| 1. |
- Ahrén, Bo, et al.
(author)
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Changes in Prandial Glucagon Levels after 2-year Treatment with Vildagliptin or Glimepiride in Patients with Type 2 Diabetes Mellitus Inadequately Controlled with Metformin Monotherapy.
- 2010
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In: Diabetes Care. - : American Diabetes Association. - 1935-5548 .- 0149-5992. ; 33:4, s. 730-732
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Journal article (peer-reviewed)abstract
- Objective - To determine if the dipeptidyl peptidase 4 inhibitor vildagliptin more effectively than the sulfonylurea glimepiride inhibits glucagon levels during meal. Research design and methods - Glucagon responses to a standard meal were measured at baseline and study endpoint (mean 1.8 years) in a trial evaluating add-on therapy to metformin with vildagliptin 50 mg bid compared to glimepiride up to 6 mg qd in type 2 diabetes (baseline HbA1c 7.3+/-0.6%). Results - HbA(1c) and prandial glucose AUC(0-2h) were reduced similarly in both groups, while prandial insulin AUC(0-2h) increased to a greater extent by glimepiride. Prandial glucagon AUC(0-2h) (baseline 66.6+/-2.3 pmol.h/l) decreased by 3.4+/-1.6 pmol.h/l by vildagliptin group (n=137) and increased by 3.8+/-1.7 pmolh/l by glimepiride group (n=121). The between-group difference was 7.3+/-2.1 pmol.h/l (p<0.001). Conclusion - Vildagliptin therapy but not glimepiride improves post-prandial alpha-cell function, which persists for at least 2 years.
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| 2. |
- Ahrén, Bo, et al.
(author)
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Clinical measures of islet function: usefulness to characterize defects in diabetes.
- 2008
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In: Current Diabetes Reviews. - 1573-3998. ; 4:2, s. 129-145
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Journal article (peer-reviewed)abstract
- In healthy individuals, the ability of the pancreatic islets to sense and respond appropriately to changes in plasma glucose levels maintains plasma glucose levels within a narrow range despite broad fluctuations in nutrient intake and variable "demand" for insulin imposed by changes in insulin sensitivity. This ability of the pancreatic islets is lost in type 2 diabetes (T2DM). For studies on the pathophysiology of T2DM, methods for analyzing islet function are therefore required. Many methods of varying degrees of complexity have been developed and used to measure pancreatic beta-cell function in humans and to characterize the defects existing in patients with T2DM or precursors thereof (impaired fasting glucose [IFG] and impaired glucose tolerance [IGT]). Significant, although perhaps less progress has been made toward development of methods to characterize alpha-cell function. This work presents an overview of clinical measures of islet function, from simple static measures such as HOMA-beta to the more complex dynamic measures such as those utilizing stepped hyperglycemic clamps and acute administration of arginine to obtain more detailed information regarding the interaction of glucose and non-glucose secretagogues. We emphazise the need for accurate measures of alpha-cell function, and we discuss the strengths and limitations of the various methods, highlighting the many aspects of both alpha- and beta-cell function that become impaired during development of T2DM.
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| 3. |
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| 4. |
- Ahrén, Bo, et al.
(author)
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Estimation of the Relative Contribution of Postprandial Glucose Exposure to Average Total Glucose Exposure in Subjects with Type 2 Diabetes
- 2016
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In: International Journal of Endocrinology. - : Hindawi Limited. - 1687-8337 .- 1687-8345. ; 2016
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Journal article (peer-reviewed)abstract
- We hypothesized that the relative contribution of fasting plasma glucose (FPG) versus postprandial plasma glucose (PPG) to glycated haemoglobin (HbA1c) could be calculated using an algorithm developed by the A1c-Derived Average Glucose (ADAG) study group to make HbA1c values more clinically relevant to patients. The algorithm estimates average glucose (eAG) exposure, which can be used to calculate apparent PPG (aPPG) by subtracting FPG. The hypothesis was tested in a large dataset (comprising 17 studies) from the vildagliptin clinical trial programme. We found that 24 weeks of treatment with vildagliptin monotherapy (n = 2523) reduced the relative contribution of aPPG to eAG from 8.12% to 2.95% (by 64%, p < 0.001). In contrast, when vildagliptin was added to metformin (n = 2752), the relative contribution of aPPG to eAG insignificantly increased from 1.59% to 2.56%. In conclusion, glucose peaks, which are often prominent in patients with type 2 diabetes, provide a small contribution to the total glucose exposure assessed by HbA1c, and the ADAG algorithm is not robust enough to assess this small relative contribution in patients receiving combination therapy.
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| 5. |
- Ahrén, Bo, et al.
(author)
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Improved glucose regulation in type 2 diabetic patients with DPP-4 inhibitors: focus on alpha and beta cell function and lipid metabolism.
- 2016
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In: Diabetologia. - : Springer Science and Business Media LLC. - 1432-0428 .- 0012-186X.
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Journal article (peer-reviewed)abstract
- Inhibition of dipeptidyl peptidase-4 (DPP-4) is an established glucose-lowering strategy for the management of type 2 diabetes mellitus. DPP-4 inhibitors reduce both fasting and postprandial plasma glucose levels, resulting in reduced HbA1c with low risk for hypoglycaemia and weight gain. They act primarily by preventing inactivation of the incretin hormones glucose-dependent insulinotropic polypeptide and glucagon-like peptide-1, thereby prolonging the enhanced endogenous levels of these hormones after meal ingestion. This in turn causes islet and extrapancreatic effects, including increased glucose sensing in islet alpha and beta cells. These effects result in increased insulin secretion and decreased glucagon secretion being more effective in hyperglycaemic states and reduced insulin secretion and increased glucagon secretion being more effective during hypoglycaemia. Other secondary pharmacological actions of DPP-4 inhibitors include mobilisation and burning of fat during meals, decrease in fat extraction from the gut, reduction of fasting lipolysis and liver fat and increase in LDL particle size. These actions contribute to the clinical effects of DPP-4 inhibition, and the reduced demand for insulin could also lead to a durability benefit. This review summarises the current knowledge of the secondary pharmacological actions of DPP-4 inhibitors that lead to improved glucose regulation in patients with type 2 diabetes, focusing on alpha and beta cell function and lipid metabolism.
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| 6. |
- Ahrén, Bo, et al.
(author)
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Improved meal-related beta-cell function and insulin sensitivity by the dipeptidyl peptidase-IV inhibitor vildagliptin in metformin-treated patients with type 2 diabetes over 1 year.
- 2005
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In: Diabetes Care. - : American Diabetes Association. - 1935-5548 .- 0149-5992. ; 28:8, s. 1936-1940
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Journal article (peer-reviewed)abstract
- OBJECTIVE—To examine the effects of dipeptidyl peptidase-IV (DPP-4) inhibition on meal-related β-cell function and insulin sensitivity over 52 weeks in type 2 diabetes. RESEARCH DESIGN AND METHODS—In a 12-week core study, placebo (n = 51) or vildagliptin (n = 56; 50 mg OD) was added to metformin treatment (1.5–3.0 mg/day). A 40-week extension followed in 71 patients. Meal tests were performed at 0, 12, 24, and 52 weeks; glucose, insulin, and C-peptide were evaluated. RESULTS—In subjects completing 52 weeks with participation in all meal tests (n = 57), HbA1c (A1C) decreased in the vildagliptin/metformin group (VM group, n = 31) but increased in the placebo/metformin group (PM group, n = 26; between-group difference −1.0 ± 0.2%; P < 0.001; baseline of all subjects combined 7.7 ± 0.1%). Also, fasting glucose decreased in the VM group but increased in the PM group (difference −0.9 ± 0.3 mmol/l, P = 0.016; baseline 9.8 ± 0.3 mmol/l). Insulin secretion (postmeal suprabasal area under the 0- to 30-min C-peptide curve divided by the 30-min increase in glucose) was increased in the VM group but was reduced in the PM group (difference +0.011 ± 0.03 pmol/l 30 min/mmol/l, P = 0.018; baseline 0.036 ± 0.02). Insulin sensitivity during meal ingestion (oral glucose insulin sensitivity) increased in the VM group but was not altered in the PM group (difference +27 ± 4 ml · min−1 · m−2, P = 0.036; baseline 246 ± 6). Insulin secretion related to insulin sensitivity (adaptation index) increased in the VM group but decreased in the PM group (difference +3.2 ± 1.0, P = 0.040; baseline 9.1 ± 0.5). The change in adaptation index correlated to the change in A1C (r = −0.39, P = 0.004). CONCLUSIONS—This study presents evidence that DPP-4 inhibition by vildagliptin when added to metformin in type 2 diabetes over 52 weeks improves β-cell function along with improved postmeal insulin sensitivity.
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| 7. |
- Ahrén, Bo, et al.
(author)
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Vildagliptin Enhances Islet Responsiveness to Both Hyper- and Hypoglycemia in Patients with Type 2 Diabetes.
- 2009
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In: Journal of Clinical Endocrinology and Metabolism. - : The Endocrine Society. - 1945-7197 .- 0021-972X. ; 94, s. 1236-1243
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Journal article (peer-reviewed)abstract
- Context: Dipeptidyl peptidase-4 (DPP-4) inhibitors act by increasing plasma levels of glucagon-like peptide-1 (GLP-1) and suppressing excessive glucagon secretion in patients with type 2 diabetes (T2DM). However, their effects on the glucagon response to hypoglycemia are not established. Objective: Assess effects of the DPP-4 inhibitor vildagliptin on alpha-cell response to hyper- and hypoglycemia. Design: Single-center, randomized, double-blind, placebo-controlled, two-period crossover study of 28-d treatment, with a 4-wk between-period washout Setting: Participants received study drug as outpatients. Patients: Drug-naïve patients with T2DM and baseline HbA1c
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| 8. |
- Farngren, Johan, et al.
(author)
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Vildagliptin Reduces Glucagon during Hyperglycemia and Sustains Glucagon Counterregulation during Hypoglycemia in Type 1 Diabetes.
- 2012
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In: The Journal of clinical endocrinology and metabolism. - : The Endocrine Society. - 1945-7197 .- 0021-972X. ; 97:10, s. 3799-3806
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Journal article (peer-reviewed)abstract
- Context: The dipeptidyl peptidase-4 inhibitor, vildagliptin, inhibits glucagon secretion at hyperglycemia but appears to enhance glucagon counterregulation during hypoglycemia in type 2 diabetes.Objective:The objective of the investigation was to study whether vildagliptin also improves α-cell function in type 1 diabetes (T1D). Patients and Methods: The study was a single-center, double-blind, randomized, placebo-controlled crossover study involving 28 patients with C-peptide negative and antibody positive T1D [21 males, seven females, glycosylated hemoglobin 57.9 mmol/mol (7.5%)]. Patients received vildagliptin (50 mg twice a day) or placebo as an add-on to their insulin therapy for 4 wk each. On d 28 of the respective treatment period, patients were served a standard meal (500 kcal) to raise the circulating incretin hormone levels followed by a hyperinsulinemic hypoglycemic clamp at 2.5 mmol/liter. Main Outcome Measure: The increase in plasma glucagon levels during the 30-min hypoglycemic clamp (min 165-195 of the test) was measured.Results:During the meal, glucagon levels were lower with vildagliptin than with placebo (120 min area under the curve(glucagon) 2.4 ± 0.2 vs. 2.6 ± 0.2 nmol/liter × minutes, P = 0.022 for between group difference). In contrast, during hypoglycemia, the glucagon counterregulation was not reduced by vildagliptin (increase in glucagon 1.5 ± 1.0 pmol/liter with vildagliptin vs. 1.7 ± 0.8 pmol/liter with placebo, P = NS). In addition, the counterregulatory responses in epinephrine, norepinephrine, cortisol, and pancreatic polypeptide were not different between the treatments. During the 4-wk treatment period, vildagliptin reduced the mean glycosylated hemoglobin, whereas there was no change with placebo [between group difference was -3.4 ± 1.0 mmol/mol (-0.32 ± 0.09%; P = 0.002)] from baseline of 57.9 mmol/mol (7.5%). Conclusions: Vildagliptin, although inhibiting glucagon secretion during hyperglycemia, does not compromise the glucagon counterregulatory response during hypoglycemia in T1D.
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| 9. |
- Foley, James E, et al.
(author)
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The vildagliptin experience - 25 years since the initiation of the novartis glucagon-like peptide-1 based therapy programme and 10 years since the first vildagliptin registration
- 2017
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In: European Endocrinology. - 1758-3772. ; 13:2, s. 56-61
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Journal article (peer-reviewed)abstract
- The discovery of the incretin hormone glucagon like peptide-1 (GLP-1), and its usefulness in the treatment of type 2 diabetes mellitus (T2DM) followed by the finding that dipeptidyl peptidase-4 (DPP-4) inhibition prevents GLP-1 inactivation, led to the discovery of DPP-728. In 1999, studies with DPP-728 established the first proof-of-concept that DPP-4 inhibition improves glycaemic control in patients with T2DM. Further efforts to improve the binding kinetics of DPP-728 resulted in the discovery of vildagliptin (LAF237). In the last 20 years, a plethora of studies conducted by Novartis in collaboration with external investigators has demonstrated the mechanism of action of vildagliptin and its efficacy as monotherapy and as an add-on therapy for patients with T2DM. The studies establish that vildagliptin is a selective DPP-4 inhibitor that blocks GLP-1 and glucose-dependent insulinotropic polypeptide (GIP) inactivation, thereby prolonging their action, resulting in improved glycaemic control. This review aims to discuss the discovery and development of vildagliptin, with an emphasis on mechanism of action and clinical efficacy.
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| 10. |
- Tura, Andrea, et al.
(author)
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Four-Point Preprandial Self-Monitoring of Blood Glucose for the Assessment of Glycemic Control and Variability in Patients with Type 2 Diabetes Treated with Insulin and Vildagliptin.
- 2015
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In: International Journal of Endocrinology. - : Hindawi Limited. - 1687-8337 .- 1687-8345. ; 2015
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Journal article (peer-reviewed)abstract
- The study explored the utility of four-point preprandial glucose self-monitoring to calculate several indices of glycemic control and variability in a study adding the DPP-4 inhibitor vildagliptin to ongoing insulin therapy. This analysis utilized data from a double-blind, randomized, placebo-controlled crossover study in 29 patients with type 2 diabetes treated with vildagliptin or placebo on top of stable insulin dose. During two 4-week treatment periods, self-monitoring of plasma glucose was undertaken at 4 occasions every day. Glucose values were used to assess several indices of glycemic control quality, such as glucose mean, GRADE, M-VALUE, hypoglycemia and hyperglycemia index, and indices of glycemic variability, such as standard deviation, CONGA, J-INDEX, and MAGE. We found that vildagliptin improved the glycemic condition compared to placebo: mean glycemic levels, and both GRADE and M-VALUE, were reduced by vildagliptin (P < 0.01). Indices also showed that vildagliptin reduced glycemia without increasing the risk for hypoglycemia. Almost all indices of glycemic variability showed an improvement of the glycemic condition with vildagliptin (P < 0.02), though more marked differences were shown by the more complex indices. In conclusion, the study shows that four-sample preprandial glucose self-monitoring is sufficient to yield information on the vildagliptin effects on glycemic control and variability.
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