Jian-hua Ma

Effect of Exenatide on Inflammatory and Oxidative Stress Markers in Patients with Type 2 Diabetes Mellitus

AIM This study was designed to determine the effect of exenatide on inflammatory and oxidative stress markers in type 2 diabetes mellitus (T2DM) patients who were suboptimally controlled with metformin and/or sulfonylurea. SUBJECTS AND METHODS Twenty-three patients with T2DM with inadequate glucose control were randomly divided into two groups: exenatide group (E group) (12 patients, 5 μg b.d. × 4 weeks followed by 10 μg b.d. × 12 weeks) and placebo group (P group) (11 patients). Glycosylated hemoglobin (HbA1c), the seven-point glucose profile, daily mean glucose, and glycemic excursion were determined. The effects of exenatide on 8-iso-prostaglandin F2α (PGF2α), monocyte chemoattractant protein-1 (MCP-1), and high-sensitivity C-reactive protein (hs-CRP) were investigated. RESULTS Exenatide treatment reduced body weight and body mass index (BMI) and improved HbA1c, the seven-point glucose profile, and daily mean glucose compared with placebo (P < 0.05). Limited glycemic excursion was found in the E group compared with the P group (P < 0.05), including a smaller SD and postprandial glucose excursion. In addition, the oxidative stress maker PGF2α was significantly reduced by exenatide treatment (P < 0.05). The inflammatory markers hs-CRP and MCP-1 were also significantly reduced in the E group compared with the P group (P < 0.05). PGF2α was significantly correlated with glycemic excursion (P < 0.05), whereas MCP-1 was significantly correlated with body weight, BMI, glycemic excursion, and HbA1c (P < 0.05 for all). CONCLUSIONS Exenatide treatment reduced patient body weight and BMI, improved HbA1c and the seven-point glucose profile, reduced daily mean glucose, limited glycemic excursion, and reduced oxidative stress and inflammatory markers in patients of T2DM having inadequate glucose control.

Blood Glucose Fluctuations in Type 2 Diabetes Patients Treated with Multiple Daily Injections

To compare blood glucose fluctuations in type 2 diabetes mellitus (T2DM) patients were treated using three procedures: insulin intensive therapy which is continuous subcutaneous insulin infusion (CSII), MDI3 (three injections daily), and MDI4 (four injections daily). T2DM patients were hospitalized and were randomly assigned to CSII, aspart 30-based MDI3, and glargine based MDI4. Treatments were maintained for 2-3 weeks after the glycaemic target was reached. After completing the baseline assessment, 6-day continuous glucose monitoring (CGM) was performed before and after completion of insulin treatment. Treatment with CSII provided a greater improvement of blood glucose fluctuations than MDI (MDI3 or MDI4) therapy either in newly diagnosed or in long-standing T2DM patients. In long-standing diabetes patients, the MDI4 treatment group had significantly greater improvement of mean amplitude glycemic excursion (MAGE) than the MDI3 treatment group. However, in patients with newly diagnosed diabetes, there were no significant differences in the improvement of MAGE between MDI3 and MDI4 groups. Glargine based MDI4 therapy provided better glucose fluctuations than aspart 30-based MDI3 therapy, especially in long-standing T2DM patients, if CSII therapy was not available.

Influence of Acarbose on Plasma Glucose Fluctuations in Insulin-Treated Patients with Type 2 Diabetes: A Pilot Study

Background and Aims. To evaluate the effect of adding acarbose on glycemic excursions measured by continuous glucose monitoring system (CGMS) in patients with type 2 diabetes mellitus (T2DM) already on insulin therapy. Materials and Methods. This was an opened and unblended study. 134 patients with T2DM were recruited. After initial rapidly corrected hyperglycaemia by continuous subcutaneous insulin infusion (CSII) for 7 d, a 4–6-day premixed insulin titration period subsequently followed. Patients were then randomized 1 : 1 to acarbose plus insulin group or insulin therapy group for 2 weeks. CGMS was used to measure glucose fluctuations for at least 3 days after therapy cessation. Results. Patients in acarbose plus insulin group achieved a significant improvement of MAGE compared to that of insulin therapy only group (5.56 ± 2.16 versus 7.50 ± 3.28 mmol/L, P = 0.044), accompanied by a significant decrease in the incremental AUC of plasma glucose concentration above 10.0 mmol/L (0.5 [0.03, 0.9] versus 0.85 [0.23,1.4]  mmol/L per day, P = 0.037). Conclusions. Add-on acarbose to insulin therapy further improves glucose fluctuation in patients with T2DM. This study was registered with ClinicalTrials.gov registration number ChiCTR-TRC-11001218.

Blood glucose fluctuations in hemodialysis patients with end stage diabetic nephropathy

OBJECTIVE To characterize blood glucose fluctuation during hemodialysis in patients with end stage diabetic nephropathy (ESDN) by a continuous glucose monitoring system (CGMS), and aim to improve blood glucose control in this patient population. METHODS Forty-six patients with or without type 2 diabetes mellitus (T2DM), receiving hemodialysis, were recruited in this study. Thirty-six patients had end stage diabetic nephropathy (ESDN group), the other ten patients had end stage renal disease without diabetes (ESRD group). A continuous glucose monitoring system (CGMS) was employed to monitor glycemic fluctuation for 72 hours. Blood samples were collected and analyzed. RESULTS Mean, standard deviation (SD), maximum, and mean amplitude glycemic excursion (MAGE) of blood glucose and the ratio of blood glucose readings that was greater than 13.9 mmol/L of ESDN group, were significantly greater than those of ESRD group (p<0.01 for all) during 72 hours of observation. The mean blood glucose was significantly lower, while SD and MAGE were significantly higher in ESDN group on hemodialysis day than on days off hemodialysis (p<0.05), while these were not been observed in ESRD group. Though mean, SD, and MAGE of blood glucose during hemodialysis were significantly lower than those of peri-hemodialysis in both groups (p<0.01 or p<0.05, respectively), they were significantly higher in ESDN group than that in ESRD group (p<0.05). The mean blood glucose value calculated from HbA1c did not reflect the actual mean blood glucose measured by CGM in both groups, and gave an inaccurate impression of a significantly lower mean glucose. CONCLUSIONS ESDN patients had larger glycemic fluctuations as compared with ESRD patients. Hemodialysis caused reduction in mean, SD, and MAGE, which in turn caused bigger glycemic fluctuations on hemodialysis day. The HbA1c in ESDN patients gave an inaccurate value, which did not truly reflect blood glucose status for a prolonged period.

Thymosin beta 4 ameliorates hyperglycemia and improves insulin resistance of KK Cg-Ay/J mouse

OBJECT To evaluate the efficacy of thymosin beta 4 (Tβ(4)) on hyperglycemia and insulin sensitivity in a mouse model of type 2 diabetes mellitus (T2DM). METHODS KK mice were divided into the following groups: KK control group, with saline treatment; KK Tβ(4) group, with daily Tβ(4) 100ng/10g body weight intraperitoneal injection for 12 weeks. Non-diabetic C57BL mice were used as normal control. OGTT, plasma insulin, HbA1c, serum adiponectin, Tβ(4), cholesterol, and triglyceride were measured before and after Tβ(4) treatment. The phosphorylated AKT and total AKT protein levels of skeletal muscle from all groups were determined. RESULTS After Tβ(4) treatment, repeat OGTT showed a significant decrease in glucose profiles in the KK Tβ(4) group compared with the KK control group. The KK-Tβ(4) group had reduced mean HbA1c and triglyceride levels, and increased adiponectin compared with KK control group. C57BL mice showed normal glucose homeostasis. The phosphorylated AKT levels of skeletal muscle were significantly increased in KK Tβ(4) group compared with KK control group after glucose stimulation. C57BL mice showed no changes in phosphorylated AKT levels after Tβ(4) treatment. CONCLUSIONS Tβ(4) improved glucose intolerance and ameliorated insulin resistance in KK mouse. Tβ(4) may be a potential alternative insulin sensitizer for treatment of T2DM.

Influence of Dapagliflozin on Glycemic Variations in Patients with Newly Diagnosed Type 2 Diabetes Mellitus

Objectives. To observe changes in blood glycemic variations and oxidative stress level before and after dapagliflozin treatment in patients with newly diagnosed T2DM. Methods. This was a randomized, double-blind, placebo-controlled, phase 3 trial. A total of 28 patients with newly diagnosed T2DM with HbA1c levels of 7.5–10.5% were randomly selected to receive dapagliflozin or placebo treatment for 24 weeks. After baseline data were collected, we analyzed glycemic variations and plasma 8-iso PGF2α level at baseline and at the endpoint. Primary outcome was the changes of mean amplitude glycemic excursion (MAGE) within groups. Results. After 24-week dapagliflozin therapy, our data showed the significant improvement of MAGE with dapagliflozin therapy (P = 0.010). Compared with control group, patients in dapagliflozin group exhibited reduction in 24-hour MBG (P = 0.026) and lower mean plasma glucose concentrations, especially during periods from 2400 to 0200 and 1300 to 1800 (P < 0.05, resp.). In addition, plasma 8-iso PGF2α level was notably decreased in the treatment group compared to the control group (P = 0.034). Conclusions. In conclusion, this study shows the ability of dapagliflozin to improve glycemic variations and associate with reduction of oxidative stress in patients with T2DM, which may benefit the cardiovascular system.

Liraglutide treatment causes upregulation of adiponectin and downregulation of resistin in Chinese type 2 diabetes

AIMS To assess the effect of 16 weeks of liraglutide administration on the plasma levels of adiponectin and resistin in Chinese patients diagnosed with type 2 diabetes mellitus (T2DM). METHODS Forty-four subjects were recruited and randomly assigned to once-a-day dosage of either liraglutide, or glimepiride (4 mg) in a double-blinded double-dummy active-controlled study. All treatments were administered in combination with metformin (1 g, twice daily). The efficacy of liraglutide was estimated by measuring and comparing the levels of HbA1c, adiponectin and resistin in the plasma before and after the 16-week treatment. RESULTS The plasma level of adiponectin was significantly increased (0.74±0.19 ng/ml, p<0.05) and resistin was significantly lowered (-1.34±0.34 pg/ml, p<0.05) in a dose-dependent manner in the liraglutide group when compared with the glimepiride group (-0.44±0.09 ng/ml of adiponectin and 0.14±0.41 pg/ml of resistin). In contrast, we found no differences in the decrease in HbA1c between the two groups (8.3±1.2% to 7.2±1.1% in NGSP units vs. 8.3±1.0% to 7.3±1.2% in NGSP units; 67±13 mmol/mol to 55±12 mmol/mol vs. 67±11 mmol/mol to 56±13 mmol/mol in IFCC units). CONCLUSIONS In Chinese T2DM patients, liraglutide treatment led to increased adiponectin and decreased resistin levels compared to glimepiride-treated subjects, while inducing similar glycemic changes.

Thymosin β4 attenuates early diabetic nephropathy in a mouse model of type 2 diabetes mellitus.

The chronic inflammatory processes and endothelial dysfunction play important roles in the development of diabetic nephropathy (DN); the study aims to evaluate the effect of thymosin &bgr;4 (T&bgr;4), which has apparent anti-inflammatory properties and is capable of improving endothelial dysfunction, in early DN in a mouse model of type 2 diabetes mellitus. KK Cg-Ay/J (KK) mice, aged 12–14 weeks, were divided into the following groups: KK control group that was treated with saline; KK T&bgr;4 group that was treated with T&bgr;4 100 ng/10 g of intraperitoneal injection once a day. Nondiabetic age-matched C57BL mice were used as additional normal control and also treated with T&bgr;4. The urinary albumin/creatinine ratio (ACR), plasma urea nitrogen and creatinine, body weight, fasting blood glucose and 2-hour blood glucose during oral glucose tolerance testing, blood hemoglobin A1c, cholesterol, and triglyceride were determined at baseline time and 12 weeks after T&bgr;4 treatment for phenotypic characterizations. The KK T&bgr;4 group had reduced the mean fasting blood glucose, 2-hour blood glucose during oral glucose tolerance testing, hemoglobin A1c, and triglyceride levels compared with that in the KK control group (P < 0.05). T&bgr;4 treatment markedly reduced ACR (KK T&bgr;4 = 328.54 ± 46.14 mg/g vs. KK control = 540.34 ± 50.31 mg/g, P < 0.05). T&bgr;4 also significantly ameliorated renal pathological changes of KK T&bgr;4 mice as compared with that in KK control mice. T&bgr;4 treatment did not affect glucose homeostasis and urinary ACR and glomeruli of C57BL mice. These data in a novel mouse model of DN suggest that T&bgr;4 may ameliorate renal damage. This peptide may be a novel potential alternative agent for treatment of DN.

Features of glycemic variations in drug naïve type 2 diabetic patients with different HbA 1c values

To define the features of glycemic variations in drug naïve type 2 diabetic (T2D) patients with different HbA1c values using continuous glucose monitoring (CGM), a total of 195 drug naïve T2D patients were admitted. The subjects were divided into the following groups: lower HbA1c values (≤8%), moderate HbA1c values (>8% and ≤10%), and higher HbA1c values (>10%). The patients underwent oral glucose tolerance tests and were then subjected to 3-day CGM. The primary endpoint was the differences in the 24-hr mean amplitude of glycemic excursions (MAGE) in patients with different HbA1c values. Patients with higher HbA1c values had larger MAGEs than those in the moderate and lower groups (7.44 ± 3.00 vs. 6.30 ± 2.38, P < 0.05, 7.44 ± 3.00 vs. 5.20 ± 2.35, P < 0.01, respectively). The 24-hr mean glucose concentrations increased incrementally in the patients with lower, moderate and higher HbA1c values. Moreover, the patients with higher HbA1c values exhibited higher peak glucose concentrations and prolongation in the time to peak glucose. Patients with higher HbA1c values had larger MAGE compared with those with lower and moderate HbA1c values. Our data indicated patients with higher HbA1c values should receive special therapy aimed at reducing the larger glycemic variations.

Effects of saxagliptin add-on therapy to insulin on blood glycemic fluctuations in patients with type 2 diabetes: A randomized, control, open-labeled trial.

Background: To investigate whether saxagliptin add-on therapy to continuous subcutaneous insulin infusion (CSII) further improve blood glycemic control than CSII therapy in patients with newly diagnosed type 2 diabetes (T2D). Methods: This was a single-center, randomized, control, open-labeled trial. Newly diagnosed T2D patients were recruited between February 2014 and December 2015. Subjects were divided into saxagliptin add-on therapy to CSII group (n = 31) and CSII therapy group (n = 38). The treatment was maintained for 4 weeks. Oral glucose tolerance test was performed at baseline. Serum samples were obtained before and 30 and 120 minutes after oral administration for glucose, insulin, and C-peptide determination. Continuous glucose monitoring (CGM) was performed before and endpoint. Results: A total of 69 subjects were admitted. After 4-week therapy, CGM data showed that patients with saxagliptin add-on therapy exhibited further improvement of mean amplitude glycemic excursion (MAGE), the incremental area under curve of plasma glucose >7.8 and 10 mmol/L compared with that of control group. In addition, the hourly mean blood glucose concentrations, especially between 0000 and 0600 in patient with saxagliptin add-on therapy, were significantly lower compared with that of the control patients. Furthermore, patients in saxagliptin add-on group needed lower insulin dose to maintain euglycemic control. In addition, severe hypoglycemic episode was not observed from any group. Conclusion: Saxagliptin add-on therapy to insulin had the ability of further improve blood glycemic controlling, with lower insulin dose required by patients with T2D to maintain euglycemic controlling.