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Lobeglitazone and pioglitazone as add-ons to metformin for patients with type 2 diabetes: a 24-week, multicentre, randomized, double-blind, parallel-group, active-controlled, phase III clinical trial with a 28-week extension.
Jin, SM, Park, CY, Cho, YM, Ku, BJ, Ahn, CW, Cha, BS, Min, KW, Sung, YA, Baik, SH, Lee, KW, et al
Diabetes, obesity & metabolism. 2015;(6):599-602
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We aimed to compare the efficacy and safety of lobeglitazone and pioglitazone as add-ons to metformin in patients with type 2 diabetes. Patients who were inadequately controlled by metformin were randomized and treated once daily with either lobeglitazone (0.5 mg, n = 128) or pioglitazone (15 mg, n = 125) for 24 weeks, with a 28-week extension trial of lobeglitazone treatment in patients who consented. The primary endpoint was the change in glycated haemoglobin (HbA1c) concentration from baseline to week 24. At week 24, the mean change from baseline in HbA1c was -0.74% for the lobeglitazone group and -0.74% for the pioglitazone group, with a mean difference of 0.01% [95% confidence interval (CI) of difference, -0.16 to 0.18]. The effects of lobeglitazone on lipid variables and the adverse events associated with lobeglitazone were similar to those observed with pioglitazone. Lobeglitazone was not inferior to pioglitazone as an add-on to metformin in terms of their efficacy and safety.
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Efficacy and safety of canagliflozin over 52 weeks in patients with type 2 diabetes on background metformin and pioglitazone.
Forst, T, Guthrie, R, Goldenberg, R, Yee, J, Vijapurkar, U, Meininger, G, Stein, P
Diabetes, obesity & metabolism. 2014;(5):467-77
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AIM: The efficacy and safety of canagliflozin, a sodium glucose co-transporter 2 inhibitor, was evaluated in patients with type 2 diabetes mellitus (T2DM) inadequately controlled with metformin and pioglitazone. METHODS In this randomized, double-blind, phase 3 study, patients (N = 342) received canagliflozin 100 or 300 mg during a 26-week, placebo-controlled, core period and a 26-week, active-controlled extension in which placebo-treated patients were switched to sitagliptin 100 mg. Efficacy comparisons for canagliflozin versus placebo at week 26 are reported, with no comparisons versus sitagliptin at week 52 (sitagliptin used to maintain double-blind and control for safety). Safety data are reported for canagliflozin and placebo/sitagliptin. RESULTS Canagliflozin 100 and 300 mg significantly lowered haemoglobin A1c (HbA1c) compared with placebo at week 26 (-0.89%, -1.03% and -0.26%; p < 0.001); reductions with canagliflozin 100 and 300 mg were maintained at week 52 (-0.92% and -1.03%). Relative to placebo, both canagliflozin doses significantly reduced body weight (-2.5 and -3.5 kg), fasting plasma glucose and systolic blood pressure (BP) at week 26 (p < 0.05 for all), with reductions maintained at week 52. Overall adverse event (AE) incidence over 52 weeks was 69.9, 76.3 and 76.5% with canagliflozin 100 and 300 mg and placebo/sitagliptin; AE-related discontinuation and serious AE rates were low. Incidences of genital mycotic infections and AEs related to osmotic diuresis and volume depletion were higher with canagliflozin than placebo/sitagliptin. CONCLUSION Canagliflozin improved glycaemic control, reduced body weight and systolic BP, and was generally well tolerated in patients with T2DM on metformin and pioglitazone over 52 weeks.
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Influence of CYP2C8*2 on the pharmacokinetics of pioglitazone in healthy African-American volunteers.
Aquilante, CL, Wempe, MF, Spencer, SH, Kosmiski, LA, Predhomme, JA, Sidhom, MS
Pharmacotherapy. 2013;(9):1000-7
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Abstract
STUDY OBJECTIVES To determine the influence of the Cytochrome P450 (CYP) 2C8*2 polymorphism on pioglitazone pharmacokinetics in healthy African-American volunteers. DESIGN Prospective, open-label, single-dose pharmacokinetic study. SETTING University of Colorado Hospital Clinical and Translational Research Center. PARTICIPANTS Healthy African-American volunteers between 21 and 60 years of age were enrolled in the study based on CYP2C8 genotype: CYP2C8*1/*1 (9 participants), CYP2C8*1/*2 (7 participants), and CYP2C8*2/*2 (1 participant). INTERVENTION Participants received a single 15-mg dose of pioglitazone in the fasted state, followed by a 48-hour pharmacokinetic study. MEASUREMENTS AND MAIN RESULTS Plasma concentrations of pioglitazone and its M-III (keto) and M-IV (hydroxy) metabolites were compared between participants with the CYP2C8*1/*1 genotype and CYP2C8*2 carriers. Pioglitazone area under the plasma concentration-time curve (AUC)0-∞ and half-life (t1/2 ) did not differ significantly between CYP2C8*1/*1 and CYP2C8*2 carriers (AUC0-∞ 7331 ± 2846 vs 10431 ± 5090 ng*h/ml, p=0.15, t1/2 7.4 ± 2.7 vs 10.5 ± 4.0 h, p=0.07). M-III and M-IV AUC0-48 also did not differ significantly between genotype groups. However, the M-III:pioglitazone AUC0-48 ratio was significantly lower in CYP2C8*2 carriers than CYP2C8*1 homozygotes (0.70 ± 0.15 vs 1.2 ± 0.37, p=0.006). Similarly, CYP2C8*2 carriers had a significantly lower M-III:M-IV AUC0-48 ratio than participants with the CYP2C8*1/*1 genotype (0.82 ± 0.26 vs 1.22 ± 0.26, p=0.006). CONCLUSION These data suggest that CYP2C8*2 influences pioglitazone pharmacokinetics in vivo, particularly the AUC0-48 ratio of M-III:parent drug, and the AUC0-48 ratio of M-III:M-IV. Larger studies are needed to further investigate the impact of CYP2C8*2 on the pharmacokinetics of CYP2C8 substrates in individuals of African descent.
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Effects of rosiglitazone on serum paraoxonase activity and metabolic parameters in patients with type 2 diabetes mellitus.
Atamer, Y, Atamer, A, Can, AS, Hekimoğlu, A, Ilhan, N, Yenice, N, Koçyiğit, Y
Brazilian journal of medical and biological research = Revista brasileira de pesquisas medicas e biologicas. 2013;(6):528-32
Abstract
Human serum paraoxonase contributes to the anti-atherogenic effect of high-density lipoprotein cholesterol (HDL-C) and has been shown to protect both low-density lipoprotein cholesterol (LDL-C) and HDL-C against lipid peroxidation. We investigated the effects of rosiglitazone on paraoxonase activity and metabolic parameters in patients with type 2 diabetes mellitus [50 patients (30 males, 20 females); mean ± SD age: 58.7 ± 9.2 years, body mass index: 28.2 ± 4.1'kg/m2], in whom glucose control could not be achieved despite treatment with metformin, sulphonylurea, and/or insulin. The patients were given 4'mg/day rosiglitazone for 3 months in addition to their usual treatment. Serum paraoxonase activity, malondialdehyde, homocysteine, and lipid profile were measured at the time of initiation and at the end of therapy with rosiglitazone. After rosiglitazone therapy, serum levels of HDL-C, apolipoprotein A-1, and paraoxonase activity increased significantly (P<0.05) and malondialdehyde, homocysteine, lipoprotein(a), and glucose levels decreased significantly (P<0.05), but no significant changes in levels of total cholesterol and apolipoprotein B were observed. Triglyceride levels also increased significantly (P<0.05). Rosiglitazone treatment led to an improvement in glycemic control and to an increase in paraoxonase activity and HDL-C levels. Although rosiglitazone showed favorable effects on oxidant/antioxidant balance and lipid profile, further studies are needed to determine the effect of rosiglitazone on cardiovascular risk factors and cardiovascular morbidity and mortality.
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PPAR-γ2 and PTPRD gene polymorphisms influence type 2 diabetes patients' response to pioglitazone in China.
Pei, Q, Huang, Q, Yang, GP, Zhao, YC, Yin, JY, Song, M, Zheng, Y, Mo, ZH, Zhou, HH, Liu, ZQ
Acta pharmacologica Sinica. 2013;(2):255-61
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AIM: To investigate the influence of peroxisome proliferator-activated receptor γ2 (PPAR-γ2) gene polymorphism rs1801282 and protein tyrosine phosphatase receptor type D (PTPRD) gene polymorphism rs17584499 on the occurrence of type 2 diabetes and pioglitazone efficacy in a Chinese Han population. METHODS One hundred ninety seven type 2 diabetes patients and 212 healthy controls were enrolled. Among them, 67 type 2 diabetes patients were administered pioglitazone (30 mg/d, po) for 3 months. All the subjects were genotyped for genetic variants in PPAR-γ2 and PTPRD using MALDI-TOF mass spectrometry. Fasting plasma glucose, postprandial plasma glucose, glycated hemoglobin, serum triglyceride, total cholesterol, low-density and high-density lipoprotein-cholesterol were determined. RESULTS The PPAR-γ2 gene rs1801282 polymorphism was significantly associated with type 2 diabetes susceptibility (OR=0.515, 95% CI 0.268-0.990) and the PTPRD gene rs17584499 polymorphism was also significantly associated with type 2 diabetes (OR=1.984, 95% CI 1.135-3.469) in a dominant model adjusted for age, gender and BMI. After pioglitazone treatment for 3 months, the type 2 diabetes patients with PPAR-γ2 rs1801282 CG genotypes significantly showed higher differential values of postprandial plasma glucose and serum triglyceride compared with those with rs1801282 CC genotype. The patients with PTPRD rs17584499 CT+TT genotypes showed significantly lower differential value of postprandial plasma glucose compared to those with rs17584499 CC genotype. CONCLUSION Diabetes risk alleles in PPAR-γ2 (rs1801282) and PTPRD (rs17584499) are associated with pioglitazone therapeutic efficacy.
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Effect of pretreatment with pioglitazone on reperfusion injury in diabetic patients with acute myocardial infarction.
Kataoka, Y, Yagi, N, Kokubu, N, Kasahara, Y, Abe, M, Otsuka, Y
Circulation journal : official journal of the Japanese Circulation Society. 2011;(8):1968-74
Abstract
BACKGROUND Pioglitazone (PIO) is a new class of anti-diabetic agent with an anti-inflammatory effect. In the experimental studies, pretreatment with PIO before ischemia/reperfusion reduced ischemia-reperfusion injury and myocardial infarct size. However, the clinical efficacy of this therapy in patients with acute myocardial infarction (AMI) remains unknown. METHODS AND RESULTS Three hundred and nineteen diabetic patients with ST-segment elevation AMI, treated with bare metal stent within 24h from the onset of AMI were examined. Myocardial blush grade, ST-segment resolution, peak creatine kinase (CK) level, and left ventricular ejection fraction (LVEF) were compared between PIO group (pretreatment with PIO [+]; n=26) and non-PIO group (pretreatment with PIO [-]; n=293). The PIO group showed a significantly higher incidence of blush score ≥ 2 and complete ST-segment resolution (blush score ≥ 2; 38% vs. 71%, P=0.04, ST-segment resolution; 44% vs. 71%, P=0.04). Besides, slow flow/no-reflow phenomenon and reperfusion arrhythmia did not occur in this group. Better improvement of LVEF and lower peak CK level was observed in this group, although these were not statistically significant (LVEF 48% vs. 41%, P=0.10, peak CK level 2,041 vs. 3,207, P=0.06). CONCLUSIONS Pretreatment with PIO in diabetic patients with AMI resulted in better myocardial perfusion with less reperfusion injury.
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Serum A-FABP is increased and closely associated with elevated NT-proBNP levels in type 2 diabetic patients treated with rosiglitazone.
Zhou, M, Bao, Y, Lu, J, Zhou, J, Jia, W
PloS one. 2011;(10):e27032
Abstract
BACKGROUND Adipocyte fatty acid-binding protein (A-FABP) has been shown to play important roles in the development of metabolic syndrome, diabetes, and cardiovascular diseases. In this study we investigated the possible role of A-FABP in the development of cardiac dysfunction related to rosiglitazone treatment. METHODOLOGY/PRINCIPAL FINDINGS A total of 84 patients with newly diagnosed type 2 diabetes were treated with rosiglitazone for 48 weeks. Circulating A-FABP and N-terminal pro-brain natriuretic peptide (NT-proBNP) levels were determined at baseline and repeated at 24 and 48 weeks. After the 48-week rosiglitazone treatment period, serum levels of both A-FABP and NT-proBNP increased progressively and significantly (P<0.01). Serum levels of A-FABP were demonstrated to be positively correlated with gender and waist circumference both at baseline and the end of the study, and with age, body mass index (BMI), total cholesterol (TC), triglyceride (TG), low-density lipoprotein cholesterol (LDL-C), and NT-proBNP at 48 weeks (all P<0.05). In addition, changes in A-FABP were significantly and positively correlated with changes in NT-proBNP (r = 0.239, P = 0.039). Furthermore, multiple stepwise regression analysis showed that the changes in A-FABP were independently and positively associated with changes in NT-proBNP after adjusting for confounding factors (β = 0.320, P = 0.007). CONCLUSIONS/SIGNIFICANCE Rosiglitazone-mediated increase of A-FABP is closely associated with the elevation of NT-proBNP, a well-established marker of cardiac dysfunction. The findings of our study imply that A-FABP may mediate the cross-talk between heart and adipose tissue.
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Pioglitazone improvement of fasting and postprandial hyperglycaemia in Mexican-American patients with Type 2 diabetes: a double tracer OGTT study.
Glass, LC, Cusi, K, Berria, R, Petz, R, Cersosimo, E, Defronzo, RA, Gastaldelli, A
Clinical endocrinology. 2010;(3):339-45
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OBJECTIVES By using tracer techniques, we explored the metabolic mechanisms by which pioglitazone treatment for 16 weeks improves oral glucose tolerance in patients with type 2 diabetes when compared to subjects without diabetes. METHODS In all subjects, before and after treatment, we measured rates of tissue glucose clearance (MCR), oral glucose appearance (RaO) and endogenous glucose production (EGP) during a (4-h) double tracer oral glucose tolerance test (OGTT) (1-(14)C-glucose orally and 3-(3)H-glucose intravenously). Basal hepatic insulin resistance index (HepIR) was calculated as EGPxFPI. beta-cell function was assessed as the incremental ratio of insulin to glucose (DeltaI/DeltaG) during the OGTT. RESULTS Pioglitazone decreased fasting plasma glucose concentration (10.5 +/- 0.7 to 7.8 +/- 0.6 mM, P < 0.0003) and HbA1c (9.7 +/- 0.7 to 7.5 +/- 0.5%, P < 0.003) despite increased body weight and no change in plasma insulin concentrations. This was determined by a decrease both in fasting EGP (20.0 +/- 1.1 to 17.3 +/- 0.8 micromol/kg(ffm) min, P < 0.005) and HepIR (from 8194 declined by 49% to 3989, P < 0.002). During the OGTT, total glucose Ra during the 0- to 120-min time period following glucose ingestion decreased significantly because of a reduction in EGP. During the 0- to 240-min time period, pioglitazone caused only a modest increase in MCR (P < 0.07) but markedly increased DeltaI/DeltaG (P = 0.003). The decrease in 2h-postprandial hyperglycaemia correlated closely with the increase in DeltaI/DeltaG (r = -0.76, P = 0.004) and tissue clearance (r = -0.74, P = 0.006) and with the decrease in HepIR (r = 0.62, P = 0.006). CONCLUSIONS In diabetic subjects with poor glycaemic control, pioglitazone improves oral glucose tolerance mainly by enhancing the suppression of EGP and improving beta-cell function.
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Rosiglitazone and cognitive stability in older individuals with type 2 diabetes and mild cognitive impairment.
Abbatecola, AM, Lattanzio, F, Molinari, AM, Cioffi, M, Mansi, L, Rambaldi, P, DiCioccio, L, Cacciapuoti, F, Canonico, R, Paolisso, G
Diabetes care. 2010;(8):1706-11
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OBJECTIVE Studies have suggested that insulin resistance plays a role in cognitive impairment in individuals with type 2 diabetes. We aimed to determine whether an improvement in insulin resistance could explain cognitive performance variations over 36 weeks in older individuals with mild cognitive impairment (MCI) and type 2 diabetes. RESEARCH DESIGN AND METHODS A total of 97 older individuals (mean +/- SD age 76 +/- 6 years) who had recently (<2 months) started an antidiabetes treatment of metformin (500 mg twice a day) (n = 30) or metformin (500 mg/day)+rosiglitazone (4 mg/day) (n = 32) or diet (n = 35) volunteered. The neuropsychological test battery consisted of the Mini-Mental State Examination (MMSE), Rey Verbal Auditory Learning Test (RAVLT) total recall, and Trail Making Tests (TMT-A and TMT-B) performed at baseline and every 12 weeks for 36 weeks along with clinical testing. RESULTS At baseline, no significant differences were found between groups in clinical or neuropsychological parameters. Mean +/- SD values in the entire population were as follows: A1C 7.5 +/- 0.5%, fasting plasma glucose (FPG) 8.6 +/- 1.3 mmol/l, fasting plasma insulin (FPI) 148 +/- 74 pmol/l, MMSE 24.9 +/- 2.4, TMT-A 61.6 +/- 42.0, TMT-B 162.8 +/- 78.7, the difference between TMT-B and TMT-A [DIFFBA] 101.2 +/- 58.1, and RAVLT 24.3 +/- 2.1. At follow-up, ANOVA models tested changes in metabolic control parameters (FPI, FPG, and A1C). Such parameters improved in the metformin and metformin/rosiglitazone groups (P(trend) < 0.05 in both groups). ANCOVA repeated models showed that results for the metformin/rosiglitazone group remained stable for all neuropsychological tests, and results for the diet group remained stable for the MMSE and TMT-A and declined for the TMT-B (P(trend) = 0.024), executive efficiency (DIFFBA) (P(trend) = 0.026), and RAVLT memory test (P(trend) = 0.011). Results for the metformin group remained stable for the MMSE and TMTs but declined for the RAVLT (P(trend) = 0.011). With use of linear mixed-effects models, the interaction term, FPI x time, correlated with cognitive stability on the RAVLT in the metformin/rosiglitazone group (beta = -1.899; P = 0.009). CONCLUSIONS Rosiglitazone may protect against cognitive decline in older individuals with type 2 diabetes and MCI.
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Pioglitazone decreases fasting and postprandial endogenous glucose production in proportion to decrease in hepatic triglyceride content.
Ravikumar, B, Gerrard, J, Dalla Man, C, Firbank, MJ, Lane, A, English, PT, Cobelli, C, Taylor, R
Diabetes. 2008;(9):2288-95
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OBJECTIVE Hepatic triglyceride is closely associated with hepatic insulin resistance and is known to be decreased by thiazolididinediones. We studied the effect of pioglitazone on hepatic triglyceride content and the consequent effect on postprandial endogenous glucose production (EGP) in type 2 diabetes. RESEARCH DESIGN AND METHODS Ten subjects with type 2 diabetes on sulfonylurea therapy were treated with pioglitazone (30 mg daily) for 16 weeks. EGP was measured using a dynamic isotopic methodology after a standard liquid test meal both before and after pioglitazone treatment. Liver and muscle triglyceride levels were measured by (1)H magnetic resonance spectroscopy, and intra-abdominal fat content was measured by magnetic resonance imaging. RESULTS Pioglitazone treatment reduced mean plasma fasting glucose and mean peak postprandial glucose levels. Fasting EGP decreased after pioglitazone treatment (16.6 +/- 1.0 vs. 12.2 +/- 0.7 micromol . kg(-1) . min(-1), P = 0.005). Between 80 and 260 min postprandially, EGP was twofold lower on pioglitazone (2.58 +/- 0.25 vs. 1.26 +/- 0.30 micromol . kg(-1) . min(-1), P < 0.001). Hepatic triglyceride content decreased by approximately 50% (P = 0.03), and muscle (anterior tibialis) triglyceride content decreased by approximately 55% (P = 0.02). Hepatic triglyceride content was directly correlated with fasting EGP (r = 0.64, P = 0.01) and inversely correlated to percentage suppression of EGP (time 150 min, r = -0.63, P = 0.02). Muscle triglyceride, subcutaneous fat, and visceral fat content were not related to EGP. CONCLUSIONS Reduction in hepatic triglyceride by pioglitazone is very closely related to improvement in fasting and postprandial EGP in type 2 diabetes.