BACKGROUND: C-peptide blood levels can indicate whether or not a person is producing insulin and roughly how much. C-peptide is secreted as a byproduct of the biosynthesis of insulin from proinsulin. C-peptide has proposed biological activity and a well-established diagnostic value. The significance of C-peptide concentration in the plasma and urine in the pediatric population needs further delineation. AIM: To determine the significance of plasma C-peptide in obese African American adolescents with mild insulin resistance but no evidence of diabetes. METHODS: This study included 19 African American adolescents with body mass index (BMI) in at least the 85th percentile evaluated with anthropometric measurements, Homeostatic Model Assessment-Insulin Resistance (HOMA-IR) score, and oral glucose tolerance test (OGTT), and 24-hour urine collections. The study also included an age-matched control group of 15 healthy African American adolescent controls and were not subjected for OGTT. The correlation among BMI, fasting plasma C-peptide concentrations, and 24-hour-urine C-peptide concentrations was calculated. T Tests were conducted to compare plasma C-peptide and 24-hour-urine C-peptide concentrations for the test group and controls. RESULTS: Mean HOMA score (3.96 +/- 1.84) signified mild insulin resistance among the adolescent test group. The test subjects exhibited adequate glucose tolerance (glucose range, 89.4-122.5 mg/dL) during the OGTT. A significant positive relationship was observed between BMI and fasting plasma C-peptide concentration in the control group (r = 0.537) but not the test group (r = 0.335). An insignificant positive relationship was exhibited between BMI and 24-hour-urine C-peptide concentration in the test group (r = 0.150) and controls (r = 0.254). CONCLUSIONS: The positive relationship among BMI, plasma C-peptide, and urine C-peptide is worth further evaluation in studies conducting multiple rounds of OGTT with a larger sample of pediatric subjects. The potential diagnostic value of C-peptide may facilitate early detection of insulin resistance in the pediatric population.
BACKGROUND:C-peptide blood levels can indicate whether or not a person is producing insulin and roughly how much. C-peptide is secreted as a byproduct of the biosynthesis of insulin from proinsulin. C-peptide has proposed biological activity and a well-established diagnostic value. The significance of C-peptide concentration in the plasma and urine in the pediatric population needs further delineation. AIM: To determine the significance of plasma C-peptide in obese African American adolescents with mild insulin resistance but no evidence of diabetes. METHODS: This study included 19 African American adolescents with body mass index (BMI) in at least the 85th percentile evaluated with anthropometric measurements, Homeostatic Model Assessment-Insulin Resistance (HOMA-IR) score, and oral glucose tolerance test (OGTT), and 24-hour urine collections. The study also included an age-matched control group of 15 healthy African American adolescent controls and were not subjected for OGTT. The correlation among BMI, fasting plasma C-peptide concentrations, and 24-hour-urine C-peptide concentrations was calculated. T Tests were conducted to compare plasma C-peptide and 24-hour-urine C-peptide concentrations for the test group and controls. RESULTS: Mean HOMA score (3.96 +/- 1.84) signified mild insulin resistance among the adolescent test group. The test subjects exhibited adequate glucose tolerance (glucose range, 89.4-122.5 mg/dL) during the OGTT. A significant positive relationship was observed between BMI and fasting plasma C-peptide concentration in the control group (r = 0.537) but not the test group (r = 0.335). An insignificant positive relationship was exhibited between BMI and 24-hour-urine C-peptide concentration in the test group (r = 0.150) and controls (r = 0.254). CONCLUSIONS: The positive relationship among BMI, plasma C-peptide, and urine C-peptide is worth further evaluation in studies conducting multiple rounds of OGTT with a larger sample of pediatric subjects. The potential diagnostic value of C-peptide may facilitate early detection of insulin resistance in the pediatric population.
Authors: J P Després; A Nadeau; A Tremblay; M Ferland; S Moorjani; P J Lupien; G Thériault; S Pinault; C Bouchard Journal: Diabetes Date: 1989-03 Impact factor: 9.461
Authors: Tim J McDonald; Bridget A Knight; Beverley M Shields; Pamela Bowman; Maurice B Salzmann; Andrew T Hattersley Journal: Clin Chem Date: 2009-08-27 Impact factor: 8.327
Authors: Shivakumar Chitturi; Shehan Abeygunasekera; Geoffrey C Farrell; Jane Holmes-Walker; Jason M Hui; Caroline Fung; Rooshdiya Karim; Rita Lin; Dev Samarasinghe; Christopher Liddle; Martin Weltman; Jacob George Journal: Hepatology Date: 2002-02 Impact factor: 17.425
Authors: O K Faber; C Hagen; C Binder; J Markussen; V K Naithani; P M Blix; H Kuzuya; D L Horwitz; A H Rubenstein; N Rossing Journal: J Clin Invest Date: 1978-07 Impact factor: 14.808