OBJECTIVE: Obese non-diabetic patients are characterized by an extra-hepatic insulin resistance. Whether obese patients also have decreased hepatic insulin sensitivity remains controversial. RESEARCH METHODS AND PROCEDURES: To estimate their hepatic insulin sensitivity, we measured the rate of exogenous insulin infusion required to maintain mildly elevated glycemia in obese patients with type 2 diabetes, obese non-diabetic patients, and lean control subjects during constant infusions of somatostatin and physiological low-glucagon replacement infusions. To account for differences in insulin concentrations among the three groups of subjects, an additional protocol was also performed in healthy lean subjects with higher insulin infusion rates and exogenous dextrose infusion. RESULTS: The insulin infusion rate required to maintain glycemia at 8.5 mM was increased 4-fold in obese patients with type 2 diabetes and 1.5-fold in obese non-diabetic patients. The net endogenous glucose production (measured with 6,6-(2)H(2)-glucose) and total glucose output (measured with 2-(2)H(1)-glucose) were approximately 30% lower in the patients than in the lean subjects. Net endogenous glucose production and total glucose output were both markedly increased in both groups of obese patients compared with lean control subjects during hyperinsulinemia. DISCUSSION: Our data indicate that both obese non-diabetic and obese type 2 diabetic patients have a blunted suppressive action of insulin on glucose production, indicating hepatic and renal insulin resistance.
OBJECTIVE:Obese non-diabeticpatients are characterized by an extra-hepatic insulin resistance. Whether obesepatients also have decreased hepatic insulin sensitivity remains controversial. RESEARCH METHODS AND PROCEDURES: To estimate their hepatic insulin sensitivity, we measured the rate of exogenous insulin infusion required to maintain mildly elevated glycemia in obesepatients with type 2 diabetes, obese non-diabeticpatients, and lean control subjects during constant infusions of somatostatin and physiological low-glucagon replacement infusions. To account for differences in insulin concentrations among the three groups of subjects, an additional protocol was also performed in healthy lean subjects with higher insulin infusion rates and exogenous dextrose infusion. RESULTS: The insulin infusion rate required to maintain glycemia at 8.5 mM was increased 4-fold in obesepatients with type 2 diabetes and 1.5-fold in obese non-diabeticpatients. The net endogenous glucose production (measured with 6,6-(2)H(2)-glucose) and total glucose output (measured with 2-(2)H(1)-glucose) were approximately 30% lower in the patients than in the lean subjects. Net endogenous glucose production and total glucose output were both markedly increased in both groups of obesepatients compared with lean control subjects during hyperinsulinemia. DISCUSSION: Our data indicate that both obese non-diabetic and obese type 2 diabeticpatients have a blunted suppressive action of insulin on glucose production, indicating hepatic and renal insulin resistance.
Authors: K W ter Horst; P W Gilijamse; K E Koopman; B A de Weijer; M Brands; R S Kootte; J A Romijn; M T Ackermans; M Nieuwdorp; M R Soeters; M J Serlie Journal: Int J Obes (Lond) Date: 2015-07-09 Impact factor: 5.095
Authors: John P Kirwan; Thomas P J Solomon; Daniel M Wojta; Myrlene A Staten; John O Holloszy Journal: Am J Physiol Endocrinol Metab Date: 2009-04-21 Impact factor: 4.310
Authors: Jason J Winnick; W Michael Sherman; Diane L Habash; Michael B Stout; Mark L Failla; Martha A Belury; Dara P Schuster Journal: J Clin Endocrinol Metab Date: 2007-12-11 Impact factor: 5.958
Authors: Jessica A Alvarez; Nikki C Bush; Gary R Hunter; David W Brock; Barbara A Gower Journal: Obesity (Silver Spring) Date: 2008-10-16 Impact factor: 5.002