taurine and Insulin Resistance studies

Insulin Resistance: Diminished effectiveness of INSULIN in lowering blood sugar levels: requiring the use of 200 units or more of insulin per day to prevent HYPERGLYCEMIA or KETOSIS.

Research Excerpts

Excerpt	Relevance	Reference
"This review explores the potential benefits of taurine in ameliorating the metabolic disorders of obesity and type 2 diabetes (T2D), highlighting the factors that bridge these associations."	9.41	The Impact of Taurine on Obesity-Induced Diabetes Mellitus: Mechanisms Underlying Its Effect. ( Ahmed, K; Choi, HN; Yim, JE, 2023)
"We genotyped 31 diabetes-associated variants to calculate a genetic risk score (GRS) and measured plasma taurine levels and glycemic traits among participants from the Preventing Overweight Using Novel Dietary Strategies (POUNDS Lost) trial."	9.22	Plasma Taurine, Diabetes Genetic Predisposition, and Changes of Insulin Sensitivity in Response to Weight-Loss Diets. ( Bray, GA; Ceglarek, U; Heianza, Y; Huang, T; Ma, W; Qi, L; Sacks, FM; Thiery, J; Wang, T; Zheng, Y, 2016)
"To elucidate the synergistic effects of taurine and L-arginine on hypertension, 25% fructose were administered to male Wistar rats for 3 months to establish insulin resistance hypertensive models."	7.79	Synergistic effects of taurine and L-arginine on attenuating insulin resistance hypertension. ( Feng, Y; Gao, Y; Hu, J; Li, J; Lv, Q; Yang, J; Yang, Q, 2013)
"Taurine supplementation in combination with exercise prevents hypertension and increases exercise capacity by possibly antioxidation and maintaining NO concentrations."	7.77	Taurine prevents hypertension and increases exercise capacity in rats with fructose-induced hypertension. ( Go, HK; Hong, CU; Kang, HS; Kim, GB; Kim, JS; Kim, SJ; Kim, SZ; Lee, YU; Park, HM; Rahman, MM, 2011)
" Co-infusion of taurine was designed for the purpose of studying the effects of taurine on insulin sensitivity, oxidative stress, c-Jun NH-terminal kinase (JNK)1 activity and insulin signaling in livers of prolonged IH-infused rats."	7.76	Taurine prevents free fatty acid-induced hepatic insulin resistance in association with inhibiting JNK1 activation and improving insulin signaling in vivo. ( Han, P; He, B; Li, Y; Lin, J; Lu, Y; Wu, N; Zhang, W; Zhang, Y; Zhao, S, 2010)
"To observe and compare the effect of taurine on contractions of aortic rings isolated from normal (NC) and insulin resistance (IR) Sprague-Dawley rats, and to explore its underlying mechanism(s)."	7.74	Effects of taurine on aortic rings isolated from fructose-fed insulin resistance Sprague-Dawley rat are changed. ( Li, J; Liang, Y; Niu, L; Wu, D; Xue, W; Zhang, M, 2008)
"The effects of taurine on insulin sensitivity were examined in a model rat of insulin resistance and type 2 diabetes-the Otsuka Long-Evans Tokushima Fatty (OLETF) rat."	7.70	Taurine improves insulin sensitivity in the Otsuka Long-Evans Tokushima Fatty rat, a model of spontaneous type 2 diabetes. ( Harada, N; Minami, A; Nakaya, Y; Niwa, Y; Ohnaka, M; Sakamoto, S, 2000)
"This review explores the potential benefits of taurine in ameliorating the metabolic disorders of obesity and type 2 diabetes (T2D), highlighting the factors that bridge these associations."	5.41	The Impact of Taurine on Obesity-Induced Diabetes Mellitus: Mechanisms Underlying Its Effect. ( Ahmed, K; Choi, HN; Yim, JE, 2023)
"Insulin sensitivity was unaltered in IUGR and IUGR/taurine offspring."	5.34	Maternal taurine supplementation in the late pregnant rat stimulates postnatal growth and induces obesity and insulin resistance in adult offspring. ( Alexanderson, C; Holmäng, A; Hultman, K; Jansson, T; Mannerås, L; Sandberg, M, 2007)
"We genotyped 31 diabetes-associated variants to calculate a genetic risk score (GRS) and measured plasma taurine levels and glycemic traits among participants from the Preventing Overweight Using Novel Dietary Strategies (POUNDS Lost) trial."	5.22	Plasma Taurine, Diabetes Genetic Predisposition, and Changes of Insulin Sensitivity in Response to Weight-Loss Diets. ( Bray, GA; Ceglarek, U; Heianza, Y; Huang, T; Ma, W; Qi, L; Sacks, FM; Thiery, J; Wang, T; Zheng, Y, 2016)
" Taurine improved glucagon activity, promoted glycemic stability, modified glucose levels, successfully addressed hyperglycemia via advanced glycation end-product control, improved insulin secretion and had a beneficial effect on insulin resistance."	4.98	Ameliorative effects of taurine against diabetes: a review. ( Aadil, RM; Ahmed, Z; Li, K; Piao, F; Shahbaz, M; Suleman, R; Wu, P; Zhang, M, 2018)
" In the present study, we aimed to elucidate how lncRNA taurine upregulated gene 1 (TUG1) influences insulin resistance (IR) in a high-fat diet (HFD)-induced mouse model of GDM."	4.31	Long Non-Coding RNA TUG1 Attenuates Insulin Resistance in Mice with Gestational Diabetes Mellitus via Regulation of the MicroRNA-328-3p/SREBP-2/ERK Axis. ( Qin, Q; Tang, X; Xu, W; Zhang, X, 2023)
"Obese protein malnourished mice display liver insulin resistance and taurine (TAU) seems to attenuate this effect."	3.80	Taurine-induced insulin signalling improvement of obese malnourished mice is associated with redox balance and protein phosphatases activity modulation. ( Barbosa-Sampaio, HC; Boschero, AC; Cappelli, AP; Carneiro, EM; Costa, JM; Morato, PN; Protzek, AO; Zoppi, CC, 2014)
"To elucidate the synergistic effects of taurine and L-arginine on hypertension, 25% fructose were administered to male Wistar rats for 3 months to establish insulin resistance hypertensive models."	3.79	Synergistic effects of taurine and L-arginine on attenuating insulin resistance hypertension. ( Feng, Y; Gao, Y; Hu, J; Li, J; Lv, Q; Yang, J; Yang, Q, 2013)
"Taurine supplementation in combination with exercise prevents hypertension and increases exercise capacity by possibly antioxidation and maintaining NO concentrations."	3.77	Taurine prevents hypertension and increases exercise capacity in rats with fructose-induced hypertension. ( Go, HK; Hong, CU; Kang, HS; Kim, GB; Kim, JS; Kim, SJ; Kim, SZ; Lee, YU; Park, HM; Rahman, MM, 2011)
" Co-infusion of taurine was designed for the purpose of studying the effects of taurine on insulin sensitivity, oxidative stress, c-Jun NH-terminal kinase (JNK)1 activity and insulin signaling in livers of prolonged IH-infused rats."	3.76	Taurine prevents free fatty acid-induced hepatic insulin resistance in association with inhibiting JNK1 activation and improving insulin signaling in vivo. ( Han, P; He, B; Li, Y; Lin, J; Lu, Y; Wu, N; Zhang, W; Zhang, Y; Zhao, S, 2010)
" On the other hand, the antioxidant, Taurine at 10mM concentrations was capable of reversing the oleate-induced insulin resistance in myocytes as manifested from the glucose uptake data."	3.75	Free fatty acid-induced muscle insulin resistance and glucose uptake dysfunction: evidence for PKC activation and oxidative stress-activated signaling pathways. ( Adeli, K; Fantus, IG; Medhat, AM; Ragheb, R; Seoudi, DM; Shanab, GM, 2009)
"To observe and compare the effect of taurine on contractions of aortic rings isolated from normal (NC) and insulin resistance (IR) Sprague-Dawley rats, and to explore its underlying mechanism(s)."	3.74	Effects of taurine on aortic rings isolated from fructose-fed insulin resistance Sprague-Dawley rat are changed. ( Li, J; Liang, Y; Niu, L; Wu, D; Xue, W; Zhang, M, 2008)
" Taurine treatment to fructose rats attenuated the increased lipid peroxidation, enhanced the levels of antioxidants and improved insulin sensitivity."	3.73	Effect of taurine on biomarkers of oxidative stress in tissues of fructose-fed insulin-resistant rats. ( Anuradha, CV; Nandhini, AT; Ravichandran, MK; Thirunavukkarasu, V, 2005)
" Taurine administration improved insulin sensitivity and controlled hyperglycemia and hyperinsulinemia in fructose-fed rats."	3.73	Taurine modifies insulin signaling enzymes in the fructose-fed insulin resistant rats. ( Anuradha, CV; Nandhini, AT; Thirunavukkarasu, V, 2005)
" Taurine supplementation also improved hyperglycemia and insulin resistance and increased muscle glycogen content in the OLETF rats."	3.72	Taurine alters respiratory gas exchange and nutrient metabolism in type 2 diabetic rats. ( Harada, N; Mawatari, K; Morishima, M; Nakaya, Y; Ninomiya, C; Osako, Y; Takahashi, A, 2004)
"The effects of taurine on insulin sensitivity were examined in a model rat of insulin resistance and type 2 diabetes-the Otsuka Long-Evans Tokushima Fatty (OLETF) rat."	3.70	Taurine improves insulin sensitivity in the Otsuka Long-Evans Tokushima Fatty rat, a model of spontaneous type 2 diabetes. ( Harada, N; Minami, A; Nakaya, Y; Niwa, Y; Ohnaka, M; Sakamoto, S, 2000)
" Peripheral insulin resistance, which usually responds to a very-low-fat diet, aerobic exercise training, and appropriate weight loss, can also treated with high-dose chromium picolinate, high-dose vitamin E, magnesium, soluble fiber, and possibly taurine; these measures appear likely to correct the diabetes-associated metabolic derangements of vascular smooth muscle, and thus lessen risk for macrovascular disease."	3.69	Exploiting complementary therapeutic strategies for the treatment of type II diabetes and prevention of its complications. ( McCarty, MF, 1997)
"We aimed to investigate the effects of an 8-week total-body resistance exercise (TRX) suspension training intervention combined with taurine supplementation on body composition, blood glucose, and lipid markers in T2D females."	3.01	The Effects of TRX Suspension Training Combined with Taurine Supplementation on Body Composition, Glycemic and Lipid Markers in Women with Type 2 Diabetes. ( Ashtary-Larky, D; Bagheri, R; Cheraghloo, N; Samadpour Masouleh, S; Siahkouhian, M; Suzuki, K; Wong, A; Yousefi Bilesvar, O, 2021)
"Taurine is a crucial amino acid in the human body."	1.91	Taurine reduces apoptosis mediated by endoplasmic reticulum stress in islet β-cells induced by high-fat and -glucose diets. ( Bian, Y; Dai, J; Fu, Z; Hu, J; Li, C; Lin, S; Ma, Y; Meng, L; Wang, J; Wu, Y; Yin, D; Zhang, X; Zhao, D, 2023)
"Captopril treatment significantly increased plasma insulin in all groups except CG (the greatest increase was in TDG)."	1.39	Perinatal taurine imbalance alters the interplay of renin-angiotensin system and estrogen on glucose-insulin regulation in adult female rats. ( Khimsuksri, S; Lerdweeraphon, W; Roysommuti, S; Thaeomor, A; Wyss, JM, 2013)
"Insulin sensitivity was unaltered in IUGR and IUGR/taurine offspring."	1.34	Maternal taurine supplementation in the late pregnant rat stimulates postnatal growth and induces obesity and insulin resistance in adult offspring. ( Alexanderson, C; Holmäng, A; Hultman, K; Jansson, T; Mannerås, L; Sandberg, M, 2007)
"High dosage of fructose induces insulin resistance, glucose intolerance and alterations in plasma lipid profile in normal rats."	1.31	Taurine modulates antioxidant potential and controls lipid peroxidation in the aorta of high fructose-fed rats. ( Anitha Nandhini, AT; Anuradha, CV; Balakrishnan, SD, 2002)

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	2 (4.55)	18.2507
2000's	13 (29.55)	29.6817
2010's	23 (52.27)	24.3611
2020's	6 (13.64)	2.80

Trial			Phase	Enrollment	Study Type	Start Date	Status
Taurine as a Possible Anti-aging Therapy? A Controlled Clinical Trial on Taurine Antioxidant Activity in Women Aged 55 to 70 Years[NCT05149716]				24 participants (Actual)	Interventional	2020-01-13	Completed
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Article	Year
The Impact of Taurine on Obesity-Induced Diabetes Mellitus: Mechanisms Underlying Its Effect. Endocrinology and metabolism (Seoul, Korea), 2023, Volume: 38, Issue:5 Topics: Blood Glucose; Diabetes Mellitus, Type 2; Humans; Insulin Resistance; Obesity; Taurine	2023
Ameliorative effects of taurine against diabetes: a review. Amino acids, 2018, Volume: 50, Issue:5 Topics: Animals; Apoptosis; Blood Glucose; Brain; Diabetes Complications; Glycation End Products, Advanced;	2018
The potential usefulness of taurine on diabetes mellitus and its complications. Amino acids, 2012, Volume: 42, Issue:5 Topics: Animals; Diabetes Complications; Diabetes Mellitus, Experimental; Disease Models, Animal; Glycation	2012
Understanding the role of dietary components on atherosclerosis using genetic engineered mouse models. Frontiers in bioscience : a journal and virtual library, 2006, Jan-01, Volume: 11 Topics: Alcohol Drinking; Allergy and Immunology; Animals; Antioxidants; Apolipoproteins E; Arginine; Arteri	2006

Article	Year
The Effects of TRX Suspension Training Combined with Taurine Supplementation on Body Composition, Glycemic and Lipid Markers in Women with Type 2 Diabetes. Nutrients, 2021, Nov-05, Volume: 13, Issue:11 Topics: Biomarkers; Blood Glucose; Body Composition; Diabetes Mellitus, Type 2; Diet; Dietary Supplements; E	2021
Oxidative stress and inflammation in obesity after taurine supplementation: a double-blind, placebo-controlled study. European journal of nutrition, 2014, Volume: 53, Issue:3 Topics: Adiponectin; Adult; Anti-Inflammatory Agents, Non-Steroidal; Antioxidants; Biomarkers; Body Mass Ind	2014
Plasma Taurine, Diabetes Genetic Predisposition, and Changes of Insulin Sensitivity in Response to Weight-Loss Diets. The Journal of clinical endocrinology and metabolism, 2016, Volume: 101, Issue:10 Topics: Adult; Aged; Diabetes Mellitus, Type 2; Diet, Reducing; Female; Genetic Predisposition to Disease; G	2016

Article	Year
Long Non-Coding RNA TUG1 Attenuates Insulin Resistance in Mice with Gestational Diabetes Mellitus via Regulation of the MicroRNA-328-3p/SREBP-2/ERK Axis. Diabetes & metabolism journal, 2023, Volume: 47, Issue:2 Topics: Animals; Diabetes, Gestational; Female; Insulin Resistance; Mice; MicroRNAs; Pregnancy; RNA, Long No	2023
Taurine reduces apoptosis mediated by endoplasmic reticulum stress in islet β-cells induced by high-fat and -glucose diets. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 2023, Volume: 175 Topics: Animals; Apoptosis; Diabetes Mellitus, Type 2; Diet, High-Fat; Endoplasmic Reticulum Stress; Glucose	2023
Taurine Improves Lipid Metabolism and Skeletal Muscle Sensitivity to Insulin in Rats Fed with High Sugar and High Fat Diet. Advances in experimental medicine and biology, 2019, Volume: 1155 Topics: Animals; Diet, High-Fat; Dietary Sugars; Insulin Resistance; Lipid Metabolism; Muscle, Skeletal; Rat	2019
Taurine attenuates liver autophagy and injury of offspring in gestational diabetic mellitus rats. Life sciences, 2020, Sep-15, Volume: 257 Topics: Animals; Autophagy; Diabetes Mellitus, Experimental; Diabetes, Gestational; Diet, High-Fat; Dietary	2020
Taurine ameliorates axonal damage in sciatic nerve of diabetic rats and high glucose exposed DRG neuron by PI3K/Akt/mTOR-dependent pathway. Amino acids, 2021, Volume: 53, Issue:3 Topics: Animals; Blood Glucose; Diabetes Mellitus, Experimental; Diabetic Nephropathies; Ganglia, Spinal; In	2021
Diet-induced glucose homeostasis dysregulation is enhanced by taurine supplementation in ovariectomized mice. Amino acids, 2018, Volume: 50, Issue:3-4 Topics: Animals; Blood Glucose; Diet, High-Fat; Dietary Supplements; Estrogens; Glucose; Homeostasis; Humans	2018
Bile acid profiles within the enterohepatic circulation in a diabetic rat model after bariatric surgeries. American journal of physiology. Gastrointestinal and liver physiology, 2018, 05-01, Volume: 314, Issue:5 Topics: Animals; Bariatric Surgery; Bile Acids and Salts; Blood Glucose; Body Weight; Diabetes Mellitus, Exp	2018
Taurine supplementation induces long-term beneficial effects on glucose homeostasis in ob/ob mice. Amino acids, 2018, Volume: 50, Issue:6 Topics: Animals; Blood Glucose; Glucose Tolerance Test; Homeostasis; Hypertriglyceridemia; Insulin Resistanc	2018
Taurine improves low-level inorganic arsenic-induced insulin resistance by activating PPARγ-mTORC2 signalling and inhibiting hepatic autophagy. Journal of cellular physiology, 2019, Volume: 234, Issue:4 Topics: Animals; Arsenic Trioxide; Autophagy; Autophagy-Related Proteins; Blood Glucose; Gluconeogenesis; Gl	2019
Effects of the amino acid derivatives, β-hydroxy-β-methylbutyrate, taurine, and N-methyltyramine, on triacylglycerol breakdown in fat cells. Journal of physiology and biochemistry, 2019, Volume: 75, Issue:3 Topics: Adipocytes; Adipose Tissue; Adult; Animals; Female; Humans; Insulin; Insulin Resistance; Lipolysis;	2019
Taurine protects against arsenic trioxide-induced insulin resistance via ROS-Autophagy pathway in skeletal muscle. The international journal of biochemistry & cell biology, 2019, Volume: 112 Topics: Animals; Arsenic Trioxide; Autophagic Cell Death; Cell Line; Insulin Resistance; Male; Mice; Muscle,	2019
Maternal taurine supplementation in rats partially prevents the adverse effects of early-life protein deprivation on β-cell function and insulin sensitivity. Reproduction (Cambridge, England), 2013, Volume: 145, Issue:6 Topics: Animals; C-Peptide; Diabetes Mellitus, Type 2; Diet, Protein-Restricted; Dietary Proteins; Dietary S	2013
Taurine-induced insulin signalling improvement of obese malnourished mice is associated with redox balance and protein phosphatases activity modulation. Liver international : official journal of the International Association for the Study of the Liver, 2014, Volume: 34, Issue:5 Topics: Animals; Body Composition; Diet, High-Fat; Dietary Supplements; Glucose; Growth; Insulin; Insulin Re	2014
Maternal taurine supplementation attenuates maternal fructose-induced metabolic and inflammatory dysregulation and partially reverses adverse metabolic programming in offspring. The Journal of nutritional biochemistry, 2015, Volume: 26, Issue:3 Topics: Animals; Cytokines; Dietary Supplements; Fatty Acid Synthases; Female; Fetal Development; Fructose;	2015
The effect of taurine supplementation on glucose homeostasis: the role of insulin-degrading enzyme. Advances in experimental medicine and biology, 2015, Volume: 803 Topics: Animals; Cells, Cultured; Dietary Supplements; Eating; Glucose; Glucose Tolerance Test; Homeostasis;	2015
Effects of taurine on aortic rings isolated from fructose-fed insulin resistance Sprague-Dawley rat are changed. Cardiovascular drugs and therapy, 2008, Volume: 22, Issue:6 Topics: 4-Aminopyridine; Acetylcholine; Administration, Oral; Animals; Aorta; Blood Glucose; Blood Pressure;	2008
Altered metabolism of growth hormone receptor mutant mice: a combined NMR metabonomics and microarray study. PloS one, 2008, Jul-23, Volume: 3, Issue:7 Topics: Adipose Tissue; Animals; Insulin Resistance; Liver; Magnetic Resonance Spectroscopy; Male; Metabolis	2008
Free fatty acid-induced muscle insulin resistance and glucose uptake dysfunction: evidence for PKC activation and oxidative stress-activated signaling pathways. Biochemical and biophysical research communications, 2009, Nov-13, Volume: 389, Issue:2 Topics: Animals; Antioxidants; Cell Line; Enzyme Activation; Fatty Acids, Nonesterified; Glucose; Insulin; I	2009
Taurine prevents free fatty acid-induced hepatic insulin resistance in association with inhibiting JNK1 activation and improving insulin signaling in vivo. Diabetes research and clinical practice, 2010, Volume: 90, Issue:3 Topics: Animals; Antioxidants; Emulsions; Fatty Acids, Nonesterified; Heparin; Insulin; Insulin Receptor Sub	2010
A metabonomic comparison of urinary changes in Zucker and GK rats. Journal of biomedicine & biotechnology, 2010, Volume: 2010 Topics: Acids, Acyclic; Animals; Biomarkers; Creatine; Diabetes Mellitus, Type 2; Dimethylamines; Disease Mo	2010
Taurine prevents hypertension and increases exercise capacity in rats with fructose-induced hypertension. American journal of hypertension, 2011, Volume: 24, Issue:5 Topics: Animals; Blood Glucose; Creatine Kinase; Electrolytes; Fructose; Glutathione; Hypertension; Insulin;	2011
Taurine supplementation prevents morpho-physiological alterations in high-fat diet mice pancreatic β-cells. Amino acids, 2012, Volume: 43, Issue:4 Topics: Animals; Blood Glucose; Body Weight; Diet, High-Fat; Dietary Supplements; Female; Glucose Intoleranc	2012
Taurine ameliorates hyperglycemia and dyslipidemia by reducing insulin resistance and leptin level in Otsuka Long-Evans Tokushima fatty (OLETF) rats with long-term diabetes. Experimental & molecular medicine, 2012, Nov-30, Volume: 44, Issue:11 Topics: Adipokines; Animals; Blood Glucose; Diabetes Mellitus, Type 2; Dietary Supplements; Dyslipidemias; G	2012
Gestational diabetes is associated with high energy and saturated fat intakes and with low plasma visfatin and adiponectin levels independent of prepregnancy BMI. European journal of clinical nutrition, 2013, Volume: 67, Issue:2 Topics: Adiponectin; Body Mass Index; Diabetes, Gestational; Diet; Dietary Fats; Energy Intake; Fatty Acids;	2013
Perinatal taurine imbalance alters the interplay of renin-angiotensin system and estrogen on glucose-insulin regulation in adult female rats. Advances in experimental medicine and biology, 2013, Volume: 776 Topics: Aging; Animals; Blood Glucose; Captopril; Estrogens; Fasting; Female; Glucose; Injections, Intraveno	2013
Synergistic effects of taurine and L-arginine on attenuating insulin resistance hypertension. Advances in experimental medicine and biology, 2013, Volume: 775 Topics: Animals; Antihypertensive Agents; Arginine; Blood Glucose; Blood Pressure; Cyclic GMP; Drug Synergis	2013
Taurine modulates antioxidant potential and controls lipid peroxidation in the aorta of high fructose-fed rats. Journal of biochemistry, molecular biology, and biophysics : JBMBB : the official journal of the Federation of Asian and Oceanian Biochemists and Molecular Biologists (FAOBMB), 2002, Volume: 6, Issue:2 Topics: Animals; Antioxidants; Aorta, Thoracic; Ascorbic Acid; Fructose; Insulin Resistance; Lipid Peroxidat	2002
N-acetylcysteine and taurine prevent hyperglycemia-induced insulin resistance in vivo: possible role of oxidative stress. American journal of physiology. Endocrinology and metabolism, 2003, Volume: 285, Issue:4 Topics: Acetylcysteine; Animals; Blood Glucose; Glucose; Insulin; Insulin Resistance; Male; Muscle, Skeletal	2003
Taurine alters respiratory gas exchange and nutrient metabolism in type 2 diabetic rats. Obesity research, 2004, Volume: 12, Issue:7 Topics: Animal Nutritional Physiological Phenomena; Animals; Blood; Blood Glucose; Blood Pressure; Body Weig	2004
Effect of taurine on biomarkers of oxidative stress in tissues of fructose-fed insulin-resistant rats. Singapore medical journal, 2005, Volume: 46, Issue:2 Topics: Animals; Antioxidants; Biomarkers; Fructose; Insulin Resistance; Male; Oxidative Stress; Rats; Rats,	2005
Statistical total correlation spectroscopy: an exploratory approach for latent biomarker identification from metabolic 1H NMR data sets. Analytical chemistry, 2005, Mar-01, Volume: 77, Issue:5 Topics: Amines; Animals; Biomarkers; Citric Acid; Creatine; Creatinine; Dietary Carbohydrates; Discriminant	2005
Taurine modifies insulin signaling enzymes in the fructose-fed insulin resistant rats. Diabetes & metabolism, 2005, Volume: 31, Issue:4 Pt 1 Topics: Animals; Blood Glucose; Dietary Carbohydrates; Fructose; Glucose Tolerance Test; Glycolysis; Insulin	2005
Maternal taurine supplementation in the late pregnant rat stimulates postnatal growth and induces obesity and insulin resistance in adult offspring. The Journal of physiology, 2007, Mar-15, Volume: 579, Issue:Pt 3 Topics: Adipose Tissue; Animals; Animals, Newborn; Body Composition; Body Weight; Female; Gestational Age; G	2007
Exploiting complementary therapeutic strategies for the treatment of type II diabetes and prevention of its complications. Medical hypotheses, 1997, Volume: 49, Issue:2 Topics: Complementary Therapies; Diabetes Mellitus, Type 1; Diabetic Angiopathies; Diet, Fat-Restricted; Die	1997
Taurine attenuates hypertension and improves insulin sensitivity in the fructose-fed rat, an animal model of insulin resistance. Canadian journal of physiology and pharmacology, 1999, Volume: 77, Issue:10 Topics: Animals; Blood Glucose; Blood Pressure; Creatinine; Disease Models, Animal; Fructose; Glucose Tolera	1999
Taurine improves insulin sensitivity in the Otsuka Long-Evans Tokushima Fatty rat, a model of spontaneous type 2 diabetes. The American journal of clinical nutrition, 2000, Volume: 71, Issue:1 Topics: Adipose Tissue; Analysis of Variance; Animals; Blood Urea Nitrogen; Body Weight; Cholesterol; Diabet	2000
Taurine modulates kallikrein activity and glucose metabolism in insulin resistant rats. Amino acids, 2002, Volume: 22, Issue:1 Topics: Animals; Body Weight; Glucose; Insulin Resistance; Kallikreins; Male; Rats; Rats, Wistar; Taurine	2002

taurine and Insulin Resistance

Research Excerpts

Research

Studies (44)

Authors

Clinical Trials (1)

Trial Overview

Reviews

Trials

Other Studies

Authors	Studies
Samadpour Masouleh, S	1
Bagheri, R	1
Ashtary-Larky, D	1
Cheraghloo, N	1
Wong, A	1
Yousefi Bilesvar, O	1
Suzuki, K	1
Siahkouhian, M	1
Tang, X	1
Qin, Q	1
Xu, W	1
Zhang, X	3
Zhao, D	2
Bian, Y	1
Meng, L	1
Wu, Y	1
Ma, Y	1
Li, C	1
Wang, J	1
Fu, Z	1
Dai, J	1
Yin, D	1
Lin, S	2
Hu, J	3
Ahmed, K	1
Choi, HN	1
Yim, JE	1
Lv, Q	2
Yang, J	2
Wu, G	1
Liu, M	1
Yang, Q	2
Han, J	1
Feng, Y	2
Luo, Y	1
Tian, Y	1
Zhao, C	1
Zhang, M	3
Shi, X	1
Luo, M	1
Lan, Q	1
Ullah, H	1
Zhang, C	1
Li, S	1
Chen, X	1
Wang, Y	1
Piao, F	2
de Souza Santos, R	1
Camargo, RL	2
Vanzela, EC	1
Batista, TM	2
Morato, PN	2
Leite, NC	1
Rovani, JC	1
García-Arévalo, M	1
Clegg, DJ	1
Carneiro, EM	5
Wei, M	1
Shao, Y	1
Liu, QR	1
Wu, QZ	1
Zhong, MW	1
Liu, SZ	1
Zhang, GY	1
Hu, SY	1
Aadil, RM	1
Suleman, R	1
Li, K	1
Wu, P	1
Shahbaz, M	1
Ahmed, Z	1
Borck, PC	2
Vettorazzi, JF	3
Branco, RCS	1
Santos-Silva, JC	2
Nakanishi, VY	1
Boschero, AC	4
Ribeiro, RA	2
Gao, N	1
Yao, X	2
Jiang, L	2
Yang, L	2
Qiu, T	2
Wang, Z	2
Pei, P	2
Yang, G	2
Liu, X	2
Sun, X	2
Leroux, M	1
Lemery, T	1
Boulet, N	1
Briot, A	1
Zakaroff, A	1
Bouloumié, A	1
Andrade, F	1
Pérez-Matute, P	1
Arbones-Mainar, JM	2
Carpéné, C	1
Wei, S	1
Bai, J	1
Liu, S	1
Tang, C	1
Marchand, K	1
Lam, L	1
Lux-Lantos, V	1
Thyssen, SM	1
Guo, J	1
Giacca, A	2
Arany, E	1
Cappelli, AP	1
Zoppi, CC	1
Barbosa-Sampaio, HC	1
Costa, JM	1
Protzek, AO	1
Rosa, FT	1
Freitas, EC	1
Deminice, R	1
Jordão, AA	1
Marchini, JS	1
Li, M	1
Reynolds, CM	1
Sloboda, DM	1
Gray, C	1
Vickers, MH	1
Branco, RC	1
de Rezende, LF	1
Zheng, Y	1
Ceglarek, U	1
Huang, T	1
Wang, T	1
Heianza, Y	1
Ma, W	1
Bray, GA	1
Thiery, J	1
Sacks, FM	1
Qi, L	1
Xue, W	1
Li, J	2
Wu, D	1
Niu, L	1
Liang, Y	1
Schirra, HJ	1
Anderson, CG	1
Wilson, WJ	1
Kerr, L	1
Craik, DJ	1
Waters, MJ	1
Lichanska, AM	1
Ragheb, R	1
Shanab, GM	1
Medhat, AM	1
Seoudi, DM	1
Adeli, K	1
Fantus, IG	2
Wu, N	1
Lu, Y	1
He, B	1
Zhang, Y	1
Lin, J	1
Zhao, S	1
Zhang, W	1
Li, Y	1
Han, P	1
Zhao, LC	1
Zhang, XD	1
Liao, SX	1
Gao, HC	1
Wang, HY	1
Lin, DH	1
Rahman, MM	1
Park, HM	1
Kim, SJ	1
Go, HK	1
Kim, GB	1
Hong, CU	1
Lee, YU	1
Kim, SZ	1
Kim, JS	1
Kang, HS	1
Ito, T	1
Schaffer, SW	1
Azuma, J	1
Cotrim, BB	1
Mobiolli, DD	1
Kim, KS	1
Oh, DH	1
Kim, JY	1
Lee, BG	1
You, JS	1
Chang, KJ	1
Chung, HJ	1
Yoo, MC	1
Yang, HI	1
Kang, JH	1
Hwang, YC	1
Ahn, KJ	1
Chung, HY	1
Jeong, IK	1
Park, S	1
Kim, MY	1
Baik, SH	1
Woo, JT	1
Kwon, YJ	1
Daily, JW	1
Park, YM	1
Yang, JH	1
Kim, SH	1
Roysommuti, S	1
Thaeomor, A	1
Khimsuksri, S	1
Lerdweeraphon, W	1
Wyss, JM	1
Gao, Y	1
Anitha Nandhini, AT	1
Balakrishnan, SD	2
Anuradha, CV	5
Haber, CA	1
Lam, TK	1
Yu, Z	1
Gupta, N	1
Goh, T	1
Bogdanovic, E	1
Harada, N	2
Ninomiya, C	1
Osako, Y	1
Morishima, M	1
Mawatari, K	1
Takahashi, A	1
Nakaya, Y	2
Nandhini, AT	3
Thirunavukkarasu, V	2
Ravichandran, MK	1
Cloarec, O	1
Dumas, ME	1
Craig, A	1
Barton, RH	1
Trygg, J	1
Hudson, J	1
Blancher, C	1
Gauguier, D	1
Lindon, JC	1
Holmes, E	1
Nicholson, J	1
Sarria, AJ	1
Surra, JC	1
Acin, S	1
Carnicer, R	1
Navarro, MA	1
Guillen, N	1
Martinez-Gracia, MV	1
Arnal, C	1
Osada, J	1
Hultman, K	1
Alexanderson, C	1
Mannerås, L	1
Sandberg, M	1
Holmäng, A	1
Jansson, T	1
McCarty, MF	1
Minami, A	1
Sakamoto, S	1
Niwa, Y	1
Ohnaka, M	1