; Sarac, BA; Schoenbrunner, AR, 2022)
"Gabapentin is a widely prescribed analgesic with increased popularity over recent years."	1.72	Gabapentin initiation in the inpatient setting: A characterization of prescribing. ( Covvey, JR; Jackson, S; Karuga, D; Knauss, G; Montepara, CA; Nemecek, BD; Rozic, M; Waterloo, M; Zimmerman, DE, 2022)
"Managing acute postoperative pain without opioids is of the utmost importance for the Veteran patient population."	1.72	Evaluation of a Novel Multimodal Opioid-Free Postoperative Pain Management Pathway Following Robotic-Assisted Radical Prostatectomy: A Pilot Series in the Veteran Population. ( Badlani, G; Bercu, C; Dutta, R; Hemal, A; Pathak, R, 2022)
"Gabapentin has not been shown to improve patient outcomes; however, pregabalin may decrease pain and opioid use after total joint arthroplasty."	1.72	A Case Illustrating the Practical Application of the AAOS Clinical Practice Guideline: Pharmacologic, Physical, and Cognitive Pain Alleviation for Musculoskeletal Extremity/Pelvis Surgery. ( Patzkowski, JC; Patzkowski, MS, 2022)
"Patients completed a daily postoperative pain and medication log."	1.62	Preoperative Gabapentin Administration and Its Impact on Postoperative Opioid Requirement and Pain in Sinonasal Surgery. ( Beliveau, AM; Gill, AS; Hwang, JC; Steele, TO; Strong, EB; Virani, FR; Wilson, MD, 2021)
"The optimal dosing of post-operative total knee arthroplasty (TKA) narcotics is unclear."	1.62	Average narcotic usage in a group of TKA patients following a modern TKA protocol. ( Chapman, DM; Costales, TG; Dalury, DF; Greenwell, PH; Volkmann, MC, 2021)
"Periprocedural pain has been reported after PNN cryoablation and there are no standardized protocols for optimal in-office local anesthesia."	1.56	A preliminary report on the effect of gabapentin pretreatment on periprocedural pain during in-office posterior nasal nerve cryoablation. ( Bradley Strong, E; Gill, AS; Hoshal, SG; Kim, M; Squires, LD; Steele, TO; Suh, JD; Wilson, M, 2020)
"We instituted a pectus excavatum ERAS program at a high-volume academic center."	1.56	Successful use of an enhanced recovery after surgery (ERAS) pathway to improve outcomes following the Nuss procedure for pectus excavatum. ( Chun, Y; Garcia, A; Hunsberger, J; Jelin, E; Stewart, D; Wharton, K, 2020)
"To evaluate the association between perioperative coadministration of gabapentinoids and opioids with inpatient opioid-related adverse events in surgical patients."	1.56	Association of Gabapentinoids With the Risk of Opioid-Related Adverse Events in Surgical Patients in the United States. ( Bateman, BT; Bykov, K; Franklin, JM; Patorno, E; Vine, SM, 2020)
"Opioid-sparing postoperative pain management therapies are important considering the opioid epidemic."	1.56	Integrating Adjuvant Analgesics into Perioperative Pain Practice: Results from an Academic Medical Center. ( Asch, S; Carroll, I; Chin, KK; Curtin, C; Desai, K; Hernandez-Boussard, T; McDonald, KM; Seto, T, 2020)
"2."	1.51	Contemporary Approaches to Postoperative Pain Management. ( Haykal, S; Lalonde, DH; Murphy, AM; Zhong, T, 2019)
"Gabapentin use was also associated with decreased opioid use on POD1 and POD2 (-0."	1.51	Use of Gabapentin in Posterior Spinal Fusion is Associated With Decreased Postoperative Pain and Opioid Use in Children and Adolescents. ( Buckland, AJ; Errico, TJ; Mansky, R; McLeod, L; Rosenberg, RE; Sure, A; Tishelman, J; Tracy, J; Trzcinski, S; Vasquez Montes, D; Zhou, P, 2019)
"Peri- and postoperative pain medication remained unchanged."	1.51	Increased postoperative dexamethasone and gabapentin reduces opioid consumption after total knee arthroplasty. ( Collins, JE; Eckhard, L; Fitz, W; Jones, T; Shrestha, S, 2019)
" Optimal standardized dosing and drug combination for preoperative multimodal analgesia remains to be elucidated."	1.51	Preoperative multimodal analgesia decreases 24-hour postoperative narcotic consumption in elective spinal fusion patients. ( Haffner, M; Hwang, J; Klineberg, E; Migdal, C; Nathe, R; Roberto, R; Saiz, AM, 2019)
"Treatment of postoperative pain remains a challenge in clinic."	1.48	Botulinum toxin type A and gabapentin attenuate postoperative pain and NK1 receptor internalization in rats. ( Guan, Y; Guo, R; Li, H; Li, J; Li, X; Ma, D; Sun, Y; Wang, Y; Zhang, C, 2018)
"To determine efficacy of postoperative pain control using nonopioid pain regimen vs traditional opioids for all aesthetic plastic surgery procedures."	1.48	Transition to Nonopioid Analgesia Does Not Impair Pain Control After Major Aesthetic Plastic Surgery. ( Lombana, NF; Moliver, CL; Nguyen, TC; Zavlin, D, 2018)
" The purpose of this study was to quantitatively characterize the pharmacodynamic interaction between the two drugs and to identify the optimal concentration-effect relationship of the combination."	1.46	Quantification of the Pharmacodynamic Interaction of Morphine and Gabapentin Using a Response Surface Approach. ( Gabel-Jensen, C; Heegaard, AM; Juul, RV; Kreilgaard, M; Lund, TM; Papathanasiou, T, 2017)
"Outcome measures were postsurgical pain at rest and during walking, consumption of opioids for pain rescue, knee swelling and knee range of motion, and complications."	1.46	Methylprednisolone reduces pain and decreases knee swelling in the first 24 h after fast-track unicompartmental knee arthroplasty. ( Hansen, TB; Munk, S; Rytter, S; Stilling, M, 2017)
"The incidence of respiratory depression was 153 (95% confidence interval [CI], 146-161) episodes per 1000 cases."	1.46	Multimodal Analgesic Therapy With Gabapentin and Its Association With Postoperative Respiratory Depression. ( Cavalcante, AN; Schroeder, DR; Sprung, J; Weingarten, TN, 2017)
"The treatment with gabapentin at an average dose of 1,135 mg for 14 weeks reduced pain in 80% of the patients (p < 0."	1.43	[Postmastectomy pain syndrome in our region: characteristics, treatment, and experience with gabapentin]. ( de Miguel-Jimeno, JM; Forner-Cordero, I; Matute-Tobias, B; Zabalza-Azparren, M, 2016)
"Ambroxol acts as a strong local anaesthetic and preferentially inhibits the nociceptively relevant sodium channel subtype Nav 1."	1.42	Topical ambroxol for the treatment of neuropathic pain. An initial clinical observation. ( Kern, KU; Weiser, T, 2015)
"Chronic postsurgical pain (CPSP) is a common problem, with up to a third of patients reporting persistent or intermittent pain 1 year after common operations."	1.40	Chronic postsurgical pain: prevention and management. ( Ravindran, D, 2014)
"We enrolled endometrial cancer patients undergoing open abdominal hysterectomy with lymphadenectomy by the same surgeon."	1.40	Multimodal pain control is associated with reduced hospital stay following open abdominal hysterectomy. ( Jennings, PW; Santoso, JT; Ulm, MA; Wan, JY, 2014)
"Lacosamide is a third-generation antiepileptic drug that has been proven to be effective, safe and with few side effects."	1.39	[Lacosamide as an alternative in the treatment of post-surgery neuropathic pain in an allergic patient]. ( Márquez-Rivas, J; Mayorga-Buiza, MJ; Monge-Márquez, ME; Rivero-Garvía, M, 2013)
"Implementing an algorithm for postoperative pain management resulted in a clinically relevant reduction of postoperative pain."	1.39	[An algorithm for postoperative pain management in visceral and thoracic surgery: an observational study]. ( Fass, J; Gehling, M; Klammer, A; Klammer, F; Tryba, M, 2013)
"Gabapentin 400 μg attenuated mechanical hyperalgesia for 7 days compared with the control group."	1.38	Gabapentin augments the antihyperalgesic effects of diclofenac sodium through spinal action in a rat postoperative pain model. ( Imamachi, N; Narai, Y; Saito, Y, 2012)
"Flushing was triggered by emotion and exercise, but also occurred spontaneously at random intervals."	1.37	Treatment of Harlequin syndrome by costotransversectomy and sympathectomy: case report. ( Boulis, NM; Sribnick, EA, 2011)
"Gabapentin (Neurontin) is an agent commonly used to control neuropathic pain."	1.35	Combined preoperative use of celecoxib and gabapentin in the management of postoperative pain. ( Jackowe, DJ; Lee, M; Oyama, J; Parsa, AA; Parsa, FD; Sprouse-Blum, AS, 2009)
"Six children with cerebral palsy are presented who developed neuropathic pain following multilevel orthopedic surgery."	1.33	Neuropathic pain following multilevel surgery in children with cerebral palsy: a case series and review. ( Lauder, GR; White, MC, 2005)
"3."	1.32	Pharmacological characterisation of a rat model of incisional pain. ( Boulet, J; Gottshall, S; Harrison, J; Mark, L; Pearson, M; Walker, K; Whiteside, GT, 2004)
"The present study compares postoperative pain scores in male and female rats and how they respond to analgesic interventions."	1.32	Postoperative pain and analgesic responses are similar in male and female Sprague-Dawley rats. ( Buvanendran, A; Kroin, JS; Nagalla, SK; Tuman, KJ, 2003)
"Gabapentin is an anticonvulsant medication used recently as an effective adjuvant agent for treating neuropathic pain."	1.30	Using gabapentin to treat neuropathic pain. ( Hays, H; Woodroffe, MA, 1999)

Research

Studies (372)

Authors

Clinical Trials (128)

Trial Overview

Trial Outcomes

Daily Narcotic Use

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	3 (0.81)	18.2507
2000's	94 (25.27)	29.6817
2010's	184 (49.46)	24.3611
2020's	91 (24.46)	2.80

Authors	Studies
Marchesi, N	1
Govoni, S	1
Allegri, M	1
Chen, Y	1
Zhang, GZ	1
Li, Y	1
Swallow, J	1
Robbins, C	1
Caird, MS	1
Leis, A	1
Hong, RA	1
Ali, H	1
Perveen, B	1
Ende, HB	1
Bauchat, JR	1
Sorabella, LL	1
Raymond, BL	1
Feng, X	1
Shotwell, MS	1
Richardson, MG	1
Landes, EK	1
Leucht, P	1
Tejwani, NC	1
Ganta, A	1
McLaurin, TM	1
Lyon, TR	1
Konda, SR	1
Egol, KA	1
Van Abel, KM	1
Sauer, AB	1
Kruthiventi, SC	1
Weingarten, TN	3
Noel, DB	1
Price, DL	1
Kasperbauer, JL	1
Janus, JR	1
Olsen, KD	1
Moore, EJ	1
McGregor, RH	1
Warner, FM	1
Linde, LD	1
Cragg, JJ	1
Osborn, JA	1
Varshney, VP	1
Schwarz, SKW	1
Kramer, JLK	1
Sarac, BA	1
Schoenbrunner, AR	1
Brower, KI	1
Joshi, GP	1
Janis, JE	1
Wu, JM	1
Dieter, AA	1
Feliciano, KM	1
Geller, EJ	1
Willis-Gray, M	1
Patel, AS	1
Abrecht, CR	1
Urman, RD	1
Yip, W	1
Chen, AB	1
Malekyan, C	1
Widjaja, W	1
Yan, K	1
Stankey, M	1
Sun, X	1
Ashrafi, AN	1
Graham, JN	1
Dickerson, SC	1
Eloustaz, MH	1
Desai, MM	1
Gill, IS	1
Aron, M	1
Kim, MP	1
Liszka, H	1
Zając, M	1
Gądek, A	1
Li, S	1
Li, P	1
Wang, R	1
Li, H	2
Gettis, M	2
Brown, AM	2
Fujimoto, A	2
Wetzel, M	1
Thomsen, J	1
Sukmono, R	1
Ramlan, A	1
Andy, A	1
Satoto, D	1
Septica, R	1
Sadri, L	1
Shan, D	1
Mejia-Sierra, L	1
Lam, Q	1
Heilman, JG	1
Balchander, D	1
Noonan, K	1
Pineda, DM	1
Kardash, K	1
Harvey, E	1
Payne, S	1
Yang, SS	1
Ellis, DB	1
Sisodia, R	1
Paul, M	1
Qiu, K	1
Hidrue, MK	1
Berg, S	1
Oliver, J	1
Del Carmen, MG	1
Kandemir, S	1
Pamuk, AE	1
Özel, G	1
Gençay, I	1
Kılıç, R	1
Passias, BJ	1
Johnson, DB	1
Schuette, HB	1
Secic, M	1
Heilbronner, B	1
Hyland, SJ	1
Sager, A	1
Hung, KC	1
Wu, SC	1
Chiang, MH	1
Hsu, CW	1
Chen, JY	1
Huang, PW	1
Sun, CK	1
Waterloo, M	1
Rozic, M	1
Knauss, G	1
Jackson, S	1
Karuga, D	1
Zimmerman, DE	1
Montepara, CA	1
Covvey, JR	1
Nemecek, BD	1
Bercu, C	1
Hemal, A	1
Badlani, G	1
Dutta, R	1
Pathak, R	1
Jones, CA	1
Throckmorton, TW	1
Murphy, J	1
Eason, RR	1
Joyce, M	1
Bernholt, DL	1
Azar, FM	1
Brolin, TJ	1
Yang, HH	1
Wu, TJ	1
Suh, JD	2
Wang, MB	1
Holliday, MA	1
Beswick, DM	1
Zhang, H	1
Wells, C	1
McCormick, J	1
Maxim, T	1
Regev, A	1
Chandy, ZK	1
Lee, JT	1
Bongiovanni, T	2
Gan, S	1
Finlayson, E	1
Ross, J	1
Harrison, JD	1
Boscardin, J	1
Steinman, MA	1
Ladich, EM	1
Zhou, KQ	1
Spence, DL	1
Moore, CB	1
Anderson, TS	1
Marcum, ZA	1
Patzkowski, JC	1
Patzkowski, MS	1
Seu, R	1
Pereira, X	1
Goriacko, P	1
Yaghdjian, V	1
Appiah, D	1
Moran-Atkin, E	1
Camacho, D	1
Kim, J	1
Choi, J	1
Brant, AR	1
Reeves, MF	1
Ye, PP	1
Scott, RK	1
Floyd, S	1
Tefera, E	1
Lotke, PS	1
Jouybar, R	1
Kazemifar, S	1
Asmarian, N	1
Karami, A	1
Khademi, S	2
Shnayder, Y	1
Baumanis, MM	1
Brown, A	1
Reese, A	1
Bur, AM	1
Kakarala, K	1
Sykes, KJ	1
Slomski, A	1
Xuan, C	3
Yan, W	3
Wang, D	4
Li, C	4
Ma, H	3
Mueller, A	3
Chin, V	3
Houle, TT	3
Wang, J	4
Tubog, TD	3
Harmer, CM	3
Bramble, RS	3
Bayaua, NE	3
Mijares, M	3
Hall, EA	3
Brandon, HH	3
Jasmin, HM	3
Raghavan, KC	3
Anghelescu, DL	3
Han, A	1
Durant, RW	1
Zhang, DA	1
Brenn, B	1
Cho, R	1
Samdani, A	1
Poon, SC	1
Blaber, OK	1
Aman, ZS	1
DePhillipo, NN	1
LaPrade, RF	1
Dekker, TJ	1
Samarah, BM	1
Shehada, FA	1
Qaddumi, J	1
Almasry, NA	1
Alkhawaldeh, A	1
ALBashtawy, M	1
Alyahya, M	1
ALBashtawy, S	1
Al-Awamreh, K	1
Saifan, A	1
ALBashtawy, B	1
Abdalrahim, A	1
ALBashtawy, Z	1
Jelly, CA	1
Clifton, JC	1
Billings, FT	1
Hernandez, A	1
Schaffer, AJ	1
Shotwell, ME	1
Freundlich, RE	1
Onal, O	1
Onal, M	1
Fowler, C	1
Chu, AW	1
Guo, N	1
Ansari, JR	1
Shafer, SL	1
Flood, PD	2
Chen, O	1
Cadwell, JB	1
Matsoukas, K	1
Hagen, J	1
Afonso, AM	1
Heybati, K	1
Zhou, F	1
Lynn, MJ	1
Deng, J	1
Ali, S	1
Hou, W	1
Heybati, S	1
Tzanis, K	1
Krever, M	1
Mughal, R	1
Ramakrishna, H	1
Degen, RM	1
Firth, A	1
Sehmbi, H	1
Martindale, A	1
Wanlin, S	1
Chen, C	1
Marsh, JD	1
Willits, K	1
Bryant, D	1
Bas, JL	1
Bas, P	1
Bonilla, F	1
Mariscal, G	1
Pérez, S	1
Bovea-Marco, M	1
Rubio-Belmar, PA	1
Bas, T	1
Liu, RH	1
Xu, LJ	1
Lee, LN	1
Tsai, SHL	1
Hu, CW	1
El Sammak, S	1
Durrani, S	1
Ghaith, AK	1
Lin, CCJ	1
Krzyz, EZ	1
Bydon, M	1
Fu, TS	1
Lin, TY	1
Tuggle, E	1
Jeter, L	1
de Dios, C	1
Suchting, R	1
Green, C	1
Klugh, JM	1
Harvin, JA	1
Webber, HE	1
Schmitz, JM	1
Lane, SD	1
Yoon, JH	1
Heads, A	1
Motley, K	1
Stotts, A	1
Gray, BA	2
Hagey, JM	1
Crabtree, D	1
Wynn, C	1
Weber, JM	1
Pieper, CF	1
Haddad, LB	2
Tong, K	1
Nolan, W	1
O'Sullivan, DM	3
Sheiner, P	1
Kutzler, HL	1
Choudhry, DK	2
Brenn, BR	2
Sacks, K	2
Shah, S	1
Tomaszek, L	1
Fenikowski, D	1
Maciejewski, P	1
Komotajtys, H	1
Gawron, D	1
Steele, TO	2
Hoshal, SG	1
Kim, M	1
Gill, AS	2
Wilson, M	1
Squires, LD	1
Bradley Strong, E	1
Kennedy, GT	1
Hill, CM	1
Huang, Y	1
So, A	1
Fosnot, J	1
Wu, L	2
Farrar, JT	1
Tchou, J	1
Kim, DH	2
Jang, K	1
Lee, S	1
Lee, HJ	1
Ul Huda, A	1
Jordan, RW	1
Daggett, M	1
Saithna, A	1
Iturri, F	1
Valencia, L	1
Honorato, C	1
Martínez, A	1
Valero, R	1
Fàbregas, N	1
Murphy, AM	1
Haykal, S	1
Lalonde, DH	1
Zhong, T	1
Lee, TS	1
Wang, LL	1
Yi, DI	1
Prasanna, PD	1
Kandl, C	1
Bao, J	1
He, C	1
Chen, B	1
Zhao, J	1
Anderson, DE	1
Duletzke, NT	1
Pedigo, EB	1
Halsey, MF	1
Zude, BP	1
Jampachaisri, K	2
Pacharinsak, C	2
Wharton, K	1
Chun, Y	1
Hunsberger, J	1
Jelin, E	1
Garcia, A	1
Stewart, D	1
Maheshwari, K	1
Avitsian, R	1
Sessler, DI	3
Makarova, N	1
Tanios, M	1
Raza, S	1
Traul, D	1
Rajan, S	1
Manlapaz, M	1
Machado, S	1
Krishnaney, A	1
Machado, A	1
Rosenquist, R	1
Kurz, A	1
Lennertz, R	1
Zimmerman, H	1
McCormick, T	1
Hetzel, S	1
Faucher, L	1
Gibson, A	1
Huynh, TQ	1
Patel, NR	1
Goldstein, ND	1
Makai, GE	1
Ramaseshan, AS	1
Steinberg, AC	2
Tunitsky-Bitton, E	1
Nguyen, BK	1
Stathakios, J	1
Quan, D	1
Pinto, J	1
Lin, H	2
Pashkova, AA	1
Svider, PF	1
Fu, G	1
Liu, J	1
Yu, Y	1
Wang, N	1
Capuco, A	1
Urits, I	1
Orhurhu, V	1
Chun, R	1
Shukla, B	1
Burke, M	1
Kaye, RJ	1
Garcia, AJ	1
Kaye, AD	1
Viswanath, O	1
Hailstorks, TP	1
Cordes, SMD	1
Cwiak, CA	1
Ge, L	1
Moore, RH	1
Katims, AB	1
Eilender, BM	1
Pfail, JL	1
Sim, AJ	1
Sfakianos, JP	1
Hannon, CP	1
Fillingham, YA	1
Browne, JA	1
Schemitsch, EH	1
Mullen, K	1
Casambre, F	1
Visvabharathy, V	1
Hamilton, WG	1
Della Valle, CJ	1
Ghiasy, S	1
Tayebi-Azar, A	1
Alinezhad, A	1
Fallah-Karkan, M	1
Salimi, H	1
Hojjati, SA	1
Hosseini, J	1
Kharasch, ED	1
Clark, JD	2
Kheterpal, S	1
Verret, M	3
Lauzier, F	3
Zarychanski, R	3
Perron, C	1
Savard, X	2
Pinard, AM	2
Leblanc, G	2
Cossi, MJ	2
Neveu, X	1
Turgeon, AF	3
Kang, J	1
Zhao, Z	1
Lv, J	1
Sun, L	1
Lu, B	1
Dong, B	1
Ma, J	1
Ma, X	1
Virani, FR	1

Trial	Phase	Enrollment	Study Type	Start Date	Status
Comparison of Analgesic Effects of Gabapentin and Paracetamol in Patients With Hand Injury[NCT04068506]	Phase 4	68 participants (Actual)	Interventional	2019-09-01	Completed
Randomized Controlled Trial of Gabapentin Versus Placebo for Postoperative Pain After Sacrospinous Ligament Fixation for Pelvic Organ Prolapse[NCT03123861]	Phase 4	45 participants (Actual)	Interventional	2017-06-01	Completed
Gabapentin Premedication for Pediatric Anterior Cruciate Ligament Reconstruction: Randomized Control Trial[NCT03417479]		57 participants (Actual)	Observational	2015-10-09	Completed
Gabapentin as an Adjunct for Pain Management During Dilation and Evacuation: A Double-blind Randomized Controlled Trial[NCT03635905]	Phase 4	130 participants (Actual)	Interventional	2017-05-26	Completed
Gabapentin as an Adjunct to Perioperative Pain Management Regimens for Uterine Aspiration: a Randomized Controlled Trial[NCT02725710]	Phase 2	96 participants (Actual)	Interventional	2016-08-31	Completed
Efficacy of Gabapentin as Adjuvant for Postoperative Pain in Pediatric Thoracic Surgery - a Randomized Quadruple Blind Study[NCT03393702]	Phase 4	104 participants (Actual)	Interventional	2017-05-09	Completed
Opioid-Free Intravenous Anesthesia for Patients With Joint Hypermobility Syndrome Undergoing Craneo-Cervical Fixation: A Case-series Study Focused on Anti-hyperalgesic Approach[NCT04437589]		42 participants (Actual)	Observational	2018-09-06	Completed
Intravenous Lignocaine as an Analgesic Adjunct in Adolescent Idiopathic Scoliosis Surgery (IGNITE-AIS Study)[NCT04931433]	Phase 4	102 participants (Anticipated)	Interventional	2020-12-24	Recruiting
A Double-Blind Randomized Placebo-Controlled Clinical Trial of Preoperative Gabapentin Prior to Vaginal Apical Suspension Prolapse Procedures[NCT05658887]	Phase 4	110 participants (Anticipated)	Interventional	2023-01-01	Enrolling by invitation
Single Dose Preoperative Gabapentin Use in Minimally Invasive Hysterectomy for Acute Pain Management[NCT02703259]	Phase 4	137 participants (Actual)	Interventional	2016-06-30	Completed
Evaluation of the Efficacy of Perioperative Administration of Tianeptine Versus Pregabalin on Acute and Chronic Post Mastectomy Pain After Breast Cancer Surgery. A Double-Blinded Randomized Controlled Trial.[NCT05935059]		90 participants (Anticipated)	Interventional	2023-06-21	Recruiting
Effect of Ultrasound Guided Erector Spinae Plane Block Versus Ultrasound Guided Serratus Anterior Block on the Incidence of Post Mastectomy Pain Syndrome, Randomized Double Blinded Controlled Study[NCT05201963]		120 participants (Anticipated)	Interventional	2021-11-01	Recruiting
Gabapentin as an Adjunct to Paracervical Block for Perioperative Pain Management for Surgical Abortion: a Randomized Controlled Trial[NCT02944656]	Phase 4	114 participants (Actual)	Interventional	2016-12-08	Completed
Intravenous Lidocaine and Time to Regression of the Sensory Block After Spinal Anesthesia With Isobaric Bupivacaine in Patients Undergoing Surgery to Treat Skin and Soft Tissue Tumors of the Lower Limbs[NCT04741880]	Phase 2/Phase 3	66 participants (Anticipated)	Interventional	2021-06-17	Recruiting
Efficiency of Opioid-free Anesthesia (OFA) in Maxillofacial Surgery[NCT05031676]		66 participants (Actual)	Interventional	2019-02-15	Completed
The Effect of Gabapentin on Postoperative Pain: a Randomized, Double Blind, Placebo Controlled Trial[NCT01546857]	Phase 4	34 participants (Actual)	Interventional	2012-03-31	Terminated (stopped due to No longer able to recruit subjects due to unavailability of orthopedic surgeon.)
Opioid-free Anesthesia With a Mixture of Dexmedetomidine-lidocaine-ketamine in Laparoscopic Cholecystectomies[NCT05089526]		70 participants (Anticipated)	Interventional	2021-10-11	Recruiting
Perioperative Multimodal General AnesTHesia Focusing on Specific CNS Targets in Patients Undergoing carDiac surgERies - the PATHFINDER II Study[NCT05279898]		70 participants (Anticipated)	Interventional	2023-02-28	Recruiting
Perioperative Multimodal General Anesthesia Focusing on Specific CNS Targets in Patients Undergoing Cardiac Surgeries[NCT04016740]	Early Phase 1	22 participants (Actual)	Interventional	2019-08-20	Completed
The Effect of a Mixture of Dexmedetomidine-lidocaine-ketamine in One Syringe Versus Opioids on Recovery Profile and Postoperative Pain After Gynecological Laparoscopic Surgery[NCT04858711]		60 participants (Anticipated)	Interventional	2021-04-01	Recruiting
The Effect of a Non-Opioid Multimodal Pain (NOMO) Protocol in Decreasing Narcotic Use After Urogynecologic Surgery[NCT05386069]	Phase 3	11 participants (Actual)	Interventional	2019-11-15	Completed
Nurses' Knowledge and Attitudes Towards Opioids in Pain Management in North Cyprus[NCT04252443]		127 participants (Actual)	Interventional	2018-06-01	Completed
Does Bilateral Continuous Peri Operative Erector Spinae Plane Block Improve The Enhanced Recovery Program After Open Heart Surgeries in Adults?[NCT04506762]		20 participants (Actual)	Interventional	2020-11-01	Terminated (stopped due to Surgical team resigned from our hospital)
Efficacy of Transversus Abdominis Plane (TAP) Block Techniques: A Comparison Between Intraoperative Surgeon Administration by Direct Visualization vs Image Guided Administration by Anesthesiologist, a Prospective Randomized Controlled Trial[NCT03577912]		60 participants (Actual)	Interventional	2015-08-17	Completed
Postoperative Narcotic Use After Laparoscopic Gynecologic Surgery: A Randomized, Double-blind, Placebo-controlled Trial Comparing Continuous Intraperitoneal Infusion of Ropivacaine Versus Saline for Post-operative Pain Control[NCT04118777]		0 participants (Actual)	Interventional	2020-05-01	Withdrawn (stopped due to Misregistered to wrong sponsor.)
Use of Intravenous Acetaminophen in Adolescents and Pediatrics Undergoing Spinal Fusion Surgery: Randomized Controlled Trial[NCT04959591]	Phase 3	99 participants (Actual)	Interventional	2021-06-01	Completed
A Single Institutional Randomized Controlled Trial for A Multimodal Enhanced Recovery Program in Anorectal Surgery[NCT03992079]		60 participants (Actual)	Interventional	2019-06-20	Terminated (stopped due to PI is no longer at institution)
Psychosocial and Psychophysical Factors Influencing the Effect of Preemptive Systemic Analgesia in Combination With Regional Anesthesia on Postoperative Pain Following Upper Limb Surgery[NCT05248152]		90 participants (Anticipated)	Interventional	2022-01-13	Recruiting
Use of Single Dose Pre-Operative Pregabalin for Post-Operative Analgesia in Bilateral Head and Neck Cancer Surgery: A Randomized, Double-Blinded, Placebo-Controlled Trial[NCT03714867]	Phase 4	0 participants (Actual)	Interventional	2019-03-22	Withdrawn (stopped due to Inability to recruit patients)
"Preoperative Gabapentin and Its Effects on Postoperative Analgesia in Patients Undergoing Cosmetic Breast Surgery"[NCT05997355]		100 participants (Anticipated)	Interventional	2023-09-01	Not yet recruiting
Gabapentin Regimens and Their Effects on Opioid Consumption[NCT03334903]	Phase 4	77 participants (Actual)	Interventional	2018-05-15	Completed
Optimization of Opioid Discharge Prescriptions Following Thyroid and Parathyroid Surgeries[NCT04955444]		240 participants (Actual)	Interventional	2021-06-14	Completed
Post-operative Pain Control With Acetaminophen and Ibuprofen After Functional Endoscopic Sinus Surgery for Chronic Rhinosinusitis: a Prospective Study.[NCT05287217]		60 participants (Anticipated)	Interventional	2022-07-29	Not yet recruiting
Stanford Accelerated Recovery Trial (START)[NCT01067144]	Phase 3	422 participants (Actual)	Interventional	2010-05-31	Terminated (stopped due to Trial met futility stopping point)
Relieving Acute Pain (RAP): A Pilot Study[NCT03426137]	Phase 2	3 participants (Actual)	Interventional	2018-09-17	Terminated (stopped due to The focus of the project has shifted to publishing a protocol for future trials because we were unable to recruit. Three participants signed the consent forms but withdrew before the randomization.)
Randomized Prospective Study Comparing Variable Gabapentin Dosages for Postoperative Analgesia Following Open Thoracotomy[NCT05172570]	Phase 3	120 participants (Anticipated)	Interventional	2021-04-06	Recruiting
"Gabapentin Reduces Opioid Use Postoperatively (GROUP Study): A Randomized Control Trial in Women Undergoing Reconstructive Pelvic Surgery"[NCT02999724]	Phase 3	44 participants (Anticipated)	Interventional	2017-01-31	Recruiting
Perioperative Gabapentin Use In Head And Neck Mucosal Surgery Patients: A Randomized Clinical Trial[NCT02926573]	Phase 4	123 participants (Actual)	Interventional	2016-06-24	Completed
Impact of Counseling and Education on Opioid Consumption After Anterior Cruciate Ligament Reconstruction: A Randomized Controlled Trial[NCT04885231]		80 participants (Anticipated)	Interventional	2021-05-12	Active, not recruiting
Effects of Preoperative Gabapentin Versus Pregabalin on Shoulder Pain After Laparoscopic Cholecystectomy. A Randomized Clinical Trial[NCT03241875]	Phase 4	90 participants (Actual)	Interventional	2016-12-01	Completed
Efficacy of Preoperative Administration of Gabapentin in Managing Intraoperative and Postoperative Pain From Third Molar Extractions.[NCT04860141]	Phase 4	98 participants (Anticipated)	Interventional	2021-06-16	Recruiting
Does Pregabalin Improve Post-operative Pain After C-section Delivery[NCT04259073]		138 participants (Actual)	Interventional	2018-03-01	Completed
Use of Oral Pregabalin as Preemptive Analgesia in Abdominal Hysterectomy: Evaluation of Postoperative Pain and Opioid Consumption[NCT04495374]	Phase 4	58 participants (Actual)	Interventional	2019-09-02	Terminated (stopped due to Due to an atypical health scenario caused by the COVID-19 pandemic)
Patient-Driven Analgesic Protocol Selection for Post-Cesarean Pain Management[NCT02605187]		160 participants (Actual)	Interventional	2015-11-30	Completed
Multiple Doses of Gabapentin and Postoperative Morphine Consumption in Total Knee Arthroplasty[NCT01307202]		101 participants (Actual)	Interventional	2007-10-31	Completed
Does Single Dose Dexmedetomidine for Procedural Sedation Reduce Post-operative Pain in Total Knee Arthroplasty? A Randomized Control Study[NCT02466022]	Phase 3	54 participants (Actual)	Interventional	2015-06-30	Completed
A Prospective Randomized Double Blind Trial to Assess the Effect of a Single Preoperative Dose of Gabapentin on Postoperative Opioid Consumption in Patients Undergoing Rhinoplasty[NCT03498261]	Phase 1	50 participants (Actual)	Interventional	2018-01-30	Active, not recruiting
Erector Spinae Plane Block in Lumbar Spinal Fusion : Double-blind, Randomized Controlled Trial.[NCT04904575]		130 participants (Anticipated)	Interventional	2022-01-03	Recruiting
Erector Spinae Plane Block in Lumbar Release Surgery : Double-blind, Randomized Controlled Trial[NCT04925882]		100 participants (Actual)	Interventional	2022-01-03	Completed
Pre-Emptive Analgesia in Ano-Rectal Surgery[NCT02402543]		90 participants (Actual)	Interventional	2014-06-30	Completed
Effects of Intra-Operative Ropivaciane Epidural Injection on Post-Operative Outcomes Following Elective Lumbar Fusion[NCT03035656]	Phase 4	228 participants (Anticipated)	Interventional	2019-03-01	Not yet recruiting
Effect of Preoperative Gabapentin on Postoperative Pain Associated With Ureteroscopy and Stents Insertion: a Double Blind, Randomized, Placebo Controlled Trial[NCT03151746]	Phase 4	20 participants (Actual)	Interventional	2018-01-14	Terminated (stopped due to Insufficient enrollment)
Effects of Pre-operative Oral Pregabalin on Post Operative Morphine Consumption After Abdominal Hysterectomy With/Without Salpingo-oophorectomy Under Spinal Anesthesia With Intrathecal Morphine[NCT02285010]	Phase 4	125 participants (Actual)	Interventional	2014-11-30	Completed
Efficacy of Different Doses of Pregabalin as a Multimodal Analgesic Agent in Postoperative Pain Control After Total Knee Arthroplasty - A Randomized Controlled Trial[NCT05447364]	Phase 4	82 participants (Anticipated)	Interventional	2021-07-01	Recruiting
Labor Pain and Postpartum Behavioral Health Outcomes Study[NCT02692404]		199 participants (Actual)	Observational	2016-01-31	Completed
Multimodal Opiate-sparing Analgesia Versus Traditional Opiate Based Analgesia After Cardiac Surgery, a Randomized Controlled Trial[NCT01966172]	Phase 4	180 participants (Actual)	Interventional	2007-03-31	Completed
Gabapentin as a Pre-emptive Analgesic in Oral and Maxillofacial Surgical Procedures[NCT02957097]	Phase 4	0 participants (Actual)	Interventional	2019-09-30	Withdrawn (stopped due to Original PI left institution and the PI who took over was not able to initiate the study so it was never started.)
Administration of Pre-Operative Gabapentin to Patients Undergoing Laparoscopy: A Prospective Double-blinded, Placebo Controlled Randomized Study[NCT02359110]	Phase 4	112 participants (Actual)	Interventional	2015-06-30	Completed
Opioid-Free Shoulder Arthroplasty[NCT03540030]	Phase 4	86 participants (Actual)	Interventional	2016-09-30	Completed
Effect of Paracetamol and Ibuprofen When Intravenously Given Combination or Alone in Reducing Morphine Requirements After Total Knee Arthroplasty[NCT04414995]	Phase 2/Phase 3	36 participants (Actual)	Interventional	2020-06-05	Completed
Comparison of the Analgesic Effects of Scalp Nerve Block and Intravenous Ibuprofen Applications Under the Guidance of Nociception Level Index (NoL) in Patients Undergoing Elective Supratentorial Craniotomy[NCT05763836]	Phase 4	102 participants (Anticipated)	Interventional	2022-11-01	Recruiting
Use of Gabapentin as Preanesthetic Medication in Oncologic Children Undergoing in Fast Procedures With Sevofluran[NCT03681574]	Phase 4	135 participants (Actual)	Interventional	2017-07-01	Completed
Placebo Controlled, Randomized,Gabapentin as Adjuvant for Postoperative Pain in Pediatric Orthopedic Surgery[NCT03005483]	Phase 4	40 participants (Actual)	Interventional	2014-01-31	Completed
Multimodal Pain Management for Cesarean Delivery: A Randomized Control Trial[NCT02922985]	Phase 4	120 participants (Actual)	Interventional	2016-10-31	Completed
Randomized Comparison of Two Pre-induction Analgesia Regimens: Multimodal vs Acetaminophen in the Reduction of Post-operative Pain Following Ureteroscopy With Lithotripsy for Kidney Stones Evaluated With Text Messaging[NCT03549611]	Phase 4	0 participants (Actual)	Interventional	2018-08-01	Withdrawn (stopped due to elected not to proceed with the study)
Evaluation of Post-operative Pain in Bascom Cleft Lift Operation Receiving Multimodal Analgesia and Spinal Saddle Block in Day Case Surgery Setting.[NCT02196727]		32 participants (Actual)	Observational [Patient Registry]	2013-05-31	Completed
The Effect of Preoperative Steroids Injection on Pain and Oedema After Total Knee Arthroplasty . A Double -Blinded Randomized Controlled Study.[NCT04084912]	Phase 3	86 participants (Anticipated)	Interventional	2020-01-01	Not yet recruiting
Efficacy of Steroids on Functional Outcomes After Musculoskeletal Injuries of the Hand[NCT05003596]	Phase 2/Phase 3	60 participants (Anticipated)	Interventional	2021-09-01	Not yet recruiting
Gabapentin Premedication to Reduce Postoperative Pain for Pediatric Tonsillectomy/Adenoidectomy: Randomized Control Trial[NCT03625011]	Phase 4	50 participants (Anticipated)	Interventional	2018-07-31	Recruiting
Effect of Gabapentin on Postoperative Opioid Analgesic Use and Pain in Adolescents Undergoing Tonsillectomy[NCT05024825]	Phase 4	17 participants (Actual)	Interventional	2017-08-04	Terminated (stopped due to recruitment target not met.)
Ultrasound Guided Quadratus Lumborum Block Versus Erector Spinae Plane Block For Postoperative Analgesia In Patient Undergoing Laparoscopic Hysterectomy: A Randomized Double Blinded Study[NCT05465525]		81 participants (Actual)	Interventional	2022-07-25	Completed
Comparison of Ultrasound Guided Quadratus Lumborum Block With Ultrasound Guided TAP Block for Postoperative Analgesia After Laparoscopic Nephrectomy: a Prospective Randomized Controlled Trial[NCT02824939]		96 participants (Actual)	Interventional	2016-09-30	Completed
Ultrasound Guided Quadratus Lumborum Block Versus Erector Spinae Plane Block For Postoperative Analgesia In Patient Undergoing Abdominal Hysterectomy: A Randomized Double Blinded Study[NCT05675657]		81 participants (Actual)	Interventional	2023-01-15	Completed
Effect of Ambroxol on the Inflammatory Markers and Clinical Outcome of Patients With Diabetic Peripheral Neuropathy[NCT05558878]		80 participants (Anticipated)	Interventional	2022-10-01	Not yet recruiting
Analgesic Duration of Interscalene Block After Outpatient Arthroscopic Shoulder Surgery With Intravenous Dexamethasone, Dexmedetomidine or Their Combination: A Randomized Controlled Trial[NCT03270033]	Phase 4	198 participants (Actual)	Interventional	2017-09-18	Completed
Postoperative Analgesia After Cardiac Surgery - A Double-Blind, Prospective and Randomized Comparison of Wound Infiltration With Liposomal Bupivacaine and Bupivacaine Hydrochloride[NCT03270514]	Phase 3	60 participants (Actual)	Interventional	2018-11-15	Completed
Erector Spinae Plane Block Versus Transverse Abdominis Plane Block in Laparoscopic Hysterectomy[NCT04003987]	Phase 3	78 participants (Actual)	Interventional	2019-05-01	Completed
Liposomal Bupivacaine Reduces Opiate Consumption After Rotator Cuff Repair in a Randomized Control Trial[NCT03692546]		50 participants (Actual)	Interventional	2017-02-01	Completed
Inter-semispinal Plane (ISP) Block for Postoperative Analgesia Following Cervical Spine Surgery: A Prospective Randomized Controlled Trial[NCT06003933]		50 participants (Actual)	Interventional	2023-03-03	Completed
Randomized Controlled Trial of Regional Anesthesia in Combination With General Anesthesia for Thyroidectomy[NCT02108834]		79 participants (Anticipated)	Interventional	2014-04-30	Recruiting
Phenomics and Genomics of Clinically Relevant Chronic Postsurgical Pain: A Multicenter Prospective Study[NCT04798573]		10,000 participants (Anticipated)	Observational	2012-08-03	Active, not recruiting
Analgesic Effect of Pregabalin in Patients Undergoing Total Abdominal Hysterectomy[NCT01466101]		0 participants (Actual)	Interventional	2011-01-31	Withdrawn (stopped due to PI left the institution. No subjects screened or enrolled.)
Persistent Postoperative Pain Incidence With Long Term Perioperative Gabapentin Used[NCT02693821]	Phase 4	122 participants (Actual)	Interventional	2015-12-31	Completed
Effect of a Multimodal Pain Regimen on Pain Control, Patient Satisfaction and Narcotic Use in Orthopaedic Trauma Patients[NCT02160301]	Phase 4	0 participants (Actual)	Interventional	2017-11-30	Withdrawn (stopped due to Insufficient infrastructure/funding for enrollment)
Do Peri-operative High Doses of Intravenous Glucocorticoids Improve Short-term Functional Outcome After Direct Anterior Total Hip Arthroplasty? A Randomized, Single Surgeon, Placebo Controlled, Double Blind Study[NCT04317872]		70 participants (Anticipated)	Interventional	2020-07-01	Recruiting
The Effect of Intravenous Infusions of Lidocaine and Magnesium Versus Lidocaine and Ketamine Versus Lidocaine Alone on Recovery Profile and Postoperative Pain After Elective Gynecological Surgery[NCT04622904]		90 participants (Anticipated)	Interventional	2020-11-14	Recruiting
Effect of Ultra-low Dose Naloxone on Remifentanil-Induced Hyperalgesia[NCT03066739]	Phase 2	105 participants (Anticipated)	Interventional	2023-02-25	Recruiting
Use of Preoperative Gabapentin in Patients Undergoing Laparoscopic Cholecystectomy[NCT03583892]		60 participants (Anticipated)	Observational [Patient Registry]	2018-07-01	Recruiting
Multimodal Analgesia Versus Routine Care Pain Management for Minimally Invasive Spine Surgery: A Prospective Randomized Study[NCT01861743]		42 participants (Actual)	Interventional	2013-04-30	Terminated (stopped due to data was not collected accurately)
Perioperative Methadone Use to Decrease Opioid Requirement in Pediatric Spinal Fusion Patients[NCT02558010]	Phase 3	58 participants (Actual)	Interventional	2016-02-01	Completed
Pain Control in Pediatric Posterior Spine Fusion Patients: The Effect of Gabapentin on Post-operative Opioid Use and Patient Satisfaction[NCT01977937]	Phase 4	55 participants (Actual)	Interventional	2013-11-30	Completed
The Effect of Lidocaine to Prevent the Development of Chronic Post-Surgical Pain[NCT01619852]		148 participants (Actual)	Interventional	2012-06-30	Completed
Combined General Anesthesia Plus Paravertebral Block Versus General Anesthesia Plus Opioid Analgesia for Breast Cancer Surgery: A Prospective Randomized Trial[NCT01904266]		60 participants (Actual)	Interventional	2013-05-31	Completed
Multimodal Pain Treatment for Breast Cancer Surgery - a Prospective Cohort Study[NCT04875559]		236 participants (Actual)	Observational [Patient Registry]	2021-04-19	Completed
"Determining the Effect of an Alternate Recovery Protocol Versus Current Standard of Care After Cesarean Section"[NCT03330119]	Phase 3	1,494 participants (Actual)	Interventional	2017-10-04	Terminated (stopped due to Lack of Funding/ Resident in charge graduated)
Prospective Randomized Double Blind Study of Intraoperative Dexmedetomidine and Postoperative Pain Control in Patients Undergoing Multi-level Thoraco-lumbar Spine Surgery[NCT01850017]	Phase 4	142 participants (Actual)	Interventional	2012-08-31	Completed
Riboflavin at 4ºC for the Management of Pain After Crosslinking for Keratoconus Patients[NCT03760770]		90 participants (Anticipated)	Interventional	2018-02-01	Recruiting
POPARTS Study- Post-Operative Pain After Recovery in Thoracic Surgery: Evaluation of the Persistence of Painful Symptoms and the Incidence of Neuropathic Pain After Resective Lung Surgery[NCT04300660]		250 participants (Anticipated)	Observational [Patient Registry]	2017-10-25	Recruiting
Preoperative Gabapentin for Acute and Chronic Post-thoracotomy Analgesia: A Randomized, Double-blinded, Placebo-controlled Study[NCT00588159]		146 participants (Actual)	Interventional	2007-06-30	Completed
Preemptive Analgesia With Amitryptyline for Prevention of Post-operative Pain in Women After Total Abdominal Hysterectomy: a Randomized Clinical Trial[NCT03587025]	Phase 3	150 participants (Actual)	Interventional	2015-06-01	Completed
Ultrasound Guided Erector Spinae Plane Block in Patients Undergoing Video-assisted Thoracoscopic Surgery (VATS) Lobectomy or Wedge Resections - a Pilot Randomized Control Trial[NCT03176667]		20 participants (Actual)	Interventional	2018-12-06	Completed
Efficacy of Avoiding Chest Drain After Video-assisted Thoracoscopic Surgery Wedge Resection[NCT05358158]		94 participants (Anticipated)	Interventional	2022-05-04	Recruiting
Ultrasound-guided Serratus Anterior Plane Block for Thoracic Surgery Pain?[NCT03240562]		89 participants (Actual)	Interventional	2017-08-03	Completed
Why Are Patients Still in Hospital After Video-Assisted Thoracoscopic Surgery Lobectomy?[NCT04294108]		160 participants (Actual)	Observational	2020-04-20	Completed
Anaesthesiological Involvement in Postoperative Pain Treatment - A Questionnaire Survey at Danish Hospitals[NCT03496194]		42 participants (Actual)	Observational	2018-04-13	Completed
Comparison of Oral Gabapentin and Pregabalin in Postoperative Pain Control After Photorefractive Keratectomy: a Prospective, Randomized Study.[NCT00954187]		8 participants (Actual)	Interventional	2009-11-30	Terminated (stopped due to PI left institution)
Analgetic and Anxiolytic Effect of Preoperative Pregabalin in Patients Undergoing Surgery of the Vertebral Columna[NCT00353704]	Phase 4	50 participants (Actual)	Interventional	2005-11-30	Completed
Comparative Evaluation of Osteopathy Treatment Efficacy in Pain Support After Breast Surgery in Oncology[NCT01403168]		28 participants (Actual)	Interventional	2011-04-30	Terminated (stopped due to Recruitment difficulties)
The Effect of Neurontin on Pain Management in the Acutely Burned Patient[NCT01265056]		53 participants (Actual)	Interventional	2010-02-28	Completed
The Effect of Gabapentin on Acute Pain and PONV in Bariatric Surgical Patients[NCT00886236]		62 participants (Actual)	Interventional	2008-02-29	Completed
Gabapentin Premedication to Reduce Postoperative Nausea and Vomiting in Surgical Patient Receiving Spinal Morphine[NCT02944981]	Phase 4	80 participants (Actual)	Interventional	2016-08-31	Completed
Effect of Two Different Doses of Oral Pregabalin Premedication for Postoperative Pain Relief After Gynecological Surgeries[NCT04708353]		90 participants (Anticipated)	Interventional	2020-08-20	Recruiting
Effect of Preoperative Pregabalin on Propofol Induction Dose[NCT01158859]	Phase 4	50 participants (Anticipated)	Interventional	2010-04-30	Completed
Improving Perioperative Pain Management for Laparoscopic Surgery Due to Colon Cancer Using the Ultrasound-guided Transmuscular Quadratus Lumborum Block. A Double Blind, Randomized, Placebo Controlled Trial.[NCT03570541]	Phase 4	69 participants (Actual)	Interventional	2018-06-28	Completed
The Role of Pregabalin in the Treatment of Post-Operative Pain in Fracture Patients[NCT00583869]	Early Phase 1	86 participants (Actual)	Interventional	2007-05-31	Completed
Comparative Randomized Controlled Trial Study of General Balanced Anesthesia Based on Opioid and Opioid Sparing Balanced Anesthesia for Cholecystectomy Surgery Via Laparoscopy: Intraoperative and Postoperative Outcomes[NCT02953210]	Phase 4	40 participants (Anticipated)	Interventional	2016-11-30	Enrolling by invitation
Preoperative Use of Pregabalin and Analgesia Levels After Laparoscopic Cholecystectomy[NCT01321801]		50 participants (Actual)	Interventional	2009-11-30	Completed
Radiofrequency Thoracic Sympathectomy for Chronic Postmastectomy Pain; Randomized Placebo Controlled Study[NCT03494426]		70 participants (Actual)	Interventional	2018-04-01	Completed
A Randomized, Double-blind, Placebo-controlled Trial to Assess the Safety and Efficacy of the Perioperative Administration of Pregabalin in Reducing the Incidence of Postoperative Delirium and Improving Acute Postoperative Pain Management[NCT00819988]	Phase 3	240 participants (Actual)	Interventional	2009-05-31	Completed
Usefulness of Bright Light Therapy in the Prevention of Delirium in Patients Undergoing Hematopoietic Stem Cell Transplant (HSCT)[NCT01700816]		40 participants (Actual)	Interventional	2012-10-31	Terminated (stopped due to Low incidence of delirium.)
Clinical Trial of Gabapentin to Decrease Postoperative Delirium and Pain in Surgical Patients[NCT00221338]	Phase 3	750 participants (Actual)	Interventional	2006-01-31	Completed
Randomized Clinical Trial Comparing the Use of Perioperative Epidural Analgesia to Conventional Intravenous Narcotics and NSAIDS for Patients Undergoing Laparoscopic Colorectal Resection[NCT02086123]		87 participants (Actual)	Interventional	2012-05-31	Completed
Imaging Framework for Testing GABAergic/Glutamatergic Drugs in Bipolar Alcoholics[NCT03220776]	Phase 2	54 participants (Actual)	Interventional	2017-08-07	Completed
The Impact of Perioperative Gabapentin on Chronic Groin Pain After Inguinal Hernia Repair[NCT02419443]	Phase 4	100 participants (Anticipated)	Interventional	2011-08-31	Active, not recruiting
Pregabalin for the Treatment of Pain After Posterior Spinal Fusions.[NCT01366196]		86 participants (Actual)	Interventional	2008-10-31	Completed
Perioperative Administration of Pregabalin in Laparoscopic Living Donor Nephrectomy (L-LDN) - an Adjuvance to Peroral Analgetic Treatment - a Randomized Controlled Study[NCT01059331]	Phase 4	80 participants (Actual)	Interventional	2010-02-28	Completed
Low Dose Spinal Morphine for Patients With Obstructive Sleep Apnea (OSA) Undergoing Total Hip Arthroplasty (THA)[NCT01790971]		40 participants (Anticipated)	Interventional	2020-01-31	Suspended (stopped due to competing studies)
Quality of Recovery Following Administration of Transverse Abdominus Plane (TAP) Catheter as Compared to Intrathecal Morphine After Cesarean Delivery Under Spinal Anesthesia: a Prospective, Randomized Trial[NCT01593280]		80 participants (Anticipated)	Interventional	2012-05-31	Recruiting
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Median daily post-op narcotic pain medication in morphine milliequivalents per day during the first 14 days after surgery (NCT03123861)
Timeframe: First 14 days after surgery

Gluteal Pain During Normal Activities

Intervention	morphine milliequivalents per day (Median)
Gabapentin	1.6
Placebo Oral Capsule	1.6

Gluteal post-op pain will be measured by an item similar to that used for the primary outcome which asks for the average amount of gluteal pain felt during normal activity in the last 24 hours on a scale of 1-10 with 10 representing the most intense/worst pain. (NCT03123861)
Timeframe: 7 days after surgery

Pain During Normal Activities (Surgical Pain Scale Item 2)

Intervention	units on a scale (Mean)
Gabapentin	2.1
Placebo Oral Capsule	3.4

Post-operative pain at week 1 will be measured by item 2 of the surgical pain scale (SPS). This item asks for the average amount of pain felt during normal activity in the last 24 hours on a scale of 1-10 with 10 representing the most intense/worst pain. (NCT03123861)
Timeframe: 7 days after surgery

Worst Pain (Surgical Pain Scale Item 4)

Intervention	units on a scale (Mean)
Gabapentin	1.6
Placebo Oral Capsule	3.2

Post-operative pain will be measured by item 4 of the surgical pain scale (SPS). This item asks for how unpleasant or disturbing the worst pain was in the last 24 hours on a scale of 1-10 with 10 representing the most intense/worst pain (NCT03123861)
Timeframe: 7 days after surgery

Pain Score on 100-mm VAS (Visual Analog Scale) at 5 Minutes Post-procedure

Intervention	units on a scale (Mean)
Gabapentin	2.4
Placebo Oral Capsule	4.0

Score range of 0 to 100, where 0 means no pain and 100 means worst pain in my life. (NCT02725710)
Timeframe: 5 minutes

Number of Subjects Experiencing Perioperative Vomiting

Intervention	score on a scale (Mean)
Group 1: Placebo	35.7
Group 2: Gabapentin	37.1

(NCT02725710)
Timeframe: Baseline (pre-operatively immediately prior to the procedure), 10 minutes, 30 minutes

Number of Subjects Experiencing Side Effects

Intervention	Participants (Count of Participants)
	Baseline	10 minutes	30 minutes
Group 1: Placebo	1	1	1
Group 2: Gabapentin	0	2	5

Side effects noted are dizziness, ataxia, somnolence, asthenia, headache, and amblyopia. (NCT02725710)
Timeframe: 10 minutes post-procedure

Number of Subjects Using Pain Medications

Intervention	Participants (Count of Participants)
	Dizziness	Ataxia	Somnolence	Asthenia	Headache	Amblyopia
Group 1: Placebo	14	8	37	31	5	3
Group 2: Gabapentin	20	6	41	27	5	3

Pain medications included ibuprofen and oxycodone. (NCT02725710)
Timeframe: 24 hours post-operatively

Pain Score on the 100-mm VAS

Intervention	Participants (Count of Participants)
	No pain medication	Ibuprofen only	Ibuprofen and oxycodone	Oxycodone only
Group 1: Placebo	10	23	9	6
Group 2: Gabapentin	17	23	6	1

Measured at baseline, 10 minutes post-procedure, and 30 minutes post-procedure. Score range of 0 to 100, where 0 means no pain and 100 means worst pain in my life. (NCT02725710)
Timeframe: Baseline (pre-operatively immediately prior to the procedure), 10 minutes, 30 minute

Perioperative Anxiety as Measured by the 100-mm VAS

Intervention	units on a scale (Median)
	Baseline	10 minutes	30 minutes
Group 1: Placebo	3.3	19.8	12.6
Group 2: Gabapentin	3.0	20.0	9.5

Score range of 0 to 100, where 0 means no anxiety and 100 means extremely anxious. (NCT02725710)
Timeframe: 5 minutes, 10 minutes, 30 minutes, discharge

Perioperative Nausea as Measured by 100-mm VAS

Intervention	units on a scale (Median)
	5 minutes	10 minutes	30 minutes	Discharge
Group 1: Placebo	24.5	14.5	13.3	10.5
Group 2: Gabapentin	23.5	11.0	7.0	8.0

Score range of 0 to 100, where 0 means no nausea and 100 means worst nausea in my life. (NCT02725710)
Timeframe: Baseline (pre-operatively immediately prior to the procedure), 10 minutes, 30 minutes

Narcotic Use at 2 Weeks Postop

Intervention	units on a scale (Median)
	Baseline	10 minutes	30 minutes
Group 1: Placebo	3.0	2.5	2.3
Group 2: Gabapentin	3.0	1.0	1.0

Assessment of the amount of narcotic use postoperatively at 2 weeks. will use opioid equivalence table to convert all narcotic use to oxycodone equivalents (NCT02703259)
Timeframe: 2 weeks

Narcotic Use at 24 Hours Postop

Intervention	morphine milligram equivalents (Mean)
Gabapentin	167.2
Control	187.3

Assessment of the amount of narcotic use postoperatively at 24 hours. will use opioid equivalence table to convert all narcotic use to oxycodone equivalents (NCT02703259)
Timeframe: 24 hours

Subjective Pain at 2 Weeks Postop

Intervention	morphine milligram equivalents (Mean)
Gabapentin	158.8
Control	175.0

"Assessment of the subject pain score postoperatively at 2 weeks. will use a numeric analog scale from 0-10.~The pain scale ranging from 0-10 with 0 representing No Pain and 10 representing the Worst Pain Possible" (NCT02703259)
Timeframe: 2 weeks

Subjective Pain at 24 Hours Postoperative

Intervention	score on a scale (Mean)
Gabapentin	1.3
Control	1.4

Pain score assesses patient subjective pain via patient reported numeric analogue scale, range 0-10 with 0 being no pain and 10 being severe pain. (NCT02703259)
Timeframe: 24 hours

Number of Patient With Gabapentin Adverse Effects at 2 Weeks Postoperatively

Intervention	score on a scale (Mean)
Gabapentin	3.4
Control	3.4

Will assess for known symptoms of gabapentin postoperatively at 2 weeks. We will survey subjects regarding their experience of the following symptoms: dizziness/drowsiness, fatigue, loss of balance, blurry vision, tremulousness, swelling, nausea, vomiting, diarrhea, and allergic reaction (NCT02703259)
Timeframe: 2 weeks

Number of Patient With Gabapentin Adverse Effects at 24 Hours Postoperatively

Intervention	Participants (Count of Participants)
	Dizziness	Blurred vision	Somnolence	Difficulty walking	Tremulousness	Nausea	Vomiting
Control	8	3	21	5	2	7	1
Gabapentin	12	4	18	5	4	12	0

Will assess for known symptoms of gabapentin postoperatively at 24 hours. We will survey subjects regarding their experience of the following symptoms: dizziness/drowsiness, fatigue, loss of balance, blurry vision, tremulousness, swelling, nausea, vomiting, diarrhea, and allergic reaction (NCT02703259)
Timeframe: 24 hours

Moderate Pain at Postoperation Follow-up Assessment

Intervention	Participants (Count of Participants)
	Dizziness	Blurred Vision	Somnolence	Difficulty walking	Tremulousness	Nausea	Vomiting
Control	8	4	23	11	6	25	15
Gabapentin	17	7	20	13	11	24	9

"During the Postoperative Day 1 phone call, participants self reported how much they experienced moderate pain in the last 24 hours where 10 = none of the time and 0 = all of the time. Moderate pain was defined according to the perception of each participant." (NCT02944656)
Timeframe: Postoperative Day 1

Nausea or Vomiting at Postoperation Follow-up Assessment

Intervention	units on a scale (Mean)
Gabapentin Group	5.2
Placebo Group	5.2

During the Postoperative Day 1 phone call, participants self reported how much they experienced nausea or vomiting in the last 24 hours where 10 = none of the time and 0 = all of the time. Nausea and vomiting were self-reported together as a single outcome. (NCT02944656)
Timeframe: Postoperative Day 1

Number of Participants Using Pain Medication

Intervention	units on a scale (Mean)
Gabapentin Group	2.3
Placebo Group	3.2

The number of participants reporting filling and using the prescription for ibuprofen postoperatively. During the follow-up phone call on the day after the procedure, participants were asked whether or not they filled the pain medication prescription and if they took any of the medication. (NCT02944656)
Timeframe: Postoperative Day 1

Severe Pain at Postoperation Follow-up Assessment

Intervention	Participants (Count of Participants)
Gabapentin Group	24
Placebo Group	27

"During the Postoperative Day 1 phone call, participants self reported how much they experienced severe pain in the last 24 hours where 10 = none of the time and 0 = all of the time. Severe pain was defined according to the perception of each participant." (NCT02944656)
Timeframe: Postoperative Day 1

Anxiety Levels

Intervention	units on a scale (Mean)
Gabapentin Group	3.5
Placebo Group	3.2

"Participants reported how much anxiety they were currently experiencing on a 100-point scale where No Anxiety is scored as 0 and Extremely Anxious is scored as 100. Anxiety is reported for the time periods of immediately prior to the procedure, 10 minutes after the procedure, and 30 minutes after the procedure." (NCT02944656)
Timeframe: Pre-procedure through post-procedure on Study Day 1

Pain at Time of Uterine Evacuation

Intervention	score on a scale (Median)
	Prior to procedure	10 minutes post-procedure	30 minutes post-procedure
Gabapentin Group	66	14	4
Placebo Group	72	17	2

"The primary outcome measure is a pain score using a 100-mm visual analog scale (VAS) measured intraoperatively at time of evacuation. No pain is scored as 0 and worst pain imaginable is scored as 100." (NCT02944656)
Timeframe: During the procedure on Study Day 1

Perioperative Nausea

Intervention	score on a scale (Mean)
	Paracervical block	Dilation	Aspiration
Gabapentin Group	63.79	64.58	67.77
Placebo Group	62.21	66.12	71.06

"Nausea level was measured using a 100-mm visual analog scale (VAS) to log the change in nausea levels between the study arms. No nausea is reported as 0 while worst nausea I have ever felt is reported at 100. Nausea was reported immediately prior to the procedure, 10 minutes following the procedure, and 30 minutes following the procedure." (NCT02944656)
Timeframe: Pre-procedure through post-procedure on Study Day 1

Perioperative Pain Level

Intervention	score on a scale (Median)
	Prior to procedure	10 minutes post-procedure	30 minutes post-procedure
Gabapentin Group	26	1	0
Placebo Group	26	12	5

"Pain level at a variety of time points will be measured using a 100-mm visual analog scale (VAS) to log the change in pain levels between the study arms. No pain is scored as 0 and worst pain imaginable is scored as 100. Pain will be assessed immediately prior to the procedure, at completion of the procedure (removal of the speculum), 10 minutes following the procedure, and 30 minutes following the procedure (at discharge)." (NCT02944656)
Timeframe: Pre-procedure through post-procedure on Study Day 1

Perioperative Vomiting

Intervention	score on a scale (Mean)
	Prior to procedure	Speculum removal	10 minutes post-procedure	30 minutes post-procedure
Gabapentin Group	20.76	44.10	30.64	20.89
Placebo Group	22.48	47.61	43.68	31.65

Participants reported if they vomited during the perioperative period to assess changes in vomiting incidences between the study arms. Vomiting is reported for the time periods of immediately prior to the procedure, 10 minutes following the procedure, and 30 minutes following the procedure. (NCT02944656)
Timeframe: Pre-procedure through post-procedure on Study Day 1

Side Effects

Intervention	Participants (Count of Participants)
	Prior to procedure	10 minutes post-procedure	30 minutes post-procedure
Gabapentin Group	4	5	5
Placebo Group	7	2	5

Participants were asked if they experienced dizziness, lack of muscle control, sleepiness or drowsiness, weakness or lack of energy, headache, or visual changes. (NCT02944656)
Timeframe: 10 and 30 minutes post procedure on Study Day 1

Opioid Consumption

Intervention	Participants (Count of Participants)
	Dizziness 10 minutes post-procedure	Dizziness 30 minutes post-procedure	Lack of muscle control 10 minutes post-procedure	Lack of muscle control 30 minutes post-procedure	Sleepiness/drowsiness 10 minutes post-procedure	Sleepiness/drowsiness 30 minutes post-procedure	Weakness 10 minutes post-procedure	Weakness 30 minutes post-procedure	Headache 10 minutes post-procedure	Headache 30 minutes post-procedure	Vision changes 10 minutes post-procedure	Vision changes 30 minutes post-procedure
Gabapentin Group	27	19	9	5	38	30	33	20	5	4	9	3
Placebo Group	23	15	9	10	34	29	34	28	4	4	11	5

Patient Controlled Analgesia use over 48 hours reported in Morphine equivalent dosage. (NCT01546857)
Timeframe: 48 hours post operatively

Visual Analogue Scale for Pain

Intervention	mg (Mean)
Placebo	11.88
Gabapentin	11.02

Severity of pain measure on a scale from zero to ten. Zero no pain to ten severe pain. (NCT01546857)
Timeframe: 48 hours post operatively

Quality of Sleep.

Intervention	units on a scale (Mean)
Placebo	5.15
Gabapentin	4.38

A questionnaire was administered asking participants about the quality of their sleep on the night of surgery asked on postoperative day 1, and on the first postoperative night ( POD 2) . Scored on a scale of zero to 3. Zero meaning poor postoperative sleep and 3 indicating better postoperative sleep. (NCT01546857)
Timeframe: Night of surgery (POD 1) and Postoperative Day 2.(POD 2)

"VAS Score 1: How Much Pain do You Feel in Your Operative Site When Resting?"

Intervention	units on a scale (Mean)
	POD 1	POD 2
Gabapentin	1.235	0.647
Placebo	1.333	1

Surgical site pain. Scale 0-10, with 0 best and 10 worst (NCT03334903)
Timeframe: 2-3 months after surgery (at 2nd postoperative appointment)

"VAS Score 2: How Much Pain do You Feel in Your Operative Site When Moving?"

Intervention	score on 10-point scale (Mean)
Standard of Care	2.26
Postoperative Gabapentin Regimen	2.46

Surgical site pain. Scale 0-10, with 0 best and 10 worst. (NCT03334903)
Timeframe: 2-3 months following surgery (measured at second postoperative appointment).

"VAS Score 3: How Well Are You Sleeping?"

Intervention	score on a 10-point scale (Mean)
Standard of Care	3.84
Postoperative Gabapentin Regimen	3.54

Sleep quality. Scale 0-10 with 0 worst and 10 best. (NCT03334903)
Timeframe: 2-3 months following surgery (measured at second postoperative appointment).

"VAS Score 4: How Bad is Your Nausea?"

Intervention	score on a 10-point scale (Mean)
Standard of Care	5.73
Postoperative Gabapentin Regimen	6.38

Nausea. Scale 0-10, with 0 best and 10 worst. (NCT03334903)
Timeframe: 2-3 months following surgery (measured at second postoperative appointment).

"VAS Score 5: How Satisfied Are You With Your Pain Management?"

Intervention	score on a 10-point scale (Mean)
Standard of Care	0.36
Postoperative Gabapentin Regimen	0.17

Satisfaction. Scale 0-10 with 0 worst and 10 best. (NCT03334903)
Timeframe: 2-3 months following surgery (measured at second postoperative appointment).

Days Taking Opioids

Intervention	score on a 10-point scale (Mean)
Standard of Care	7.83
Postoperative Gabapentin Regimen	8.48

Number of days until patients are finished consuming opioid medications after discharge. (NCT03334903)
Timeframe: 2-3 months following surgery (measured at second postoperative appointment).

Opioid Consumption

Intervention	days (Mean)
Standard of Care	14.8
Postoperative Gabapentin Regimen	18.7

Mean opioid consumption, measured in mg of morphine equivalents. (NCT03334903)
Timeframe: 2-3 months following surgery (total amount measured at second postoperative appointment; means assessed afterwards).

New Opioid Discharge Prescriptions

Intervention	morphine equivalents (Mean)
Standard of Care	287.0
Postoperative Gabapentin Regimen	281.1

Proportion of patients who receive new opioid discharge prescriptions at discharge following a thyroidectomy or parathyroidectomy procedure. This outcome excludes continuation of previous, chronic opioid therapy. (NCT04955444)
Timeframe: Up to 2 days

New Opioid Prescriptions From the Surgeon's Office Within 7 Days of Surgery

Intervention	Participants (Count of Participants)
Historical Control Group	128
Post-implementation Group	28

Proportion of thyroidectomy and parathyroidectomy postoperative patients who receive new opioid prescriptions from the surgeon's office within 7 days of surgery including discharge prescriptions. This outcome excludes continuation of previous, chronic opioid therapy. (NCT04955444)
Timeframe: Up to 7 days

Opioid Discharge Prescriptions Exceeding 112.5 Oral Morphine Milligram Equivalents (MMEs)

Intervention	Participants (Count of Participants)
Historical Control Group	0
Post-implementation Group	0

Proportion of thyroidectomy and parathyroidectomy postoperative patients with opioid discharge prescriptions exceeding the recommended dose of 112.5 oral MMEs (NCT04955444)
Timeframe: Up to 2 days

Opioid Discharge Prescriptions Exceeding 5 Days

Intervention	Participants (Count of Participants)
Historical Control Group	52
Post-implementation Group	8

Proportion of thyroidectomy and parathyroidectomy postoperative patients with opioid discharge prescriptions exceeding 5 days of therapy (NCT04955444)
Timeframe: Up to 2 days

Opioid Prescriptions Exceeding 50 Oral MMEs/Day When New Discharge Prescriptions Are Added to Existing Opioid Therapy

Intervention	Participants (Count of Participants)
Historical Control Group	27
Post-implementation Group	5

Proportion of thyroidectomy and parathyroidectomy postoperative patients with opioid prescriptions exceeding 50 oral MMEs/day when new, postoperative discharge prescriptions are added to existing opioid therapy (NCT04955444)
Timeframe: Up to 2 days

Count of Participants With Continued Opioid Use at 1 Year

Intervention	Participants (Count of Participants)
Historical Control Group	9
Post-implementation Group	0

Continued opioid use was defined as any report of any continued opioid use at Year 1. (NCT01067144)
Timeframe: Year 1

Count of Participants With Continued Opioid Use at 6 Months

Intervention	Participants (Count of Participants)
Control	3
Gabapentin	4

Continued opioid use was defined as any report of any continued opioid use at Month 6. (NCT01067144)
Timeframe: Month 6

Count of Participants With Continued Pain at 1 Year

Intervention	Participants (Count of Participants)
Control	4
Gabapentin	5

"Continued pain was defined as a report of at least 1 average pain at the surgical site (as reported by the patient on a scale of 0-10, with lower scores corresponding to less pain (0 = no pain) and higher scores corresponding to more pain)." (NCT01067144)
Timeframe: Year 1

Count of Participants With Continued Pain at 6 Months

Intervention	Participants (Count of Participants)
Control	18
Gabapentin	21

Time to Opioid Cessation

Intervention	Participants (Count of Participants)
Control	37
Gabapentin	42

Time to opioid cessation was defined as 5 consecutive reports of no opioid use. Planned call frequency was daily for 3 months, weekly thereafter up to 6 months, and monthly thereafter up to 2 years after surgery. (NCT01067144)
Timeframe: Up to 2 years

Time to Pain Resolution

"Time to pain resolution was defined as 5 consecutive reports of 0 average pain at the surgical site (as reported by the patient on a scale of 0-10, with lower scores corresponding to less pain (0 = no pain) and higher scores corresponding to more pain). Planned call frequency was daily for 3 months, weekly thereafter up to 6 months, and monthly thereafter up to 2 years after surgery." (NCT01067144)
Timeframe: Up to 2 years

Change in Daily Narcotic Consumption

Total amount of narcotic use in morphine equivalents will be divided by the total hours of inpatient hospitalization, multiplied by 24 hours, to obtain the daily narcotic consumption. (NCT02926573)
Timeframe: Daily from date of randomization until post-op day 2 or date of discharge, whichever comes first.

Mean Pain With Coughing Score as Measured by VAS

"Subjective pain scores were captured using the Visual Analog Scale (VAS). Subjects were asked to Please rate your current pain level with no movement (rest), with a cough, and with a swallow. Subjects marked a point on a 100-mm line anchored no pain on the left end and worst possible pain on the right end.~Pain literature reports that scores in the 10-30mm range correlate clinically with mild pain, in the 30-60 or 70mm range with moderate pain, and in the >70 range with severe pain" (NCT02926573)
Timeframe: Baseline through post operative day 3

Mean Pain With Resting Score as Measured by VAS

Mean Pain With Swallowing Score as Measured by VAS

Number of Doses of Opioids Used as Analgesic Rescue in the Postoperative Period

Evaluation of the number of intravenous opioid doses used within 24 hours of postoperative abdominal hysterectomy surgery in patients who used pregabalin 300mg or not as preemptive analgesia (NCT04495374)
Timeframe: End of the first postoperative day of abdominal hysterectomy surgery (24 hours after the end of surgery)

Number of Participants With Dizziness Between the Intervention and Control Groups

• Assess the presence of adverse effects such as nausea and vomiting, itching and dizziness, comparing the intervention group that used pregabalin with the placebo group (NCT04495374)
Timeframe: End of the first postoperative day of abdominal hysterectomy surgery (24 hours after the end of surgery) and also immediately in the post-anesthetic recovery room

Postoperative Pain Assessed 24 Hours After Abdominal Hysterectomy Surgery, Using the McGill Pain Questionnaire

Postoperative pain assessment, 24 hours after abdominal hysterectomy surgery, in patients who used a single 300mg dose of pregabalin or placebo as preemptive analgesia, using the McGill pain questionnaire, which consists of 20 word groups , and each group can contain from 2 to 6 descriptive words, these descriptors are placed in an increasing order of magnitude in relation to the intensity. The left of each word has a numerical value in an attempt to represent the intensity of the descriptor. For the analysis of the answers, the total number of words chosen in each subgroup by the patient was used to qualify his pain, the minimum value being equal to 0 (zero), if the patient chose not to choose any descriptor, and the maximum value would be 20, as the patient can choose only one descriptor for each subgroup. The quantitative pain index was also evaluated, which represents the sum of the values of each descriptor chosen by the patient, with a minimum value of 0 and a maximum of 78. (NCT04495374)
Timeframe: End of the first postoperative day of abdominal hysterectomy surgery (24 hours after the end of surgery)

Postoperative Pain in Active Movement Assessed 24 Hours After Abdominal Hysterectomy Surgery Using the Visual Analog Scale (VAS)

Postoperative pain assessment, 24 hours after abdominal hysterectomy surgery, in patients who used a single dose of pregabalin 300mg or placebo as preemptive analgesia, using the visual analog scale (VAS) consisting of a 10 cm (cm) line ) graduated in natural number intervals, starting at 0 (zero) until reaching 10 (ten), associated with the numbers, drawings related to the pain presented by the patient at the moment, in which the absence of pain (0 ) there is a happy face, and as the numerical value increases, the drawn face will represent the intensity of pain, up to the value of 10, where a face with crying characteristics is found, indicating greater pain. (NCT04495374)
Timeframe: End of the first postoperative day of abdominal hysterectomy surgery (24 hours after the end of surgery)

Postoperative Pain in Rest Assessed 24 Hours After Abdominal Hysterectomy Surgery Using the Visual Analog Scale (VAS)

Time Required for the Use of the First Dose of Opioid as an Analgesic Rescue in the Postoperative Period

• Evaluation of the time between the end of abdominal hysterectomy surgery and the patient's request for the use of the first dose of intravenous opioid as an analgesic rescue, comparing between patients who used or not pregabalin 300mg as preemptive analgesia (NCT04495374)
Timeframe: End of the first postoperative day of abdominal hysterectomy surgery (24 hours after the end of surgery)

Counts of Participants With Presence of Nausea

Count of participants with nausea through 48 hours after delivery. (NCT02605187)
Timeframe: 0-48 hours after delivery

Time to Discharge

Minutes from delivery until discharge. (NCT02605187)
Timeframe: Delivery through discharge (average 4 days)

Average Number of Vomiting Episodes After Delivery

Count of Participants Who Need Medical Treatment of Pruritus

Count of participants who need medical treatment of pruritus during first 48 hours after delivery. (NCT02605187)
Timeframe: 0-24 and 24-48 hours after delivery

Count of Participants Who Need Opioid Use

Count of participants who need opioid use through 48 hours after delivery. (NCT02605187)
Timeframe: 0-24 and 24-48 hours after delivery

Count of Participants With Presence of Pruritus

Count of participants with pruritus through 48 hours after delivery. (NCT02605187)
Timeframe: 0-24 and 24-48 hours after delivery

Counts of Participants Who Need Medical Treatment for Nausea

Counts of participants who need medical treatment of nausea through 48 hours after delivery. (NCT02605187)
Timeframe: 0-24 and 24-48 hours after delivery

Nausea Score Score at 24 and 48 After Delivery

Score was rated on a scale from 0 to 10, where 0=no nausea and 10=most nausea. (NCT02605187)
Timeframe: 0-24 and 24-48 hours after delivery

Opioid Consumption in the 0-48 Hour Study Periods.

Opioid consumption was measured in milligram morphine equivalents in the 0-24 and 24-48 hour study periods. (NCT02605187)
Timeframe: 0-24 and 24-48 hour postoperative periods

Pain Scores

Pain scores at rest and at movement post-cesarean delivery. Score was rated on a scale from 0 to 10, where 0=no pain and 10=worst imaginable pain. (NCT02605187)
Timeframe: 3, 6, 12, 24, 36 and 48 hours after delivery

Patient Overall Satisfaction With Postoperative Analgesia

Score was rated on a scale from 0 to 100, where 0=completely unsatisfied and 100=completely satisfied. (NCT02605187)
Timeframe: 24 and 48 hours after delivery

Pruritus Score at 24 and 48 After Delivery

Score was rated on a scale from 0 to 10, where 0=no itching and 10=most itching. (NCT02605187)
Timeframe: 24 and 48 hours following delivery

24 Hour Pain Burden

Pain scores using an 11 point numeric pain rating scale 0=no pain 10 = worst pain imaginable (NCT03151746)
Timeframe: 24 hours after surgery

48 Hours Morphine Equivalents Consumed.

Total morphine equivalents in milligrams consumed during the first 48 hours after surgery. (NCT03151746)
Timeframe: Up to 48 hours after surgery

QOR 40 Questionnaire Scores

Evaluate quality of recovery using the Quality of Recovery 40 (QoR 40) questionnaire a 40 question survey scored from 40 ( poor recovery) to 200 high (good recovery) 48 hours after the surgical procedure. (NCT03151746)
Timeframe: 48 hours after surgical procedure

Time to First Analgesia

Time to first analgesia is recorded from IV PCA. (NCT02285010)
Timeframe: 24 hours

Pain Scores on the Visual Analog Scale

"Pain score is evaluated by nurses using Numerical Rating Scale (NRS)~Minimum score 0 (no pain), Maximum score 10 (worst imaginable pain), lower scores mean a better outcome" (NCT02285010)
Timeframe: 24 hours

Post Operative Morphine Consumption

Cumulative morphine consumption in the first 24 hours is recorded from IV PCA (NCT02285010)
Timeframe: 6, 12, and 24 hours after operation

Numbers of Participants With Adverse Events as a Measure of Safety and Tolerability

Measure sedation score by evaluate and observe; measure pruritus, PONV, dizziness, visual disturbance using questionnaire (NCT02285010)
Timeframe: 24 hours

Total Morphine Consumption

NRS (Numerical Rating Scale)

The NRS is a numerical scale ranging from 0-10 implemented with adults. Having no pain is rated as a 0 and the worst pain the patient could tolerate is rated as a 10. (NCT02359110)
Timeframe: 2-8 hours

VAS (Visual Analog Scale)

"The VAS is scored using a horizontal line 100mm in length. The scale is anchored by no pain (score of 0) and worst pain (score of 100)." (NCT02359110)
Timeframe: 2 -6 hours

ASES

American Shoulder and Elbow Surgeons (ASES) Shoulder Score for pain and function. Range 0-100. Low score = worse shoulder condition. Function, disability, and pain subscores (all ranges 0-50), and are summed for total ASES score. (NCT03540030)
Timeframe: 2 Weeks

Morphine Use

Morphine milli-equivalents In-hospital post-operative. Continuous scale of MME, no defined better/worse. Measured as number and dose of medications taken. For example, if the patient received an opioid, the drug and dose was recorded and converted to MME. A time frame of when to assess opioid use in-hospital post-operative was not used but was a continuous monitor for rescue opioid from in-hospital post-operative through discharge. (NCT03540030)
Timeframe: In-hospital Stay

Post Op Pain

Pain at patient discharge or 24-hours, whichever comes first - measured on a 0 (no pain) -10 (worst possible pain) numeric rating scale (NRS). A score of 0(no pain) is preferable to 10(worst possible pain) (NCT03540030)
Timeframe: 24 hours

Simple Shoulder Test

Simple Shoulder Test (SST) activity score. Range 0-12. 0 = worse activity score. (NCT03540030)
Timeframe: 2 Months

Simple Shoulder Test

Simple Shoulder Test (SST) activity score. Range 0-12. 0 = worse activity score. (NCT03540030)
Timeframe: 2 Weeks

Additional Post Op Pain

post-operative pain: measured on a 0 (no pain) -10 (worst) numeric rating scale (NRS) at 6hrs, 12hrs, 2 weeks, and 2 months. A score of 0(no pain) is preferable to 10(worst possible pain) (NCT03540030)
Timeframe: 6hrs, 12hrs, 2weeks, 2 months

Constipation

Falls

Nausea

Pain Satisfaction

Satisfaction with overall pain using Numeric Pain Rating (NRS) scale. yes, no. No being better than yes. (NCT03540030)
Timeframe: 2 Months

Pain Satisfaction

Satisfaction with overall pain using Numeric Pain Rating (NRS) scale. yes, no. No being better than yes. (NCT03540030)
Timeframe: 2 Weeks

Veterans RAND 12 Item Health Survey (VR-12©) Physical Health Subscore, and Mental Health Subscore

quality of life using VR-12 subscores. Physical Health (PCS) subscore and Mental Health (MCS) subscore, not summed. Range reported in weighted units. Physical Health subscore: 1 point increase in PCS is associated with 6% lower total health care expenditures, 5% lower pharmacy expenditures, 9% lower rate of hospital inpatient visits, 4% lower rate of medical provider visits, 5% lower rate of hospital outpatient visits. Mental Health sub score a 1 point increase in MCS is associated with 7% lower total health care expenditures, 4% lower pharmacy expenditures, 15% lower rate of hospital inpatient visits, and 4% lower rate of medical provider visits. Both PCS/MCS are score 0-100 with 100 indicating the highest level of health. (NCT03540030)
Timeframe: 2 Months

Veterans RAND 12 Item Health Survey (VR-12©) Physical Health Subscore, and Mental Health Subscore

Apgar Score at 5 Minutes

This is the Apgar score of the newborn collected at 5 minutes. Range is from 0-10, with the higher scores meaning a better outcome. (NCT02922985)
Timeframe: 5 minutes after birth

Hospital Length of Stay

Time to discharge from hospital, measured in hours (NCT02922985)
Timeframe: From time of hospital admission to time of discharge home up to 168 hours.

Need for Respiratory Support

neonate receipt of oxygen by nasal cannula or mechanical ventilation (NCT02922985)
Timeframe: after birth and before hospital discharge

NICU Admission

Rate of admission to the neonatal intensive care unit (NCT02922985)
Timeframe: after birth and before hospital discharge

Number of Opioid Pain Tablets Remaining on Post-operative Day #7 From the Discharge Prescription.

Number of opioid pain tablets remaining on post-operative day #7 from hospital discharge as reported by patients (NCT02922985)
Timeframe: 7 days post delivery

Pain Score at 24 Hours Post-operatively

Pain Score at 24 Hours Post Operatively, expressed on a pain scale from 0-10 with the higher score meaning worse pain (outcome). (NCT02922985)
Timeframe: 24 hours post-operatively

Pain Score at 48 Hours Post-operatively

Pain Score at 48 Hours Post-operatively, expressed on a pain scale from 0-10 with the higher score meaning worse pain (outcome). (NCT02922985)
Timeframe: 48 hours post-operatively

Pain Score at 6-12 Hours Post Operatively

Pain score at 6-12 hours post-operatively, expressed on a pain scale from 0-10 with the higher score meaning worse pain (outcome). (NCT02922985)
Timeframe: 6-12 hours post-operatively

Time to First Administration of Opioid Pain Medication Post Operatively

Time, in hours, to first administration of opioid pain medication post operatively (NCT02922985)
Timeframe: 48 hours post cesarean delivery

Total Opioid Intake in Morphine Milligram Equivalents in the First 48 Hours After Cesarean Delivery (CD)

Every opioid intake by the patient in the first 48 hours after CD will be recorded and quantified in morphine milligram equivalents (NCT02922985)
Timeframe: 48 hours post cesarean delivery

Hospital Readmission

Readmission to hospital will be noted (NCT03270514)
Timeframe: From end of surgery assessed up to 30 days post-operatively

Mortality

Mortality will be noted at specific timepoints (NCT03270514)
Timeframe: From end of surgery assessed up to 30 days post-operatively

Non-invasive Ventilation (NIV) Requirement

Episodes of NIV such as upper airway masks or similar devices will be quantified (NCT03270514)
Timeframe: From time of end of surgery to 72 hours post-operatively or until hospital discharge

Patient Satisfaction

Patient will give an assessment regarding pain management on a scale of 0 - 10 with 0 indicating the lowest satisfaction with pain management and 10 indicating the highest satisfaction with pain management (NCT03270514)
Timeframe: Given at the time of discharge up to 30 days post-operatively

Patient Time to Mobilization

The time it takes until patient ambulates will be measured (NCT03270514)
Timeframe: From time of end of surgery to time of mobilization up to 72 hours or discharge, *assessed up to 120 hours*

Patient Time to Oral Intake

The time it takes until the patient is able to/medically cleared to consume food or liquid will be measured (NCT03270514)
Timeframe: From time of end of surgery to time of oral intake up to 72 hours post-operatively or until hospital discharge

Patient Time to Out of Bed to Chair

The time it takes until the patient advances from bedrest to out of bed (OOB) to chair will be measured (NCT03270514)
Timeframe: From time of end of surgery to time of mobilization up to 72 hours post-operatively

Post-operative Nausea and Vomiting

Whether a patient experiences at least one episode of nausea and emesis will be measured (NCT03270514)
Timeframe: From time of end of surgery to 72 hours post-operatively

Re-intubation

Instances of re-intubation will be recorded (NCT03270514)
Timeframe: From time of end of surgery to patient discharge up to one week

Time to Extubation

The time it takes until the patient is extubated post-operatively will be measured (NCT03270514)
Timeframe: From the end of surgery until the patient is extubated up to 72 hours post-operatively

Use of Incentive Spirometry

Frequency of incentive spirometry will be measured (NCT03270514)
Timeframe: From time of end of surgery to 72 hours post-operatively

Length of Hospital and ICU Stay

Length of both hospital and ICU stay will be measured (NCT03270514)
Timeframe: From date of surgery assessed up to 30 day post-operatively

Post-operative Pain Intensity

Postoperative pain scores evaluated by numeric rating scale or (NRS) where 0- no pain and 10- worst pain, at rest and at movement (NCT03270514)
Timeframe: NRS scores will be evaluated every 4 hours until 24 hours post-operatively, every 8 hours until 48 hours post-operatively, and every 12 hours for 72 hours post-operatively

Serum Cortisol Levels

Stress response suppression as a result of treatment will be evaluated by comparing hormone levels between the groups. Serum cortisol levels will be taken to measure this. (NCT03270514)
Timeframe: Measured 8, 48, and 72 hours post-operatively

Total Narcotic Consumption

All narcotics administered in the first 0-8, 8-24, 24-48, and 48-72 hours and the total narcotics administered in the 0-72 hours postoperative period(PCA narcotics, nurse-administered IV narcotics, and oral narcotics). All narcotics will be converted to total IV morphine equivalent for comparison between two groups. (NCT03270514)
Timeframe: 0-72 hours post-operative period

Patient Satisfaction Score at 24 Hours

patient satisfaction is measured as minimum to maximum 1-5; the higher the score the better satisfied (very unsatisfied, unsatisfied, neutral, satisfied, very satisfied) (NCT04003987)
Timeframe: 24 hours after surgery

Patient Satisfaction Score at 48 Hours

Visual Analogue Scale (VAS) Pain Scores at Rest at 1 Hour.

Visual Analogue Scale (VAS) score taken at rest is measured as minimal to maximal; higher values mean worse pain (scale 0-10) (NCT04003987)
Timeframe: 1 hour after surgery

Visual Analogue Scale (VAS) Pain Scores at Rest at 24 Hours.

Visual Analogue Scale (VAS) score taken at rest measured as minimal to maximal; higher values mean worse pain (scale 0-10) (NCT04003987)
Timeframe: 24 hours after surgery

Visual Analogue Scale (VAS) Pain Scores at Rest at 48 Hours.

Visual Analogue Scale (VAS) score taken at rest measured as minimal to maximal; higher values mean worse pain(scale 0-10) (NCT04003987)
Timeframe: 48 hours after surgery

Visual Analogue Scale (VAS) Pain Scores With Movement at 1 Hour.

Visual Analogue Scale (VAS) score taken with movement is measured as minimal to maximal; higher values mean worse pain (scale 0-10) (NCT04003987)
Timeframe: 1 hour after surgery

Visual Analogue Scale (VAS) Pain Scores With Movement at 24 Hours.

Visual Analogue Scale (VAS) score taken with movement measured as minimal to maximal; higher values mean worse pain (scale 0-10) (NCT04003987)
Timeframe: 24 hours after surgery

Visual Analogue Scale (VAS) Pain Scores With Movement at 48 Hours.

Visual Analogue Scale (VAS) score taken with movement measured as minimal to maximal; higher values mean worse pain(scale 0-10) (NCT04003987)
Timeframe: 48 hours after surgery

Post-operative Opioid Consumption (mg/kg)

Total amount of opioids consumed during the first 72 hours after surgery. (NCT02558010)
Timeframe: 72 hours

Difference in Pain Control When Adding Gabapentin to a Multimodal Pain Management Protocol in Pediatric Post-operative Posterior Spinal Fusion Patients.

"Patients will rate their pain using the Visual Analog Pain Scale (VAS). The VAS is a 10 cm line with anchors of no pain and worst pain imaginable. Patients rate their pain by marking on the 10 cm line where they feel their pain is at the time. The mark is then measured according to where it is along the 10 cm line and reported (range is 0.0 at the no pain end on the left up to 10.0 at the worst pain imaginable on the right). Lower pain scores on the VAS scale are considered a better outcome. The numbers seen in the outcome measure data table below represent an average of the total postoperative VAS scores recorded for each patient from each arm for the duration of their hospital stay." (NCT01977937)
Timeframe: five days

Opiate Usage in the Gabapentin Group Versus Control.

Total the amount of Hydromorphone and Oxycodone used in milligrams per kilogram in each patient post-operatively, convert this amount to morphine equivalents, and determine if there is a significant difference between the Gabapentin versus Placebo group. (NCT01977937)
Timeframe: Five Days

Number of Participants With Chronic Persistent Pain 3 Months After Surgery as Determined by Character Severity (Yes/no).

The participants development of chronic persistent pain 3 months after surgery as determined by character severity (yes/no). (NCT01619852)
Timeframe: 3 months

Opioid Consumption

The amount of opioid analgesics consumed was converted to an equivalent dose of intravenous morphine. (NCT01619852)
Timeframe: 24 hours

Postoperative Pain

Postoperative pain within the first 24 hours. Area under the numeric rating scale for pain versus time curve during the first 24 hours after surgery (score * hr). Numeric rating scale for pain on a scale of 0-10 (0 is no pain and 10 is high pain) versus time curve during the first 24 hours ( score * hr). The pain scores were collected upon arrival to recovery area, 30 minutes, 1 hour and every 6 hours up to 24 hours following the procedure. Minimum score is 60, Maximum score is 170. A higher value indicates more pain. (NCT01619852)
Timeframe: 24 hours

Quality of Recovery

Quality of recovery (QoR-40 instrument) is a 40-item questionnaire that provides a global score and sub-scores across five dimensions: patient support, comfort, emotions, physical independence, and pain. Score range: 40 to 200. A score of 40 demonstrates poor recovery and a maximum score of 200 represents good recovery. The higher the score the better recovery after surgery. (NCT01619852)
Timeframe: 24 hours post operative

Post-surgical Persistent Pain Using Validated Questionnaires (S-LANNS Questionnaire, McGill Questionnaire, Brief Pain Inventory) to Assess Pain Qualities in Accordance With IMMPACT Recommendations.

The development of chronic pain 3 months after surgery determined by the Leads Assessment of Neuropathic Symptoms and Signs (LANSS) scale, a valid 7-item tool for identifying patients whose pain is dominated by neuropathic mechanisms. Each item is a binary response (yes or no) to the presence of symptoms (5 items) or clinical signs (2 items), range 0-24 points. A score ≥ 12, neuropathic mechanisms are likely to be contributing to the patient's pain. A score < 12 is unlikely to be contributing. McGill questionnaire (Sensory domain) - 11 descriptors rated on an intensity scale as 0=none, 1=mild, 2=moderate, 3=severe. The higher the score, greater the pain (range 0-33). McGill questionnaire (Motivational-affective) 4 affect descriptors rated on an intensity scale as 0=none, 1=mild, 2=moderate, 3=severe.The higher the score the greater the pain (range 0-12) Brief pain inventory - pain severity (0, no pain, 10 excruciating pain); Greater the score; greater the pain (range 0-10). (NCT01619852)
Timeframe: 3 months

Narcotic Utilization

"total narcotic utilization measured with Morphine Milligram Equivalent (MME)~The conversion scale being used will be the Center for Disease Control and Prevention Morphine Equivalent Score.~Lower scores represent less opioid use and a better outcome. Higher scores represent more opioid use and a worse outcome." (NCT03330119)
Timeframe: From time of consent until hospital discharge (3 days)

Average Pain Score at Rest

Pain scores every 4 hours for 48 hours postoperatively, utilizing the numeric rating scale with 0 being no pain and 10 the most severe pain you can imagine. (NCT00588159)
Timeframe: 48 hours

Average Pain Score With Coughing on Second Morning After Surgery

Numeric rating scale pain score with coughing on second morning after surgery, range 0-10. (NCT00588159)
Timeframe: Second morning after surgery

Average Pain Score With Coughing the First Morning Following Surgery

Patients were asked on the first morning following surgery how they rated their pain with coughing utilizing the Numeric Rating Scale for pain, with 0 being no pain and 10 being the worst pain imaginable. The range is 0-10. (NCT00588159)
Timeframe: First morning following surgery

Number of Participants With Pain at Thoracotomy Site 3 Months Postoperatively

Patients were contacted at 3 months post-thoracotomy and asked if they had pain at the thoracotomy site. We observed the number of participants with the presence of pain at thoracotomy site at 3 months postoperatively. (NCT00588159)
Timeframe: 3 months postoperatively

Opioid Consumption in First 24 Hours Postoperatively

Opioid Consumption in Second 24 Hour Hour Period (Hours 24-48) Postoperatively

Opioid equivalents (parenteral and/or oral) utilized by patient between hours 24-48 postoperatively (NCT00588159)
Timeframe: 48 hours postoperatively

Mean VAS Pain (Visual Analogue Scale)at Rest (0-100 mm)

The visual analogue scale (VAS) was used for registration of the pain intensity at rest. The score ranges from 0-100, where 0 means no pain and 100 means maximal pain. Higher values represent a worse outcome. (NCT00353704)
Timeframe: 120 minutes after surgery

Morphine (Opioid) Consumption Cumulated

"Patients were equipped with a morphine PCA (patient controlled analgesia) for 24 hours after surgery. So they could administrate morphine intravenously by pressing a button. The sum of morphine was registered as cumulated opioid consumption (milligram)" (NCT00353704)
Timeframe: 240 minutes

Difference in Psychological Outcomes on the Sickness Inventory Profile (SIP)

The sickness inventory profile (SIP) is a behaviorally based measure of health status. Scores range from 0-68 with higher numbers indicating worse outcomes. The study report total SIP score. The higher the score the worse the function. (NCT01265056)
Timeframe: First Clinic Follow Up After Discharge

Opioid Consumption Between the Treatment and the Control Groups (Morphine Equivalents)

(NCT01265056)
Timeframe: From time of enrollment to 2 weeks after being discharged

Psychological Functioning as Evaluated by the Brief Symptom Inventory (BSI) Between Treatment and Placebo Groups

The Brief Symptom Inventory 18 (BSI 18) is designed with reliability in mind. The BSI 18 assessment gathers patient-reported data to help measure psychological distress and psychiatric disorders in medical and community populations. As the latest in an integrated series of test instruments that include the SCL-90-R®, BSI® (53 questions), and DPRS® instruments, the BSI 18 test offers a more effective, easy-to-administer tool to help support clinical decision-making and monitor progress throughout treatment. BSI-18 measures three dimensions with 6 questions a piece (somatization , depression , anxiety) and overall psychological distress scores (Global severity index, GSI). Each of the 18 items range from a score of 0-4; total score ranges from 0-72 with higher scores indicating worse function. The GSI score is calculated as the mean of the three subscales. The study reported the GSI score. Higher score is worse. (NCT01265056)
Timeframe: First Clinic Follow Up After Discharge

Evaluate Incidence of Respiratory Depression as Evidenced by Pulse Oximetry Data

Evaluate the Amount of Diluadid Given Postoperatively

The amount of intraoperative and postoperative opioids used will be collected and analyzed for the three different arms. (NCT00886236)
Timeframe: 120 hours

Number of Participants Who Experience Incidence of Postoperative Nausea.

Hematocrit (HCT)

Lab values at latest available follow-up date per participant. These tests are performed as part of routine clinical care on patients undergoing HSCT. (NCT01700816)
Timeframe: From admission to hospital to discharge, an expected average of 28 days post-transplant

Hemoglobin (HGB)

Hospital Length of Stay

(NCT01700816)
Timeframe: From admission to hospital to discharge, an expected average of 28 days post-transplant

Number of Participants Who Developed Delirium Based on Meeting Criteria on the Delirium Rating Scale and/or Memorial Delirium Assessment Scale

Monday, Wednesday, and Friday assessments will begin after beginning light therapy and include the Delirium Rating Scale-Revised-98 (DRS-98)and Memorial Delirium Assessment Scale (MDAS) (NCT01700816)
Timeframe: From hospital admission until the date of first documented delirium, assessed up to 28 days post-transplant

Platelet Count

Red Blood Cells (RBC)

Severity of Delirium Episodes: Memorial Delirium Assessment Scale (MDAS)

"Monday, Wednesday, and Friday assessments of the Memorial Delirium Assessment Scale (MDAS); Patients will receive assessments after beginning light therapy until day 28 post-transplant or discharge, whichever comes first.~10 item scale Items are rated on a four-point scale from 0 (none) to 3 (severe) depending on the level of impairment, rendering a maximum possible score of 30.~A score of 13 has been recommended as a cut-off for establishing the diagnosis of delirium" (NCT01700816)
Timeframe: From first documented episode of delirium until discharge from the hospital, assessed up to 28 days post-transplant

White Blood Cells (WBC)

Serum Creatinine and Blood Urea Nitrogen (BUN)

Sodium (Na), Potassium (K), Chloride (Cl), and Carbon Dioxide (CO2)

Lab values at latest available follow-up date per participant. These tests are performed as part of routine clinical care on patients undergoing HSCT (Hematopoietic Stem Cell Transplantation). (NCT01700816)
Timeframe: From admission to hospital to discharge, an expected average of 28 days post-transplant

Hospital Length of Stay

Incidence of Postoperative Delirium by Study Group

Number of subjects who developed postoperative delirium, as measured by the Confusion Assessment Method, a validated tool for assessing delirium based on DSM-III-R, on any of the first three postoperative days. (NCT00221338)
Timeframe: postoperative days 1, 2 and 3

Median Postoperative Opioid Doses Across Study Follow up Period

Postoperative intravenous opioid doses converted to morphine equivalents. Median derived from total opioid doses on first, second and third postoperative days. (NCT00221338)
Timeframe: Study follow up period: postoperative days 1, 2 and 3

Postoperative Pain Score - Postoperative Day 1

Postoperative pain as measured by Visual Analog Pain scale (0=no pain, 10=worst pain imaginable). (NCT00221338)
Timeframe: Postoperative day 1

Postoperative Pain Score - Postoperative Day 2

Postoperative pain as measured by Visual Analog Pain scale (0=no pain, 10=worst pain imaginable). (NCT00221338)
Timeframe: Postoperative day 2

Postoperative Pain Score - Postoperative Day 3

Postoperative pain as measured by Visual Analog Pain scale (0=no pain, 10=worst pain imaginable). (NCT00221338)
Timeframe: Postoperative day 3

Prefrontal GABA+ Concentrations

Concentrations of GABA+, referenced to unsuppressed water and corrected for within-voxel CSF proportion, in dorsal anterior cingulate cortex measured via Proton Magnetic Resonance Spectroscopy (i.e., MEGA-PRESS). (NCT03220776)
Timeframe: Day 5 of each experimental condition

Prefrontal Glx Concentrations

Concentrations of Glx (i.e., glutamate + glutamine), referenced to unsuppressed water and corrected for within-voxel CSF proportion, in dorsal anterior cingulate cortex measured via Proton Magnetic Resonance Spectroscopy. (NCT03220776)
Timeframe: Day 5 of each experimental condition

Numerical Pain Rating Scale Score on Day of Surgery

Pain scores based on a scale of 0 to 10 with 0 being no pain and 10 being the worst pain imaginable. (NCT01366196)
Timeframe: Day of Surgery

Numerical Pain Rating Scale Score on Postoperative Day 1 at Rest

Pain scores based on a scale of 0 to 10 with 0 being no pain and 10 being the worst pain imaginable. (NCT01366196)
Timeframe: Postoperative Day 1 at rest

Numerical Pain Rating Scale Score With Physical Therapy on Postoperative Day 1

Pain scores based on a scale of 0 to 10 with 0 being no pain and 10 being the worst pain imaginable. (NCT01366196)
Timeframe: Postoperative Day 1 with Physical Therapy

Oral Analgesic Supplementation Use

Tabulate number of patients that used supplemental oral analgesics (NCT01366196)
Timeframe: Day of surgery

Intervention	mm (Mean)
	Post-operative Day 1 7AM	Post-operative Day 1 10AM	Post-operative Day 1 7PM	Post-operative Day 2 7AM	Post-operative Day 2 10AM	Post-operative Day 2 7PM	Post-operative Day 3 7AM
Gabapentin	36	36	34	34	28	30	27
Placebo	46	45	41	39	39	45	39

Intervention	Participants (Count of Participants)
No Choice	11
Choice: Low Protocol	7
Choice: Medium Protocol	33
Choice: High Protocol	10

Intervention	minutes (Mean)
No Choice	4771.9
Choice: Low Protocol	4652.1
Choice: Medium Protocol	5278.9
Choice: High Protocol	5722.3

Intervention	vomiting episodes (Mean)
	0-24 hours after delivery	24-48 hours after delivery
Choice: High Protocol	1.3	0
Choice: Low Protocol	0.3	0
Choice: Medium Protocol	0.5	0
No Choice	0.6	0

Intervention	milligram morphine equivalents (MMEQ) (Median)
	0-24 hours	24-48 hours
Choice: High Protocol	5	30
Choice: Low Protocol	5	0
Choice: Medium Protocol	10	5
No Choice	10	10

Intervention	units on a scale (Mean)
	Pain at rest at 3 hours	Pain at movement at 3 hours	Pain at rest at 6 hours	Pain at movement at 6 hours	Pain at rest at 12 hours	Pain at movement at 12 hours	Pain at rest at 24 hours	Pain at movement at 24 hours	Pain at rest tat 36 hours	Pain at movement at 36 hours	Pain at rest at 48 hours	Pain at movement at 48 hours
Choice: High Protocol	2.2	4.1	1.5	3.8	1.7	3.2	2.3	3.6	3.1	4.8	3.3	4.8
Choice: Low Protocol	1.8	3.4	2.7	4.4	2.1	4.7	1.9	4.1	1.7	4.0	2.0	3.9
Choice: Medium Protocol	1.9	3.2	2.2	3.8	1.9	3.6	2.2	4.3	2.6	4.5	2.0	3.6
No Choice	1.6	3.2	2.3	4.0	1.5	3.0	2.2	4.5	1.5	3.5	1.7	3.5

Intervention	units on a scale (Mean)
	24 hours after delivery	48 hours after delivery
Choice: High Protocol	93.3	89.3
Choice: Low Protocol	90.3	92.6
Choice: Medium Protocol	94.1	91.2
No Choice	87.2	89.9

Intervention	mg (Median)
	Morphine consumption 6 hr	Morphine consumption 12 hr	Morphine consumption 24 hr
Placebo	1	1	4
Pregabalin	0	1	5

Intervention	Participants (Count of Participants)
	Pruritus72177998				Pruritus72177999	Nausea72177998	Nausea72177999	Vomiting72177998	Vomiting72177999	Dizziness72177998	Dizziness72177999	Visual disturbance72177998	Visual disturbance72177999
	No	Mild	Moderate	Severe
Pregabalin	17
Placebo	35
Pregabalin	31
Placebo	15
Pregabalin	10
Placebo	1
Pregabalin	3
Placebo	18
Pregabalin	23
Placebo	24
Pregabalin	21
Placebo	16
Placebo	31
Pregabalin	38
Placebo	10
Pregabalin	9
Placebo	12
Pregabalin	8
Placebo	5
Pregabalin	6
Pregabalin	14
Pregabalin	39
Placebo	9
Pregabalin	7
Pregabalin	1
Placebo	51
Pregabalin	45
Placebo	7
Pregabalin	16
Placebo	0
Pregabalin	0

Intervention	units on a scale (Least Squares Mean)
	Hour 2	Hour 4	Hour 6	Hour 8
Gabapentin	3.5	5.4	5.3	5.7
Placebo	3.4	5.5	5.8	5.1

Intervention	score on a scale (Median)
	6 Hrs	12 hrs	2 weeks	2 months
Non-Opioid Intervention	0.0	0	0.82	0
Observational	2	4	1.3	0.7

Intervention	days (Median)
	Length of ICU stay	Length of postoperative hospital stay
Bupivacaine Hydrochloride	1.71	6
Exparel Injectable Product	1.51	7

Intervention	score on a scale (Mean)
	4hrs. at rest	4hrs. with movement	8hrs. at rest	8hrs. with movement	12hrs. at rest	12hrs. with movement	16hrs. at rest	16hrs. with movement	20hrs. at rest	20hrs. with movement	24hrs. at rest	24hrs. with movement	32hrs. at rest	32hrs. with movement	40hrs. at rest	40hrs. with movement	48hrs. at rest	48hrs. with movement	60hrs. at rest	60hrs. with movement	72hrs. at rest	72hrs. with movement
Bupivacaine Hydrochloride	5.03	6.64	4.996	6.6	4.962	6.56	4.928	6.52	4.894	6.48	4.86	6.44	4.792	6.32	4.724	6.24	4.656	6.16	4.554	6.04	4.452	5.92
Exparel Injectable Product	4.7482	5.75	4.7262	5.74	4.7042	5.73	4.6822	5.72	4.6602	5.71	4.6382	5.7	4.5942	5.68	4.5282	5.66	4.4622	5.64	4.3742	5.61	4.2862	5.58

Intervention	µg/dL (Median)
	8 hours postoperatively	48 hours postoperatively	72 hours postoperatively
Bupivacaine Hydrochloride	36.5	19	17
Exparel Injectable Product	30	15	16

Intervention	oral morphine equivalents in mg (Median)
	0-8 hours	8-24 hours	24-48 hours	48-72 hours	0-72 hours
Bupivacaine Hydrochloride	10	34.5	45	26.5	105
Exparel Injectable Product	15	45	45	15	139

Intervention	units on a scale (Median)
	S-LANNS	McGill Questionaire-Sensory Discrimation	McGill Questionaire-Motivational-affective	Brief Pain Inventory
.9% Normal Saline Placebo	3	3	0	1
Group L	3	4	0	1

Intervention	% oxygen saturation (Mean)
1 Preoperative Gabapentin Liquid	93
2 Preoperative and Postoperative Gabapentin Liquid	94
3 Preoperative and Postoperative Placebo Liquid	95

Intervention	ml (Mean)
1 Preoperative Gabapentin Liquid	11.035
2 Preoperative and Postoperative Gabapentin Liquid	8.7
3 Preoperative and Postoperative Placebo Liquid	12.4

Intervention	mg/dl (Median)
	Serum Creatinine	Blood Urea Nitrogen (BUN)
Bright Light Therapy	0.66	9
Sham Light	0.75	8.5

Intervention	mmol/L (Median)
	Sodium (Na)	Potassium (K)	Chloride (Cl)	Carbon Dioxide (CO2)
Bright Light Therapy	139	3.6	105	24.9
Sham Light	138.0	3.80	103.0	25.10

Intervention	mmol/kg (Mean)
N-Acetylcysteine	21.59
Gabapentin	21.69
Placebo Oral Tablet	22.25