uric acid and Acute Kidney Failure studies

uric acid and Acute Kidney Failure

uric acid has been researched along with Acute Kidney Failure in 438 studies

Uric Acid: An oxidation product, via XANTHINE OXIDASE, of oxypurines such as XANTHINE and HYPOXANTHINE. It is the final oxidation product of purine catabolism in humans and primates, whereas in most other mammals URATE OXIDASE further oxidizes it to ALLANTOIN.
uric acid : An oxopurine that is the final oxidation product of purine metabolism.
6-hydroxy-1H-purine-2,8(7H,9H)-dione : A tautomer of uric acid having oxo groups at C-2 and C-8 and a hydroxy group at C-6.
7,9-dihydro-1H-purine-2,6,8(3H)-trione : An oxopurine in which the purine ring is substituted by oxo groups at positions 2, 6, and 8.

Research Excerpts

Excerpt	Relevance	Reference
"Serum uric acid (SUA) is a novel risk factor for acute kidney injury (AKI), which adversely affects renal blood flow autoregulation, glomerular filtration rate (GFR), and promotes inflammation and angiogenesis."	9.17	Effect of uric acid lowering therapy on the prevention of acute kidney injury in cardiovascular surgery. ( Abouhamze, AS; Beaver, TM; Dass, B; Ejaz, AA; Ejaz, NI; Johnson, RJ; Lingegowda, V; Shimada, M, 2013)
"Epidemiological, experimental and clinical studies support a role for uric acid in acute kidney injury (AKI)."	9.16	Lowering serum uric acid to prevent acute kidney injury. ( Arif, AA; Dass, B; Dhatt, GS; Ejaz, AA; Ejaz, NI; Faldu, C; Johnson, RJ; Kambhampati, G; Lanaspa, MA; Maroz, N; Shah, G, 2012)
"Treatment with allopurinol has been suggested to reduce the incidence of contrast-induced acute kidney injury (CI-AKI)."	9.05	Effects of allopurinol pretreatment on the risk of contrast-induced acute kidney injury in patients undergoing percutaneous coronary intervention: A meta-analysis of randomized controlled trials . ( Jia, S; Lin, Z; Xin, W; Zhang, T, 2020)
"Studies have demonstrated the presence of a strong association between serum uric acid (SUA) and acute kidney injury (AKI) consistently across several disease models."	9.01	The Role of Uric Acid in Acute Kidney Injury. ( Alquadan, KF; Beaver, TM; Dass, B; Ejaz, AA; Johnson, RJ; Lapsia, V; Mohandas, R; Shimada, M, 2019)
"Acute uric acid nephropathy during pregnancy responds to conventional medical therapy."	8.78	Acute uric acid nephropathy in pregnancy. ( Alexopoulos, E; Bili, H; Mantalenakis, S; Tampakoudis, P, 1992)
" Serum uric acid to albumin ratio (UAR) is a novel marker, which is associated with acute kidney injury in intensive care unit patients."	8.31	Serum Uric Acid to Albumin Ratio Can Predict Contrast-Induced Nephropathy in ST-Elevation Myocardial Infarction Patients Undergoing Primary Percutaneous Coronary Intervention. ( Akbulut, T; Çınar, T; Şaylık, F; Selçuk, M, 2023)
"To evaluate the antioxidant actions of indirect bilirubin and uric acid on outcomes of sepsis-associated AKI."	8.12	Impact of indirect bilirubin and uric acid on outcomes of sepsis-associated acute kidney injury (sAKI). ( Abozenah, M; Bedair, HM; Ebrahim, E; Efat, A; Kassemy, Z; Shoeib, S, 2022)
"This study assessed the predictive value of uric acid (UA) for contrast-induced acute kidney injury (CI-AKI) in patients with type 2 diabetes mellitus (T2DM) who underwent coronary angiography (CAG)."	8.12	Association between uric acid level and contrast-induced acute kidney injury in patients with type 2 diabetes mellitus after coronary angiography: a retrospective cohort study. ( Chen, H; Li, Z; Liu, H; Tang, C; Tang, H; Xu, S; Yan, G, 2022)
"To report a case of ribavirin-associated severe hyperuricemia in an immunocompromised patient treated for respiratory syncytial virus (RSV) infection."	8.02	Acute and severe ribavirin-associated hyperuricemia and acute kidney injury: An underrecognized adverse effect. ( Ammuri, H; Elias, A; Frisch, A; Kurnik, D; Sakran, R; Sliman, H, 2021)
"We conducted an observational study evaluating the association between uric acid, mean platelet volume (MPV), and high-density lipoprotein (HDL) with complications and outcomes of patients with sepsis in a critical care setting."	7.96	High-Density Lipoprotein, Mean Platelet Volume, and Uric Acid as Biomarkers for Outcomes in Patients With Sepsis: An Observational Study. ( Chiou, SH; Montero-Chacón, LB; Padilla-Cuadra, JI; Torrealba-Acosta, G, 2020)
"To assess the role of serum Cystatin C, IL-18 and Uric acid in acute kidney injury (AKI) in urological patients, along with their prognostic significance."	7.88	Association and prognostic value of serum Cystatin C, IL-18 and Uric acid in urological patients with acute kidney injury. ( Basu, S; Choudhary, A; Das, RK; Dey, RK; Dey, SK; Rout, JK, 2018)
"The model consisted of heat stress exposure (1 h, 37°C) plus rhabdomyolysis (R) induced by repetitive IM injections of glycerol (7."	7.88	Kidney Injury from Recurrent Heat Stress and Rhabdomyolysis: Protective Role of Allopurinol and Sodium Bicarbonate. ( Blas-Marron, MG; García-Arroyo, FE; Glaser, J; Gonzaga, G; Johnson, RJ; Madero, M; Muñoz-Jimenez, I; Osorio-Alonso, H; Roncal-Jiménez, CA; Sánchez-Lozada, LG; Silverio, O; Tapia, E; Weiss, I, 2018)
"Metabolic Syndrome (Mets) and increased serum uric acid (SUA), are well known renal risk predictors and often coexist in patients with type 2 diabetes (T2D)."	7.85	Metabolic syndrome, serum uric acid and renal risk in patients with T2D. ( Ceriello, A; De Cosmo, S; Fioretto, P; Genovese, S; Giorda, C; Guida, P; Piscitelli, P; Pontremoli, R; Russo, G; Viazzi, F, 2017)
"Uric acid (UA) plays important roles in inducing renal inflammation, intra-renal vasoconstriction and renal damage."	7.85	Uric acid causes kidney injury through inducing fibroblast expansion, Endothelin-1 expression, and inflammation. ( Arfian, N; Romi, MM; Sari, DCR; Setyaningsih, WAW; Tranggono, U, 2017)
"Recent studies have shown that both low and high levels of serum uric acid (SUA) before cardiovascular surgery are independent risk factors for postoperative acute kidney injury (AKI)."	7.83	Serum uric acid level as a risk factor for acute kidney injury in hospitalized patients: a retrospective database analysis using the integrated medical information system at Kochi Medical School hospital. ( Hamada-Ode, K; Hatakeyama, Y; Horino, T; Inoue, K; Kataoka, H; Matsumoto, T; Miki, T; Ogata, K; Okuhara, Y; Otomo, K; Shimamura, Y; Taniguchi, Y; Terada, Y, 2016)
"The present study investigated the role of N-methyl-d-aspartate (NMDA) receptors in curcumin-mediated renoprotection against ischemia reperfusion (I/R)-induced acute kidney injury (AKI) in rats."	7.83	Curcumin alleviates ischemia reperfusion-induced acute kidney injury through NMDA receptor antagonism in rats. ( Kaur, A; Kaur, T; Pal Singh, A; Pathak, D; Singh Buttar, H; Singh, B, 2016)
"I/R caused alterations in diuresis, water intake, urinary osmolality, plasmatic creatinine, urea and uric acid, creatinine clearance, proteinuria and microalbuminuria."	7.83	Nephroprotective effects of (-)-α-bisabolol against ischemic-reperfusion acute kidney injury. ( Alves, RS; Arrieta, MC; Chaves Filho, AJ; da Costa, MF; de Morais, GB; Evangelista, JS; Libório, AB; Martins, AM; Meneses, GC; Menezes, RR; Sampaio, TL, 2016)
"We investigated the ability of serum uric acid (SUA) to predict laboratory tumor lysis syndrome (LTLS) and compared it to common laboratory variables, cytogenetic profiles, tumor markers and prediction models in acute myeloid leukemia patients."	7.81	Uric acid and the prediction models of tumor lysis syndrome in AML. ( Ejaz, AA; Hsu, JW; Johnson, RJ; Mohandas, R; Pourafshar, N; Smallwood, BA, 2015)
" The AKI was assessed in terms of measuring creatinine clearance (CrCl), blood urea nitrogen (BUN), plasma uric acid, potassium level, fractional excretion of sodium (FeNa), and microproteinuria."	7.81	Investigation of the role of nitric oxide/soluble guanylyl cyclase pathway in ascorbic acid-mediated protection against acute kidney injury in rats. ( Kaur, A; Koul, V; Singh, AP, 2015)
"An elevated serum concentration of uric acid may be associated with an increased risk of acute kidney injury (AKI)."	7.81	Relationship between Serum Uric Acid Concentration and Acute Kidney Injury after Coronary Artery Bypass Surgery. ( Baek, SH; Chin, JH; Choi, IC; Choi, JH; Ji, SM; Joung, KW; Kim, JY; Lee, EH, 2015)
"Recent studies suggested that elevated serum uric acid levels may be associated with the risk of acute kidney injury (AKI) in several settings."	7.80	Association of preoperative uric acid and acute kidney injury following cardiovascular surgery. ( Chin, JH; Choi, DK; Choi, IC; Jo, JY; Joung, KW; Kim, WJ; Lee, EH, 2014)
"To investigate the impact of pre-operative uric acid on acute kidney injury (AKI) after cardiac surgery in elderly patients."	7.80	[Impact of pre-operative uric acid on acute kidney injury after cardiac surgery in elderly patients]. ( An, S; Cai, L; Chen, Y; Hu, P; Li, Z; Liang, X; Shi, W; Xu, J, 2014)
"Uric acid has been proposed to play a role in acute kidney injury."	7.78	Elevated uric acid increases the risk for acute kidney injury. ( Arif, AA; Dass, B; Ejaz, AA; Ejaz, NI; Johnson, RJ; Kambhampati, G; Lapsia, V; Shimada, M, 2012)
" We reasoned that AKI resulted from hyperuricemia during MZ administration because serum concentrations of uric acid (31."	7.78	A case of acute kidney injury with marked hyperuricemia during mizoribine administration. ( Kohno, S; Nishino, T; Obata, Y; Ohta, Y; Shinzato, K; Shinzato, T; Yamashita, H, 2012)
"It has been known for decades that uric acid causes acute kidney injury by intratubular crystal precipitation and obstructing the renal tubules."	7.77	Paradigm shift in the role of uric acid in acute kidney injury. ( Dass, B; Ejaz, AA; Shimada, M, 2011)
"We investigated the relation between serum uric acid and the incidence of postoperative acute kidney injury in patients undergoing high-risk cardiovascular surgery (cardiac valve and aneurysm surgery)."	7.75	Uric acid: a novel risk factor for acute kidney injury in high-risk cardiac surgery patients? ( Beaver, TM; Ejaz, AA; Johnson, RJ; Kim, T; Lingegowda, V; Schold, JD; Shimada, M; Sood, P, 2009)
"We report on 3 infants with obstructive anuria due to bilateral uric acid stones."	7.72	Dissolution of uric acid stones causing acute obstructing anuria in three consecutive infants. ( Boleken, ME; Kaya, M; Memedoglu, ME; Soran, M; Yücesan, S, 2003)
"Thirty-one pediatric patients with acute leukemia who had relapsed on either 6-mercaptopurine or 6-thioguanine were treated with beta-2'-deoxythioguanosine, which was administered as an iv infusion every 12 hours for three or six doses every 2 weeks."	7.67	Phase I evaluation of beta-2'-deoxythioguanosine in pediatric patients with leukemia. ( Hartman, G; Higgins, GR; Jamin, DC; Momparler, R; Shore, NA; Siegel, SE, 1985)
"Bilateral ureteral obstruction from uric acid stones developed in a patient with severe autoimmune hemolytic anemia at a time of hemolytic crisis."	7.66	Bilateral ureteral obstruction due to uric acid stones in association with immune hemolytic anemia. ( Schroder, LE; Vilter, RW, 1983)
"The urinary excretion of hypoxanthine, xanthine, and uric acid was measured prior to and following chemotherapy in 11 patients with rapidly growing chemotherapy-sensitive lymphomas who were receiving concomitant allopurinol therapy."	7.66	Postchemotherapy purine excretion in lymphoma patients receiving allopurinol. ( Chabner, BA; Hande, KR; Hixson, CV, 1981)
"We describe three patients in whom severe, life-threatening hyperkalemia and renal insufficiency developed after treatment of acute gouty arthritis with indomethacin."	7.66	Indomethacin-induced hyperkalemia in three patients with gouty arthritis. ( Beckstrom, D; Findling, JW; Itskovitz, H; Kozin, F; Rawsthorne, L, 1980)
"High uric acid (UA) has been found to be correlated with renal dysfunction in some experimental and clinical studies; however, the study of the dynamic correlation between AKI and UA in severe burns is still lacking."	5.42	Elevated serum uric acid after injury correlates with the early acute kidney in severe burns. ( Hu, X; Liang, J; Zhang, P; Zhi, L, 2015)
"Gallic acid is a polyphenolic compound and is reported to be renoprotective because of its antioxidant activity in various preclinical studies."	5.40	Explicit role of peroxisome proliferator-activated receptor gamma in gallic acid-mediated protection against ischemia-reperfusion-induced acute kidney injury in rats. ( Bhatti, R; Singh, AP; Singh, JP, 2014)
" Study design: We present a case of a 10-year-old boy with metastatic clear cell renal cell carcinoma (ccRCC) of the right kidney and an acute renal failure of the left kidney secondary to uric acid nephrolithiasis."	5.22	Clear Cell Renal Cell Carcinoma, Diagnostic and Therapeutic Difficulties, Case Report and Literature Review. ( Mizia-Malarz, A; Stolpa, W; Stręk-Cholewińska, A, 2022)
"Serum uric acid (SUA) is a novel risk factor for acute kidney injury (AKI), which adversely affects renal blood flow autoregulation, glomerular filtration rate (GFR), and promotes inflammation and angiogenesis."	5.17	Effect of uric acid lowering therapy on the prevention of acute kidney injury in cardiovascular surgery. ( Abouhamze, AS; Beaver, TM; Dass, B; Ejaz, AA; Ejaz, NI; Johnson, RJ; Lingegowda, V; Shimada, M, 2013)
"Epidemiological, experimental and clinical studies support a role for uric acid in acute kidney injury (AKI)."	5.16	Lowering serum uric acid to prevent acute kidney injury. ( Arif, AA; Dass, B; Dhatt, GS; Ejaz, AA; Ejaz, NI; Faldu, C; Johnson, RJ; Kambhampati, G; Lanaspa, MA; Maroz, N; Shah, G, 2012)
" High-serum uric acid can trigger renal inflammation."	5.12	The roles of NLRP3 inflammasome-mediated signaling pathways in hyperuricemic nephropathy. ( Fu, P; Ma, L; Wen, L; Yang, H, 2021)
"Treatment with allopurinol has been suggested to reduce the incidence of contrast-induced acute kidney injury (CI-AKI)."	5.05	Effects of allopurinol pretreatment on the risk of contrast-induced acute kidney injury in patients undergoing percutaneous coronary intervention: A meta-analysis of randomized controlled trials . ( Jia, S; Lin, Z; Xin, W; Zhang, T, 2020)
"Studies have demonstrated the presence of a strong association between serum uric acid (SUA) and acute kidney injury (AKI) consistently across several disease models."	5.01	The Role of Uric Acid in Acute Kidney Injury. ( Alquadan, KF; Beaver, TM; Dass, B; Ejaz, AA; Johnson, RJ; Lapsia, V; Mohandas, R; Shimada, M, 2019)
" The treatment consists in hydration, correction of the acidosis and hyperkalemia, use of allopurinol and recombinant urate oxidase (rasburicase) for preventing urate nephropathy and haemodialysis."	4.84	[The pathophysiology, clinical signs and therapy of urate nephropathy]. ( Méhes, L; Rejto, L; Szász, R; Udvardy, M, 2007)
" However, ARF may also develop due to aetiologies arising from cancer treatment or the disease itself, including: nephrotoxic chemotherapy agents, post-renal obstruction, compression and infiltration by malignancy, tumour lysis syndrome, uric acid, sepsis and contrast agent nephropathy."	4.82	Acute renal failure in cancer patients. ( Flombaum, CD; Lameire, NH; Moreau, D; Ronco, C, 2005)
"Acute uric acid nephropathy during pregnancy responds to conventional medical therapy."	4.78	Acute uric acid nephropathy in pregnancy. ( Alexopoulos, E; Bili, H; Mantalenakis, S; Tampakoudis, P, 1992)
" Serum uric acid to albumin ratio (UAR) is a novel marker, which is associated with acute kidney injury in intensive care unit patients."	4.31	Serum Uric Acid to Albumin Ratio Can Predict Contrast-Induced Nephropathy in ST-Elevation Myocardial Infarction Patients Undergoing Primary Percutaneous Coronary Intervention. ( Akbulut, T; Çınar, T; Şaylık, F; Selçuk, M, 2023)
" Based on the first serum uric acid level within 24 h of admission to the ICU, patients were divided into groups with or without hyperuricemia, and the incidence of AKI within seven days of ICU admission was compared between the two groups."	4.31	Association between hyperuricemia and acute kidney injury in critically ill patients with sepsis. ( Gong, CL; Jiang, YX; Liu, FG; Shi, YL; Tang, Y; Xie, KQ; Yi, Y; Zhou, HW; Zhou, JW, 2023)
" We hypothesized that asymptomatic HU would attenuate AKD because soluble, in contrast to crystalline, uric acid (sUA) can attenuate sterile inflammation."	4.12	Asymptomatic Hyperuricemia Promotes Recovery from Ischemic Organ Injury by Modulating the Phenotype of Macrophages. ( Anders, HJ; Carangelo, G; De Chiara, L; Gnemmi, V; Li, C; Li, Q; Ma, Q; Molina-Van den Bosch, M; Romagnani, P; Steiger, S, 2022)
"To evaluate the antioxidant actions of indirect bilirubin and uric acid on outcomes of sepsis-associated AKI."	4.12	Impact of indirect bilirubin and uric acid on outcomes of sepsis-associated acute kidney injury (sAKI). ( Abozenah, M; Bedair, HM; Ebrahim, E; Efat, A; Kassemy, Z; Shoeib, S, 2022)
" Hyperuricemia was defined as a serum uric acid level >7 mg/dL for males and >6 mg/dL for females."	4.12	Interaction between Hyperuricemia and Admission Lactate Increases the Risk of Acute Kidney Injury in Patients with ST-Segment Elevation Myocardial Infarction. ( He, Y; Hong, X; Huang, W; Liang, D; Lin, Q; Shan, P; Wang, D; Zhou, X; Zhu, Q, 2022)
"This study assessed the predictive value of uric acid (UA) for contrast-induced acute kidney injury (CI-AKI) in patients with type 2 diabetes mellitus (T2DM) who underwent coronary angiography (CAG)."	4.12	Association between uric acid level and contrast-induced acute kidney injury in patients with type 2 diabetes mellitus after coronary angiography: a retrospective cohort study. ( Chen, H; Li, Z; Liu, H; Tang, C; Tang, H; Xu, S; Yan, G, 2022)
" Biochemical evaluation was carried out by assessment of body weights and by estimating renal function tests (plasma urea, plasma creatinine and plasma uric acid), tissue antioxidant enzymes (catalase, SOD) and MDA level."	4.02	Protective role of salicylic acid in gentamicin induced nephrotoxicity. ( Fatimah, SN; Usman, SM, 2021)
"To report a case of ribavirin-associated severe hyperuricemia in an immunocompromised patient treated for respiratory syncytial virus (RSV) infection."	4.02	Acute and severe ribavirin-associated hyperuricemia and acute kidney injury: An underrecognized adverse effect. ( Ammuri, H; Elias, A; Frisch, A; Kurnik, D; Sakran, R; Sliman, H, 2021)
"We conducted an observational study evaluating the association between uric acid, mean platelet volume (MPV), and high-density lipoprotein (HDL) with complications and outcomes of patients with sepsis in a critical care setting."	3.96	High-Density Lipoprotein, Mean Platelet Volume, and Uric Acid as Biomarkers for Outcomes in Patients With Sepsis: An Observational Study. ( Chiou, SH; Montero-Chacón, LB; Padilla-Cuadra, JI; Torrealba-Acosta, G, 2020)
" Adherence to guidelines has not been well studied, and the correlation between uric acid reduction and clinically relevant outcomes, such as acute kidney injury, remains unclear."	3.96	Utilization patterns and clinical outcomes of rasburicase administration according to tumor risk stratification. ( Frieze, D; Garcia, DA; Khalighi, PR; Li, A; Li, S; Martens, KL; Silgard, E; White, AA, 2020)
" However, the relationship between uric acid (UA) and the risk of acute kidney injury (AKI) and mortality remain unresolved in hospitalized patients."	3.91	Hyperuricemia is associated with acute kidney injury and all-cause mortality in hospitalized patients. ( Chin, HJ; Han, SS; Joo, KW; Kang, MW; Kim, S; Na, KY, 2019)
"Early administration of rasburicase to enhance uric acid (UA) elimination has been adopted without robust evidence in support of its impact on clinical outcomes in tumor lysis syndrome (TLS), specifically, the prevention of acute kidney injury (AKI)."	3.91	Impact of early rasburicase on incidence of clinical tumor lysis syndrome in lymphoma. ( Barreto, EF; Dierkhising, R; Habermann, TM; Leung, N; McCullough, KB; Personett, HA, 2019)
"To assess the role of serum Cystatin C, IL-18 and Uric acid in acute kidney injury (AKI) in urological patients, along with their prognostic significance."	3.88	Association and prognostic value of serum Cystatin C, IL-18 and Uric acid in urological patients with acute kidney injury. ( Basu, S; Choudhary, A; Das, RK; Dey, RK; Dey, SK; Rout, JK, 2018)
"The model consisted of heat stress exposure (1 h, 37°C) plus rhabdomyolysis (R) induced by repetitive IM injections of glycerol (7."	3.88	Kidney Injury from Recurrent Heat Stress and Rhabdomyolysis: Protective Role of Allopurinol and Sodium Bicarbonate. ( Blas-Marron, MG; García-Arroyo, FE; Glaser, J; Gonzaga, G; Johnson, RJ; Madero, M; Muñoz-Jimenez, I; Osorio-Alonso, H; Roncal-Jiménez, CA; Sánchez-Lozada, LG; Silverio, O; Tapia, E; Weiss, I, 2018)
"Metabolic Syndrome (Mets) and increased serum uric acid (SUA), are well known renal risk predictors and often coexist in patients with type 2 diabetes (T2D)."	3.85	Metabolic syndrome, serum uric acid and renal risk in patients with T2D. ( Ceriello, A; De Cosmo, S; Fioretto, P; Genovese, S; Giorda, C; Guida, P; Piscitelli, P; Pontremoli, R; Russo, G; Viazzi, F, 2017)
"Uric acid (UA) plays important roles in inducing renal inflammation, intra-renal vasoconstriction and renal damage."	3.85	Uric acid causes kidney injury through inducing fibroblast expansion, Endothelin-1 expression, and inflammation. ( Arfian, N; Romi, MM; Sari, DCR; Setyaningsih, WAW; Tranggono, U, 2017)
"Recent studies have shown that both low and high levels of serum uric acid (SUA) before cardiovascular surgery are independent risk factors for postoperative acute kidney injury (AKI)."	3.83	Serum uric acid level as a risk factor for acute kidney injury in hospitalized patients: a retrospective database analysis using the integrated medical information system at Kochi Medical School hospital. ( Hamada-Ode, K; Hatakeyama, Y; Horino, T; Inoue, K; Kataoka, H; Matsumoto, T; Miki, T; Ogata, K; Okuhara, Y; Otomo, K; Shimamura, Y; Taniguchi, Y; Terada, Y, 2016)
"The present study investigated the role of N-methyl-d-aspartate (NMDA) receptors in curcumin-mediated renoprotection against ischemia reperfusion (I/R)-induced acute kidney injury (AKI) in rats."	3.83	Curcumin alleviates ischemia reperfusion-induced acute kidney injury through NMDA receptor antagonism in rats. ( Kaur, A; Kaur, T; Pal Singh, A; Pathak, D; Singh Buttar, H; Singh, B, 2016)
"I/R caused alterations in diuresis, water intake, urinary osmolality, plasmatic creatinine, urea and uric acid, creatinine clearance, proteinuria and microalbuminuria."	3.83	Nephroprotective effects of (-)-α-bisabolol against ischemic-reperfusion acute kidney injury. ( Alves, RS; Arrieta, MC; Chaves Filho, AJ; da Costa, MF; de Morais, GB; Evangelista, JS; Libório, AB; Martins, AM; Meneses, GC; Menezes, RR; Sampaio, TL, 2016)
"We investigated the ability of serum uric acid (SUA) to predict laboratory tumor lysis syndrome (LTLS) and compared it to common laboratory variables, cytogenetic profiles, tumor markers and prediction models in acute myeloid leukemia patients."	3.81	Uric acid and the prediction models of tumor lysis syndrome in AML. ( Ejaz, AA; Hsu, JW; Johnson, RJ; Mohandas, R; Pourafshar, N; Smallwood, BA, 2015)
" The AKI was assessed in terms of measuring creatinine clearance (CrCl), blood urea nitrogen (BUN), plasma uric acid, potassium level, fractional excretion of sodium (FeNa), and microproteinuria."	3.81	Investigation of the role of nitric oxide/soluble guanylyl cyclase pathway in ascorbic acid-mediated protection against acute kidney injury in rats. ( Kaur, A; Koul, V; Singh, AP, 2015)
"An elevated serum concentration of uric acid may be associated with an increased risk of acute kidney injury (AKI)."	3.81	Relationship between Serum Uric Acid Concentration and Acute Kidney Injury after Coronary Artery Bypass Surgery. ( Baek, SH; Chin, JH; Choi, IC; Choi, JH; Ji, SM; Joung, KW; Kim, JY; Lee, EH, 2015)
"The aim of the study was to investigate the effects of serum uric acid (SUA) on acute kidney injury (AKI) in patients undergoing cardiac surgery."	3.81	Effects of Serum Uric Acid on Estimated GFR in Cardiac Surgery Patients: A Pilot Study. ( Alquadan, KF; Dass, B; Ejaz, AA; Johnson, RJ; Kanbay, M; Shimada, M, 2015)
" The creatinine clearance, serum urea, uric acid, lactate dehydrogenase, potassium, fractional excretion of sodium, and microproteinuria were measured to assess kidney injury."	3.80	Role of GABAergic activity of sodium valproate against ischemia-reperfusion-induced acute kidney injury in rats. ( Arora, S; Brar, R; Kaur, T; Singh, AP; Singh, JP, 2014)
"Familial renal hypouricemia (RHUC) is a hereditary disease characterized by hypouricemia, high renal fractional excretion of uric acid (FE-UA) and can be complicated by acute kidney failure and nephrolithiasis."	3.80	Recurrent exercise-induced acute renal failure in a young Pakistani man with severe renal hypouricemia and SLC2A9 compound heterozygosity. ( Cancarini, G; Chiarelli, N; Colombi, M; Gaggiotti, M; Jeannin, G; Maiorca, P; Possenti, S; Quinzani, S; Ritelli, M; Verzeletti, F, 2014)
"Uric acid has ever been considered as one of contrast induced acute kidney injury's risk factors."	3.80	Atorvastatin combining with probucol: a new way to reduce serum uric acid level during perioperative period of interventional procedure. ( Cong, H; Fu, N; Jin, D; Li, H; Li, X; Ma, H; Wang, Y, 2014)
" The Child-Pugh score, preoperative serum uric acid and proteinuria may be used to predict the risk of post-TACE AKI in HCC patients undergo TACE."	3.80	Prognostic factors for acute kidney injury following transarterial chemoembolization in patients with hepatocellular carcinoma. ( Ding, Y; Du, L; Hao, L; Hou, C; Lu, D; Lv, W; Wang, R; Zhou, C, 2014)
"Recent studies suggested that elevated serum uric acid levels may be associated with the risk of acute kidney injury (AKI) in several settings."	3.80	Association of preoperative uric acid and acute kidney injury following cardiovascular surgery. ( Chin, JH; Choi, DK; Choi, IC; Jo, JY; Joung, KW; Kim, WJ; Lee, EH, 2014)
"To investigate the impact of pre-operative uric acid on acute kidney injury (AKI) after cardiac surgery in elderly patients."	3.80	[Impact of pre-operative uric acid on acute kidney injury after cardiac surgery in elderly patients]. ( An, S; Cai, L; Chen, Y; Hu, P; Li, Z; Liang, X; Shi, W; Xu, J, 2014)
" High uricemia in humans may protect against oxidative stress, but hyperuricemia also associates with the metabolic syndrome, and urate and uric acid can crystallize to cause gout and renal dysfunctions."	3.79	Urate-induced acute renal failure and chronic inflammation in liver-specific Glut9 knockout mice. ( Bazin, D; Da Costa, A; Daudon, M; Dessombz, A; Laverriere-Loss, A; Metref, S; Moret, C; Preitner, F; Rotman, S; Sandt, C; Thorens, B, 2013)
"Renal hypouricemia (RHUC) is a heterogeneous inherited disorder characterized by impaired tubular uric acid (UA) transport with severe complications, such as acute kidney injury (AKI)."	3.79	Novel allelic variants and evidence for a prevalent mutation in URAT1 causing renal hypouricemia: biochemical, genetics and functional analysis. ( Hulkova, H; Ichida, K; Jahnova, H; Krylov, V; Kryspinova, L; Nakamura, M; Sebesta, I; Stiburkova, B, 2013)
"Acute kidney injury (AKI) with elevated serum uric acid (UA) levels has been reported in patients with hemolytic uremic syndrome (HUS)."	3.78	Rasburicase for hyperuricemia in hemolytic uremic syndrome. ( Acosta, AA; Hogg, RJ, 2012)
"Uric acid has been proposed to play a role in acute kidney injury."	3.78	Elevated uric acid increases the risk for acute kidney injury. ( Arif, AA; Dass, B; Ejaz, AA; Ejaz, NI; Johnson, RJ; Kambhampati, G; Lapsia, V; Shimada, M, 2012)
"Renal hypouricaemia is a heterogeneous inherited disorder characterized by impaired tubular uric acid transport with severe complications, such as acute kidney injury and nephrolithiasis."	3.78	Acute kidney injury in two children caused by renal hypouricaemia type 2. ( Marinaki, AM; Sebesta, I; Stiburkova, B; Taylor, J, 2012)
" We reasoned that AKI resulted from hyperuricemia during MZ administration because serum concentrations of uric acid (31."	3.78	A case of acute kidney injury with marked hyperuricemia during mizoribine administration. ( Kohno, S; Nishino, T; Obata, Y; Ohta, Y; Shinzato, K; Shinzato, T; Yamashita, H, 2012)
"It has been known for decades that uric acid causes acute kidney injury by intratubular crystal precipitation and obstructing the renal tubules."	3.77	Paradigm shift in the role of uric acid in acute kidney injury. ( Dass, B; Ejaz, AA; Shimada, M, 2011)
"We investigated the relation between serum uric acid and the incidence of postoperative acute kidney injury in patients undergoing high-risk cardiovascular surgery (cardiac valve and aneurysm surgery)."	3.75	Uric acid: a novel risk factor for acute kidney injury in high-risk cardiac surgery patients? ( Beaver, TM; Ejaz, AA; Johnson, RJ; Kim, T; Lingegowda, V; Schold, JD; Shimada, M; Sood, P, 2009)
"We report on 3 infants with obstructive anuria due to bilateral uric acid stones."	3.72	Dissolution of uric acid stones causing acute obstructing anuria in three consecutive infants. ( Boleken, ME; Kaya, M; Memedoglu, ME; Soran, M; Yücesan, S, 2003)
"We report a 67-year-old man with acute uric acid nephropathy, secondary to spontaneous tumor lysis syndrome, that presented itself as a huge intra-abdominal tumor that led to acute renal failure, hyperuricemia, and azotemia."	3.71	An enormous abdominal mass associated with acute renal failure. ( Chen, YC; Fang, JT; Hsu, HH; Huang, CC; Lin, CL, 2001)
" Because the renal biopsy revealed acute tubular necrosis without uric acid crystals, the ARF of this patient might be due to oxygen free radicals resulting from exercise stress and hypouricemia."	3.70	Exercise-induced acute renal failure in a patient with renal hypouricemia. ( Abe, T; Oda, Y; Watanabe, T, 2000)
"Thirty-one pediatric patients with acute leukemia who had relapsed on either 6-mercaptopurine or 6-thioguanine were treated with beta-2'-deoxythioguanosine, which was administered as an iv infusion every 12 hours for three or six doses every 2 weeks."	3.67	Phase I evaluation of beta-2'-deoxythioguanosine in pediatric patients with leukemia. ( Hartman, G; Higgins, GR; Jamin, DC; Momparler, R; Shore, NA; Siegel, SE, 1985)
"Bilateral ureteral obstruction from uric acid stones developed in a patient with severe autoimmune hemolytic anemia at a time of hemolytic crisis."	3.66	Bilateral ureteral obstruction due to uric acid stones in association with immune hemolytic anemia. ( Schroder, LE; Vilter, RW, 1983)
"We report on 8 azotemic patients with anuria or progressive oliguria owing to bilateral uric acid lithiasis."	3.66	Management of the choked ureter in obstructive renal failure due to uric acid lithiasis. ( Ansari, ER; Husain, I; Kazim, E, 1982)
"The urinary excretion of hypoxanthine, xanthine, and uric acid was measured prior to and following chemotherapy in 11 patients with rapidly growing chemotherapy-sensitive lymphomas who were receiving concomitant allopurinol therapy."	3.66	Postchemotherapy purine excretion in lymphoma patients receiving allopurinol. ( Chabner, BA; Hande, KR; Hixson, CV, 1981)
"We describe three patients in whom severe, life-threatening hyperkalemia and renal insufficiency developed after treatment of acute gouty arthritis with indomethacin."	3.66	Indomethacin-induced hyperkalemia in three patients with gouty arthritis. ( Beckstrom, D; Findling, JW; Itskovitz, H; Kozin, F; Rawsthorne, L, 1980)
"Hyperphosphatemia, hypocalcemia and acute oliguric renal failure resulting from uric acid nephropathy developed in a patient with Burkitt's lymphoma and Burkitt cell leukemia after effective chemotherapy."	3.65	Hyperphosphatermia and hypocalcemia accompanying rapid cell lysis in a patient with Burkitt's lymphoma and Burkitt cell leukemia. ( Bertino, JR; Cadman, EC; Lunberg, WB, 1977)
" Under these conditions ketoacidosis causes impaired renal uric acid excretion and hyperuricemia."	3.65	[Acute kidney failure as a complication of fasting therapy]. ( Binswanger, U; Huber, M; Lämmli, J; Meier, HR; Wick, A; Zürcher, HU, 1977)
" Although dosing was otherwise well tolerated, two subjects experienced serious adverse events of acute kidney injury."	2.82	Acute kidney injury observed during phase 1 clinical trials of a novel xanthine oxidase/URAT1 dual inhibitor PF-06743649. ( Dua, P; Gurrell, R; Kirby, S; Loudon, PT; Sudworth, M, 2016)
"Seventeen patients with acute renal failure (ARF) were treated with separated continuous veno venous hemofiltration (CVVH) system conducted with the pre-dilution mode."	2.72	Efficacy of cellulose triacetate dialyzer and polysulfone synthetic hemofilter for continuous venovenous hemofiltration in acute renal failure. ( Eiam-ong, S; Leelahavanichkul, A; Pichaiwong, W, 2006)
"Vancomycin clearance was appreciably greater with hemofiltration, which is consistent with a greater potential for convection-based therapy in the removal of uremic and other middle molecules."	2.67	A comparison of molecular clearance rates during continuous hemofiltration and hemodialysis with a novel volumetric continuous renal replacement system. ( Davison, AM; Goutcher, E; Jeffrey, RF; Khan, AA; Prabhu, P; Todd, N; Will, EJ, 1994)
"Here, we present seven case reports of acute renal failure with acute hepatic failure due to ingestion of A."	2.66	A case report of acute renal failure caused by Amanita neoovoidea poisoning in Anhui Province, eastern China. ( Fang, HQ; Fang, WT; Huang, C; Li, HJ; Qi, LM; Shi, FF; Wang, H; Wang, N; Wang, Y; Zhang, S, 2020)
"Acute kidney injury is a frequent complication among ST segment elevation myocardial infarction (STEMI) patients undergoing primary percutaneous coronary intervention (PCI), and is associated with adverse outcomes."	2.53	Acute kidney injury among ST elevation myocardial infarction patients treated by primary percutaneous coronary intervention: a multifactorial entity. ( Arbel, Y; Shacham, Y; Steinvil, A, 2016)
"Uric acid nephrolithiasis results from supersaturation, strongly influenced by low urine pH, rather than altered urate turnover."	2.43	Uric acid elimination in the urine. Pathophysiological implications. ( Marangella, M, 2005)
"We describe here a new type of acute renal failure with severe loin pain which develops after anaerobic exercise (ALPE), for example, 200-meter track racing."	2.41	Acute renal failure with severe loin pain and patchy renal ischemia after anaerobic exercise in patients with or without renal hypouricemia. ( Ishikawa, I, 2002)
"After recovery from acute renal failure (ARF), hypouricemia (0."	2.41	Exercise-induced acute renal failure with renal hypouricemia: a case report and a review of the literature. ( Awaya, Y; Kato, J; Kihara, H; Kinoshita, Y; Ogawa, T; Ohta, T; Sakano, T, 2002)
"Both were subsequently diagnosed to have acute lymphoblastic leukemia, despite normal initial complete blood counts and peripheral smear."	2.39	Acute renal failure with hyperuricemia as initial presentation of leukemia in children. ( Larsen, G; Loghman-Adham, M, 1996)
"Tumor lysis syndrome is a critical illness characterized by massive tumor cell death leading to severe hyperuricemia, hyperphosphatemia, hypocalcemia, and acute renal failure after starting chemotherapy to cancers, especially lymphoproliferative malignancies."	2.39	[Hyperuricemia and the kidney]. ( Hikita, M; Hosoya, T; Ichida, K, 1996)
"We retrospectively collected data of LA-HNSCC patients treated at our Institution from 2008 to 2019."	1.91	Pre-treatment risk factors to predict early cisplatin-related nephrotoxicity in locally advanced head and neck cancer patients treated with chemoradiation: A single Institution experience. ( Alfieri, S; Barretta, F; Bergamini, C; Calareso, G; Cavalieri, S; Colombo, E; Cosmai, L; De Feo, G; Di Pede, P; Franceschini, M; Gandelli, M; Guglielmo, M; Iacovelli, NA; Licitra, L; Nuzzolese, I; Ottini, A; Platini, F; Resteghini, C; Ripamonti, CI; Toffolatti, L, 2023)
"Adenovirus gastroenteritis is a common cause of diarrhea and vomiting in infants, resulting in prerenal acute kidney injury (AKI)."	1.72	Acute kidney injury due to ammonium acid urate stones in a patient with adenovirus gastroenteritis: a case report. ( Ban, H; Hattori, M; Hirai, K; Miura, K; Tomoeda, R, 2022)
"Incidence rate for ESRD among patients with no episodes of AKI and one, two, and three or more episodes of AKI was 7."	1.72	Clinical Predictors and Long-term Impact of Acute Kidney Injury on Progression of Diabetic Kidney Disease in Chinese Patients With Type 2 Diabetes. ( Chan, JCN; Cheng, YL; Chow, CC; Chow, EYK; Fan, B; Fung, S; Hiu, G; Huang, Y; Jiang, G; Kam, G; Kong, APS; Lan, HY; Lau, E; Lau, ES; Lau, IT; Lau, KP; Lee, KF; Leung, JY; Li, JK; Lim, CKP; Lo, S; Luk, AO; Ma, RCW; Oram, RA; Ozaki, R; Siu, SC; So, WY; Szeto, CC; Tam, CHT; Tang, NLS; Tsang, CC; Tsang, MW; Yeung, VT, 2022)
"Dichlorvos is a known risk factor for organ toxicity."	1.62	Suppression of uric acid generation and blockade of glutathione dysregulation by L-arginine ameliorates dichlorvos-induced oxidative hepatorenal damage in rats. ( Abidoye, AO; Adekunle, AO; Akhigbe, RE; Dare, OS; Saka, WA, 2021)
"Gentamicin (GM) is an aminoglycoside antibiotic effectively used for severe/life-threatening infections."	1.62	Targeting KEAP1/Nrf2, AKT, and PPAR-γ signals as a potential protective mechanism of diosmin against gentamicin-induced nephrotoxicity. ( Ali, FEM; El-Bahrawy, AH; Hassanein, EHM; Omar, ZMM; Sayed, AM, 2021)
"Hyperuricemia has been reported to be associated with the development of postoperative acute kidney injury (pAKI)."	1.51	Influence of hyperuricemia treatment on postoperative acute kidney injury among hyperuricemia patients: a single-center retrospective database analysis. ( Hatakeyama, Y; Horino, T; Kawano, T; Locatelli, FM; Matsumoto, T; Nagata, K; Okuhara, Y; Terada, Y; Watanabe, S; Yokoyama, M, 2019)
"Diclofenac (DIC) can cause nephrotoxicity in humans."	1.51	Ameliorative effects of N-acetyl cysteine on diclofenac-induced renal injury in male rats based on serum biochemical parameters, oxidative biomarkers, and histopathological study. ( Heidarian, E; Nouri, A, 2019)
"Hyperuricemia is associated with metabolic syndrome, diabetes, hypertension, and kidney and cardiovascular diseases."	1.48	Renal Effects of Hyperuricemia. ( Méndez Landa, CE, 2018)
"Zearalenone (ZEN) is an estrogen-like mycotoxin occurring in food and feeds, and it can cause oxidative damage and apoptosis in the testis, liver, and kidney."	1.48	Bacillus velezensis A2 fermentation exerts a protective effect on renal injury induced by Zearalenone in mice. ( Li, P; Long, M; Pan, J; Wang, M; Wang, N; Yang, S; Zang, J, 2018)
"Acute kidney injury is associated with high mortality, especially in intensive care unit patients."	1.46	Protective role of fructokinase blockade in the pathogenesis of acute kidney injury in mice. ( Andres-Hernando, A; Chen, W; Cicerchi, C; Fini, M; Inaba, S; Ishimoto, T; Johnson, RJ; Lanaspa, MA; Le, MT; Li, N; Milagres, T; Nakagawa, T; Roncal-Jimenez, C; Wempe, MF, 2017)
"High uric acid (UA) has been found to be correlated with renal dysfunction in some experimental and clinical studies; however, the study of the dynamic correlation between AKI and UA in severe burns is still lacking."	1.42	Elevated serum uric acid after injury correlates with the early acute kidney in severe burns. ( Hu, X; Liang, J; Zhang, P; Zhi, L, 2015)
"Gallic acid is a polyphenolic compound and is reported to be renoprotective because of its antioxidant activity in various preclinical studies."	1.40	Explicit role of peroxisome proliferator-activated receptor gamma in gallic acid-mediated protection against ischemia-reperfusion-induced acute kidney injury in rats. ( Bhatti, R; Singh, AP; Singh, JP, 2014)
"carota root extract on renal ischemia reperfusion injury in rats."	1.39	Comparison of protective and curative potential of Daucus carota root extract on renal ischemia reperfusion injury in rats. ( Afzal, M; Ahmad, A; Anwar, F; Kaur, R; Kazmi, I; Pravez, M, 2013)
"Exercise-induced acute renal failure [exercise-induced acute kidney injury (EI-AKI)] is defined as AKI due to heavy anaerobic exercise."	1.39	Molecular background of urate transporter genes in patients with exercise-induced acute kidney injury. ( Iijima, K; Ishimori, S; Kaito, H; Nakanishi, K; Nozu, K; Shima, Y; Yoshikawa, N, 2013)
"The treatment of quercetin and allopurinol regulated renal urate transport-related proteins to reduce hyperuricemia, and lipid metabolism-related genes to alleviate kidney lipid accumulation in STZ-treated rats."	1.38	Quercetin and allopurinol ameliorate kidney injury in STZ-treated rats with regulation of renal NLRP3 inflammasome activation and lipid accumulation. ( Kong, LD; Pan, Y; Wang, C; Wang, FM; Zhang, QY, 2012)
"To determine the incidence of acute renal failure (ARF) and nephrosonographic findings among asphyxiated neonates, and to correlate this with uric acid levels and the severity of hypoxic encephalopathy, we studied 80 full-term appropriate-for-date singleton neonates with perinatal asphyxia, and 30 healthy full-term neonates as controls from March 2006 to February 2007."	1.37	Acute renal failure: nephrosonographic findings in asphyxiated neonates. ( Ahmed, N; Chowdhary, J; Saif, RU, 2011)
"We report on 2 infants with acute renal failure caused by bilateral obstructive ureteral stones associated with rotavirus gastroenteritis."	1.36	[Two cases of infants with acute renal failure due to bilateral obstructive ureteral stones associated with rotavirus gastroenteritis]. ( Araki, I; Inuzuka, H; Kamiyama, M; Miyamoto, T; Takeda, M; Tsuchida, T; Zakoji, H, 2010)
"As post-renal acute renal failure developed subsequently, ureteral stents were placed bilaterally."	1.35	[A case of ammonium acid urate urinary stone]. ( Maeda, S; Nishida, Y; Seike, K; Yamamoto, N, 2008)
"Only a few cases of acute renal failure due to acute hyperuricemic nephropathy related to HPRT deficiency have previously been reported in infants, and there are no reported cases in newborns as young as 3 days old."	1.35	Lesch-Nyhan syndrome presenting with acute renal failure in a 3-day-old newborn. ( Donati, MA; Fiorini, P; Pela, I; Procopio, E, 2008)
"Marked hyperuricemia is known to cause acute renal failure via intrarenal crystal deposition."	1.34	Effect of elevated serum uric acid on cisplatin-induced acute renal failure. ( Croker, B; Ejaz, AA; Johnson, RJ; Mu, W; Ouyang, X; Reungjui, S; Roncal, CA; Tabah-Fisch, I, 2007)
"Exercise-induced acute renal failure (ARF) developed in a 45-year-old man during antihypertensive therapy with losartan and trichlormethiazide."	1.32	A case of exercise-induced acute renal failure in a patient with idiopathic renal hypouricemia developed during antihypertensive therapy with losartan and trichlormethiazide. ( Hasegawa, Y; Ito, O; Ito, S; Kudo, K; Mitsui, H; Sato, H; Sato, K; Yuda, F, 2003)
"In rats with acute renal failure induced by uranyl nitrate, the hepatic microsomal cytochrome P450 (CYP) 2E1 and CYP3A23 increased 2-4- and 4-times, respectively, CYP2C11 decreased to 80% of control, but the levels of CYP1A2 and CYP2B1/2 were not changed."	1.31	Effects of acute renal failure induced by uranyl nitrate on the pharmacokinetics of intravenous theophylline in rats: the role of CYP2E1 induction in 1,3-dimethyluric acid formation. ( Chung, HC; Kim, EJ; Kim, SG; Kim, SH; Lee, I; Lee, MG; Yu, SY, 2002)
"He presented with recurrent acute renal failure (ARF) from hyperuricemia."	1.31	Childhood hyperuricemia and acute renal failure resulting from a missense mutation in the HPRT gene. ( Dasouki, M; O'Neill, JP; Simckes, AM; Srivastava, T, 2002)
"A 10-year-old Japanese girl developed acute renal failure following a 100-meter dash during physical training at school."	1.30	Exercise-induced acute renal failure in a girl with renal hypouricemia. ( Fujita, I; Kuno, T; Miyazaki, S; Sato, T; Tashiro, K, 1998)
"24 patients with stable chronic renal failure (CRF), matched for degree of renal impairment, were also studied."	1.29	Differentiation of acute from chronic renal impairment by detection of carbamylated haemoglobin. ( Astley, JP; Davenport, A; Goel, S; Hartog, M; Jones, SR, 1993)
"A 20-day-old male infant presented with acute renal failure."	1.29	Lesch-Nyhan syndrome presenting with renal insufficiency in infancy and transient neonatal hypothyroidism. ( Hallett, RJ; Hull, RG; Jenkins, EA, 1994)
"Indices of acute renal failure based on urinary sodium excretion may be helpful but have several limitations, among which is the use of diuretics."	1.29	Fractional excretion of trace lithium and uric acid in acute renal failure. ( Biollaz, J; Buclin, T; Burnier, M; Diezi, J; Magnin, JL; Munafo, A; Steinhäuslin, F, 1994)
"During acute renal failure, the highest level of uric acid was 5."	1.29	Acute renal failure after exercise in a child with renal hypouricemia. ( Fujieda, M; Hamada, G; Kurashige, T; Oishi, N; Okada, T; Yokoyama, W, 1995)
"The mechanism of acute renal failure in this disease remains unknown."	1.29	[Exercise-induced acute renal failure observed in a boy with idiopathic renal hypouricemia caused by postsecretary reabsorption defect of uric acid]. ( Minowa, S; Morooka, M; Takeichi, S; Tazawa, M; Yasaki, T, 1996)
" After the patient recovered, a pharmacokinetic study demonstrated that normal methylxanthine metabolism was re-established."	1.28	Pharmacokinetics of theophylline and its metabolites during acute renal failure. A case report. ( Coates, PE; Elias-Jones, AC; Leakey, TE; Smith, KJ, 1991)
"During acute renal failure, the serum uric acid levels were 5."	1.28	Exercise-induced acute renal failure in 3 patients with renal hypouricemia. ( Ishikawa, I; Masuzaki, S; Sakurai, Y; Shikura, N; Shinoda, A; Sugishita, N, 1990)
"Uric acid nephrolithiasis developed in a 75-year-old man who had received a large cumulative dose of streptozotocin for treatment of metastatic islet cell carcinoma of the pancreas."	1.27	Uric acid nephrolithiasis and acute renal failure secondary to streptozotocin nephrotoxicity. ( Goldsmith, GH; Hricik, DE, 1988)
"An 11-year-old boy who presented in acute renal failure with significant increases of uric acid and phosphorus in his serum was discovered to have acute lymphoblastic leukemia."	1.27	Xanthine lithiasis, nephrocalcinosis, and renal failure in a leukemia patient treated with allopurinol. ( Potter, JL; Silvidi, AA, 1987)
"A 12-year-old boy presented with acute renal failure (ARF) accompanied by a disproportionate increase of serum uric acid level and massive uric acid crystalluria."	1.27	Partial deficit of hypoxanthine guanine phosphoribosyl transferase presenting as acute renal failure. ( Andrés, A; Bello, I; Martínez, JM; Millet, VG; Praga, M; Rodicio, JL; Ruilope, LM, 1987)
"Ticrynafen is an inhibitor of reabsorption of sodium and uric acid by the kidney."	1.26	Pharmacokinetics and mode of action of tienilic acid. ( Beg, M; Maass, AR; Snow, IB; Stote, RM, 1982)
"Two cases of acute renal failure associated with ticrynafen administration are reported."	1.26	Ticrynafen-induced acute renal failure. ( Hubbell, FA; Mirahmadi, K; Muhalwas, K; Powers, D; Vaziri, ND; Weber, M, 1981)
"Thus, in acute renal failure, tubular functional impairments may recover at different rates."	1.26	Renal function in rats with acute medullary injury. ( Brown, EA; Finkelstein, FO; Hayslett, JP; Kliger, AS, 1980)
"Fourteen cases of acute renal failure secondary to administration of radiographic contrast media were observed, eight within a 15-month period."	1.26	Acute renal failure. Association with administration of radiographic contrast material. ( del Greco, F; Krumlovsky, FA; Pomaranc, MM; Roxe, D; Santhanam, S; Simon, N, 1978)
"Other causes of acute renal failure in persons with acute leukemia, but not observed in this patient group, are hypercalcemia and leukemic infiltration of the kidneys."	1.26	Acute renal failure in patients with acute leukemia. ( Eckman, LN; Lynch, EC, 1978)
"Uric acid levels were carefully monitored."	1.26	Acute renal failure after low-dose irradiation. A complication of chronic lymphocytic leukemia. ( Patel, AR; Sarma, PR; Shah, PC, 1977)
"Twenty-one patients developed acute renal failure in association with nontraumatic rhabdomyolysis and myoglobinuria."	1.26	Acute renal failure due to nontraumatic rhabdomyolysis. ( Friedler, RM; Koffler, A; Massry, SG, 1976)
"A diagnosis of acute renal failure was established within 14 to 70 hours after hepatic artery ligation."	1.26	Acute renal failure after ligation of the hepatic artery. ( Carrillo, M; Fortner, JG; Kallum, B; Kim, DK; Penneman, R; Scheiner, E, 1976)
"Pancreatitis was diagnosed clinically, with mean serum and urinary amylase levels of 766 +/- 197 (SE) and 2,378 +/- 572 units/100 ml, respectively."	1.26	Acute renal failure in patients with acute pancreatitis. ( Goldstein, DA; Llach, F; Massry, SG, 1976)
"Nine cases of chronic lymphocytic leukemia (CLL) served as controls."	1.25	Pathoanatomical features of the kidney in myelomonocytic and chronic lymphocytic leukemia. ( Schwarze, EW, 1975)
"4."	1.25	Acute renal failure in multiple myeloma. ( Cooke, CR; Defronzo, RA; Humphrey, RL; Wright, JR, 1975)

Research

Studies (438)

Timeframe	Studies, this research(%)	All Research%
pre-1990	192 (43.84)	18.7374
1990's	44 (10.05)	18.2507
2000's	55 (12.56)	29.6817
2010's	97 (22.15)	24.3611
2020's	50 (11.42)	2.80

Timeframe

Studies, this research(%)

All Research%

pre-1990

192 (43.84)

18.7374

1990's

44 (10.05)

18.2507

2000's

55 (12.56)

29.6817

2010's

97 (22.15)

24.3611

2020's

50 (11.42)

2.80

Authors

Authors	Studies
Fatimah, SN	1
Usman, SM	1
Chen, J	6
Xu, L	2
Jiang, L	1
Wu, Y	3
Wei, L	2
Wu, X	2
Xiao, S	1
Liu, Y	14
Gao, C	2
Cai, J	1
Su, Z	4
Hao, X	1
Guo, D	1
Yuan, X	1
Xu, B	1
Shasha-Lavsky, H	1
Awadia, P	1
Sheffer, V	1
Weissman, I	1
Ban, H	1
Miura, K	1
Tomoeda, R	1
Hirai, K	1
Hattori, M	1
Jiang, G	1
Luk, AO	1
Tam, CHT	1
Ozaki, R	1
Lim, CKP	1
Chow, EYK	1
Lau, ES	1
Kong, APS	1
Fan, B	1
Lee, KF	1
Siu, SC	1
Hiu, G	1
Tsang, CC	1
Lau, KP	1
Leung, JY	1
Tsang, MW	1
Kam, G	1
Lau, IT	1
Li, JK	1
Yeung, VT	1
Lau, E	1
Lo, S	1
Fung, S	1
Cheng, YL	1
Chow, CC	1
Tang, NLS	1
Huang, Y	2
Lan, HY	1
Oram, RA	1
Szeto, CC	1
So, WY	1
Chan, JCN	1
Ma, RCW	1
Liu, S	2
Zhong, Z	1
Liu, F	1
Gnemmi, V	1
Li, Q	3
Ma, Q	2
De Chiara, L	1
Carangelo, G	1
Li, C	2
Molina-Van den Bosch, M	1
Romagnani, P	1
Anders, HJ	1
Steiger, S	1
Lu, H	2
Xiao, L	1
Song, M	1
Liu, X	2
Wang, F	3
Şaylık, F	1
Çınar, T	1
Akbulut, T	1
Selçuk, M	1
Tomomitsu, Y	1
Asakawa, S	1
Arai, S	1
Nagura, M	1
Ishizawa, K	1
Yamazaki, O	1
Tamura, Y	1
Uchida, S	2
Ohashi, R	1
Shibata, S	1
Fujigaki, Y	1
Kosaki, K	1
Kumamoto, S	1
Tokinoya, K	1
Yoshida, Y	1
Sugaya, T	1
Murase, T	1
Akari, S	1
Nakamura, T	1
Nabekura, Y	1
Takekoshi, K	1
Maeda, S	2
Basile, DP	1
Efat, A	1
Shoeib, S	1
Ebrahim, E	1
Kassemy, Z	1
Bedair, HM	1
Abozenah, M	1
Farooqui, N	1
Sy-Go, JPT	1
Miao, J	1
Mehta, R	1
Vaughan, LE	1
Bennani, NN	1
Wang, Y	5
Bansal, R	1
Hathcock, MA	1
Hayman, SR	1
Johnston, PB	1
Villasboas, JC	1
Paludo, J	1
Ansell, SM	1
Leung, N	2
Lin, Y	1
Herrmann, SM	1
He, Y	3
Wang, D	1
Zhou, X	4
Zhu, Q	1
Lin, Q	1
Hong, X	1
Huang, W	2
Shan, P	1
Liang, D	1
Copur, S	1
Yildiz, A	1
Basile, C	1
Tuttle, KR	1
Kanbay, M	3
Yang, M	1
Shen, P	1
Kong, M	1
Yu, C	1
Shi, Y	2
Stolpa, W	1
Stręk-Cholewińska, A	1
Mizia-Malarz, A	1
Pan, L	1
Deng, Y	1
Dai, S	1
Feng, X	2
Feng, L	1
Yang, Z	1
Liao, Y	2
Zheng, B	1
Gong, S	3
Li, K	3
Wu, G	6
Zheng, X	3
Zheng, J	4
Lu, X	3
Zhang, L	6
Li, J	10
Xie, J	3
Li, Y	9
Mazzierli, T	3
Cirillo, L	3
Palazzo, V	3
Ravaglia, F	3
Becherucci, F	3
Bashardoust, B	3
Hedayati, M	3
Tang, H	2
Chen, H	4
Li, Z	5
Xu, S	2
Yan, G	2
Tang, C	2
Liu, H	3
Klib, M	1
Ghandour, M	1
Wannous, H	1
Ejaz, AA	14
Mohandas, R	3
Beaver, TM	5
Johnson, RJ	16
Zafrani, L	2
Mooney, N	1
Wang, Q	3
Li, S	4
Sun, M	1
Ma, J	1
Sun, J	3
Fan, M	1
Azırak, S	1
Özgöçmen, M	1
Jiang, YX	1
Gong, CL	1
Tang, Y	1
Yi, Y	1
Liu, FG	1
Zhou, JW	1
Shi, YL	1
Zhou, HW	1
Xie, KQ	1
Liu, JJ	2
Ma, S	2
He, Z	2
Cavalieri, S	1
Platini, F	1
Barretta, F	1
Nuzzolese, I	1
Ottini, A	1
Bergamini, C	1
Resteghini, C	1
Colombo, E	1
Iacovelli, NA	1
Franceschini, M	1
Calareso, G	1
Di Pede, P	1
De Feo, G	1
Gandelli, M	1
Toffolatti, L	1
Guglielmo, M	1
Ripamonti, CI	1
Cosmai, L	1
Licitra, L	1
Alfieri, S	1
Xu, Q	1
Li, F	2
Chen, X	3
Yildirim, E	1
Ermis, E	1
Cengiz, M	1
Xin, W	1
Lin, Z	1
Zhang, T	3
Jia, S	1
Wołyniec, W	2
Kasprowicz, K	2
Giebułtowicz, J	1
Korytowska, N	1
Zorena, K	1
Bartoszewicz, M	1
Rita-Tkachenko, P	1
Renke, M	2
Ratkowski, W	2
Watanabe, S	1
Kawano, T	1
Horino, T	2
Matsumoto, T	3
Nagata, K	1
Hatakeyama, Y	2
Locatelli, FM	1
Yokoyama, M	1
Terada, Y	2
Okuhara, Y	2
Wang, H	3
Shi, FF	1
Zhang, S	3
Fang, WT	1
Qi, LM	1
Wang, N	2
Huang, C	1
Fang, HQ	1
Li, HJ	1
Furuto, Y	1
Kawamura, M	3
Namikawa, A	1
Takahashi, H	1
Shibuya, Y	1
Mori, T	1
Sohara, E	1
Moia, R	1
Boggio, E	1
Gigliotti, L	1
Crisà, E	1
De Paoli, L	1
Margiotta Casaluci, G	1
Rolla, R	1
Patriarca, A	1
Gaidano, G	1
Dianzani, U	1
Bruna, R	1
Zheng, Y	3
Guan, H	2
Xu, Y	2
Fu, C	1
Xiao, J	1
Ye, Z	1
Guo, W	1
Song, F	1
Chen, S	3
Sun, G	1
Liu, J	1
Tan, N	1
Nguépy Keubo, FR	1
Mboua, PC	1
Djifack Tadongfack, T	1
Fokouong Tchoffo, E	1
Tasson Tatang, C	1
Ide Zeuna, J	1
Noupoue, EM	1
Tsoplifack, CB	1
Folefack, GO	1
Kettani, M	1
Bandelier, P	1
Huo, J	1
Li, H	5
Yu, D	1
Arulsamy, N	1
AlAbbad, S	1
Sardot, T	1
Lekashvili, O	1
Decato, D	1
Lelj, F	1
Alexander Ross, JB	1
Rosenberg, E	1
Nazir, H	1
Muthuswamy, N	1
Louis, C	1
Jose, S	1
Prakash, J	1
Buan, MEM	1
Flox, C	1
Chavan, S	1
Shi, X	1
Kauranen, P	1
Kallio, T	1
Maia, G	1
Tammeveski, K	1
Lymperopoulos, N	1
Carcadea, E	1
Veziroglu, E	1
Iranzo, A	1
M Kannan, A	1
Arunamata, A	1
Tacy, TA	1
Kache, S	1
Mainwaring, RD	1
Ma, M	1
Maeda, K	1
Punn, R	1
Noguchi, S	1
Hahn, S	3
Iwasa, Y	3
Ling, J	2
Voccio, JP	2
Kim, Y	3
Song, J	3
Bascuñán, J	2
Chu, Y	1
Tomita, M	1
Cazorla, M	1
Herrera, E	1
Palomeque, E	1
Saud, N	1
Hoplock, LB	1
Lobchuk, MM	1
Lemoine, J	1
Li, X	11
Henson, MA	1
Unsihuay, D	1
Qiu, J	1
Swaroop, S	1
Nagornov, KO	1
Kozhinov, AN	1
Tsybin, YO	1
Kuang, S	1
Laskin, J	1
Zin, NNINM	1
Mohamad, MN	1
Roslan, K	1
Abdul Wafi, S	1
Abdul Moin, NI	1
Alias, A	1
Zakaria, Y	1
Abu-Bakar, N	1
Naveed, A	1
Jilani, K	1
Siddique, AB	1
Akbar, M	1
Riaz, M	1
Mushtaq, Z	1
Sikandar, M	1
Ilyas, S	1
Bibi, I	1
Asghar, A	1
Rasool, G	1
Irfan, M	1
Li, XY	1
Zhao, S	1
Fan, XH	1
Chen, KP	1
Hua, W	1
Liu, ZM	1
Xue, XD	1
Zhou, B	1
Xing, YL	1
Chen, MA	1
Sun, Y	1
Neradilek, MB	1
Wu, XT	1
Zhang, D	2
Cui, Y	1
Yang, QQ	1
Li, HW	1
Zhao, XQ	1
Hossein Rashidi, B	1
Tarafdari, A	1
Ghazimirsaeed, ST	1
Shahrokh Tehraninezhad, E	1
Keikha, F	1
Eslami, B	1
Ghazimirsaeed, SM	1
Jafarabadi, M	1
Silvani, Y	1
Lovita, AND	1
Maharani, A	1
Wiyasa, IWA	1
Sujuti, H	1
Ratnawati, R	1
Raras, TYM	1
Lemin, AS	1
Rahman, MM	1
Pangarah, CA	1
Kiyu, A	1
Zeng, C	3
Du, H	1
Lin, D	1
Jalan, D	1
Rubagumya, F	1
Hopman, WM	1
Vanderpuye, V	1
Lopes, G	1
Seruga, B	1
Booth, CM	1
Berry, S	1
Hammad, N	1
Sajo, EA	1
Okunade, KS	1
Olorunfemi, G	1
Rabiu, KA	1
Anorlu, RI	1
Xu, C	2
Xiang, Y	1
Xu, X	1
Zhou, L	2
Dong, X	1
Tang, S	1
Gao, XC	1
Wei, CH	1
Zhang, RG	1
Cai, Q	1
Tong, F	1
Dong, JH	1
Dong, XR	1
Tang, X	1
Tao, F	1
Xiang, W	1
Zhao, Y	2
Jin, L	1
Tao, H	1
Lei, Y	1
Gan, H	1
Chen, Y	4
Chen, L	3
Shan, A	1
Zhao, H	2
Wu, M	2
Wang, J	4
Zhang, E	1
Zhang, J	3
Xue, F	1
Deng, L	1
Liu, L	2
Yan, Z	2
Meng, J	1
Chen, G	2
Anastassiadou, M	1
Bernasconi, G	1
Brancato, A	1
Carrasco Cabrera, L	1
Greco, L	1
Jarrah, S	1
Kazocina, A	1
Leuschner, R	1
Magrans, JO	1
Miron, I	1
Nave, S	1
Pedersen, R	1
Reich, H	1
Rojas, A	1
Sacchi, A	1
Santos, M	1
Theobald, A	1
Vagenende, B	1
Verani, A	1

Studies

Fatimah, SN

Usman, SM

Chen, J

Xu, L

Jiang, L

Wu, Y

Wei, L

Wu, X

Xiao, S

Liu, Y

Gao, C

Cai, J

Su, Z

Hao, X

Guo, D

Yuan, X

Xu, B

Shasha-Lavsky, H

Awadia, P

Sheffer, V

Weissman, I

Ban, H

Miura, K

Tomoeda, R

Hirai, K

Hattori, M

Jiang, G

Luk, AO

Tam, CHT

Ozaki, R

Lim, CKP

Chow, EYK

Lau, ES

Kong, APS

Fan, B

Lee, KF

Siu, SC

Hiu, G

Tsang, CC

Lau, KP

Leung, JY

Tsang, MW

Kam, G

Lau, IT

Li, JK

Yeung, VT

Lau, E

Lo, S

Fung, S

Cheng, YL

Chow, CC

Tang, NLS

Huang, Y

Lan, HY

Oram, RA

Szeto, CC

So, WY

Chan, JCN

Ma, RCW

Liu, S

Zhong, Z

Liu, F

Gnemmi, V

Li, Q

Ma, Q

De Chiara, L

Carangelo, G

Li, C

Molina-Van den Bosch, M

Romagnani, P

Anders, HJ

Steiger, S

Lu, H

Xiao, L

Song, M

Liu, X

Wang, F

Şaylık, F

Çınar, T

Akbulut, T

Selçuk, M

Tomomitsu, Y

Asakawa, S

Arai, S

Nagura, M

Ishizawa, K

Yamazaki, O

Tamura, Y

Uchida, S

Ohashi, R

Shibata, S

Fujigaki, Y

Kosaki, K

Kumamoto, S

Tokinoya, K

Yoshida, Y

Sugaya, T

Murase, T

Akari, S

Nakamura, T

Nabekura, Y

Takekoshi, K

Maeda, S

Basile, DP

Efat, A

Shoeib, S

Ebrahim, E

Kassemy, Z

Bedair, HM

Abozenah, M

Farooqui, N

Sy-Go, JPT

Miao, J

Mehta, R

Vaughan, LE

Bennani, NN

Wang, Y

Bansal, R

Hathcock, MA

Hayman, SR

Johnston, PB

Villasboas, JC

Paludo, J

Ansell, SM

Leung, N

Lin, Y

Herrmann, SM

He, Y

Wang, D

Zhou, X

Zhu, Q

Lin, Q

Hong, X

Huang, W

Shan, P

Liang, D

Copur, S

Yildiz, A

Basile, C

Tuttle, KR

Kanbay, M

Yang, M

Shen, P

Kong, M

Yu, C

Shi, Y

Stolpa, W

Stręk-Cholewińska, A

Mizia-Malarz, A

Pan, L

Deng, Y

Dai, S

Feng, X

Feng, L

Yang, Z

Liao, Y

Zheng, B

Gong, S

Li, K

Wu, G

Zheng, X

Zheng, J

Lu, X

Zhang, L

Li, J

Xie, J

Li, Y

Mazzierli, T

Cirillo, L

Palazzo, V

Ravaglia, F

Becherucci, F

Bashardoust, B

Hedayati, M

Tang, H

Chen, H

Li, Z

Xu, S

Yan, G

Tang, C

Liu, H

Klib, M

Ghandour, M

Wannous, H

Ejaz, AA

Mohandas, R

Beaver, TM

Johnson, RJ

Zafrani, L

Mooney, N

Wang, Q

Li, S

Sun, M

Ma, J

Sun, J

Fan, M

Azırak, S

Özgöçmen, M

Jiang, YX

Gong, CL

Tang, Y

Yi, Y

Liu, FG

Zhou, JW

Shi, YL

Zhou, HW

Xie, KQ

Liu, JJ

Ma, S

He, Z

Cavalieri, S

Platini, F

Barretta, F

Nuzzolese, I

Ottini, A

Bergamini, C

Resteghini, C

Colombo, E

Iacovelli, NA

Franceschini, M

Calareso, G

Di Pede, P

De Feo, G

Gandelli, M

Toffolatti, L

Guglielmo, M

Ripamonti, CI

Cosmai, L

Licitra, L

Alfieri, S

Xu, Q

Li, F

Chen, X

Yildirim, E

Ermis, E

Cengiz, M

Xin, W

Lin, Z

Zhang, T

Jia, S

Wołyniec, W

Kasprowicz, K

Giebułtowicz, J

Korytowska, N

Zorena, K

Bartoszewicz, M

Rita-Tkachenko, P

Renke, M

Ratkowski, W

Watanabe, S

Kawano, T

Horino, T

Matsumoto, T

Nagata, K

Hatakeyama, Y

Locatelli, FM

Yokoyama, M

Terada, Y

Okuhara, Y

Wang, H

Shi, FF

Zhang, S

Fang, WT

Qi, LM

Wang, N

Huang, C

Fang, HQ

Li, HJ

Furuto, Y

Kawamura, M

Namikawa, A

Takahashi, H

Shibuya, Y

Mori, T

Sohara, E

Moia, R

Boggio, E

Gigliotti, L

Crisà, E

De Paoli, L

Margiotta Casaluci, G

Rolla, R

Patriarca, A

Gaidano, G

Dianzani, U

Bruna, R

Zheng, Y

Guan, H

Xu, Y

Fu, C

Xiao, J

Ye, Z

Guo, W

Song, F

Chen, S

Sun, G

Liu, J

Tan, N

Nguépy Keubo, FR

Mboua, PC

Djifack Tadongfack, T

Fokouong Tchoffo, E

Tasson Tatang, C

Ide Zeuna, J

Noupoue, EM

Tsoplifack, CB

Folefack, GO

Kettani, M

Bandelier, P

Huo, J

Li, H

Yu, D

Arulsamy, N

AlAbbad, S

Sardot, T

Lekashvili, O

Decato, D

Lelj, F

Alexander Ross, JB

Rosenberg, E

Nazir, H

Muthuswamy, N

Louis, C

Jose, S

Prakash, J

Buan, MEM

Flox, C

Chavan, S

Shi, X

Kauranen, P

Kallio, T

Maia, G

Tammeveski, K

Lymperopoulos, N

Carcadea, E

Veziroglu, E

Iranzo, A

M Kannan, A

Arunamata, A

Tacy, TA

Kache, S

Mainwaring, RD

Ma, M

Maeda, K

Punn, R

Noguchi, S

Hahn, S

Iwasa, Y

Ling, J

Voccio, JP

Kim, Y

Song, J

Bascuñán, J

Chu, Y

Tomita, M

Cazorla, M

Herrera, E

Palomeque, E

Saud, N

Hoplock, LB

Lobchuk, MM

Lemoine, J

Li, X

Henson, MA

Unsihuay, D

Qiu, J

Swaroop, S

Nagornov, KO

Kozhinov, AN

Tsybin, YO

Kuang, S

Laskin, J

Zin, NNINM

Mohamad, MN

Roslan, K

Abdul Wafi, S

Abdul Moin, NI

Alias, A

Zakaria, Y

Abu-Bakar, N

Naveed, A

Jilani, K

Siddique, AB

Akbar, M

Riaz, M

Mushtaq, Z

Sikandar, M

Ilyas, S

Bibi, I

Asghar, A

Rasool, G

Irfan, M

Li, XY

Zhao, S

Fan, XH

Chen, KP

Hua, W

Liu, ZM

Xue, XD

Zhou, B

Xing, YL

Chen, MA

Sun, Y

Neradilek, MB

Wu, XT

Zhang, D

Cui, Y

Yang, QQ

Li, HW

Zhao, XQ

Hossein Rashidi, B

Tarafdari, A

Ghazimirsaeed, ST

Shahrokh Tehraninezhad, E

Keikha, F

Eslami, B

Ghazimirsaeed, SM

Jafarabadi, M

Silvani, Y

Lovita, AND

Maharani, A

Wiyasa, IWA

Sujuti, H

Ratnawati, R

Raras, TYM

Lemin, AS

Rahman, MM

Pangarah, CA

Kiyu, A

Zeng, C

Du, H

Lin, D

Jalan, D

Rubagumya, F

Hopman, WM

Vanderpuye, V

Lopes, G

Seruga, B

Booth, CM

Berry, S

Hammad, N

Sajo, EA

Okunade, KS

Olorunfemi, G

Rabiu, KA

Anorlu, RI

Xu, C

Xiang, Y

Xu, X

Zhou, L

Dong, X

Tang, S

Gao, XC

Wei, CH

Zhang, RG

Cai, Q

Tong, F

Dong, JH

Dong, XR

Tang, X

Tao, F

Xiang, W

Zhao, Y

Jin, L

Tao, H

Lei, Y

Gan, H

Chen, Y

Chen, L

Shan, A

Zhao, H

Wu, M

Wang, J

Zhang, E

Zhang, J

Xue, F

Deng, L

Liu, L

Yan, Z

Meng, J

Chen, G

Anastassiadou, M

Bernasconi, G

Brancato, A

Carrasco Cabrera, L

Greco, L

Jarrah, S

Kazocina, A

Leuschner, R

Magrans, JO

Miron, I

Nave, S

Pedersen, R

Reich, H

Rojas, A

Sacchi, A

Santos, M

Theobald, A

Vagenende, B

Verani, A

Du, L

Ren, Y

Li, P

Jiao, Q

Meng, P

Wang, YS

Wang, C

Wang, W

Wang, S

Hou, J

Zhang, A

Lv, B

Pang, D

Lu, K

Ahmad, NH

Wang, L

Zhu, J

Zhuang, T

Tu, J

Zhao, Z

Qu, Y

Yao, H

Wang, X

Lee, DF

Shen, J

Wen, L

Huang, G

Xie, X

Zhao, Q

Hu, W

Zhang, Y

Lu, J

Li, M

Li, W

Wu, W

Du, F

Ji, H

Yang, X

Xu, Z

Wan, L

Wen, Q

Cho, CH

Zou, C

Xiao, Z

Liao, J

Su, X

Bi, Z

Su, Q

Huang, H

Wei, Y

Gao, Y

Na, KJ

Choi, H

Oh, HR

Kim, YH

Lee, SB

Jung, YJ

Koh, J

Park, S

Lee, HJ

Jeon, YK

Chung, DH

Paeng, JC

Park, IK

Kang, CH

Cheon, GJ

Kang, KW

Lee, DS

Kim, YT

Pajuelo-Lozano, N

Alcalá, S

Sainz, B

Perona, R

Sanchez-Perez, I

Logotheti, S

Marquardt, S

Gupta, SK

Richter, C

Edelhäuser, BAH

Engelmann, D

Brenmoehl, J

Söhnchen, C

Murr, N

Alpers, M

Singh, KP

Wolkenhauer, O

Heckl, D

Spitschak, A

Pützer, BM

Cheng, J

Kong, X

Zhang, M

Zhang, H

Yang, T

Dong, Y

Yuan, Z

Cao, J

Luo, Z

Mei, Z

Yao, Y

Liu, Z

Liang, C

Yang, H

Song, Y

Yu, K

Zhu, C

Huang, Z

Qian, J

Ge, J

Hu, J

Mi, Y

Kong, H

Xi, D

Yan, W

Luo, X

Ning, Q

Chang, X

Rathore, MG

Reddy, K

Shin, SH

Ma, WY

Bode, AM

Dong, Z

Mu, W

Liu, C

Gao, F

Qi, Y

Zhang, X

Cai, X

Ji, RY

Hou, Y

Tian, J

Ying, S

Tan, M

Feng, G

Kuang, Y

Chen, D

Wu, D

Zhu, ZQ

Tang, HX

Shi, ZE

Kang, J

Liu, Q

Qi, J

Mu, J

Cong, Z

Fu, D

Celestrin, CP

Rocha, GZ

Stein, AM

Guadagnini, D

Tadelle, RM

Saad, MJA

Oliveira, AG

Bianconi, V

Bronzo, P

Banach, M

Sahebkar, A

Mannarino, MR

Pirro, M

Patsourakos, NG

Kouvari, M

Kotidis, A

Kalantzi, KI

Tsoumani, ME

Anastasiadis, F

Andronikos, P

Aslanidou, T

Efraimidis, P

Georgiopoulos, A

Gerakiou, K

Grigoriadou-Skouta, E

Grigoropoulos, P

Hatzopoulos, D

Kartalis, A

Lyras, A

Markatos, G

Mikrogeorgiou, A

Myroforou, I

Orkopoulos, A

Pavlidis, P

Petras, C

Riga, M

Skouloudi, M

Smyrnioudis, N

Thomaidis, K

Tsikouri, GE

Tsikouris, EI

Zisimos, K

Vavoulis, P

Vitali, MG

Vitsas, G

Vogiatzidis, C

Chantanis, S

Fousas, S

Panagiotakos, DB

Tselepis, AD

Jungen, C

Alken, FA

Eickholt, C

Scherschel, K

Kuklik, P

Klatt, N

Schwarzl, J

Moser, J

Jularic, M

Akbulak, RO

Schaeffer, B

Willems, S

Meyer, C

Nowak, JK

Szczepanik, M

Trypuć, M

Pogorzelski, A

Bobkowski, W

Grytczuk, M

Minarowska, A

Wójciak, R

Walkowiak, J

Lu, Y

Xi, J

Chen, W

Hu, X

Zhang, F

Wei, H

Wang, Z

Gurzu, S

Jung, I

Sugimura, H

Stefan-van Staden, RI

Yamada, H

Natsume, H

Iwashita, Y

Szodorai, R

Szederjesi, J

Yari, D

Ehsanbakhsh, Z

Validad, MH

Langroudi, FH

Esfandiari, H

Prager, A

Hassanpour, K

Kurup, SP

Mets-Halgrimson, R

Yoon, H

Zeid, JL

Mets, MB

Rahmani, B

Araujo-Castillo, RV

Culquichicón, C

Solis Condor, R

Efendi, F

Sebayang, SK

Astutik, E

Hadisuyatmana, S

Has, EMM

Kuswanto, H

Foroutan, T

Ahmadi, F

Moayer, F

Khalvati, S

Zhang, Q

Lyu, Y

Huang, J

Yu, N

Wen, Z

Hou, H

Zhao, T

Gupta, A

Khosla, N

Govindasamy, V

Saini, A

Annapurna, K

Dhakate, SR

Akkaya, Ö

Chandgude, AL

Dömling, A

Harnett, J

Oakes, K

Carè, J

Leach, M

Brown, D

Cramer, H

Pinder, TA

Steel, A

Anheyer, D

Cantu, J

Valle, J

Flores, K

Gonzalez, D

Valdes, C

Lopez, J

Padilla, V

Alcoutlabi, M

Parsons, J

Núñez, K

Hamed, M

Fort, D

Bruce, D

Thevenot, P

Cohen, A

Weber, P

Menezes, AMB

Gonçalves, H

Perez-Padilla, R

Jarvis, D

de Oliveira, PD

Wehrmeister, FC

Mir, S

Wong, J

Ryan, CM

Bellingham, G

Singh, M

Waseem, R

Eckert, DJ

Chung, F

Hegde, H

Shimpi, N

Panny, A

Glurich, I

Christie, P

Acharya, A

English, KL

Downs, M

Goetchius, E

Buxton, R

Ryder, JW

Ploutz-Snyder, R

Guilliams, M

Scott, JM

Ploutz-Snyder, LL

Martens, C

Goplen, FK

Aasen, T

Gjestad, R

Nordfalk, KF

Nordahl, SHG

Inoue, T

Soshi, S

Kubota, M

Marumo, K

Mortensen, NP

Caffaro, MM

Patel, PR

Uddin, MJ

Aravamudhan, S

Sumner, SJ

Fennell, TR

Gal, RL

Cohen, NJ

Kruger, D

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Clinical Trials (4)

Trial Overview

Trial	Phase	Enrollment	Study Type	Start Date	Status
Effectiveness and Safety of Danshen Injection for Acute Kidney Injury in Primary Nephrotic Syndrome[NCT06071533]		441 participants (Actual)	Observational	2012-01-01	Completed
Aggressive Hydration in Patients With ST-Elevation Myocardial Infarction Undergoing Primary Percutaneous Coronary Intervention to Prevent Contrast-Induced Nephropathy, A Randomized, Controlled Trial REduction of riSk of Contrast-Induced Nephropathy follow[NCT02067195]		560 participants (Anticipated)	Interventional	2014-07-31	Recruiting
Prophylactic Use of Nesiritide (Brain Natriuretic Peptide, BNP) for the Prevention of Acute Renal Failure in Thoracic Aortic Aneurysm Surgery Patients[NCT00110201]	Phase 3	124 participants	Interventional	2005-03-31	Recruiting
Effect of Rasburicase on Acute Kidney Injury, Kidney Function, the Incidence of Renal Replacement Therapy and All-cause Mortality Following Cardiac Surgery.[NCT00756964]	Phase 2	26 participants (Actual)	Interventional	2008-10-31	Completed
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Trial

Phase

Enrollment

Study Type

Start Date

Status

Effectiveness and Safety of Danshen Injection for Acute Kidney Injury in Primary Nephrotic Syndrome[NCT06071533]

441 participants (Actual)

Observational

2012-01-01

Completed

Aggressive Hydration in Patients With ST-Elevation Myocardial Infarction Undergoing Primary Percutaneous Coronary Intervention to Prevent Contrast-Induced Nephropathy, A Randomized, Controlled Trial REduction of riSk of Contrast-Induced Nephropathy follow[NCT02067195]

560 participants (Anticipated)

Interventional

2014-07-31

Recruiting

Prophylactic Use of Nesiritide (Brain Natriuretic Peptide, BNP) for the Prevention of Acute Renal Failure in Thoracic Aortic Aneurysm Surgery Patients[NCT00110201]

Phase 3

124 participants

Interventional

2005-03-31

Recruiting

Effect of Rasburicase on Acute Kidney Injury, Kidney Function, the Incidence of Renal Replacement Therapy and All-cause Mortality Following Cardiac Surgery.[NCT00756964]

Phase 2

26 participants (Actual)

Interventional

2008-10-31

Completed

[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Trial Outcomes

Number of Patients With Acute Kidney Injury (AKI).

Acute kidney injury will be defined as an increase in serum creatinine of 0.3mg/dL from baseline or a 50% increase in serum creatinine from baseline values within 48 hours after surgery. (NCT00756964)
Timeframe: Within 48 hours postoperatively

Intervention	Participants (Number)
Rasburicase Group	13
Placebo Group	13

Intervention

Participants (Number)

Rasburicase Group

Placebo Group

Article	Year
Is there any robust evidence showing that SGLT2 inhibitor use predisposes to acute kidney injury? Journal of nephrology, 2023, Volume: 36, Issue:1 Topics: Acute Kidney Injury; Diabetes Mellitus, Type 2; Glucose; Humans; Hypoglycemic Agents; Retrospective	2023
Clear Cell Renal Cell Carcinoma, Diagnostic and Therapeutic Difficulties, Case Report and Literature Review. Medicina (Kaunas, Lithuania), 2022, Sep-22, Volume: 58, Issue:10 Topics: Acute Kidney Injury; Adult; Carcinoma, Renal Cell; Child; Humans; Kidney Neoplasms; Male; Nephrolith	2022
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature. Journal of nephrology, 2023, Volume: 36, Issue:3 Topics: Acute Kidney Injury; Humans; Renal Tubular Transport, Inborn Errors; Uric Acid; Urinary Calculi	2023
Effects of allopurinol pretreatment on the risk of contrast-induced acute kidney injury in patients undergoing percutaneous coronary intervention: A meta-analysis of randomized controlled trials . Clinical nephrology, 2020, Volume: 93, Issue:1 Topics: Acute Kidney Injury; Allopurinol; Contrast Media; Coronary Angiography; Creatinine; Enzyme Inhibitor	2020
A case report of acute renal failure caused by Amanita neoovoidea poisoning in Anhui Province, eastern China. Toxicon : official journal of the International Society on Toxinology, 2020, Jan-15, Volume: 173 Topics: Acute Kidney Injury; Adult; Aged; Aged, 80 and over; Amanita; Amanitins; Blood Urea Nitrogen; China;	2020
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors. Annales medico-psychologiques, 2021, Volume: 179, Issue:2 Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli	2021
The roles of NLRP3 inflammasome-mediated signaling pathways in hyperuricemic nephropathy. Molecular and cellular biochemistry, 2021, Volume: 476, Issue:3 Topics: Acute Kidney Injury; Animals; Cytokines; Diabetic Nephropathies; Humans; Hyperuricemia; Inflammasome	2021
The Role of Uric Acid in Acute Kidney Injury. Nephron, 2019, Volume: 142, Issue:4 Topics: Acute Kidney Injury; Female; Humans; Hyperuricemia; Likelihood Functions; Uric Acid	2019
Seizure-induced acute urate nephropathy: case report and review. Chest, 2013, Volume: 144, Issue:2 Topics: Acute Kidney Injury; Adult; Anticonvulsants; Humans; Kidney Function Tests; Male; Renal Replacement	2013
Acute kidney injury among ST elevation myocardial infarction patients treated by primary percutaneous coronary intervention: a multifactorial entity. Journal of nephrology, 2016, Volume: 29, Issue:2 Topics: Acute Kidney Injury; Anemia; Biomarkers; Blood Glucose; Contrast Media; Hemodynamics; Hemoglobins; H	2016
Serum Uric Acid and Risk for Acute Kidney Injury Following Contrast. Angiology, 2017, Volume: 68, Issue:2 Topics: Acute Kidney Injury; Biomarkers; Clinical Trials as Topic; Contrast Media; Humans; Risk Factors; Uri	2017
[Hereditary renal hypouricemia in a Caucasian patient: a case report and review of the literature]. Nephrologie & therapeutique, 2009, Volume: 5, Issue:6 Topics: Acute Kidney Injury; Humans; Male; Middle Aged; Uric Acid; White People	2009
Toward the optimal clinical use of the fraction excretion of solutes in oliguric azotemia. Renal failure, 2010, Volume: 32, Issue:10 Topics: Absorption; Acute Kidney Injury; Azotemia; Biological Transport, Active; Diagnosis, Differential; Hu	2010
Acute renal failure with severe loin pain and patchy renal ischemia after anaerobic exercise in patients with or without renal hypouricemia. Nephron, 2002, Volume: 91, Issue:4 Topics: Acute Kidney Injury; Adolescent; Adult; Exercise; Female; Humans; Ischemia; Kidney; Male; Pain; Tomo	2002
Exercise-induced acute renal failure with renal hypouricemia: a case report and a review of the literature. Clinical nephrology, 2002, Volume: 58, Issue:4 Topics: Acute Kidney Injury; Adolescent; Creatinine; Exercise; Humans; Male; Recurrence; Uric Acid	2002
[Idiopathic renal hypouricemia]. Nihon rinsho. Japanese journal of clinical medicine, 2003, Volume: 61 Suppl 1 Topics: Acute Kidney Injury; Diagnosis, Differential; Exercise; Humans; Prognosis; Uric Acid	2003
[Hereditary renal hypouricemia]. Nihon rinsho. Japanese journal of clinical medicine, 2003, Volume: 61 Suppl 1 Topics: Acute Kidney Injury; Carrier Proteins; Exercise; Humans; Kidney; Organic Anion Transporters; Organic	2003
[Water electrolyte imbalance associated with kidney tubular transport inborn error]. Nihon Naika Gakkai zasshi. The Journal of the Japanese Society of Internal Medicine, 2003, May-10, Volume: 92, Issue:5 Topics: Acute Kidney Injury; Bartter Syndrome; Carrier Proteins; Chromosomes, Human, Pair 11; Exercise; Huma	2003
Uric acid elimination in the urine. Pathophysiological implications. Contributions to nephrology, 2005, Volume: 147 Topics: Acute Kidney Injury; Humans; Kidney; Kidney Calculi; Lead Poisoning; Uric Acid	2005
Acute renal failure in cancer patients. Annals of medicine, 2005, Volume: 37, Issue:1 Topics: Acute Kidney Injury; Antineoplastic Agents; Humans; Hyperuricemia; Neoplasms; Prognosis; Risk Factor	2005
Roles of organic anion transporters (OATs) and a urate transporter (URAT1) in the pathophysiology of human disease. Clinical and experimental nephrology, 2005, Volume: 9, Issue:3 Topics: Acute Kidney Injury; Animals; Carnitine; Carrier Proteins; Free Radical Scavengers; Humans; Kidney F	2005
[Hypouricemia]. Nihon Naika Gakkai zasshi. The Journal of the Japanese Society of Internal Medicine, 2006, May-10, Volume: 95, Issue:5 Topics: Acute Kidney Injury; Animals; Carrier Proteins; Exercise; Humans; Kidney Tubules; Mutation; Organic	2006
[The pathophysiology, clinical signs and therapy of urate nephropathy]. Orvosi hetilap, 2007, Apr-22, Volume: 148, Issue:16 Topics: Acidosis; Acute Kidney Injury; Allopurinol; Fluid Therapy; Humans; Hyperkalemia; Kidney Tubules; Rec	2007
Could uric acid have a role in acute renal failure? Clinical journal of the American Society of Nephrology : CJASN, 2007, Volume: 2, Issue:1 Topics: Acute Kidney Injury; Animals; Humans; Hyperuricemia; Kidney Tubules; Uric Acid	2007
[Various pathophysiological, clinical and therapeutic problems of disorders of purine metabolism]. Polski tygodnik lekarski (Warsaw, Poland : 1960), 1982, Oct-25, Volume: 37, Issue:40 Topics: Acute Kidney Injury; Allopurinol; Diuretics; Gout; Humans; Kidney Calculi; Uric Acid	1982
Renal hypouricemia: prevention of exercise-induced acute renal failure and a review of the literature. American journal of kidney diseases : the official journal of the National Kidney Foundation, 1995, Volume: 25, Issue:6 Topics: Acute Kidney Injury; Adult; Allopurinol; Exercise; Exercise Test; Humans; Japan; Male; Uric Acid	1995
Tumor lysis syndrome: pathogenesis and management. Pediatric nephrology (Berlin, Germany), 1995, Volume: 9, Issue:2 Topics: Acute Kidney Injury; Humans; Kidney Diseases; Renal Dialysis; Risk Factors; Tumor Lysis Syndrome; Ur	1995
Exercise-induced renal failure in a patient with hyperuricosuric hypouricemia. Nephron, 1994, Volume: 66, Issue:4 Topics: Acute Kidney Injury; Adolescent; Exercise; Female; Humans; Uric Acid	1994
Acute renal failure with hyperuricemia as initial presentation of leukemia in children. Journal of pediatric hematology/oncology, 1996, Volume: 18, Issue:2 Topics: Acute Kidney Injury; Adult; Child; Child, Preschool; Diagnosis, Differential; Female; Humans; Male;	1996
[Hyperuricemia and the kidney]. Nihon rinsho. Japanese journal of clinical medicine, 1996, Volume: 54, Issue:12 Topics: Acute Kidney Injury; Allopurinol; Gout; Humans; Hydrogen-Ion Concentration; Kidney; Renal Dialysis;	1996
[Renal hypouricemia]. Nihon rinsho. Japanese journal of clinical medicine, 1996, Volume: 54, Issue:12 Topics: Acute Kidney Injury; Biological Transport; Kidney Tubules; Purine-Pyrimidine Metabolism, Inborn Erro	1996
Metabolic acidosis with extreme elevation of anion gap: case report and literature review. The American journal of the medical sciences, 1999, Volume: 317, Issue:1 Topics: Acid-Base Equilibrium; Acidosis, Renal Tubular; Acute Kidney Injury; Humans; Male; Middle Aged; Phos	1999
Perinatal nephrobiology: a developmental perspective. Clinics in perinatology, 1977, Volume: 4, Issue:2 Topics: Acids; Acute Kidney Injury; Angiotensin II; Bicarbonates; Diuretics; Glomerular Filtration Rate; Hem	1977
Renal and metabolic complications of childhood non-Hodgkin's lymphoma. Seminars in oncology, 1977, Volume: 4, Issue:3 Topics: Acidosis; Acute Kidney Injury; Allopurinol; Aluminum Hydroxide; Burkitt Lymphoma; Child; Humans; Hyp	1977
Assessment of renal functions in hypertensive pregnancies. Clinics in obstetrics and gynaecology, 1977, Volume: 4, Issue:3 Topics: Acute Kidney Injury; Female; Fetal Death; Humans; Hypertension; Kidney; Kidney Glomerulus; Kidney Tu	1977
2,8-Dihydroxyadeninuria--or when is a uric acid stone not a uric acid stone? Clinical nephrology, 1979, Volume: 12, Issue:5 Topics: Acute Kidney Injury; Adenine; Adenine Phosphoribosyltransferase; Allopurinol; Diagnosis, Differentia	1979
Renal injury in mu. Perspectives in nephrology and hypertension, 1976, Volume: 3 Topics: Acute Kidney Injury; Adult; Animals; Glomerular Filtration Rate; Hemodynamics; Humans; Hypokalemia;	1976
[The kidney and uric acid]. L'union medicale du Canada, 1975, Volume: 104, Issue:12 Topics: Acute Kidney Injury; Female; Gout; Humans; Hypertension; Kidney; Kidney Calculi; Kidney Diseases; Ki	1975
Acute uric acid nephropathy in pregnancy. Obstetrics and gynecology, 1992, Volume: 80, Issue:3 Pt 2 Topics: Acute Kidney Injury; Adult; Female; Humans; Maternal Age; Pregnancy; Pregnancy Complications; Pregna	1992
Common emergencies in cancer medicine: metabolic syndromes. Journal of the National Medical Association, 1991, Volume: 83, Issue:9 Topics: Acidosis, Lactic; Acute Kidney Injury; Adrenal Cortex Diseases; Emergencies; Humans; Hypercalcemia;	1991
[Neonatal oliguria associated with hyperuricemia]. Anales espanoles de pediatria, 1988, Volume: 29, Issue:1 Topics: Acute Kidney Injury; Anuria; Diuresis; Humans; Infant, Newborn; Oliguria; Reference Values; Uric Aci	1988
[Renal manifestations of hyperuricemia]. Revue du rhumatisme et des maladies osteo-articulaires, 1972, Volume: 39, Issue:2 Topics: Acute Kidney Injury; Albuminuria; Cortisone; Gout; Hematuria; Humans; Kidney Calculi; Kidney Disease	1972
Hyperuricemia in leukemia and lymphoma. I. Clinical findings and pathophysiology. New York state journal of medicine, 1973, May-01, Volume: 73, Issue:9 Topics: Acute Kidney Injury; Allopurinol; Child; Child, Preschool; Humans; Hydrogen-Ion Concentration; Kidne	1973
Influence of the kidney upon urate homeostasis in health and disease. The American journal of medicine, 1974, Volume: 56, Issue:5 Topics: Acute Kidney Injury; Female; Glomerular Filtration Rate; Gout; Homeostasis; Humans; Hypertension; Hy	1974
Liver-kidney interrelation in pregnancy and toxemia. Clinical obstetrics and gynecology, 1968, Volume: 11, Issue:2 Topics: Acute Kidney Injury; Ammonia; Erythrocytes; Estrogens; Female; Glomerular Filtration Rate; Glucocort	1968
[Abnormalities and interrelations of biochemical indicators in kidney failure]. Nihon rinsho. Japanese journal of clinical medicine, 1968, Volume: 26, Issue:10 Topics: Acid-Base Equilibrium; Acute Kidney Injury; Amino Acids; Blood Urea Nitrogen; Calcium; Carbohydrate	1968
The differential diagnosis of azotemia in the surgical patient. The Surgical clinics of North America, 1970, Volume: 50, Issue:2 Topics: Acute Kidney Injury; Creatinine; Diagnosis, Differential; Humans; Nitrogen; Postoperative Complicati	1970
[Non-protein nitrogen (NPN) and blood urea nitrogen (BUN)--how to read the figures]. Nihon rinsho. Japanese journal of clinical medicine, 1971, Volume: 29 Topics: Acute Kidney Injury; Amino Acids; Blood Chemical Analysis; Blood Urea Nitrogen; Creatinine; Dietary	1971
[NPN (BUN): interpretation of the test results]. Nihon rinsho. Japanese journal of clinical medicine, 1969 Topics: Acute Kidney Injury; Amino Acids; Blood Urea Nitrogen; Creatinine; Humans; Kidney Diseases; Nitrogen	1969

Article

Year

Is there any robust evidence showing that SGLT2 inhibitor use predisposes to acute kidney injury?

Journal of nephrology, 2023, Volume: 36, Issue:1

Topics: Acute Kidney Injury; Diabetes Mellitus, Type 2; Glucose; Humans; Hypoglycemic Agents; Retrospective

2023

Clear Cell Renal Cell Carcinoma, Diagnostic and Therapeutic Difficulties, Case Report and Literature Review.

Medicina (Kaunas, Lithuania), 2022, Sep-22, Volume: 58, Issue:10

Topics: Acute Kidney Injury; Adult; Carcinoma, Renal Cell; Child; Humans; Kidney Neoplasms; Male; Nephrolith

2022

Clinical features suggesting renal hypouricemia as the cause of acute kidney injury: a case report and review of the literature.