Beta-cell function and plasma insulin clearance in people with obesity and different glycemic status

1981 ◽

Vol 18 (3) ◽

pp. 125-130 ◽

Cited By ~ 28

Author(s):

J Peter Ashby ◽

Brian M Frier

Keyword(s):

Beta Cell ◽

Beta Cell Function ◽

Plasma Insulin ◽

Cell Function ◽

Pancreatic Beta Cell ◽

Plasma Insulin Concentration ◽

C Peptide ◽

Clinical Disorders ◽

Pancreatic Beta Cell Function ◽

Secretory Capacity

Pancreatic beta-cell function is usually assessed by the measurement of plasma insulin concentration in various clinical situations. However, the advent of an assay for the measurement of connecting-peptide (C-peptide) concentration in plasma has provided a further method for the assessment of the secretory capacity of the pancreatic beta cell in clinical disorders, particularly in the investigation of hypoglycaemia. The metabolism and immunoassay methodology of C-peptide are reviewed, and its application in clinical practice is outlined.

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Beta-cell function in type 2 diabetic patients who failed to maintain good glycemic status with a combination of maximum dosages of metformin and sulfonylurea

Diabetes Metabolic Syndrome and Obesity Targets and Therapy ◽

10.2147/dmso.s204439 ◽

2019 ◽

Vol Volume 12 ◽

pp. 761-770

Author(s):

Tada Kunavisarut ◽

Sutin Sriussadaporn ◽

Raweewan Lertwattanarak

Keyword(s):

Beta Cell ◽

Beta Cell Function ◽

Cell Function ◽

Diabetic Patients ◽

Glycemic Status ◽

Type 2 Diabetic Patients ◽

Type 2 Diabetic

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Glucose tolerance stages in Cystic Fibrosis are idenfied by a unique pattern of defects of Beta-cell function

The Journal of Clinical Endocrinology & Metabolism ◽

10.1210/clinem/dgaa932 ◽

2020 ◽

Author(s):

Claudia Piona ◽

Sonia Volpi ◽

Chiara Zusi ◽

Enza Mozzillo ◽

Antonella Tosco ◽

...

Keyword(s):

Cystic Fibrosis ◽

Insulin Sensitivity ◽

Glucose Tolerance ◽

Beta Cell ◽

Beta Cell Function ◽

Cell Function ◽

Insulin Clearance ◽

Glucose Regulation ◽

Unique Pattern ◽

Glucose Tolerance Status

Abstract Aim To assess the order of severity of the defects of three direct determinants of glucose regulation, i.e., beta-cell function, insulin clearance and insulin sensitivity, in patients with CF categorized according their glucose tolerance status, including early elevation of mid-OGTT glucose values (>140 and < 200 mg/dL), named AGT140. Methods Two hundred and thirty-two CF patients aged 10-25 underwent OGTT. Beta-cell function and insulin clearance were estimated by OGTT mathematical modelling and OGTT-derived biomarkers of insulin secretion and sensitivity were calculated. The association between five glucose tolerance stages [NGT, AGT140, Indeterminate glucose Tolerance (INDET), impaired glucose tolerance (IGT), Cystic fibrosis related diabetes (CFRD)] and glucometabolic variables was assessed with general linear model. Results Beta-cell function and insulin sensitivity progressively worsened across glucose tolerance stages (p<0.001) with AGT140 patients significantly differing from NGT (all p<0.01). AGT140 and INDET showed a degree of beta-cell dysfunction similar to IGT and CFRD, respectively (all p<0.01). Insulin clearance was not significantly associated with glucose tolerance stages (p=0.162). Each class of glucose tolerance was uniquely identified by a specific combination of defects of the direct determinants of glucose regulation. Conclusions In CF patients each of the five glucose tolerance stages shows a unique pattern of defects of the direct determinants of glucose regulation, with AGT140 patients significantly differing from NGT and being similar to IGT. These findings suggest to recognize AGT 140 as a distinct glucose tolerance class and to reconsider the grade of glucometabolic deterioration across glucose tolerance stages in CF.

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Insulin Resistance in Congenital Adrenal Hyperplasia is Compensated for by Reduced Insulin Clearance

The Journal of Clinical Endocrinology & Metabolism ◽

10.1210/clinem/dgab010 ◽

2021 ◽

Author(s):

Daniel Minutti de Oliveira ◽

Andrea Tura ◽

Ana Carolina Junqueira Vasques ◽

Daniella Fernandes Camilo ◽

Marcelo Miranda Lima ◽

...

Keyword(s):

Insulin Resistance ◽

Insulin Sensitivity ◽

Beta Cell ◽

Congenital Adrenal Hyperplasia ◽

Beta Cell Function ◽

Cell Function ◽

Insulin Clearance ◽

Adrenal Hyperplasia ◽

Hyperglycemic Clamp ◽

Hepatic Insulin Clearance

Abstract Context Congenital adrenal hyperplasia (CAH) patients have potential normal longevity. However, a greater risk for cardiovascular disease has been reported. Insulin resistance and hyperinsulinemia have been described in CAH patients, whereas the prevalence of overt type 2 diabetes is not higher in CAH than in normal population. Objective To examine the contributions of insulin secretion and of hepatic insulin clearance to compensatory hyperinsulinemia in young insulin-resistant adults with classic CAH due to 21-hydroxylase deficiency (21-OHD). Design Cross-sectional. Setting University outpatient clinics. Methods Fifty-one participants: 21 controls, and 30 CAH (15 virilizing and 15 salt-wasting phenotypes), female/male (33/18), age (mean [SD]): 24.0 (3.6) years, body mass index: 24.6 (4.9)kg/m2 with normal glucose tolerance, were submitted to a hyperglycemic clamp study. Main Outcome Measures Insulin sensitivity, beta cell function, and hepatic insulin clearance using appropriate modeling. Results We found an increased insulin resistance in 21-OHD. The systemic hyperinsulinemia (posthepatic insulin delivery) was elevated in CAH patients. No increases were observed in insulin secretory rate (beta cell function) in the first phase or during the hyperglycemic clamp. The increase in insulin concentrations was totally due to a ~33% reduction in insulin clearance. Conclusion 21-OHD nonobese subjects have reduced insulin sensitivity and beta cell response unable to compensate for the insulin resistance, probably due to overexposure to glucocorticoids. Compensatory hyperinsulinemia is most related with reduced hepatic insulin clearance. The exclusive adaptation of the liver acts as a gating mechanism to regulate the access of insulin to insulin-sensitive tissues to maintain glucose homeostasis.

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