lactic acid and Hemorrhagic Shock studies

Lactic Acid: A normal intermediate in the fermentation (oxidation, metabolism) of sugar. The concentrated form is used internally to prevent gastrointestinal fermentation. (From Stedman, 26th ed)
2-hydroxypropanoic acid : A 2-hydroxy monocarboxylic acid that is propanoic acid in which one of the alpha-hydrogens is replaced by a hydroxy group.

Research Excerpts

Excerpt	Relevance	Reference
"In order to study the clinical effects of naloxone on hemorrhagic shock, 21 patients with moderate hemorrhagic shock were randomly divided into two groups."	9.08	[Clinical effects of naloxone on hemorrhagic shock]. ( Lu, H; Sheng, Z; Xu, G, 1995)
"To compare the effect of various fluid resuscitation procedures after hemorrhagic shock on the lactic acid accumulation by network meta-analysis."	7.91	The influence of different resuscitation solution on lactic acid accumulation after hemorrhagic shock: a network meta-analysis. ( Chen, WX; Li, ZB; Wen, DL; Wu, XQ; Xiong, XM; Zhang, ZH, 2019)
"Therapeutic effects of continuous intravenous infusions of solvent-free low doses of resveratrol on organ injury and systemic consequences resulting from severe hemorrhagic shock in rats were studied."	7.85	Attenuation of Multiple Organ Damage by Continuous Low-Dose Solvent-Free Infusions of Resveratrol after Severe Hemorrhagic Shock in Rats. ( Kirsch, M; Müller, T; Petrat, F, 2017)
"Lactic acidosis is a life-threatening complication of hemorrhagic shock."	7.79	Pyruvate Ringer's solution corrects lactic acidosis and prolongs survival during hemorrhagic shock in rats. ( Bai, XD; Fang, T; Hu, S; Liu, XQ; Wang, HB; Zhong, YX; Zhou, FQ, 2013)
"Diaspirin cross-linked hemoglobin (DCLHb) has demonstrated a pressor effect that could adversely affect traumatic hemorrhagic shock patients through diminished perfusion to vital organs, causing base deficit (BD) and lactate abnormalities."	7.76	Diaspirin cross-linked hemoglobin infusion did not influence base deficit and lactic acid levels in two clinical trials of traumatic hemorrhagic shock patient resuscitation. ( Gao, W; Koenigsberg, MD; Philbin, NB; Sloan, EP, 2010)
"To evaluate the effects of methylene blue (MB) on refractory hemorrhagic shock."	7.74	[Effects of methylene blue on refractory hemorrhagic shock]. ( Wang, HL; Wang, Z; Yu, CH; Yu, XZ; Zhu, HD, 2008)
"Hemorrhagic shock altered the pharmacokinetics and pharmacodynamics of propofol."	7.72	The influence of hemorrhagic shock on propofol: a pharmacokinetic and pharmacodynamic analysis. ( Church, T; Egan, TD; Johnson, KB; Kern, SE; McJames, SW; Syroid, N; Whiddon, D; White, JL, 2003)
"Resuscitation after refractory hemorrhagic shock using a combination of methylene blue and limited-volume lactated Ringer's solution improves prehospital survival and hemodynamic stability and reduces ischemic damage in an acute setting."	7.72	Methylene blue enhancement of resuscitation after refractory hemorrhagic shock. ( Chitwood, WR; Ghiassi, S; Kim, VB; Nifong, LW; Rotondo, MF; Scott, CM; Sun, YS, 2004)
"Hemorrhagic shock is associated with lactic acidosis and increased plasma catecholamines."	7.70	Adrenergic antagonists reduce lactic acidosis in response to hemorrhagic shock. ( Frame, SB; Friend, LA; James, JH; Luchette, FA; McCarter, F; Robinson, BR, 1999)
"A patient with acute copper sulfate poisoning was found to have maintained a relatively oxidized hepatic mitochondrial redox state in spite of his being in refractory shock."	7.69	Redox state in liver mitochondria in acute copper sulfate poisoning. ( Kobayashi, K; Nakatani, T; Spolter, L, 1994)
"In this acute, nonresuscitated, canine hemorrhagic shock model, pentoxifylline did not act as a vasodilator, or have any significant effect on HR, cardiac output, oxygen transport, or lactic acidosis."	7.68	Effects of pentoxifylline on hemodynamics, oxygen transport, and tissue metabolism in experimental, severe hemorrhagic shock. ( Amin, D; Benjamin, E; Fischer, E; Iberti, TJ; Jacobs, E; Klapholtz, A; Oropello, JM, 1991)
"The influence of hemorrhagic shock on hepatic energy metabolism was investigated in carbon tetrachloride (CCl4)-induced cirrhotic rat."	7.67	Influence of hemorrhagic shock on hepatic energy metabolism in carbon tetrachloride-induced cirrhotic rats. ( Ikai, I; Morimoto, T; Ozaki, N; Ozawa, K; Shimahara, Y; Tanaka, A; Tokunaga, Y; Wakashiro, S, 1988)
"Metabolic acidosis is one of the many metabolic derangements triggered by severe trauma/hemorrhagic shock, also including enhanced proteolysis, lipid mobilization, as well as traumatic diabetes."	5.43	Plasma First Resuscitation Reduces Lactate Acidosis, Enhances Redox Homeostasis, Amino Acid and Purine Catabolism in a Rat Model of Profound Hemorrhagic Shock. ( Banerjee, A; Chapman, MP; D'Alessandro, A; Fragoso, M; Gonzalez, E; Hansen, KC; Moore, EE; Moore, HB; Morton, AP; Nemkov, T; Sauaia, A; Silliman, CC; Slaughter, A; Wither, MJ, 2016)
"Deltorphin E was investigated as a pharmaceutical intervention in the ischemic hemorrhagic model."	5.35	Post-treatment with the novel deltorphin E, a delta2-opioid receptor agonist, increases recovery and survival after severe hemorrhagic shock in behaving rats. ( Govindaswami, M; Oeltgen, P; Rutten, M; Sonneborn, JS, 2008)
"Prolonged hemorrhagic shock is characterized by the progression from hyperglycemia to hypoglycemia and failure to respond to standard methods of resuscitation."	5.29	Diltiazem preserves hepatic gluconeogenesis following hemorrhagic shock. ( Drourr, N; Geller, ER; Higgins, LD; Maitra, SR, 1993)
"Diltiazem treatment significantly reduced the plasma glucose and heart rate during hemorrhagic shock (P less than 0."	5.28	Beneficial effects of diltiazem in hemorrhagic shock. ( Dulchavsky, SA; Geller, ER; Kreis, DJ; Krikhely, M; Maitra, SR, 1991)
"In order to study the clinical effects of naloxone on hemorrhagic shock, 21 patients with moderate hemorrhagic shock were randomly divided into two groups."	5.08	[Clinical effects of naloxone on hemorrhagic shock]. ( Lu, H; Sheng, Z; Xu, G, 1995)
" This review discusses 3 issues that concern homeostasis in the acute care of trauma patients directly related to the stress response: hyperglycemia, lactic acidosis, and hypothermia."	4.89	Trauma and aggressive homeostasis management. ( Baranov, D; Neligan, PJ, 2013)
"Three important issues concerning homeostasis in the acute care of trauma patients that are related directly to the stress response are hyperglycemia, lactic acidosis, and hypothermia."	4.84	Trauma and aggressive homeostasis management. ( Baranov, D; Neligan, P, 2007)
"Therapeutic effects of continuous intravenous infusions of solvent-free low doses of resveratrol on organ injury and systemic consequences resulting from severe hemorrhagic shock in rats were studied."	3.85	Attenuation of Multiple Organ Damage by Continuous Low-Dose Solvent-Free Infusions of Resveratrol after Severe Hemorrhagic Shock in Rats. ( Kirsch, M; Müller, T; Petrat, F, 2017)
"This study examined the effects of polyethylene oxide (PEO) on the survival rate, hemodynamics, blood gas indexes, lactic acid levels, microcirculation, and inflammatory cytokine levels in rats subjected to severe hemorrhagic shock."	3.81	Protective effects of polyethylene oxide on the vascular and organ function of rats with severe hemorrhagic shock. ( Dong, Z; Huang, T; Li, Q, 2015)
"Flutamide failed to show any benefit to resuscitation in a model of severe injury and was associated with increased acidosis, hemodilution, and liver injury compared with standard crystalloid resuscitation."	3.79	Flutamide fails to reduce resuscitation requirements in a porcine ischemia-reperfusion model. ( Hempel, J; Hoffer, Z; Martin, M; Satterly, SA; Stallings, JD; Wingerd, M, 2013)
"Lactic acidosis is a life-threatening complication of hemorrhagic shock."	3.79	Pyruvate Ringer's solution corrects lactic acidosis and prolongs survival during hemorrhagic shock in rats. ( Bai, XD; Fang, T; Hu, S; Liu, XQ; Wang, HB; Zhong, YX; Zhou, FQ, 2013)
" We investigated the effect of the LXRα agonist, T0901317, on lung inflammation in a rodent model of hemorrhagic shock."	3.77	Liver X receptor α activation with the synthetic ligand T0901317 reduces lung injury and inflammation after hemorrhage and resuscitation via inhibition of the nuclear factor κB pathway. ( Denenberg, A; Hake, PW; Lentsch, A; O'Connor, M; Piraino, G; Solan, PD; Zingarelli, B, 2011)
"Diaspirin cross-linked hemoglobin (DCLHb) has demonstrated a pressor effect that could adversely affect traumatic hemorrhagic shock patients through diminished perfusion to vital organs, causing base deficit (BD) and lactate abnormalities."	3.76	Diaspirin cross-linked hemoglobin infusion did not influence base deficit and lactic acid levels in two clinical trials of traumatic hemorrhagic shock patient resuscitation. ( Gao, W; Koenigsberg, MD; Philbin, NB; Sloan, EP, 2010)
"To evaluate the effects of methylene blue (MB) on refractory hemorrhagic shock."	3.74	[Effects of methylene blue on refractory hemorrhagic shock]. ( Wang, HL; Wang, Z; Yu, CH; Yu, XZ; Zhu, HD, 2008)
"Hemorrhagic shock altered the pharmacokinetics and pharmacodynamics of propofol."	3.72	The influence of hemorrhagic shock on propofol: a pharmacokinetic and pharmacodynamic analysis. ( Church, T; Egan, TD; Johnson, KB; Kern, SE; McJames, SW; Syroid, N; Whiddon, D; White, JL, 2003)
" The animals developed severe lactic acidosis between 30 and 90 min, which was accompanied by a trend for initial rise and subsequent 40% drop of CH50/mL, indicating massive C activation even before resuscitation, i."	3.72	Complement activation during hemorrhagic shock and resuscitation in swine. ( Alving, CR; Baranyi, L; Bünger, R; Götze, O; Mongan, PD; Savay, S; Szebeni, J, 2003)
"Resuscitation after refractory hemorrhagic shock using a combination of methylene blue and limited-volume lactated Ringer's solution improves prehospital survival and hemodynamic stability and reduces ischemic damage in an acute setting."	3.72	Methylene blue enhancement of resuscitation after refractory hemorrhagic shock. ( Chitwood, WR; Ghiassi, S; Kim, VB; Nifong, LW; Rotondo, MF; Scott, CM; Sun, YS, 2004)
" This study evaluates the effects of hemorrhagic shock, with and without combined alpha- and beta-adrenergic receptor blockade, on lactate production, glycogenolysis, Na(+)-K(+) pump activity, and high-energy phosphates in rat skeletal muscle."	3.71	Adrenergic blockade reduces skeletal muscle glycolysis and Na(+), K(+)-ATPase activity during hemorrhage. ( Evans, JM; Fischer, JE; Friend, LA; George, MA; James, JH; King, JK; Luchette, FA; McCarter, FD; Wang, L, 2001)
"Hemorrhagic shock is associated with lactic acidosis and increased plasma catecholamines."	3.70	Adrenergic antagonists reduce lactic acidosis in response to hemorrhagic shock. ( Frame, SB; Friend, LA; James, JH; Luchette, FA; McCarter, F; Robinson, BR, 1999)
"We investigated the effect of hemorrhagic shock and reinfusion on the cardiac function and contractility, plasma CK and CK-MB activity and lactate concentration, oxyradical-producing activity of polymorphonuclear leukocytes (PMNL-CL), cardiac chemiluminescence (LV-CL), antioxidant enzyme activity [superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GSH-PX)] and malondialdehyde (MDA) concentration in anesthetized dogs to determine the role of oxyradicals in cardiac depression and cellular injury in hemorrhagic shock and reinfusion."	3.69	Cardiac depression and cellular injury in hemorrhagic shock and reinfusion: role of free radicals. ( Kalra, J; Kapoor, R; Prasad, K, 1997)
"A patient with acute copper sulfate poisoning was found to have maintained a relatively oxidized hepatic mitochondrial redox state in spite of his being in refractory shock."	3.69	Redox state in liver mitochondria in acute copper sulfate poisoning. ( Kobayashi, K; Nakatani, T; Spolter, L, 1994)
"We investigated the effects of hemorrhagic shock and reinfusion on the cardiac function and contractility, plasma CK and CK-MB activity and lactate concentration, oxyradical-producing activity of polymorphonuclear leukocytes (PMNL-CL), cardiac chemiluminescence (LV-CL), antioxidant enzymatic activity [superoxide dismutase (SOD), catalase, glutathione peroxidase (GSH-Px)], and malondialdehyde (MDA) concentration in anesthetized dogs, to determine the role of oxyradicals in cardiac depression and cellular injury in hemorrhagic shock and reinfusion."	3.69	Role of oxyradicals in cardiovascular depression and cellular injury in hemorrhagic shock and reinfusion: effect of SOD and catalase. ( Kapoor, R; Prasad, K, 1994)
"In this acute, nonresuscitated, canine hemorrhagic shock model, pentoxifylline did not act as a vasodilator, or have any significant effect on HR, cardiac output, oxygen transport, or lactic acidosis."	3.68	Effects of pentoxifylline on hemodynamics, oxygen transport, and tissue metabolism in experimental, severe hemorrhagic shock. ( Amin, D; Benjamin, E; Fischer, E; Iberti, TJ; Jacobs, E; Klapholtz, A; Oropello, JM, 1991)
"The influence of hemorrhagic shock on hepatic energy metabolism was investigated in carbon tetrachloride (CCl4)-induced cirrhotic rat."	3.67	Influence of hemorrhagic shock on hepatic energy metabolism in carbon tetrachloride-induced cirrhotic rats. ( Ikai, I; Morimoto, T; Ozaki, N; Ozawa, K; Shimahara, Y; Tanaka, A; Tokunaga, Y; Wakashiro, S, 1988)
" In contrast to the liver, soleus muscle showed no change in the levels of glycogen, ATP, CrP, free creatine, or total creatine compared to time-matched controls in any phase of hemorrhagic shock suggesting the absence of significant muscle ischemia."	3.67	Phase-related changes in tissue energy reserves during hemorrhagic shock. ( Connett, RJ; Drucker, WR; Pearce, FJ, 1985)
"Thus, reducing the severity of hemorrhagic shock appears to be one mechanism of prehospital plasma benefit."	3.01	Lactate as a mediator of prehospital plasma mortality reduction in hemorrhagic shock. ( Brown, JB; Canton, SP; Claridge, JA; Daley, BJ; Guyette, FX; Harbrecht, BG; Lutfi, W; Miller, RS; Phelan, HA; Sperry, JL, 2021)
"Group IV mice had the least acute lung injury, with no detectable interleukin-6 response."	2.70	Improved resuscitation minimizes respiratory dysfunction and blunts interleukin-6 and nuclear factor-kappa B activation after traumatic hemorrhage. ( Claridge, JA; Schulman, AM; Young, JS, 2002)
"According to the early response, hemorrhagic shock, circulating interleukin-6, need for vasopressor therapy, subsequent organ dysfunction and infection, and outcomes were studied."	2.70	Cortisol response to corticotropin stimulation in trauma patients: influence of hemorrhagic shock. ( Asehnoune, K; Benhamou, D; Brailly-Tabard, S; Edouard, AR; Hoen, S; Mazoit, JX; Moine, P, 2002)
"In addition, the management of hemorrhagic shock is continuing to evolve and challenge the dogmatic practices of normotensive resuscitation."	2.42	Targeted resuscitation strategies after injury. ( Bilkovski, RN; Horst, HM; Rivers, EP, 2004)
"Twelve pigs were subjected to hemorrhagic shock and 45 min of REBOA."	1.91	Elamipretide mitigates ischemia-reperfusion injury in a swine model of hemorrhagic shock. ( Ewer, N; Ford, R; Hoareau, GL; Johnson, MA; Neff, LP; Patel, N; Van Brocklin, MW; Vapniarsky, N; Williams, TK; Youngquist, ST, 2023)
"Severe hyperlactatemia was associated with death in the ICU (p < 0."	1.72	Severe hyperlactatemia in unselected surgical patients: retrospective analysis of prognostic outcome factors. ( Claus, S; Fichtner-Feigl, S; Kousoulas, L; Lederer, AK; Runkel, M; Spiegelberg, J; Utzolino, S, 2022)
"In a rat model of multiple injuries and hemorrhagic shock, early administration of EVs significantly reduced the elevation of lactate and creatinine and did not significantly enhance coagulopathy in rats with acute traumatic coagulopathy."	1.62	Extracellular vesicles derived from cardiosphere-derived cells as a potential antishock therapeutic. ( Atai, NA; Bynum, JA; Cap, AP; Chance, TC; Garcia-Marcano, J; Gould, SJ; Keesee, JD; Liu, B; Marban, LS; Moseley, JJ; Peck, KA; R-Borlado, L; Rathbone, CR; Salgado, CL; Wu, X, 2021)
"Hemorrhagic shock was induced for 30 minutes while a leg compression device was applied."	1.51	Extracorporeal potassium binding for the management of hyperkalemia in an anephric model of crush injury. ( Beyer, CA; Grayson, JK; Hoareau, GL; Kashtan, H; Ross, JD; Stewart, IJ; Walker, L; Wilson, C; Wishy, A, 2019)
"A rabbit hemorrhagic shock model was developed by bloodletting from the carotid artery."	1.46	Application of pulsed arterial resuscitation in a rabbit model of hemorrhagic shock. ( Qiu, W; Shao, Z; Sun, J; Sun, W; Xu, H, 2017)
"It has higher predictive efficacy in septic shock, especially for 28-day prognosis."	1.46	Clinical study of a new Modified Early Warning System scoring system for rapidly evaluating shock in adults. ( Cao, Y; Qin, Q; Xia, Y, 2017)
"Metabolic acidosis is one of the many metabolic derangements triggered by severe trauma/hemorrhagic shock, also including enhanced proteolysis, lipid mobilization, as well as traumatic diabetes."	1.43	Plasma First Resuscitation Reduces Lactate Acidosis, Enhances Redox Homeostasis, Amino Acid and Purine Catabolism in a Rat Model of Profound Hemorrhagic Shock. ( Banerjee, A; Chapman, MP; D'Alessandro, A; Fragoso, M; Gonzalez, E; Hansen, KC; Moore, EE; Moore, HB; Morton, AP; Nemkov, T; Sauaia, A; Silliman, CC; Slaughter, A; Wither, MJ, 2016)
"Hemorrhagic shock was induced by incremental (0."	1.42	Hypertension and vulnerability to hemorrhagic shock in a rat model. ( Reynolds, PS; Song, KS; Tamariz, FJ; Wayne Barbee, R, 2015)
"However, trauma/hemorrhagic shock triggered severe metabolic derangement, resulting in increased glucose levels, lactate and carboxylic acid accumulation."	1.42	Trauma/hemorrhagic shock instigates aberrant metabolic flux through glycolytic pathways, as revealed by preliminary (13)C-glucose labeling metabolomics. ( Bacon, AW; Banerjee, A; D'Alessandro, A; Fragoso, M; Hansen, KC; Moore, EE; Nemkov, T; Peltz, ED; Silliman, CC; Slaughter, AL; Wither, M, 2015)
"The authors examined the impact of a hemorrhagic shock on the diaphragm."	1.40	Diaphragmatic function is preserved during severe hemorrhagic shock in the rat. ( Carreira, S; Coirault, C; Demoule, A; Lê Dinh, M; Poloujadoff, MP; Riou, B; Similowski, T; Soubeyrand, M, 2014)
"Pressure-controlled hemorrhagic shock was induced in male Sprague-Dawley rats for 1 hour."	1.40	Blood pressure-targeted stepwise resuscitation for hemorrhagic shock in rats. ( Chung, H; Doo, AR; Jo, YH; Kim, J; Kim, K; Kim, MA; Lee, JH; Lee, KB; Lee, MJ; Park, CJ; Rhee, JE, 2014)
"Intestinal ischemia-reperfusion injury is one of the main factors leading to multiple organ failure after resuscitation of prolonged hemorrhagic shock; however, the current conventional fluid resuscitation still cannot effectively reduce intestinal injury caused by prolonged hemorrhagic shock."	1.40	Utilization of extracorporeal membrane oxygenation alleviates intestinal ischemia-reperfusion injury in prolonged hemorrhagic shock animal model. ( Chen, J; Jia, W; Luo, L; Xiao, J; Xiao, Y; Zhao, L, 2014)
"Intestinal ischemia is difficult to diagnose noninvasively."	1.38	Increased circulating D-lactate levels predict risk of mortality after hemorrhage and surgical trauma in baboons. ( Bahrami, S; Hölzenbein, T; Khadem, A; Kröpfl, A; Redl, H; Sobhian, B, 2012)
"In dogs submitted to pressure-guided hemorrhagic shock and fixed-volume resuscitation, the smaller intravascular volume expansion from HHES solutions provides worse recovery of systemic oxygenation and gastric perfusion compared with LR and HES solutions despite its high volume expansion efficiency, which was limited by low infused volume."	1.37	The effects of 6% hydroxyethyl starch-hypertonic saline in resuscitation of dogs with hemorrhagic shock. ( Barros, JM; Braz, JR; Braz, LG; Carvalho, LR; Castiglia, YM; do Nascimento, P; Marinello, JL; Vane, LA, 2011)
"End points of resuscitation in trauma patients are difficult to define."	1.37	Correlation between IVC dimensions and volume status on CT scan. ( Miraflor, E; Sadjadi, J; Strumwasser, A; Victorino, GP; Yeung, L, 2011)
"This experimental protocol of hemorrhagic shock and fluid resuscitation in Landrace-Large White swine may be useful for future study of hemorrhagic shock and acute lung injury."	1.37	A model of hemorrhagic shock and acute lung injury in Landrace-Large White Swine. ( Agrogiannis, GD; Balkamou, XA; Demestiha, TD; Pantazopoulos, IN; Rokas, GI; Skandalakis, PN; Stroumpoulis, KI; Troupis, GT; Xanthos, TT, 2011)
"Anesthetized rats were assigned to sham; brain injury (BI); controlled hemorrhagic shock (CHS); BI combined with CHS (combined injury [CI]); and CI groups resuscitated with 2."	1.36	Moderate Ringer's lactate solution resuscitation yields best neurological outcome in controlled hemorrhagic shock combined with brain injury in rats. ( Brotfain, EM; Dar, DE; Krausz, MM; Leibowitz, A; Semenikhina, L; Shapira, Y; Solopov, A; Soustiel, JF; Zaaroor, M, 2010)
"Upon hemorrhagic shock induction, body temperature, mean arterial pressure, mean pulmonary arterial pressure, cardiac output, cardiac index and oxygen delivery decreased, while lactate and shock index increased."	1.36	Cardiopulmonary effects of hemorrhagic shock in splenic autotransplanted pigs: a new surgical model. ( Dohan Ehrenfest, DM; Kos, J; Lemo, N; Maticić, D; Nesek-Adam, V; Radisić, B; Rumenjak, V; Vnuk, D, 2010)
"The resuscitation strategy for hemorrhagic shock remains controversial, with the kidney being especially prone to hypoxia."	1.36	Fluid resuscitation does not improve renal oxygenation during hemorrhagic shock in rats. ( Balestra, GM; Ince, C; Legrand, M; Lutter, R; Mik, EG; Payen, D; Pirracchio, R, 2010)
"Rodent model of irreversible hemorrhagic shock was reproduced."	1.35	[Hemorrheological changes in irreversible hemorrhagic shock]. ( Su, LY; Wang, B; Wang, ZL; You, GX; Yu, L; Zhao, L; Zhou, H, 2008)
"To study this, male rats underwent trauma-hemorrhage (mean blood pressure approximately 40 mmHg for 90 min) followed by fluid resuscitation."	1.35	Mechanism of estrogen-mediated intestinal protection following trauma-hemorrhage: p38 MAPK-dependent upregulation of HO-1. ( Bland, KI; Chaudry, IH; Choudhry, MA; Hsieh, CH; Hsu, JT; Kan, WH; Schwacha, MG, 2008)
"Early recognition and treatment of hemorrhagic shock after trauma limits multi-organ failure and mortality."	1.35	The utility of base deficit and arterial lactate in differentiating major from minor injury in trauma patients with normal vital signs. ( Anderson, T; Paladino, L; Sinert, R; Wallace, D; Yadav, K; Zehtabchi, S, 2008)
"Six rats died due to hemorrhagic shock by 350 min (Group D) while six rats had survived for the 350 min period after exsanguination (Group A)."	1.35	Utility of microdialysis to detect the lactate/pyruvate ratio in subcutaneous tissue for the reliable monitoring of hemorrhagic shock. ( Fujitani, S; Hosoyama, A; Kawasaki, N; Kobayashi, K; Ohashi, H; Ohashi, M; Taira, Y; Wada, T, 2009)
"Deltorphin E was investigated as a pharmaceutical intervention in the ischemic hemorrhagic model."	1.35	Post-treatment with the novel deltorphin E, a delta2-opioid receptor agonist, increases recovery and survival after severe hemorrhagic shock in behaving rats. ( Govindaswami, M; Oeltgen, P; Rutten, M; Sonneborn, JS, 2008)
"Fluid resuscitation is an important treatment for hemorrhagic shock."	1.35	Effects of different fluid resuscitation speeds on blood glucose and interleukin-1 beta in hemorrhagic shock. ( Chao, YF; Hsu, BG; Hu, TM; Lee, RP; Lin, NT; Peng, TC; Subeq, YM, 2009)
"A model of rat with severe hemorrhagic shock and active bleeding was established in 32 Sprague-Dawley rats."	1.34	Experimental study of controlled fluid resuscitation in the treatment of severe and uncontrolled hemorrhagic shock. ( Bao, DG; Cai, XJ; Gu, LH; Huang, WD; Lu, YQ; Wang, Q, 2007)
"Initial fluid resuscitation of hemorrhagic shock might be enhanced by the infusion of monocarboxylate-energy substrates."	1.34	Hypertonic 15% sodium pyruvate offers no initial resuscitation advantage compared with 8% hypertonic NACl in sheep with multiple hemorrhages. ( do Nascimento, P; Espana, JM; Hoskins, SL; Kinsky, MP; Kramer, GC; Vaid, SU, 2007)
"In this model of hemorrhagic shock, hypertonic HBOC-201- resuscitated pigs had significantly reduced SVR and PVR, as well as mean pulmonary artery pressure (MPAP) and increased cardiac output."	1.34	Resuscitation from hemorrhagic shock comparing standard hemoglobin-based oxygen carrier (HBOC)-201 versus 7.5% hypertonic HBOC-201. ( Brown, R; Huerta, S; Minei, JP; Rivera-Chavez, FA; York, GB, 2007)
"Hemorrhagic shock was induced in five male domestic pigs."	1.33	Increases in both buccal and sublingual partial pressure of carbon dioxide reflect decreases of tissue blood flows in a porcine model during hemorrhagic shock. ( Castillo, C; Csapozi, P; Pellis, T; Sun, S; Tang, W; Weil, MH, 2005)
"A model of rat with severe hemorrhagic shock and active bleeding was established in 32 SD (Sprague-Dawley) rats."	1.33	Effects of three fluid resuscitation methods on apoptosis of visceral organs in rats with hemorrhagic shock. ( Bao, DG; Cai, XJ; Fan, YJ; Gu, LH; Lu, YQ; Wang, Q, 2005)
"Hemorrhagic shock is a common cause of death in emergency rooms."	1.33	The physiological changes of cumulative hemorrhagic shock in conscious rats. ( Chang, FM; Chao, YF; Harn, HJ; Lai, HL; Lee, RP; Liao, KW; Peng, TC, 2006)
"Treatment with candesartan increased EB extravasation in the kidney in normovolaemic controls."	1.33	Effects of candesartan and enalaprilat on the organ-specific microvascular permeability during haemorrhagic shock in rats. ( Binkowski, K; Dendorfer, A; Eichler, W; Klotz, KF; Puchakayala, MR; Schumacher, J, 2006)
"Hemorrhagic shock was induced in 48 anesthetized rats by withdrawing 28 mL/kg blood."	1.33	Fluid resuscitation with hemoglobin-vesicle solution does not increase hypoxia or inflammatory responses in moderate hemorrhagic shock. ( Goto, Y; Horinouchi, H; Miyashita, M; Sakai, H; Sakamoto, A; Terajima, K; Tsuchida, E; Tsueshita, T, 2006)
"The treatment of hemorrhagic shock (HeS) with large volumes of fluid does not ensure an adequate peripheral perfusion or prevent inflammatory activation despite hemodynamic recovery."	1.32	Hypertonic saline improves tissue oxygenation and reduces systemic and pulmonary inflammatory response caused by hemorrhagic shock. ( Birolini, D; da Costa Ferreira Novo, F; Fontes, B; Gurfinkel, V; Poggetti, RS, 2003)
"In an animal model of severe hemorrhagic shock, there was improvement in hemodynamic stability and a prolonged survival with DADLE treatment."	1.32	Effect of a delta receptor agonist on duration of survival during hemorrhagic shock. ( Hildebrandt, D; Li, Z; Summers, RL, 2003)
"32 SD rats were randomly divided into four groups: normal group, model group, low dosage group, (treated with Astragalus membranaceus 10 g x kg(-1)); high dosage group (treated with Astragalus membranaceus 20 g x kg(-1))."	1.32	[Effects of Astragalus membranaceus injection on nitric oxide and endothelin concentration of intestinal mucosa after hemorrhage shock-reperfusion in rats]. ( Chen, BX; Hei, ZQ; Lin, SQ; Liu, KX; Zhang, JJ, 2004)
"We conclude that hemorrhagic shock induces early elevation of phosphomonoesters in skeletal muscle, which correlates with the severity of shock."	1.32	Tissue energetics as measured by nuclear magnetic resonance spectroscopy during hemorrhagic shock. ( Beilman, GJ; Conroy, MJ; Gruessner, A; Hammer, BE; Mulier, KE; Myers, D; Taylor, JH, 2004)
"Cardiac function decreased during hemorrhagic shock but improved significantly in the UTI group after transfusion compared with the control group."	1.32	Protective effect of urinary trypsin inhibitor on myocardial mitochondria during hemorrhagic shock and reperfusion. ( Ikeda, KM; Izumi, T; Masuda, T; Matsunaga, A; Matsuyama, N; Nagasawa, H; Noda, C; Ogura, MN; Sato, K; Shimizu, K, 2003)
"We induced hemorrhagic shock by removing a sufficient quantity of blood to maintain a mean arterial pressure of 50 mm Hg or less for 120 min."	1.31	The effects of interleukin-10 in hemorrhagic shock. ( Cook, JW; Hinds, M; Karakozis, S; Kim, D; Kirkpatrick, JR; Provido, H, 2000)
"In the heart recovering from severe hemorrhagic shock, lactate improves cardiac efficiency in the presence of free fatty acids, possibly by a anaplerosis of the tricarboxylic acid cycle."	1.31	Lactate improves cardiac efficiency after hemorrhagic shock. ( Barbee, RW; Kline, JA; Lopaschuk, GD; Thornton, LR; Watts, JA, 2000)
"Hemorrhagic shock was created by exsanguination of 31."	1.31	Effects of hypertonic saline and dextran 70 on cardiac diastolic function after hemorrhagic shock. ( Ogino, R, 2002)
"Lactate production after hemorrhagic shock may be produced by aerobic glycolysis, which has been linked to activity of the Na+/K+ pump in smooth muscle and other tissues."	1.30	Increased skeletal muscle Na+, K+-ATPase activity as a cause of increased lactate production after hemorrhagic shock. ( Brown, CC; Friend, LA; James, JH; Luchette, FA; Upputuri, RK, 1998)
"Like hemorrhagic shock, highly significant linear correlations were observed between end-tidal PCO2 and cardiac index and between sublingual PCO2 and arterial blood lactate."	1.30	Sublingual capnometry for diagnosis and quantitation of circulatory shock. ( Bisera, J; Jin, X; Nakagawa, Y; Sun, S; Tang, W; Weil, MH; Yamaguchi, H, 1998)
"This quantitative model of hemorrhagic shock showed that tissue oxygenation parameters can be used to monitor the progression from the decompensated phase of hemorrhagic shock to irreversibility."	1.30	Utility of clinical parameters of tissue oxygenation in a quantitative model of irreversible hemorrhagic shock. ( Billiar, TR; Harbrecht, BG; Kelly, E; Marshall, HM; Peitzman, AB; Shah, NS; Udekwu, AO, 1998)
"To determine whether blood lactate, base deficit, or oxygen-derived hemodynamic variables correlate with morbidity and mortality rates in a clinically-relevant LD50 model of penetrating trauma."	1.30	Prognostic value of blood lactate, base deficit, and oxygen-derived variables in an LD50 model of penetrating trauma. ( Croce, MA; Fabian, TC; Melton, SM; Moomey, CB; Proctor, KG, 1999)
"Lactic acidosis was not the cause of the acidemia."	1.29	Hypertonic saline-dextran resuscitation from hemorrhagic shock induces transient mixed acidosis. ( Kramer, GC; Moon, PF, 1995)
"Prolonged hemorrhagic shock is characterized by the progression from hyperglycemia to hypoglycemia and failure to respond to standard methods of resuscitation."	1.29	Diltiazem preserves hepatic gluconeogenesis following hemorrhagic shock. ( Drourr, N; Geller, ER; Higgins, LD; Maitra, SR, 1993)
"In 9 dogs with severe hemorrhagic shock, the effect of hemocorrector "Lactoprotein" on the indices of coagulative hemostasis and rheologic blood properties was studied."	1.28	[The correction of functional disorders of the hemostatic system and of the rheological properties of the blood in dogs in the late period of hemorrhagic shock by the intravenous transfusion of lactoprotein]. ( Kondratskiĭ, BA; Mindiuk, MV; Oborin, AN; Uspenskiĭ, BA, 1992)
"One group was subjected to hemorrhagic shock by rapid withdrawal of blood to a mean arterial pressure of 40 mm Hg and maintained in shock for either 30 or 150 min."	1.28	Altered cellular calcium regulation and hepatic glucose production during hemorrhagic shock. ( Geller, ER; Higgins, LD; Kennedy, PR; Maitra, SR; Pan, W, 1992)
"Diltiazem treatment significantly reduced the plasma glucose and heart rate during hemorrhagic shock (P less than 0."	1.28	Beneficial effects of diltiazem in hemorrhagic shock. ( Dulchavsky, SA; Geller, ER; Kreis, DJ; Krikhely, M; Maitra, SR, 1991)
"Hemorrhagic shock was induced by the initial withdrawal of 4 ml of blood followed by 1 ml bleeds at 5, 15, 30, and 60 min to maintain the blood pressure at 40-70 mmHg for 60 min."	1.27	Changes in brain thyrotropin-releasing hormone in reversible and irreversible hemorrhagic shock in the rat. ( Mizobe, T; Okuda, C, 1988)

Timeframe	Studies, this research(%)	All Research%
pre-1990	15 (7.25)	18.7374
1990's	36 (17.39)	18.2507
2000's	79 (38.16)	29.6817
2010's	62 (29.95)	24.3611
2020's	15 (7.25)	2.80

Trial			Phase	Enrollment	Study Type	Start Date	Status
Agreement Between Arterial, Central Venous, and Peripheral Venous Lactate in the Intensive Care Unit[NCT01624519]				50 participants (Anticipated)	Interventional	2012-08-31	Not yet recruiting
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Article	Year
Quantitative Assessment of Blood Lactate in Shock: Measure of Hypoxia or Beneficial Energy Source. BioMed research international, 2020, Volume: 2020 Topics: Animals; Critical Illness; Disease Models, Animal; Dogs; Humans; Hypoxia; Lactic Acid; Liver; Models	2020
Trauma and aggressive homeostasis management. Anesthesiology clinics, 2013, Volume: 31, Issue:1 Topics: Acidosis, Lactic; Brain Injuries; Homeostasis; Humans; Hyperglycemia; Hypothermia, Induced; Insulin;	2013
Targeted resuscitation strategies after injury. Current opinion in critical care, 2004, Volume: 10, Issue:6 Topics: Acidosis; Algorithms; Humans; Hydrogen-Ion Concentration; Lactic Acid; Oxygen; Oxygen Consumption; R	2004
Bench-to-bedside review: oxygen debt and its metabolic correlates as quantifiers of the severity of hemorrhagic and post-traumatic shock. Critical care (London, England), 2005, Oct-05, Volume: 9, Issue:5 Topics: Acid-Base Equilibrium; Acidosis; Animals; Disease Models, Animal; Dogs; Humans; Hypovolemia; Hypoxia	2005
Trauma and aggressive homeostasis management. Anesthesiology clinics, 2007, Volume: 25, Issue:1 Topics: Acidosis; Animals; Brain Injuries; Homeostasis; Humans; Hyperglycemia; Hypothermia; Lactic Acid; Sho	2007

Article	Year
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Hemorrhagic, hypovolemic shock resuscitated with Ringer's solution using bicarbonate versus lactate: A CONSORT-randomized controlled study comparing patient outcomes and blood inflammatory factors. Medicine, 2022, Nov-18, Volume: 101, Issue:46 Topics: Acidosis; Bicarbonates; Hemorrhage; Humans; Interleukin-6; Lactic Acid; Prospective Studies; Ringer'	2022
Lactate as a mediator of prehospital plasma mortality reduction in hemorrhagic shock. The journal of trauma and acute care surgery, 2021, 07-01, Volume: 91, Issue:1 Topics: Adult; Blood Transfusion; Crystalloid Solutions; Emergency Medical Services; Female; Humans; Injury	2021
Improved resuscitation minimizes respiratory dysfunction and blunts interleukin-6 and nuclear factor-kappa B activation after traumatic hemorrhage. Critical care medicine, 2002, Volume: 30, Issue:8 Topics: Airway Resistance; Animals; Blood Pressure; Bronchoalveolar Lavage Fluid; Cardiopulmonary Resuscitat	2002
Cortisol response to corticotropin stimulation in trauma patients: influence of hemorrhagic shock. Anesthesiology, 2002, Volume: 97, Issue:4 Topics: Adolescent; Adrenal Glands; Adrenocorticotropic Hormone; Adult; Blood Proteins; Female; Hemodynamics	2002
[Clinical effects of naloxone on hemorrhagic shock]. Zhonghua wai ke za zhi [Chinese journal of surgery], 1995, Volume: 33, Issue:6 Topics: Aged; Blood Pressure; Epinephrine; Female; Hemodynamics; Humans; Lactates; Lactic Acid; Male; Middle	1995

Article	Year
Severe hyperlactatemia in unselected surgical patients: retrospective analysis of prognostic outcome factors. BMC surgery, 2022, Aug-11, Volume: 22, Issue:1 Topics: Humans; Hyperlactatemia; Lactic Acid; Prognosis; Retrospective Studies; Sepsis; Shock, Hemorrhagic	2022
Study on an Animal Model of Seawater Immersion Injury Following Hemorrhagic Shock. The Journal of surgical research, 2023, Volume: 287 Topics: Animals; Disease Models, Animal; Hemorrhage; Lactic Acid; Male; Rats; Rats, Sprague-Dawley; Resuscit	2023
Shock index is positively correlated with acute blood loss and negatively correlated with cardiac output in a canine hemorrhagic shock model. Journal of the American Veterinary Medical Association, 2023, 06-01, Volume: 261, Issue:6 Topics: Anesthesia, General; Animals; Cardiac Output; Dog Diseases; Dogs; Hemorrhage; Lactic Acid; Shock, He	2023
Elamipretide mitigates ischemia-reperfusion injury in a swine model of hemorrhagic shock. Scientific reports, 2023, 03-18, Volume: 13, Issue:1 Topics: Animals; Balloon Occlusion; Disease Models, Animal; Endovascular Procedures; Hemorrhage; Lactic Acid	2023
MILD THERAPEUTIC HYPOTHERMIA REDUCES ISCHEMIA-REPERFUSION INJURY AFTER ZONE 1 REBOA IN A SWINE HEMORRHAGIC SHOCK MODEL. Shock (Augusta, Ga.), 2023, 09-01, Volume: 60, Issue:3 Topics: Animals; Aorta; Balloon Occlusion; Disease Models, Animal; Hypothermia; Hypothermia, Induced; Lactic	2023
Efficacy and Safety of Vasopressin as First-Line Treatment of Distributive and Hemorrhagic Shock States. The Annals of pharmacotherapy, 2020, Volume: 54, Issue:3 Topics: Adult; Blood Pressure; Cohort Studies; Creatinine; Female; Heart Rate; Humans; Intensive Care Units;	2020
Adenosine, Lidocaine, and Magnesium Support a High Flow, Hypotensive, Vasodilatory State With Improved Oxygen Delivery and Cerebral Protection in a Pig Model of Noncompressible Hemorrhage. The Journal of surgical research, 2020, Volume: 253 Topics: Adenosine; Animals; Brain; Brain Chemistry; Disease Models, Animal; Drug Administration Schedule; Dr	2020
Admission Lactate and Base Deficit in Predicting Outcomes of Pediatric Trauma. Shock (Augusta, Ga.), 2021, 04-01, Volume: 55, Issue:4 Topics: Adolescent; Child; Child, Preschool; Female; Hospitalization; Humans; Lactic Acid; Male; Predictive	2021
Extracellular vesicles derived from cardiosphere-derived cells as a potential antishock therapeutic. The journal of trauma and acute care surgery, 2021, 08-01, Volume: 91, Issue:2S Suppl 2 Topics: Animals; Blood Glucose; Creatinine; Disease Models, Animal; Extracellular Vesicles; Flow Cytometry;	2021
Acute intensive care unit resuscitation of severely injured trauma patients: Do we need a new strategy? The journal of trauma and acute care surgery, 2021, 12-01, Volume: 91, Issue:6 Topics: Abbreviated Injury Scale; Acute Kidney Injury; Adult; Crystalloid Solutions; Duration of Therapy; Fe	2021
Combatting ischemia reperfusion injury from resuscitative endovascular balloon occlusion of the aorta using adenosine, lidocaine and magnesium: A pilot study. The journal of trauma and acute care surgery, 2021, 12-01, Volume: 91, Issue:6 Topics: Adenosine; Animals; Anti-Inflammatory Agents; Aorta; Balloon Occlusion; Disease Models, Animal; Drug	2021
Parathyroid hormone as a marker for hypoperfusion in trauma: A prospective observational study. The journal of trauma and acute care surgery, 2017, Volume: 83, Issue:6 Topics: Adult; Aged; Biomarkers; Female; Follow-Up Studies; Humans; Lactic Acid; Male; Middle Aged; Parathyr	2017
The Metabolopathy of Tissue Injury, Hemorrhagic Shock, and Resuscitation in a Rat Model. Shock (Augusta, Ga.), 2018, Volume: 49, Issue:5 Topics: Animals; Disease Models, Animal; Glycolysis; Hyperglycemia; Lactic Acid; Male; Metabolomics; Rats; R	2018
Attenuation of Multiple Organ Damage by Continuous Low-Dose Solvent-Free Infusions of Resveratrol after Severe Hemorrhagic Shock in Rats. Nutrients, 2017, Aug-17, Volume: 9, Issue:8 Topics: Animals; Blood Glucose; Blood Pressure; Disease Models, Animal; Dose-Response Relationship, Drug; He	2017
All animals are equal but some animals are more equal than others: Plasma lactate and succinate in hemorrhagic shock-A comparison in rodents, swine, nonhuman primates, and injured patients. The journal of trauma and acute care surgery, 2018, Volume: 84, Issue:3 Topics: Animals; Biomarkers; Chromatography, High Pressure Liquid; Disease Models, Animal; Gas Chromatograph	2018
Application of pulsed arterial resuscitation in a rabbit model of hemorrhagic shock. Ulusal travma ve acil cerrahi dergisi = Turkish journal of trauma & emergency surgery : TJTES, 2017, Volume: 23, Issue:6 Topics: Animals; Blood Pressure; Disease Models, Animal; Heart Rate; Lactic Acid; Rabbits; Random Allocation	2017
A fatal and metabolic experimental hemorrhagic shock in immature swine. Acta cirurgica brasileira, 2017, Volume: 32, Issue:12 Topics: Animals; Biomarkers; Control Groups; Disease Models, Animal; Endpoint Determination; Hemodynamics; H	2017
Endovascular variable aortic control (EVAC) versus resuscitative endovascular balloon occlusion of the aorta (REBOA) in a swine model of hemorrhage and ischemia reperfusion injury. The journal of trauma and acute care surgery, 2018, Volume: 85, Issue:3 Topics: Animals; Aorta; Balloon Occlusion; Disease Models, Animal; Endovascular Procedures; Female; Hemodyna	2018
Extracorporeal potassium binding for the management of hyperkalemia in an anephric model of crush injury. The journal of trauma and acute care surgery, 2019, Volume: 86, Issue:4 Topics: Animals; Crush Injuries; Disease Models, Animal; Extracorporeal Circulation; Female; Hyperkalemia; K	2019
Activation of Hypoxia-Inducible Factor-1α Via Succinate Dehydrogenase Pathway During Acute Lung Injury Induced by Trauma/Hemorrhagic Shock. Shock (Augusta, Ga.), 2020, Volume: 53, Issue:2 Topics: A549 Cells; Acute Lung Injury; Animals; Blood Gas Analysis; Blotting, Western; Humans; Hypoxia-Induc	2020
The influence of different resuscitation solution on lactic acid accumulation after hemorrhagic shock: a network meta-analysis. European review for medical and pharmacological sciences, 2019, Volume: 23, Issue:15 Topics: Colloids; Crystalloid Solutions; Fluid Therapy; Humans; Lactic Acid; Network Meta-Analysis; Plasma S	2019
Physiologic tolerance of descending thoracic aortic balloon occlusion in a swine model of hemorrhagic shock. Surgery, 2013, Volume: 153, Issue:6 Topics: Animals; Aorta, Thoracic; Balloon Occlusion; Blood Pressure; Blood Transfusion; Disease Models, Anim	2013
Target blood pressure for hypotensive resuscitation. Injury, 2013, Volume: 44, Issue:12 Topics: Animals; Cytokines; Disease Models, Animal; Fluid Therapy; Hematocrit; Hypotension; Isotonic Solutio	2013
Flutamide fails to reduce resuscitation requirements in a porcine ischemia-reperfusion model. The Journal of surgical research, 2013, Volume: 184, Issue:1 Topics: Acidosis; Androgen Antagonists; Animals; Crystalloid Solutions; Cyclodextrins; Disease Models, Anima	2013
Mortality prediction of rats in acute hemorrhagic shock using machine learning techniques. Medical & biological engineering & computing, 2013, Volume: 51, Issue:9 Topics: Animals; Artificial Intelligence; Body Temperature; Hemodynamics; Lactic Acid; Logistic Models; Male	2013
Effect of Hypotensive Resuscitation with a Novel Combination of Fluids in a Rabbit Model of Uncontrolled Hemorrhagic Shock. PloS one, 2013, Volume: 8, Issue:6 Topics: Animals; Blood Gas Analysis; Blood Pressure; Disease Models, Animal; Fluid Therapy; Hemodynamics; Hy	2013
Pyruvate Ringer's solution corrects lactic acidosis and prolongs survival during hemorrhagic shock in rats. The Journal of emergency medicine, 2013, Volume: 45, Issue:6 Topics: Acidosis, Lactic; Analysis of Variance; Animals; Arterial Pressure; Carbon Dioxide; Disease Models,	2013
Diaphragmatic function is preserved during severe hemorrhagic shock in the rat. Anesthesiology, 2014, Volume: 120, Issue:2 Topics: Animals; Arterial Pressure; Blood Gas Analysis; Cytokines; Diaphragm; Fluid Therapy; Lactic Acid; Ma	2014
Deleterious effects of aggressive rapid crystalloid resuscitation on treatment of hyperinflammatory response and lung injury induced by hemorrhage in aging rats. The Journal of surgical research, 2014, Volume: 187, Issue:2 Topics: Acute Lung Injury; Aging; Animals; Blood Glucose; Blood Pressure; Body Temperature; Bronchoalveolar	2014
A proposed novel algorithmic approach to the evaluation of the acutely injured trauma patient: should advanced trauma life support incorporate biomarkers? The American journal of emergency medicine, 2014, Volume: 32, Issue:3 Topics: Advanced Trauma Life Support Care; Algorithms; Biomarkers; Carbon Dioxide; Decision Support Techniqu	2014
[Lactic acid as a prognostic marker in obstetric postpartum hemorrhage]. Medicina intensiva, 2014, Volume: 38, Issue:8 Topics: Acute Kidney Injury; Adult; Biomarkers; Cesarean Section; Disseminated Intravascular Coagulation; Fe	2014
Blood pressure-targeted stepwise resuscitation for hemorrhagic shock in rats. The journal of trauma and acute care surgery, 2014, Volume: 76, Issue:3 Topics: Alanine Transaminase; Animals; Blood Gas Analysis; Blood Pressure; Interleukin-1beta; Interleukin-6;	2014
Investigation of noninvasive muscle pH and oxygen saturation during uncontrolled hemorrhage and resuscitation in swine. Shock (Augusta, Ga.), 2014, Volume: 42, Issue:1 Topics: Acidosis; Animals; Biomarkers; Female; Fluid Therapy; Hemodynamics; Hydrogen-Ion Concentration; Lact	2014
The noninvasive carbon dioxide gradient (NICO2G) during hemorrhagic shock. Shock (Augusta, Ga.), 2014, Volume: 42, Issue:1 Topics: Animals; Biomarkers; Blood Gas Monitoring, Transcutaneous; Breath Tests; Capnography; Carbon Dioxide	2014
Mesenteric lymph drainage alleviates acute kidney injury induced by hemorrhagic shock without resuscitation. TheScientificWorldJournal, 2014, Volume: 2014 Topics: 2,3-Diphosphoglycerate; Acute Kidney Injury; Animals; Biomarkers; Disease Models, Animal; Drainage;	2014
Utilization of extracorporeal membrane oxygenation alleviates intestinal ischemia-reperfusion injury in prolonged hemorrhagic shock animal model. Cell biochemistry and biophysics, 2014, Volume: 70, Issue:3 Topics: Animals; Blood Pressure; Claudin-1; Disease Models, Animal; Extracorporeal Membrane Oxygenation; Int	2014
Protection against intestinal injury from hemorrhagic shock by direct peritoneal resuscitation with pyruvate in rats. Shock (Augusta, Ga.), 2014, Volume: 42, Issue:5 Topics: Animals; Dialysis Solutions; Drug Evaluation, Preclinical; Fluid Therapy; Inflammation Mediators; In	2014
Effects of pyruvate-enriched peritoneal dialysis solution on intestinal barrier in peritoneal resuscitation from hemorrhagic shock in rats. The Journal of surgical research, 2015, Volume: 193, Issue:1 Topics: Animals; Blood Pressure; Cell Adhesion Molecules; Dialysis Solutions; Disease Models, Animal; Intest	2015
A novel nanobiotherapeutic poly-[hemoglobin-superoxide dismutase-catalase-carbonic anhydrase] with no cardiac toxicity for the resuscitation of a rat model with 90 minutes of sustained severe hemorrhagic shock with loss of 2/3 blood volume. Artificial cells, nanomedicine, and biotechnology, 2015, Volume: 43, Issue:1 Topics: Animals; Biological Transport; Blood Pressure; Blood Substitutes; Blood Volume; Carbon Dioxide; Carb	2015
Hypertension and vulnerability to hemorrhagic shock in a rat model. Shock (Augusta, Ga.), 2015, Volume: 43, Issue:2 Topics: Animals; Blood Pressure; Hemodynamics; Hypertension; Lactic Acid; Male; Muscle, Skeletal; Oxygen Con	2015
Effects of intraosseous erythropoietin during hemorrhagic shock in swine. PloS one, 2014, Volume: 9, Issue:11 Topics: Animals; Cytokines; Disease Models, Animal; Erythropoietin; Heart; Hemodynamics; Infusions, Intraoss	2014
Comparison of Noninvasive pH and Blood Lactate as Predictors of Mortality in a Swine Hemorrhagic Shock with Restricted Volume Resuscitation Model. Shock (Augusta, Ga.), 2015, Volume: 44 Suppl 1 Topics: Animals; Area Under Curve; Disease Models, Animal; Hemorrhage; Hydrogen-Ion Concentration; Lactic Ac	2015
Tissue ischemia microdialysis assessments following severe traumatic haemorrhagic shock: lactate/pyruvate ratio as a new resuscitation end point? BMC anesthesiology, 2014, Volume: 14 Topics: Adult; Cardiac Output; Female; Hemoglobins; Humans; Lactic Acid; Male; Microdialysis; Middle Aged; O	2014
Beneficial effect of cyclosporine A on traumatic hemorrhagic shock. The Journal of surgical research, 2015, May-15, Volume: 195, Issue:2 Topics: Animals; Cyclosporine; Cytokines; Female; Hemodynamics; Hydrogen-Ion Concentration; Kidney; Lactic A	2015
Hextend-perfluorocarbon cocktail inhibits mean arterial pressure response in a rabbit shock model. The Journal of surgical research, 2015, Volume: 199, Issue:2 Topics: Acidosis, Lactic; Animals; Blood Pressure; Blood Substitutes; Disease Models, Animal; Drug Evaluatio	2015
Protective effects of polyethylene oxide on the vascular and organ function of rats with severe hemorrhagic shock. Canadian journal of physiology and pharmacology, 2015, Volume: 93, Issue:8 Topics: Animals; Biomarkers; Disease Models, Animal; Fluid Therapy; Hemodynamics; Inflammation Mediators; In	2015
Comparison of Malated Ringer's with Two Other Balanced Crystalloid Solutions in Resuscitation of Both Severe and Moderate Hemorrhagic Shock in Rats. BioMed research international, 2015, Volume: 2015 Topics: Acidosis; Animals; Crystalloid Solutions; Disease Models, Animal; Humans; Isotonic Solutions; Lactic	2015
Trauma/hemorrhagic shock instigates aberrant metabolic flux through glycolytic pathways, as revealed by preliminary (13)C-glucose labeling metabolomics. Journal of translational medicine, 2015, Aug-05, Volume: 13 Topics: Animals; Carbon; Glycolysis; Isotope Labeling; Lactic Acid; Metabolic Flux Analysis; Metabolomics; R	2015
Inhaled Carbon Monoxide Protects against the Development of Shock and Mitochondrial Injury following Hemorrhage and Resuscitation. PloS one, 2015, Volume: 10, Issue:9 Topics: Adenosine Triphosphate; Administration, Inhalation; Animals; Carbon Monoxide; Cells, Cultured; Inter	2015
Biliary tract external drainage protects against intestinal barrier injury in hemorrhagic shock rats. World journal of gastroenterology, 2015, Dec-07, Volume: 21, Issue:45 Topics: Animals; Biliary Tract Surgical Procedures; Biomarkers; Blotting, Western; Claudin-1; Disease Models	2015
Plasma First Resuscitation Reduces Lactate Acidosis, Enhances Redox Homeostasis, Amino Acid and Purine Catabolism in a Rat Model of Profound Hemorrhagic Shock. Shock (Augusta, Ga.), 2016, Volume: 46, Issue:2 Topics: Acidosis; Amino Acids; Animals; Crystalloid Solutions; Fluid Therapy; Isotonic Solutions; Lactic Aci	2016
Vascular smooth muscle desensitization in rabbit epigastric and mesenteric arteries during hemorrhagic shock. American journal of physiology. Heart and circulatory physiology, 2016, 07-01, Volume: 311, Issue:1 Topics: Animals; Cyclic AMP-Dependent Protein Kinases; Cyclic GMP-Dependent Protein Kinases; Disease Models,	2016
Clinical study of a new Modified Early Warning System scoring system for rapidly evaluating shock in adults. Journal of critical care, 2017, Volume: 37 Topics: Adult; Aged; APACHE; Area Under Curve; Arterial Pressure; Biomedical Research; Early Diagnosis; Emer	2017
A comparison of initial lactate and initial base deficit as predictors of mortality after severe blunt trauma. The Journal of surgical research, 2016, Volume: 205, Issue:2 Topics: Acidosis; Adult; Aged; Biomarkers; Female; Hospital Mortality; Humans; Lactic Acid; Logistic Models;	2016
Neurochemical changes following combined hypoxemia and hemorrhagic shock in a rat model of penetrating ballistic-like brain injury: A microdialysis study. The journal of trauma and acute care surgery, 2016, Volume: 81, Issue:5 Topics: Animals; Brain; Disease Models, Animal; Glucose; Head Injuries, Penetrating; Hypoxia; Lactic Acid; M	2016
The role of bicarbonate precursors in balanced fluids during haemorrhagic shock with and without compromised liver function. British journal of anaesthesia, 2016, Volume: 117, Issue:4 Topics: Acetates; Acid-Base Equilibrium; Animals; Bicarbonates; Fluid Therapy; Kidney; Lactic Acid; Liver; M	2016
Lactate profiles as a resuscitation assessment tool in a rat model of battlefield hemorrhage resuscitation. Shock (Augusta, Ga.), 2008, Volume: 30, Issue:1 Topics: Animals; Disease Models, Animal; Hemoglobins; Hydroxyethyl Starch Derivatives; Lactic Acid; Male; Ra	2008
Albumin resuscitation protects against traumatic/hemorrhagic shock-induced lung apoptosis in rats. Journal of Zhejiang University. Science. B, 2008, Volume: 9, Issue:11 Topics: Albumins; Animals; Apoptosis; Enzyme Activation; Immunohistochemistry; In Situ Nick-End Labeling; La	2008
Management of hemorrhagic shock when blood is not an option. Journal of clinical anesthesia, 2008, Volume: 20, Issue:7 Topics: Blood Substitutes; Hemoglobins; Humans; Jehovah's Witnesses; Lactic Acid; Male; Multiple Trauma; Sho	2008
Accurate and continuous measurement of oxygen deficit during haemorrhage in pigs. Resuscitation, 2009, Volume: 80, Issue:2 Topics: Animals; Blood Glucose; Blood Pressure; Blood Volume; Calorimetry, Indirect; Cardiac Output; Heart R	2009
Role of extracellular signal-regulated protein kinase (ERK) in 17beta-estradiol-mediated attenuation of lung injury after trauma-hemorrhage. Surgery, 2009, Volume: 145, Issue:2 Topics: Acute Lung Injury; Animals; Biomarkers; Chemokine CXCL1; Chemokine CXCL2; Down-Regulation; Estradiol	2009
Effects of different fluid resuscitation speeds on blood glucose and interleukin-1 beta in hemorrhagic shock. The Journal of trauma, 2009, Volume: 66, Issue:3 Topics: Animals; Blood Glucose; Blood Pressure; Fluid Therapy; Heart Rate; Hematocrit; Hemoglobinometry; Int	2009
Fluid resuscitation does not improve renal oxygenation during hemorrhagic shock in rats. Anesthesiology, 2010, Volume: 112, Issue:1 Topics: Animals; Blood Pressure; Blood Transfusion; Fluid Therapy; Hemodynamics; Inflammation; Kidney; Kidne	2010
Correlation between arterial and capillary lactate measurements in a porcine hemorrhagic shock model. The Journal of trauma, 2010, Volume: 68, Issue:1 Topics: Animals; Arteries; Blood Chemical Analysis; Capillaries; Lactic Acid; Shock, Hemorrhagic; Swine	2010
The cerebral microcirculation is protected during experimental hemorrhagic shock. Critical care medicine, 2010, Volume: 38, Issue:3 Topics: Animals; Blood Flow Velocity; Blood Gas Analysis; Blood Pressure; Blood Volume; Brain; Brain Ischemi	2010
Utility of microdialysis to detect the lactate/pyruvate ratio in subcutaneous tissue for the reliable monitoring of hemorrhagic shock. Journal of smooth muscle research = Nihon Heikatsukin Gakkai kikanshi, 2009, Volume: 45, Issue:6 Topics: Animals; Blood Pressure; Early Diagnosis; Hypotension; Lactic Acid; Male; Microdialysis; Monitoring,	2009
Diaspirin cross-linked hemoglobin infusion did not influence base deficit and lactic acid levels in two clinical trials of traumatic hemorrhagic shock patient resuscitation. The Journal of trauma, 2010, Volume: 68, Issue:5 Topics: Acidosis, Lactic; Adult; Aspirin; Emergency Medical Services; Emergency Treatment; Europe; Fluid The	2010
Moderate Ringer's lactate solution resuscitation yields best neurological outcome in controlled hemorrhagic shock combined with brain injury in rats. Shock (Augusta, Ga.), 2010, Volume: 34, Issue:1 Topics: Animals; Brain; Brain Injuries; Isotonic Solutions; Lactic Acid; Male; Rats; Rats, Inbred Lew; Ringe	2010
The effects of 6% hydroxyethyl starch-hypertonic saline in resuscitation of dogs with hemorrhagic shock. Anesthesia and analgesia, 2011, Volume: 112, Issue:2 Topics: Acid-Base Equilibrium; Animals; Blood Pressure; Blood Volume; Carbon Dioxide; Disease Models, Animal	2011
Liver X receptor α activation with the synthetic ligand T0901317 reduces lung injury and inflammation after hemorrhage and resuscitation via inhibition of the nuclear factor κB pathway. Shock (Augusta, Ga.), 2011, Volume: 35, Issue:4 Topics: Animals; Bicarbonates; Chemokine CCL2; Chemokine CCL3; Cholesterol; Disease Models, Animal; Hydrocar	2011
Cardiopulmonary effects of hemorrhagic shock in splenic autotransplanted pigs: a new surgical model. Collegium antropologicum, 2010, Volume: 34, Issue:3 Topics: Animals; Body Temperature; Female; Hemodynamics; Lactic Acid; Male; Models, Animal; Shock, Hemorrhag	2010
Prospective identification of patients at risk for massive transfusion: an imprecise endeavor. The American surgeon, 2011, Volume: 77, Issue:2 Topics: Adult; Blood Pressure; Blood Transfusion; Emergency Service, Hospital; Erythrocyte Transfusion; Hear	2011
A model of hemorrhagic shock and acute lung injury in Landrace-Large White Swine. Comparative medicine, 2011, Volume: 61, Issue:2 Topics: Acute Lung Injury; Animals; Disease Models, Animal; Heart Rate; Hemoglobins; Hydrogen-Ion Concentrat	2011
Correlation between IVC dimensions and volume status on CT scan. The Journal of surgical research, 2011, Volume: 170, Issue:2 Topics: Adult; Aged; Blood Volume; Blood Volume Determination; Databases, Factual; Female; Humans; Lactic Ac	2011
Tissue gas tensions and tissue metabolites for detection of organ hypoperfusion and ischemia. Acta anaesthesiologica Scandinavica, 2012, Volume: 56, Issue:2 Topics: Aerobiosis; Anaerobiosis; Animals; Area Under Curve; Bicarbonates; Blood Pressure; Body Temperature;	2012
Therapeutic effects of intravenous infusion of hyperoxygenated solution on acute haemorrhagic shock in rabbits. The Journal of international medical research, 2011, Volume: 39, Issue:5 Topics: Animals; Blood Pressure; Blood Viscosity; Blood Volume; Hydrogen-Ion Concentration; Infusions, Intra	2011
Increased circulating D-lactate levels predict risk of mortality after hemorrhage and surgical trauma in baboons. Shock (Augusta, Ga.), 2012, Volume: 37, Issue:5 Topics: Animals; Colon; Disease Models, Animal; Humans; Ischemia; Lactic Acid; Male; Papio ursinus; Risk Fac	2012
Physiologic responses to severe hemorrhagic shock and the genesis of cardiovascular collapse: can irreversibility be anticipated? The Journal of surgical research, 2012, Volume: 178, Issue:1 Topics: Animals; Autonomic Nervous System; Blood Pressure; Catecholamines; Cytokines; Disease Models, Animal	2012
Triage vital signs do not correlate with serum lactate or base deficit, and are less predictive of operative intervention in penetrating trauma patients: a prospective cohort study. Emergency medicine journal : EMJ, 2013, Volume: 30, Issue:7 Topics: Adult; Biomarkers; Cohort Studies; Emergency Service, Hospital; Female; Humans; Lactic Acid; Linear	2013
A new severity predicting index for hemorrhagic shock using lactate concentration and peripheral perfusion in a rat model. Shock (Augusta, Ga.), 2012, Volume: 38, Issue:6 Topics: Animals; Blood Pressure; Heart Rate; Lactic Acid; Male; Microcirculation; Perfusion; Predictive Valu	2012
Intestinal preconditioning prevents systemic inflammatory response in hemorrhagic shock. Role of HO-1. American journal of physiology. Gastrointestinal and liver physiology, 2002, Volume: 283, Issue:2 Topics: Animals; Fluid Therapy; Heme Oxygenase (Decyclizing); Heme Oxygenase-1; Inflammation; Intestines; Is	2002
Pyruvate improves redox status and decreases indicators of hepatic apoptosis during hemorrhagic shock in swine. American journal of physiology. Heart and circulatory physiology, 2002, Volume: 283, Issue:4 Topics: Acid-Base Equilibrium; Animals; Apoptosis; bcl-2-Associated X Protein; bcl-X Protein; Blood Pressure	2002
Low-dose ethanol alters the cardiovascular, metabolic, and respiratory compensation for severe blood loss. The Journal of trauma, 2002, Volume: 53, Issue:3 Topics: Alcoholic Intoxication; Animals; Blood Glucose; Blood Pressure; Carbon Dioxide; Disease Models, Anim	2002
Detrimental effects of rapid fluid resuscitation on hepatocellular function and survival after hemorrhagic shock. Shock (Augusta, Ga.), 2002, Volume: 18, Issue:3 Topics: Animals; Creatinine; Fluid Therapy; Hepatocytes; Infusions, Intravenous; Lactic Acid; Liver; Male; O	2002
Effects of hypertonic saline and dextran 70 on cardiac diastolic function after hemorrhagic shock. The Journal of surgical research, 2002, Volume: 107, Issue:1 Topics: Animals; Blood Pressure; Blood Volume; Diastole; Gases; Heart; Hemodynamics; Hydrogen-Ion Concentrat	2002
Increased skeletal muscle lactate production following hemorrhagic shock in rats. The Journal of trauma, 2002, Volume: 53, Issue:4 Topics: Animals; Cell Membrane Permeability; Hypoxia; Lactic Acid; Muscle, Skeletal; Rats; Shock, Hemorrhagi	2002
A comparison of lactated ringer's solution to hydroxyethyl starch 6% in a model of severe hemorrhagic shock and continuous bleeding in dogs. Anesthesia and analgesia, 2003, Volume: 96, Issue:1 Topics: Animals; Blood Loss, Surgical; Blood Pressure; Dogs; Hemodynamics; Hemorrhage; Hydroxyethyl Starch D	2003
Preservation of neurological functions by nitric oxide synthase inhibitors following hemorrhagic shock. Neuropharmacology, 2003, Volume: 44, Issue:2 Topics: Animals; Aspartate Aminotransferases; Avoidance Learning; Blood Pressure; Canavanine; Cerebral Corte	2003
Resuscitation with a novel hemoglobin-based oxygen carrier in a Swine model of uncontrolled perioperative hemorrhage. The Journal of trauma, 2003, Volume: 54, Issue:5 Topics: Animals; Blood Cell Count; Blood Loss, Surgical; Disease Models, Animal; Electroencephalography; Hem	2003
Effect of a delta receptor agonist on duration of survival during hemorrhagic shock. Academic emergency medicine : official journal of the Society for Academic Emergency Medicine, 2003, Volume: 10, Issue:6 Topics: Animals; Enkephalin, Leucine-2-Alanine; Hemodynamics; Lactic Acid; Rats; Rats, Sprague-Dawley; Recep	2003
Hypertonic saline improves tissue oxygenation and reduces systemic and pulmonary inflammatory response caused by hemorrhagic shock. The Journal of trauma, 2003, Volume: 54, Issue:6 Topics: Animals; Blood Gas Analysis; Blood Pressure; Dose-Response Relationship, Drug; Fluid Therapy; Inflam	2003
Protective effect of urinary trypsin inhibitor on myocardial mitochondria during hemorrhagic shock and reperfusion. Critical care medicine, 2003, Volume: 31, Issue:7 Topics: Adenosine Triphosphate; Animals; Blood Pressure; Blood Transfusion, Autologous; Energy Metabolism; G	2003
The influence of hemorrhagic shock on propofol: a pharmacokinetic and pharmacodynamic analysis. Anesthesiology, 2003, Volume: 99, Issue:2 Topics: Algorithms; Analysis of Variance; Anesthesia; Anesthetics, Inhalation; Anesthetics, Intravenous; Ani	2003
Increased plasma D-lactate is associated with the severity of hemorrhagic/traumatic shock in rats. Shock (Augusta, Ga.), 2003, Volume: 20, Issue:3 Topics: Animals; Blood Pressure; Body Weight; Endotoxins; Hydrogen-Ion Concentration; Lactic Acid; Male; Pre	2003
Effects of hypertonic saline, HAES and dimethylsulphoxide on free oxygen radicals in haemorrhagic shock oxygen radicals in haemorrhagic shock. Ulusal travma ve acil cerrahi dergisi = Turkish journal of trauma & emergency surgery : TJTES, 2003, Volume: 9, Issue:3 Topics: Animals; Dimethyl Sulfoxide; Disease Models, Animal; Erythrocytes; Free Radical Scavengers; Infusion	2003
EXCESS LACTATE: AN INDEX OF REVERSIBILITY OF SHOCK IN HUMAN PATIENTS. Science (New York, N.Y.), 1964, Mar-27, Volume: 143, Issue:3613 Topics: Animals; Blood Chemical Analysis; Dogs; Humans; Hypoxia; Lactates; Lactic Acid; Metabolism; Oxygen;	1964
LACTICACIDOSIS: A CLINICALLY SIGNIFICANT ASPECT OF SHOCK. Canadian Medical Association journal, 1964, Mar-14, Volume: 90 Topics: Acidosis; Bicarbonates; Blood Chemical Analysis; Female; Humans; Lactates; Lactic Acid; Myocardial I	1964
Complement activation during hemorrhagic shock and resuscitation in swine. Shock (Augusta, Ga.), 2003, Volume: 20, Issue:4 Topics: Acidosis, Lactic; Animals; Complement Activation; Complement C5a; Complement System Proteins; In Vit	2003
Improved survival in uncontrolled hemorrhagic shock induced by massive splenic injury in the proestrus phase of the reproductive cycle in the female rat. Shock (Augusta, Ga.), 2003, Volume: 20, Issue:5 Topics: Animals; Blood Pressure; Estradiol; Estrous Cycle; Female; Heart Rate; Hematocrit; Lactic Acid; Male	2003
Tissue energetics as measured by nuclear magnetic resonance spectroscopy during hemorrhagic shock. Shock (Augusta, Ga.), 2004, Volume: 21, Issue:1 Topics: Adenosine Triphosphate; Animals; Blood Pressure; Gastric Mucosa; Lactic Acid; Liver; Magnetic Resona	2004
Splanchnic metabolism during gut ischemia and short-term endotoxin and hemorrhagic shock as evaluated by intravasal microdialysis. Shock (Augusta, Ga.), 2004, Volume: 21, Issue:6 Topics: Abdomen; Animals; Endotoxemia; Endotoxins; Glucose; Glycerol; Hemodynamics; Ileum; Ischemia; Lactic	2004
Can we distinguish between different types of local perfusion/metabolic derangement by regional venous concentrations of intermediary energy substrates? Shock (Augusta, Ga.), 2004, Volume: 22, Issue:2 Topics: Animals; Endotoxins; Glucose; Glycerol; Lactic Acid; Microdialysis; Perfusion; Pyruvic Acid; Reperfu	2004
Diagnostic utility of sublingual PCO2 for detecting hemorrhage in penetrating trauma patients. The Journal of trauma, 2004, Volume: 57, Issue:1 Topics: Adult; Baltimore; Blood Gas Monitoring, Transcutaneous; Carbon Dioxide; Female; Humans; Lactic Acid;	2004
Methylene blue enhancement of resuscitation after refractory hemorrhagic shock. The Journal of trauma, 2004, Volume: 57, Issue:3 Topics: Animals; Blood Pressure; Dogs; Lactic Acid; Methylene Blue; Resuscitation; Shock, Hemorrhagic	2004
Strong ion gap. Critical care medicine, 2005, Volume: 33, Issue:1 Topics: Acid-Base Equilibrium; Acute Kidney Injury; Adult; Blood Vessels; Critical Care; Hospital Mortality;	2005
Adrenomedullin and its binding protein attenuate the proinflammatory response after hemorrhage. Critical care medicine, 2005, Volume: 33, Issue:2 Topics: Adrenomedullin; Alanine Transaminase; Animals; Aspartate Aminotransferases; Complement Factor H; Cre	2005
[Effects of Astragalus membranaceus injection on nitric oxide and endothelin concentration of intestinal mucosa after hemorrhage shock-reperfusion in rats]. Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica, 2004, Volume: 29, Issue:5 Topics: Animals; Astragalus propinquus; Drugs, Chinese Herbal; Endothelins; Ileum; Injections, Intravenous;	2004
Increases in both buccal and sublingual partial pressure of carbon dioxide reflect decreases of tissue blood flows in a porcine model during hemorrhagic shock. The Journal of trauma, 2005, Volume: 58, Issue:4 Topics: Animals; Blood Pressure; Carbon Dioxide; Cardiac Output; Cheek; Disease Models, Animal; Kidney; Lact	2005
Effects of three fluid resuscitation methods on apoptosis of visceral organs in rats with hemorrhagic shock. Journal of Zhejiang University. Science. B, 2005, Volume: 6, Issue:9 Topics: Animals; Apoptosis; Blood Pressure; Flow Cytometry; Fluid Therapy; In Situ Nick-End Labeling; Intest	2005
The physiological changes of cumulative hemorrhagic shock in conscious rats. Journal of biomedical science, 2006, Volume: 13, Issue:3 Topics: Anesthesia; Animals; Blood Pressure; Consciousness; Cytokines; Disease Models, Animal; Heart Rate; I	2006
24-hour pretreatment with delta opioid enhances survival from hemorrhagic shock. Academic emergency medicine : official journal of the Society for Academic Emergency Medicine, 2006, Volume: 13, Issue:2 Topics: Animals; Blood Pressure; Disease Models, Animal; Heart Rate; Ischemic Preconditioning; Lactic Acid;	2006
Effects of candesartan and enalaprilat on the organ-specific microvascular permeability during haemorrhagic shock in rats. British journal of anaesthesia, 2006, Volume: 96, Issue:4 Topics: Angiotensin II Type 1 Receptor Blockers; Angiotensin-Converting Enzyme Inhibitors; Animals; Benzimid	2006
Impact of vasopressin on hemodynamic and metabolic function in the decompensatory phase of hemorrhagic shock. Journal of cardiothoracic and vascular anesthesia, 2006, Volume: 20, Issue:2 Topics: Animals; Blood Pressure; Disease Models, Animal; Female; Hydrogen-Ion Concentration; Lactic Acid; Ma	2006
Early difference in apoptosis of intestinal mucosa of rats with severe uncontrolled hemorrhagic shock after three fluid resuscitation methods. Chinese medical journal, 2006, May-20, Volume: 119, Issue:10 Topics: Animals; Apoptosis; Blood Pressure; Disease Models, Animal; Flow Cytometry; Fluid Therapy; In Situ N	2006
Resuscitation of severe but brief haemorrhagic shock with PFC in rabbits restores skeletal muscle oxygen delivery and does not alter skeletal muscle metabolism. Resuscitation, 2006, Volume: 70, Issue:1 Topics: Animals; Blood Pressure; Blood Substitutes; Disease Models, Animal; Fluorocarbons; Hyperoxia; Lactic	2006
[Blood lactate concentrations as predictors of outcome in serious hemorrhagic shock patients]. Masui. The Japanese journal of anesthesiology, 2006, Volume: 55, Issue:6 Topics: Adolescent; Adult; Aged; Aged, 80 and over; Disseminated Intravascular Coagulation; Forecasting; Hum	2006
Bovine polymerized hemoglobin versus Hextend resuscitation in a swine model of severe controlled hemorrhagic shock with delay to definitive care. Shock (Augusta, Ga.), 2006, Volume: 26, Issue:3 Topics: Animals; Blood Pressure; Blood Substitutes; Body Temperature; Cattle; Disease Models, Animal; Female	2006
Hemodynamic effects of combined treatment with oxygen and hypertonic saline in hemorrhagic shock. Critical care medicine, 2006, Volume: 34, Issue:11 Topics: Analysis of Variance; Animals; Blood Pressure; Cardiac Output; Combined Modality Therapy; Fluid Ther	2006
Major hepatic trauma: warm ischemic tolerance of the liver after hemorrhagic shock. The Journal of surgical research, 2006, Volume: 136, Issue:1 Topics: Acute Disease; Acute-Phase Reaction; Animals; Aspartate Aminotransferases; Biopsy; Creatinine; Hot T	2006
Downregulation of hepatic cytochrome P-450 isoforms and PPAR-gamma: their role in hepatic injury and proinflammatory responses in a double-hit model of hemorrhage and sepsis. The Journal of surgical research, 2007, Volume: 137, Issue:1 Topics: Alanine Transaminase; Animals; Aryl Hydrocarbon Hydroxylases; Aspartate Aminotransferases; Cytochrom	2007
Fluid resuscitation with hemoglobin-vesicle solution does not increase hypoxia or inflammatory responses in moderate hemorrhagic shock. Biomedical research (Tokyo, Japan), 2006, Volume: 27, Issue:6 Topics: Animals; Blood Pressure; Blood Substitutes; Hemoglobins; Hypoxia; Inflammation; Isotonic Solutions;	2006
Sublingual capnometry for rapid determination of the severity of hemorrhagic shock. The Journal of trauma, 2007, Volume: 62, Issue:1 Topics: Adolescent; Adult; Aged; Aged, 80 and over; Analysis of Variance; Blood Gas Monitoring, Transcutaneo	2007
Hypertonic 15% sodium pyruvate offers no initial resuscitation advantage compared with 8% hypertonic NACl in sheep with multiple hemorrhages. Shock (Augusta, Ga.), 2007, Volume: 27, Issue:5 Topics: Animals; Blood Pressure; Female; Fluid Therapy; Hypertonic Solutions; Lactic Acid; Plasma Volume; Py	2007
Physiologic response to hemorrhagic shock depends on rate and means of hemorrhage. The Journal of surgical research, 2007, Volume: 143, Issue:2 Topics: Animals; Blood Pressure; Disease Models, Animal; Heart Rate; Isotonic Solutions; Lactic Acid; Male;	2007
Post-treatment with the novel deltorphin E, a delta2-opioid receptor agonist, increases recovery and survival after severe hemorrhagic shock in behaving rats. Shock (Augusta, Ga.), 2008, Volume: 29, Issue:1 Topics: Animals; Blood Pressure; Heart Rate; Lactic Acid; Oligopeptides; Rats; Receptors, Opioid, delta; Sho	2008
The first demonstration of lactic acid in human blood in shock by Johann Joseph Scherer (1814-1869) in January 1843. Intensive care medicine, 2007, Volume: 33, Issue:11 Topics: Germany; History, 19th Century; Humans; Lactic Acid; Leukemia; Male; Shock, Hemorrhagic	2007
Evaluating tissue perfusion using labelled water indicator microdialysis in a rat model of haemorrhagic shock. Physiological measurement, 2007, Volume: 28, Issue:6 Topics: Animals; Blood Pressure; Disease Models, Animal; Lactic Acid; Liver; Male; Microdialysis; Muscle, Sk	2007
Resuscitation from hemorrhagic shock comparing standard hemoglobin-based oxygen carrier (HBOC)-201 versus 7.5% hypertonic HBOC-201. The Journal of trauma, 2007, Volume: 63, Issue:5 Topics: Animals; Biomarkers; Blood Substitutes; Disease Models, Animal; Dose-Response Relationship, Drug; He	2007
Experimental study of controlled fluid resuscitation in the treatment of severe and uncontrolled hemorrhagic shock. The Journal of trauma, 2007, Volume: 63, Issue:4 Topics: Animals; Apoptosis; Blood Pressure; Disease Models, Animal; Fluid Therapy; Hematocrit; Hemoglobins;	2007
[Hemorrheological changes in irreversible hemorrhagic shock]. Zhongguo wei zhong bing ji jiu yi xue = Chinese critical care medicine = Zhongguo weizhongbing jijiuyixue, 2008, Volume: 20, Issue:3 Topics: Animals; Blood Viscosity; Disease Models, Animal; Erythrocyte Aggregation; Erythrocyte Deformability	2008
The utility of base deficit and arterial lactate in differentiating major from minor injury in trauma patients with normal vital signs. Resuscitation, 2008, Volume: 77, Issue:3 Topics: Acid-Base Imbalance; Adolescent; Adult; Aged; Aged, 80 and over; Bicarbonates; Female; Humans; Injur	2008
Human vasoactive hormone adrenomedullin and its binding protein rescue experimental animals from shock. Peptides, 2008, Volume: 29, Issue:7 Topics: Adrenomedullin; Alanine Transaminase; Animals; Aspartate Aminotransferases; Complement Factor H; Cre	2008
Mechanism of estrogen-mediated intestinal protection following trauma-hemorrhage: p38 MAPK-dependent upregulation of HO-1. American journal of physiology. Regulatory, integrative and comparative physiology, 2008, Volume: 294, Issue:6 Topics: Animals; Chemokine CXCL1; Chemokine CXCL2; Estrogens; Heme Oxygenase-1; Hemorrhage; Intercellular Ad	2008
Reproducibility of an animal model simulating complex combat-related injury in a multiple-institution format. Shock (Augusta, Ga.), 2009, Volume: 31, Issue:1 Topics: Acidosis; Animals; Blood Gas Analysis; Disease Models, Animal; Femoral Fractures; Hematocrit; Hemody	2009
[Effects of methylene blue on refractory hemorrhagic shock]. Zhongguo yi xue ke xue yuan xue bao. Acta Academiae Medicinae Sinicae, 2008, Volume: 30, Issue:2 Topics: Animals; Blood Pressure; Disease Models, Animal; Female; Interleukin-6; Interleukin-8; Lactic Acid;	2008
Mechanism of functional residual capacity increase in haemorrhagic shock. Acta chirurgica Hungarica, 1983, Volume: 24, Issue:4 Topics: Abdominal Muscles; Animals; Dogs; Electromyography; Functional Residual Capacity; Intercostal Muscle	1983
[Metabolic effects of crystalloids and colloids in resuscitation of experimental hemorrhagic shock]. Zhonghua wai ke za zhi [Chinese journal of surgery], 1983, Volume: 21, Issue:12 Topics: Animals; Colloids; Dogs; Fluid Therapy; Lactates; Lactic Acid; Plasma Volume; Resuscitation; Shock,	1983
Lactate generation by liver in hemorrhagic shock. Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine (New York, N.Y.), 1981, Volume: 168, Issue:2 Topics: Animals; Carbon Dioxide; Dogs; Hydrogen-Ion Concentration; Kinetics; Lactates; Lactic Acid; Liver; O	1981
Liver adenosine triphosphate (ATP) in hypoxia and hemorrhagic shock. The Journal of trauma, 1982, Volume: 22, Issue:9 Topics: Acidosis, Respiratory; Adenosine Triphosphate; Animals; Arteries; Hydrogen-Ion Concentration; Hypoxi	1982
The effect of pH of resuscitative fluids in treatment of severe hemorrhagic shock. Advances in shock research, 1981, Volume: 5 Topics: Animals; Dogs; Fluid Therapy; Hemodynamics; Hydrogen-Ion Concentration; Lactates; Lactic Acid; Pulmo	1981
Vascular and metabolic effects of methylprednisolone and phenoxybenzamine during controlled hypotension in the dog. Acta anaesthesiologica Scandinavica, 1981, Volume: 25, Issue:3 Topics: Animals; Dogs; Hydrogen-Ion Concentration; Hypotension, Controlled; Lactates; Lactic Acid; Male; Met	1981
Hypertonic saline-dextran resuscitation from hemorrhagic shock induces transient mixed acidosis. Critical care medicine, 1995, Volume: 23, Issue:2 Topics: Acid-Base Equilibrium; Acidosis; Animals; Dextrans; Electrolytes; Female; Fluid Therapy; Hemodynamic	1995
Beneficial effects of antioxidants in hemorrhagic shock. Angiology, 1995, Volume: 46, Issue:4 Topics: Analysis of Variance; Animals; Antioxidants; Creatine Kinase; Dogs; Female; Hemodynamics; Lactates;	1995
Role of oxyradicals in cardiovascular depression and cellular injury in hemorrhagic shock and reinfusion: effect of SOD and catalase. Circulatory shock, 1994, Volume: 43, Issue:2 Topics: Animals; Catalase; Creatine Kinase; Dogs; Female; Free Radicals; Hemodynamics; Lactates; Lactic Acid	1994
Improved myocardial function using cardiopulmonary support in resuscitation for hemorrhagic shock. Archives of surgery (Chicago, Ill. : 1960), 1994, Volume: 129, Issue:10 Topics: Animals; Cardiopulmonary Resuscitation; Coronary Circulation; Hemodynamics; Lactates; Lactic Acid; M	1994
The relationship of base deficit to lactate in porcine hemorrhagic shock and resuscitation. The Journal of trauma, 1994, Volume: 36, Issue:2 Topics: Acidosis; Animals; Disease Models, Animal; Hemodynamics; Lactates; Lactic Acid; Oxygen; Oxygen Consu	1994
Redox state in liver mitochondria in acute copper sulfate poisoning. Life sciences, 1994, Volume: 54, Issue:14 Topics: 3-Hydroxybutyric Acid; Adenosine Monophosphate; Adenosine Triphosphate; Animals; Copper; Copper Sulf	1994
Role of xanthine oxidase inhibition in survival from hemorrhagic shock. Circulatory shock, 1994, Volume: 42, Issue:1 Topics: Allopurinol; Animals; Dogs; Free Radical Scavengers; Lactates; Lactic Acid; Shock, Hemorrhagic; Surv	1994
Diltiazem preserves hepatic gluconeogenesis following hemorrhagic shock. The Journal of trauma, 1993, Volume: 35, Issue:5 Topics: Animals; Diltiazem; Disease Models, Animal; Gluconeogenesis; Glucose; Isotonic Solutions; Lactates;	1993
A comparison of the effects of skeletal muscle injury and somatic afferent nerve stimulation on the response to hemorrhage in anesthetized pigs. The Journal of trauma, 1993, Volume: 35, Issue:5 Topics: Anesthesia; Animals; Blood Pressure; Brachial Plexus; Electric Stimulation; Heart Rate; Hemodynamics	1993
Lactated Ringer's solution alleviates brain trauma-precipitated lactic acidosis in hemorrhagic shock. Journal of neurotrauma, 1993,Fall, Volume: 10, Issue:3 Topics: Acidosis, Lactic; Animals; Blood Glucose; Brain Injuries; Cerebral Hemorrhage; Gases; Hydrogen-Ion C	1993
Interleukin-1 receptor antagonist improves survival and preserves organ adenosine-5'-triphosphate after hemorrhagic shock. Surgery, 1993, Volume: 114, Issue:2 Topics: Adenosine Triphosphate; Animals; Interleukin 1 Receptor Antagonist Protein; Interleukin-1; Lactates;	1993
PCO2 electrodes at the surface of the kidney detect ischaemia. Acta anaesthesiologica Scandinavica, 1996, Volume: 40, Issue:5 Topics: Animals; Carbon Dioxide; Cardiac Output; Electrodes; Hydrogen-Ion Concentration; Ischemia; Kidney; L	1996
Use of recombinant hemoglobin solution in reversing lethal hemorrhagic hypovolemic oxygen debt shock. The Journal of trauma, 1997, Volume: 42, Issue:2 Topics: Animals; Blood Pressure; Blood Substitutes; Cardiac Output; Dogs; Heart Rate; Hemoglobins; Intestine	1997
Activation of pyruvate dehydrogenase improves heart function and metabolism after hemorrhagic shock. Journal of molecular and cellular cardiology, 1997, Volume: 29, Issue:9 Topics: Adenosine Triphosphate; Animals; Arteries; Blood Chemical Analysis; Blood Pressure; Dichloroacetic A	1997
Cardiac depression and cellular injury in hemorrhagic shock and reinfusion: role of free radicals. Molecular and cellular biochemistry, 1997, Volume: 176, Issue:1-2 Topics: Animals; Catalase; Creatine Kinase; Dogs; Female; Free Radicals; Glutathione Peroxidase; Hemodynamic	1997
End-tidal partial pressure of carbon dioxide as a noninvasive indicator of systemic oxygen supply dependency during hemorrhagic shock and resuscitation. Shock (Augusta, Ga.), 1997, Volume: 8, Issue:6 Topics: Animals; Blood Transfusion; Carbon Dioxide; Dogs; Hemodynamics; Lactic Acid; Oxygen; Oxygen Consumpt	1997
Inhibition of nitric oxide synthesis aggravates myocardial ischemia in hemorrhagic shock in constant pressure model. Shock (Augusta, Ga.), 1998, Volume: 9, Issue:3 Topics: Adenosine Triphosphate; Animals; Aorta; Catecholamines; Disease Models, Animal; Dogs; Enzyme Inhibit	1998
Increased skeletal muscle Na+, K+-ATPase activity as a cause of increased lactate production after hemorrhagic shock. The Journal of trauma, 1998, Volume: 44, Issue:5 Topics: Animals; Enzyme Inhibitors; Glycogen; Lactic Acid; Male; Muscle, Skeletal; Organ Culture Techniques;	1998
Sublingual capnometry for diagnosis and quantitation of circulatory shock. American journal of respiratory and critical care medicine, 1998, Volume: 157, Issue:6 Pt 1 Topics: Animals; Biomarkers; Capnography; Hemodynamics; Lactic Acid; Rats; Rats, Sprague-Dawley; Shock, Hemo	1998
Utility of clinical parameters of tissue oxygenation in a quantitative model of irreversible hemorrhagic shock. Shock (Augusta, Ga.), 1998, Volume: 10, Issue:5 Topics: Animals; Blood Gas Analysis; Disease Models, Animal; Lactic Acid; Male; Oxygen; Rats; Rats, Sprague-	1998
Prognostic value of blood lactate, base deficit, and oxygen-derived variables in an LD50 model of penetrating trauma. Critical care medicine, 1999, Volume: 27, Issue:1 Topics: Analysis of Variance; Animals; Critical Care; Hemodynamics; Lactic Acid; Lethal Dose 50; Morbidity;	1999
Controlled resuscitation for uncontrolled hemorrhagic shock. The Journal of trauma, 1999, Volume: 46, Issue:2 Topics: Animals; Aorta; Disease Models, Animal; Fluid Therapy; Hematocrit; Hydroxyethyl Starch Derivatives;	1999
Adrenergic antagonists reduce lactic acidosis in response to hemorrhagic shock. The Journal of trauma, 1999, Volume: 46, Issue:5 Topics: Acidosis, Lactic; Adrenergic alpha-Antagonists; Adrenergic Antagonists; Adrenergic beta-Antagonists;	1999
Diaspirin cross-linked hemoglobin effectively restores pancreatic microcirculatory failure in hemorrhagic shock. Anesthesiology, 1999, Volume: 91, Issue:6 Topics: Acid-Base Equilibrium; Animals; Aspirin; Blood Substitutes; Cell Adhesion; Cross-Linking Reagents; E	1999
Effects of traditional versus delayed resuscitation on serum lactate and base deficit. Resuscitation, 1999, Volume: 43, Issue:1 Topics: Animals; Blood Pressure; Female; Lactic Acid; Resuscitation; Shock, Hemorrhagic; Swine; Time Factors	1999
The effects of interleukin-10 in hemorrhagic shock. The Journal of surgical research, 2000, May-15, Volume: 90, Issue:2 Topics: Animals; Interleukin-1; Interleukin-10; Interleukin-6; Lactic Acid; Male; Rats; Rats, Sprague-Dawley	2000
Depletion of lactate by dichloroacetate reduces cardiac efficiency after hemorrhagic shock. Shock (Augusta, Ga.), 2000, Volume: 14, Issue:2 Topics: Acidosis, Lactic; Animals; Dichloroacetic Acid; Dogs; Drug Evaluation, Preclinical; Energy Metabolis	2000
Lactate improves cardiac efficiency after hemorrhagic shock. Shock (Augusta, Ga.), 2000, Volume: 14, Issue:2 Topics: Acetyl Coenzyme A; Acyl Coenzyme A; Animals; Cardiac Output; Citric Acid Cycle; Energy Metabolism; E	2000
[Arterial plasma nitric oxide and lactate level in hemorrhagic shock patients]. Zhonghua yi xue za zhi, 1998, Volume: 78, Issue:8 Topics: Adolescent; Adult; Female; Humans; Lactic Acid; Male; Nitric Oxide; Prognosis; Shock, Hemorrhagic	1998
Monitoring tissue oxygenation during resuscitation of major burns. The Journal of trauma, 2001, Volume: 50, Issue:3 Topics: Adult; Aged; Blood Gas Monitoring, Transcutaneous; Blood Pressure; Body Surface Area; Burns; Carbon	2001
Effects of ethanol and naltrexone in a model of traumatic brain injury with hemorrhagic shock. Alcoholism, clinical and experimental research, 2001, Volume: 25, Issue:6 Topics: Animals; Blood Pressure; Brain; Brain Injuries; Cardiac Output; Ethanol; Hydrogen-Ion Concentration;	2001
Re.: Nitroprusside in resuscitation of major torso trauma. The Journal of trauma, 2001, Volume: 50, Issue:6 Topics: Humans; Hydrogen-Ion Concentration; Lactic Acid; Nitroprusside; Oxygen; Shock, Hemorrhagic; Thoracic	2001
Adrenergic blockade reduces skeletal muscle glycolysis and Na(+), K(+)-ATPase activity during hemorrhage. The Journal of surgical research, 2001, Volume: 99, Issue:2 Topics: Adenosine Triphosphate; Adrenergic alpha-Antagonists; Adrenergic beta-Antagonists; Animals; Blood Ga	2001
Mesenteric and renal oxygen transport during hemorrhage and reperfusion: evaluation of optimal goals for resuscitation. The Journal of trauma, 2001, Volume: 51, Issue:2 Topics: Acid-Base Equilibrium; Animals; Female; Fluid Therapy; Gastric Acidity Determination; Hemodynamics;	2001
A pig hemorrhagic shock model: oxygen debt and metabolic acidemia as indicators of severity. Shock (Augusta, Ga.), 2001, Volume: 16, Issue:3 Topics: Animals; Disease Models, Animal; Female; Lactic Acid; Oxygen; Predictive Value of Tests; Probability	2001
Sodium pyruvate is better than sodium chloride as a resuscitation solution in a rodent model of profound hemorrhagic shock. Resuscitation, 2001, Volume: 50, Issue:1 Topics: Animals; Blood Glucose; Cardiotonic Agents; Disease Models, Animal; Lactic Acid; Male; Pyruvic Acid;	2001
Effects of hemorrhage on gastrointestinal oxygenation. Intensive care medicine, 2001, Volume: 27, Issue:12 Topics: Analysis of Variance; Animals; Carbon Dioxide; Dogs; Gastric Mucosa; Hemodynamics; Hydrogen-Ion Conc	2001
Preventive effect of glutamine on intestinal barrier dysfunction induced by severe trauma. World journal of gastroenterology, 2002, Volume: 8, Issue:1 Topics: Amine Oxidase (Copper-Containing); Animals; Endotoxemia; Endotoxins; Glutamine; Intestinal Absorptio	2002
Hypoxia is not the sole cause of lactate production during shock. The Journal of trauma, 2002, Volume: 52, Issue:3 Topics: Analysis of Variance; Animals; Epinephrine; Ethanol; Hypoxia; Lactic Acid; Male; Microdialysis; Ouab	2002
Impact of alcohol intoxication on hemodynamic, metabolic, and cytokine responses to hemorrhagic shock. The Journal of trauma, 2002, Volume: 52, Issue:4 Topics: Alanine Transaminase; Alcoholic Intoxication; Animals; Bicarbonates; Blood Glucose; Carbon Dioxide;	2002
[The correction of functional disorders of the hemostatic system and of the rheological properties of the blood in dogs in the late period of hemorrhagic shock by the intravenous transfusion of lactoprotein]. Klinicheskaia khirurgiia, 1992, Issue:9-10 Topics: Albumins; Animals; Blood Coagulation Disorders; Blood Viscosity; Dogs; Drug Combinations; Drug Evalu	1992
Beneficial effects of methionine on myocardial hemodynamic and cellular functions in hemorrhagic shock. Angiology, 1992, Volume: 43, Issue:4 Topics: Animals; Blood Gas Analysis; Creatine Kinase; Dogs; Drug Evaluation, Preclinical; Female; Heart; Hem	1992
Altered cellular calcium regulation and hepatic glucose production during hemorrhagic shock. Circulatory shock, 1992, Volume: 38, Issue:1 Topics: Animals; Blood Glucose; Calcium; Epinephrine; Fluorescent Dyes; Fura-2; Glucose; Kinetics; Lactates;	1992
Beneficial effects of diltiazem in hemorrhagic shock. Circulatory shock, 1991, Volume: 33, Issue:2 Topics: Animals; Blood Glucose; Blood Pressure; Calcium Channels; Diltiazem; Heart Rate; Lactates; Lactic Ac	1991
[Evaluation of the effectiveness of infusion solutions based on electron-microscopic studies]. Gematologiia i transfuziologiia, 1990, Volume: 35, Issue:10 Topics: Animals; Dextrans; Disease Models, Animal; Drug Evaluation, Preclinical; Lactates; Lactic Acid; Live	1990
Relationship of plasma amino acids to oxygen debt during hemorrhagic shock. Circulatory shock, 1991, Volume: 35, Issue:2 Topics: Alanine; Amino Acids; Amino Acids, Branched-Chain; Animals; Blood Pressure; Cardiac Output; Dogs; Gl	1991
Effects of pentoxifylline on hemodynamics, oxygen transport, and tissue metabolism in experimental, severe hemorrhagic shock. Critical care medicine, 1991, Volume: 19, Issue:12 Topics: Animals; Disease Models, Animal; Dogs; Double-Blind Method; Drug Evaluation, Preclinical; Hemodynami	1991
Effects of sodium o-iodobenzoate on acid-base parameters and survival in dogs with hemorrhagic shock. Circulatory shock, 1991, Volume: 33, Issue:2 Topics: 2,3-Diphosphoglycerate; Acidosis; Animals; Bicarbonates; Diphosphoglyceric Acids; Dogs; Erythrocytes	1991
Shock, transfusion, and pneumonectomy. Death is due to right heart failure and increased pulmonary vascular resistance. Annals of surgery, 1990, Volume: 212, Issue:2 Topics: Animals; Blood Pressure; Blood Transfusion; Cardiac Output; Cardiac Output, Low; Heart; Lactates; La	1990
Alterations in metabolite levels in carbohydrate and energy metabolism of rat in hemorrhagic shock and sepsis. Metabolism: clinical and experimental, 1987, Volume: 36, Issue:1 Topics: Adenine Nucleotides; Animals; DNA; Energy Metabolism; Glucose-6-Phosphate; Glucosephosphates; Lactat	1987
Changes in brain thyrotropin-releasing hormone in reversible and irreversible hemorrhagic shock in the rat. Circulatory shock, 1988, Volume: 26, Issue:3 Topics: Animals; Brain; Carbon Dioxide; Lactates; Lactic Acid; Male; Rats; Rats, Inbred Strains; Shock, Hemo	1988
Influence of hemorrhagic shock on hepatic energy metabolism in carbon tetrachloride-induced cirrhotic rats. Circulatory shock, 1988, Volume: 26, Issue:4 Topics: Adenine Nucleotides; Animals; Carbon Tetrachloride; Energy Metabolism; Kinetics; Lactates; Lactic Ac	1988
Effect of acute hypovolemic hypotension on cerebral metabolism in newborn piglets. Brain & development, 1988, Volume: 10, Issue:1 Topics: Animals; Animals, Newborn; Blood Glucose; Blood Pressure; Brain; Cerebrovascular Circulation; Energy	1988
Renal, cerebral, and pulmonary effects of hypertonic resuscitation in a porcine model of hemorrhagic shock. Surgery, 1988, Volume: 104, Issue:3 Topics: Animals; Blood Pressure; Brain; Cardiac Output; Creatinine; Disease Models, Animal; Female; Hemodyna	1988
Extracellular-intracellular lactate gradients in skeletal muscle during hemorrhagic shock in the rat. Surgery, 1985, Volume: 98, Issue:4 Topics: Adenosine Triphosphate; Animals; Blood Glucose; Extracellular Space; Glycolysis; Hematocrit; Lactate	1985
Phase-related changes in tissue energy reserves during hemorrhagic shock. The Journal of surgical research, 1985, Volume: 39, Issue:5 Topics: Animals; Blood Glucose; Energy Metabolism; Glycogen; Hematocrit; Lactates; Lactic Acid; Liver; Liver	1985

lactic acid and Hemorrhagic Shock

Research Excerpts

Research

Studies (207)

Authors

Clinical Trials (1)

Trial Overview

Reviews

Trials

Other Studies

Authors	Studies
Spiegelberg, J	1
Lederer, AK	1
Claus, S	1
Runkel, M	1
Utzolino, S	1
Fichtner-Feigl, S	1
Kousoulas, L	1
Han, SJ	3
Zhou, ZW	3
Yang, C	3
Wei, KP	3
Ma, JZ	3
Chu, ZF	3
Gu, P	3
Wang, LL	1
Tian, YM	1
Hu, S	3
Zhang, HP	2
Meng, XX	1
Zhong, YX	2
Du, MH	1
Ding, Y	1
Talbot, CT	1
Zersen, KM	1
Hess, AM	1
Hall, KE	1
Patel, N	1
Johnson, MA	2
Vapniarsky, N	1
Van Brocklin, MW	1
Williams, TK	2
Youngquist, ST	1
Ford, R	1
Ewer, N	1
Neff, LP	2
Hoareau, GL	3
Zhao, Y	1
Gao, J	1
Li, C	1
Song, G	1
Shan, Y	1
Haan, BJ	1
Cadiz, ML	1
Natavio, AM	1
Letson, HL	1
Granfeldt, A	1
Jensen, TH	1
Mattson, TH	1
Dobson, GP	1
Huh, Y	1
Ko, Y	1
Hwang, K	1
Jung, K	1
Cha, YH	1
Choi, YJ	1
Lee, J	1
Kim, JH	1
Levitt, DG	1
Levitt, JE	1
Levitt, MD	1
Canton, SP	1
Lutfi, W	1
Daley, BJ	1
Miller, RS	1
Harbrecht, BG	2
Claridge, JA	2
Phelan, HA	1
Guyette, FX	1
Sperry, JL	1
Brown, JB	1
Chance, TC	1
Wu, X	1
Keesee, JD	1
Garcia-Marcano, J	1
Salgado, CL	1
Liu, B	1
Moseley, JJ	1
Peck, KA	1
R-Borlado, L	1
Atai, NA	1
Gould, SJ	1
Marban, LS	1
Cap, AP	1
Rathbone, CR	1
Bynum, JA	1
Beni, CE	1
Arbabi, S	1
Robinson, BRH	1
O'Keefe, GE	1
Conner, J	1
Lammers, D	1
Holtestaul, T	1
Jones, I	1
Kuckelman, J	1
Letson, H	1
Dobson, G	1
Eckert, M	1
Bingham, J	1
Fligor, SC	1
Love, KM	1
Collier, BR	1
Lollar, DI	1
Hamill, ME	1
Benson, AD	1
Bradburn, EH	1
Slaughter, AL	3
Nunns, GR	1
D'Alessandro, A	4
Banerjee, A	4
Hansen, KC	4
Moore, EE	4
Silliman, CC	4
Nemkov, T	3
Moore, HB	3
Fragoso, M	4
Leasia, K	1
Peltz, ED	2
Müller, T	1
Kirsch, M	1
Petrat, F	1
Reisz, JA	1
Wither, MJ	2
Ghasabyan, A	1
Chandler, J	1
Schaub, LJ	1
Nunns, G	1
Sheppard, FR	1
Sun, W	1
Shao, Z	1
Xu, H	2
Qiu, W	1
Sun, J	1
Ferreira, SADS	1
Moraes, AC	1
Terzi, RGG	1
Ferreira, ELA	1
Silva, WA	1
Moreira, MM	1
Tibbits, EM	1
Simon, MA	1
Davidson, AJ	1
DeSoucy, ES	1
Faulconer, ER	1
Grayson, JK	2
Beyer, CA	1
Wilson, C	1
Kashtan, H	1
Wishy, A	1
Walker, L	1
Ross, JD	2
Stewart, IJ	1
Li, M	1
Li, G	1
Yu, B	1
Luo, Y	1
Li, Q	2
Wu, XQ	1
Li, ZB	1
Chen, WX	1
Wen, DL	1
Zhang, ZH	1
Xiong, XM	1
Markov, NP	1
Percival, TJ	1
Morrison, JJ	1
Scott, DJ	1
Spencer, JR	1
Rasmussen, TE	1
Lin, GS	1
Chou, TH	1
Wu, CY	1
Wu, MC	1
Fang, CC	1
Yen, ZS	1
Lee, CC	1
Chen, SC	2
Satterly, SA	1
Martin, M	1
Wingerd, M	1
Hempel, J	1
Hoffer, Z	1
Stallings, JD	1
Kim, KA	1
Choi, JY	2
Yoo, TK	2
Kim, SK	1
Chung, K	1
Kim, DW	2
Zhang, YM	1
Gao, B	1
Wang, JJ	1
Sun, XD	1
Liu, XW	1
Bai, XD	1
Liu, XQ	1
Wang, HB	1
Fang, T	1
Zhou, FQ	2
Carreira, S	1
Lê Dinh, M	1
Soubeyrand, M	1
Poloujadoff, MP	1
Riou, B	1
Similowski, T	1
Coirault, C	1
Demoule, A	1
Yu, TC	1
Yang, FL	1
Hsu, BG	2
Wu, WT	1
Lee, RP	3
Subeq, YM	2
Caputo, ND	1
Kanter, M	2
García-Velásquez, V	1
Rodas-Acosta, D	1
González-Agudelo, M	1
Ardila-Castellanos, R	1
Lee, JH	1
Kim, K	1
Jo, YH	1
Kim, MA	1
Lee, KB	1
Rhee, JE	1
Doo, AR	1
Lee, MJ	1
Park, CJ	1
Kim, J	1
Chung, H	1
Soller, B	2
Smith, C	1
Zou, F	2
Ellerby, GE	1
Prince, MD	3
Sondeen, JL	2
Belenkiy, SM	1
Berry, JS	1
Batchinsky, AI	1
Kendrick, C	1
Necsoiu, C	1
Jordan, BS	1
Salinas, J	1
Cancio, LC	1
Zhao, ZG	1
Zhu, HX	1
Zhang, LM	1
Zhang, YP	1
Niu, CY	1
Zhao, L	2
Luo, L	1
Chen, J	1
Xiao, J	1
Jia, W	1
Xiao, Y	1
Zhang, JJ	2
Zhang, ZZ	1
Ke, JJ	1
He, XH	1
Zhan, J	1
Chen, DL	1
Wang, YP	1
Wang, YL	1
Lu, XG	1
Kang, X	1
Wang, XZ	1
Guo, S	1
Fan, ZW	1
Liang, ZK	1
Yu, J	2
Bian, Y	1
Chang, TM	1
Reynolds, PS	3
Song, KS	1
Tamariz, FJ	1
Wayne Barbee, R	1
Borovnik-Lesjak, V	1
Whitehouse, K	1
Baetiong, A	1
Miao, Y	1
Currie, BM	1
Velmurugan, S	1
Radhakrishnan, J	1
Gazmuri, RJ	1
Dubick, MA	1
Burša, F	1
Pleva, L	1
Máca, J	1
Sklienka, P	1
Ševčík, P	1
Lei, Y	1
Peng, X	1
Liu, L	1
Dong, Z	2
Li, T	1
Spiess, BD	1
Huang, T	1
Keitel, J	1
Hussmann, B	1
Lendemans, S	1
de Groot, H	1
Rohrig, R	1
Wither, M	1
Bacon, AW	1
Gomez, H	2
Kautza, B	1
Escobar, D	1
Nassour, I	1
Luciano, J	1
Botero, AM	1
Gordon, L	1
Martinez, S	1
Holder, A	1
Ogundele, O	1
Loughran, P	1
Rosengart, MR	1
Pinsky, M	1
Shiva, S	1
Zuckerbraun, BS	1
Wang, L	2
Zhao, B	1
Chen, Y	1
Ma, L	1
Chen, EZ	1
Mao, EQ	1
Morton, AP	1
Gonzalez, E	1
Chapman, MP	1
Slaughter, A	1
Sauaia, A	1
Ratz, PH	1
Miner, AS	1
Huang, Y	1
Smith, CA	1
Barbee, RW	4
Qin, Q	1
Xia, Y	1
Cao, Y	1
Gale, SC	1
Kocik, JF	1
Creath, R	1
Crystal, JS	1
Dombrovskiy, VY	1
Leung, LY	1
Deng-Bryant, Y	1
Cardiff, K	1
Winter, M	1
Tortella, F	1
Shear, D	1
Ergin, B	1
Kapucu, A	1
Guerci, P	1
Ince, C	2
Ward, KR	1
Zhang, Y	1
Liang, ZY	1
Zhang, SY	1
Huang, FF	1
Wu, W	1
Gao, Y	1
Chen, ZB	1
Mackenzie, CF	1
Morrison, C	1
Jaberi, M	1
Genuit, T	1
Katamuluwa, S	1
Rodriguez, A	1
Roesner, JP	1
Koch, A	1
Bateman, R	1
Scheeren, TW	1
Zander, R	1
Nöldge-Schomburg, GE	1
Zacharowski, K	1
Hsu, JT	2
Kan, WH	2
Hsieh, CH	2
Choudhry, MA	2
Bland, KI	2
Chaudry, IH	2
Peng, TC	2
Lin, NT	1
Chao, YF	2
Hu, TM	1
Legrand, M	1
Mik, EG	1
Balestra, GM	1
Lutter, R	1
Pirracchio, R	1
Payen, D	1
Collange, O	1
Charton, A	1
Greib, N	1
Joshi, GP	1
Schaeffer, R	1
Diemunsch, PA	1
Wan, Z	1
Sun, S	3
Ristagno, G	1
Weil, MH	4
Tang, W	3
Ohashi, H	1
Kawasaki, N	1
Fujitani, S	1
Kobayashi, K	3
Ohashi, M	1
Hosoyama, A	1
Wada, T	1
Taira, Y	1
Sloan, EP	1
Koenigsberg, MD	1
Philbin, NB	1
Gao, W	2
Dar, DE	1
Soustiel, JF	1
Zaaroor, M	1
Brotfain, EM	1
Leibowitz, A	1
Shapira, Y	1
Semenikhina, L	1
Solopov, A	1
Krausz, MM	3
Barros, JM	1
do Nascimento, P	2
Marinello, JL	1
Braz, LG	1
Carvalho, LR	1
Vane, LA	1
Castiglia, YM	1
Braz, JR	1
Solan, PD	1
Piraino, G	1
Hake, PW	1
Denenberg, A	1
O'Connor, M	1
Lentsch, A	1
Zingarelli, B	1
Vnuk, D	1
Lemo, N	1
Nesek-Adam, V	1
Maticić, D	1
Radisić, B	1
Kos, J	1
Rumenjak, V	1
Dohan Ehrenfest, DM	1
Vandromme, MJ	1
Griffin, RL	1
McGwin, G	2
Weinberg, JA	1
Rue, LW	1
Kerby, JD	1
Xanthos, TT	1
Balkamou, XA	1
Stroumpoulis, KI	1
Pantazopoulos, IN	1
Rokas, GI	1
Agrogiannis, GD	1
Troupis, GT	1
Demestiha, TD	1
Skandalakis, PN	1
Miraflor, E	1
Yeung, L	1
Strumwasser, A	1
Sadjadi, J	1
Victorino, GP	1
Waelgaard, L	1
Dahl, BM	1
Kvarstein, G	2
Tønnessen, TI	2
Han, LC	1
Sun, XX	1
Zhou, Y	1
Meng, XZ	1
Zhang, H	1
Xu, LX	1
Sobhian, B	1
Kröpfl, A	1
Hölzenbein, T	1
Khadem, A	2
Redl, H	2
Bahrami, S	2
Mesquida, J	1
Hermus, L	1
Polanco, P	1
Kim, HK	1
Zenker, S	1
Torres, A	1
Namas, R	1
Vodovotz, Y	1
Clermont, G	1
Puyana, JC	1
Pinsky, MR	1
Caputo, N	1
Fraser, R	1
Paliga, A	1
Hosford, K	1
Madlinger, R	1
Lee, WH	1
Park, I	1
Neligan, PJ	1
Baranov, D	2
Tamion, F	1
Richard, V	1
Lacoume, Y	1
Thuillez, C	1
Schulman, AM	1
Young, JS	1
Mongan, PD	2
Capacchione, J	1
West, S	1
Karaian, J	1
Dubois, D	1
Keneally, R	1
Sharma, P	1
McDonough, KH	1
Giaimo, ME	1
Miller, HI	1
Gentilello, LM	1
Shah, KJ	1
Chiu, WC	1
Scalea, TM	5
Carlson, DE	1
Hoen, S	1
Asehnoune, K	1
Brailly-Tabard, S	1
Mazoit, JX	1
Benhamou, D	1
Moine, P	1
Edouard, AR	1
Ogino, R	1
Mizock, BA	1
Friedman, Z	1
Berkenstadt, H	1
Preisman, S	1
Perel, A	1
Ng, KC	1
Moochhala, SM	1
Md, S	1
Yap, EL	1
Low, SY	1
Lu, J	1
Malhotra, AK	1
Kelly, ME	1
Miller, PR	1
Hartman, JC	1
Fabian, TC	2
Proctor, KG	2
Summers, RL	1
Li, Z	1
Hildebrandt, D	1
Gurfinkel, V	1
Poggetti, RS	1
Fontes, B	1
da Costa Ferreira Novo, F	1
Birolini, D	1
Masuda, T	1
Sato, K	1
Noda, C	1
Ikeda, KM	1
Matsunaga, A	1
Ogura, MN	1
Shimizu, K	1
Nagasawa, H	1
Matsuyama, N	1
Izumi, T	1
Johnson, KB	2
Egan, TD	1
Kern, SE	1
White, JL	1
McJames, SW	2
Syroid, N	1
Whiddon, D	1
Church, T	1
Szalay, L	1
Umar, F	1
Jafarmadar, M	1
Fürst, W	1
Ohlinger, W	1
Bayir, A	1
Kafali, ME	1
Ak, A	1
Sahin, M	1
Karagözoğlu, E	1
Gül, M	1
Karabulut, K	1
BRODER, G	1
PERETZ, DI	1
MCGREGOR, M	1
DOSSETOR, JB	1
Szebeni, J	1
Baranyi, L	1
Savay, S	1
Götze, O	1
Alving, CR	1
Bünger, R	1
Bashenko, Y	1
Hirsh, M	2
Taylor, JH	1
Beilman, GJ	1
Conroy, MJ	1
Mulier, KE	1
Myers, D	1
Gruessner, A	1
Hammer, BE	1
Bäckström, T	1
Liska, J	1
Oldner, A	1
Lockowandt, U	1
Franco-Cereceda, A	1
Tenhunen, J	1
Baron, BJ	3
Sinert, R	2
Zehtabchi, S	3
Stavile, KL	2
Ghiassi, S	1
Sun, YS	1
Kim, VB	1
Scott, CM	1
Nifong, LW	1
Rotondo, MF	1
Chitwood, WR	1
Bilkovski, RN	1
Rivers, EP	1
Horst, HM	1
Omron, EM	1
Gilbert, RC	1
Cui, X	1
Wu, R	3
Zhou, M	3
Dong, W	2
Ulloa, L	1
Yang, H	1
Wang, H	1
Tracey, KJ	1
Simms, HH	1
Wang, P	3
Hei, ZQ	1
Lin, SQ	1
Liu, KX	1
Chen, BX	1
Pellis, T	1
Csapozi, P	1
Castillo, C	1
Lu, YQ	3
Cai, XJ	3
Gu, LH	3
Fan, YJ	1
Wang, Q	3
Bao, DG	3
Rixen, D	2
Siegel, JH	3
Liao, KW	1
Lai, HL	1
Chang, FM	1
Harn, HJ	1
Oeltgen, PR	1
Govindaswami, M	2
Witzke, DB	1
Schumacher, J	1
Puchakayala, MR	1
Binkowski, K	1
Eichler, W	1
Dendorfer, A	1
Klotz, KF	1
Pearce, FJ	4
Jeffreys, N	1
Cluff, M	1
Huang, WD	2
Audonnet-Blaise, S	1
Krafft, MP	1
Smani, Y	1
Mertes, PM	1
Marie, PY	1
Labrude, P	1
Longrois, D	1
Menu, P	1
Yamazaki, Y	1
Saito, A	1
Hasegawa, K	1
Takahashi, H	1
Rice, J	1
Philbin, N	1
Arnaud, F	1
Johnson, T	1
Flournoy, WS	1
Pearce, LB	1
McCarron, R	1
Kaplan, L	1
Handrigan, M	1
Freilich, D	1
Brod, VI	1
Adir, Y	1
Bitterman, H	1
Perdrizet, GA	1
Giles, DL	1
Dring, R	1
Agarwal, SK	1
Khwaja, K	1
Gao, YZ	1
Geary, M	1
Cowell, VL	1
Berman, M	1
Brautigam, R	1
Higuchi, S	1
Ravikumar, TS	2
Goto, Y	1
Terajima, K	1
Tsueshita, T	1
Miyashita, M	1
Horinouchi, H	1
Sakai, H	1
Tsuchida, E	1
Sakamoto, A	1
Dutton, RP	1
Spanfelner, J	1
Khodorkovsky, B	1
Nagdev, A	1
Hahn, B	1
Neligan, P	1
Vaid, SU	1
Hoskins, SL	1
Espana, JM	1
Kinsky, MP	1
Kramer, GC	2
Frankel, DA	1
Acosta, JA	1
Anjaria, DJ	1
Porcides, RD	1
Wolf, PL	1
Coimbra, R	1
Hoyt, DB	1
Rutten, M	1
Oeltgen, P	1
Sonneborn, JS	1
Kompanje, EJ	1
Jansen, TC	1
van der Hoven, B	1
Bakker, J	1
Sitina, M	1
Cerny, V	1
Rivera-Chavez, FA	1
Huerta, S	1
Brown, R	1
York, GB	1
Minei, JP	1
Wang, B	1
You, GX	1
Su, LY	1
Yu, L	1
Wang, ZL	1
Zhou, H	1
Paladino, L	1
Wallace, D	1
Anderson, T	1
Yadav, K	1
Qiang, X	1
Ji, Y	1
Cui, T	1
Yang, J	1
Blau, S	1
Marini, CP	1
Schwacha, MG	1
Cho, SD	1
Holcomb, JB	1
Tieu, BH	1
Englehart, MS	1
Morris, MS	1
Karahan, ZA	1
Underwood, SA	1
Muller, PJ	1
Medina, L	1
Sondeen, J	1
Shults, C	1
Duggan, M	1
Tabbara, M	1
Alam, HB	1
Schreiber, MA	1
Zhu, HD	1
Yu, CH	1
Wang, HL	1
Wang, Z	1
Yu, XZ	1
Nagy, S	1
Hantos, Z	1
Deavers, SI	1
Tóth, I	1
Klebniczki, J	1
Adamicza, A	1
Wu, WX	1
Cucinell, SA	1
O'Brien, JC	1
Bryant, GH	1
Goodwin, BS	1
Pass, LJ	1
Schloerb, PR	1
Chow, FT	1
Graham, M	1
Franklin, MW	1
Drucker, WR	3
McGovern, PJ	1
Machiedo, GW	1
Rush, BF	1
Haglund, U	1
Haljamäe, H	1
Hellman, A	1
Häggendal, E	1
Jennische, E	1
Lundberg, D	1
Moon, PF	1
Kapoor, R	4
Prasad, K	4
Iguidbashian, JP	1
Follette, DM	1
Contino, JP	1
Chao, C	1
Berkoff, HA	1
Davis, JW	1
Nakatani, T	1
Spolter, L	1
Mannion, D	1
Fitzpatrick, GJ	1
Feeley, M	1
Geller, ER	3
Higgins, LD	2
Drourr, N	1
Maitra, SR	3
Rady, MY	1
Kirkman, E	1
Cranley, J	1
Little, RA	1
Yuan, XQ	1
Wade, CE	1
Pellicane, JV	1
DeMaria, EJ	1
Abd-Elfattah, A	1
Reines, HD	1
Vannice, JL	1
Carson, KW	1
Lu, H	1
Xu, G	2
Sheng, Z	1
Fabian, M	2
Smith, JA	1
Costantino, D	1
Kline, JA	3
Maiorano, PC	1
Schroeder, JD	1
Grattan, RM	1
Vary, TC	1
Watts, JA	3
Kalra, J	2
Guzman, JA	1
Lacoma, FJ	1
Najar, A	1
Kruse, JA	1
Adachi, T	1
Hori, S	1
Miyazaki, K	1
Nakagawa, M	1
Inoue, S	1
Ohnishi, Y	1
Nakazawa, H	1
Aikawa, N	1
Ogawa, S	1
Luchette, FA	4
Friend, LA	4
Brown, CC	1
Upputuri, RK	1
James, JH	4
Nakagawa, Y	1
Yamaguchi, H	1
Jin, X	1
Bisera, J	1
Shah, NS	1
Kelly, E	1
Billiar, TR	1
Marshall, HM	1
Udekwu, AO	1
Peitzman, AB	1
Moomey, CB	1
Melton, SM	1
Croce, MA	1
Burris, D	1
Rhee, P	1
Kaufmann, C	1
Pikoulis, E	1
Austin, B	1
Eror, A	1
DeBraux, S	1
Guzzi, L	1
Leppäniemi, A	1
Robinson, BR	1
McCarter, F	1
Frame, SB	1
von Dobschuetz, E	1
Hoffmann, T	1
Messmer, K	1
Sinert, RH	1
Sinha, AK	1
Buckley, MC	1
Shaftan, GW	1
Karakozis, S	1
Hinds, M	1
Cook, JW	1
Kim, D	1
Provido, H	1
Kirkpatrick, JR	1
Thornton, LR	1
Lopaschuk, GD	1
Pei, L	1
Wang, J	1
Venkatesh, B	1
Meacher, R	1
Muller, MJ	1
Morgan, TJ	1
Fraser, J	1
Zink, BJ	1
Schultz, CH	1
Stern, SA	1
Mertz, M	1
Wang, X	1
Johnston, P	1
Keep, RF	1
Porter, JM	1
McCarter, FD	1
King, JK	1
Evans, JM	1
George, MA	1
Fischer, JE	2
Chiara, O	1
Pelosi, P	1
Segala, M	1
Turconi, MG	1
Brazzi, L	1
Bottino, N	1
Taccone, P	1
Zambelli, M	1
Tiberio, G	1
Boswell, S	1
Raum, M	1
Holzgraefe, B	1
Sauerland, S	1
Nagelschmidt, M	1
Neugebauer, EA	1
Slovin, PN	1
Huang, CJ	1
Cade, JR	1
Wood, CE	1
Nasiroglu, O	1
Privette, M	1
Orbach, P	1
Skimming, JW	1
Dubin, A	1
Estenssoro, E	1
Murias, G	1
Canales, H	1
Sottile, P	1
Badie, J	1
Barán, M	1
Pálizas, F	1
Laporte, M	1
Rivas Díaz, M	1
Li, JY	1
Lu, Y	1
Sun, D	1
Yao, YM	1
Jenkins, WA	1
Su, C	1
Phelan, H	1
Stahls, P	1
Hunt, J	1
Bagby, GJ	1
Molina, PE	1
Oborin, AN	1
Uspenskiĭ, BA	1
Kondratskiĭ, BA	1
Mindiuk, MV	1
Pan, W	1
Kennedy, PR	1
Krikhely, M	1
Dulchavsky, SA	1
Kreis, DJ	1
Levin, GS	1
Shneĭvaĭs, VB	1
Gubaev, SA	1
Dunham, CM	1
Gettings, L	1
Oropello, JM	1
Amin, D	1
Klapholtz, A	1
Benjamin, E	1
Fischer, E	1
Jacobs, E	1
Iberti, TJ	1
Bercovich, CF	1
Pirola, CJ	1
Finkielman, S	1
Nahmod, VE	1
Cryer, HG	1
Mavroudis, C	1
Roberts, AM	1
Cué, JI	1
Richardson, JD	1
Polk, HC	1
Mori, E	1
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Iijima, N	1
Mizobe, T	1
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Ikai, I	1
Shimahara, Y	1
Wakashiro, S	1
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Tokunaga, Y	1
Tanaka, A	1
Morimoto, T	1
Ozawa, K	1
Matsuda, H	1
Raju, TN	1
Maeta, H	1
John, E	1
Fornel, L	1
Vidyasagar, D	1
Shackford, SR	1
Norton, CH	1
Todd, MM	1
Connett, RJ	2