1,721,092 research outputs found
La terapia insulinica nel diabete mellito di Tipo 2
No full textIl trattamento insulinico nel diabete mellito tipo 2 avviene per la maggior parte dei casi tardivamente, quando già la terapia divenga definitivamente sostitutiva. E' invece auspicabile un trattamento più precoce, con un'insulinizzazione basale o con una insulinizzazione ai pasti, che sono poste in confronto nel presente studio
Improvement of basal hepatic glucose production and fasting hyperglycemia of type I diabetic patients treated with human recombinant ultralente insulin
No full textInsulin receptors on circulating blood cells from patients with pancreatogenic diabetes: a comparison with type I diabetes and normal subjects
No full textWe studied 125I-insulin binding to erythrocytes from 14 patients with diabetes secondary to chronic pancreatitis or pancreatectomy and compared the results with those found in 10 patients with type I diabetes and 25 normal controls. Patients with pancreatogenic diabetes had higher 125I-insulin binding and enhanced tissue sensitivity to exogenous insulin measured with the glucose clamp technique as compared with patients with type I diabetes. Similar binding data were obtained with monocytes from 3 patients with pancreatogenic diabetes. The increase in insulin binding seemed due mainly to an increase in receptor number. The increase in insulin binding to cells from patients with pancreatogenic diabetes in comparison with cells from normal subjects was also seen in young-erythrocyte-rich fractions and in old-erythrocyte-rich fractions obtained from the mixed population of circulating erythrocytes by centrifugation in density gradient of Percoll-Pielografin. These data, in the absence of any sign of major hematological disorders, suggest that the increase in insulin receptors seen in erythrocytes and in monocytes from patients with pancreatogenic diabetes, can mirror a general phenomenon on tissues throughout the body, including major target cells for insulin and correlate with the heightened sensitivity to insulin characteristic of these patients. In conclusion, patients with pancreatogenic diabetes have increased insulin binding as compared to controls and to patients with type I diabetes with chronic hypoinsulinemia of the same degree. Thus, in addition to insulin deficiency, other factor (s), such as glucagon deficiency, are responsible for the clinical and metabolic differences between these two conditions of insulin deficiency
Insulin sensitivity is not impaired in Mexican-American women without a family history of diabetes
No full textObesity and insulin resistance in man. A dose response study
No full textInsulin-mediated glucose metabolism (euglycemic insulin clamp at plasma insulin concentration of 100 microU/mL) and glucose-stimulated insulin secretion (hyperglycemic clamp) were examined in 42 obese subjects (ideal body weight [IBW], 158 +/- 4%) with normal glucose tolerance and in 36 normal weight (IBW,
102% +/- 1%) age-matched controls. In 10 obese and eight control subjects, insulin was infused at six rates to increase plasma insulin concentration by approximately 10, 20, 40, 80, 2,000, and 20,000 microU/mL. Throughout the physiologic range of plasma insulin concentrations, both the increase in total body glucose uptake and the suppression of hepatic glucose production (HGP) were significantly impaired in the obese group (P less than .001 to .01). At the two highest plasma insulin concentrations, inhibition of HGP and the stimulation of glucose disposal were similar in both the obese and control groups. Insulin secretion during the hyperglycemic (+/- 125 mg/dL) clamp was twofold greater in
obese subjects than in controls (P less than .01) and was inversely related to the rate of glucose uptake during the insulin clamp (r = -.438, P less than .05), but was still unable to normalize glucose disposal (P less than .05). In conclusion, our results indicate that insulin resistance is a common accompaniment of obesity and can be overcome at supraphysiological insulin concentrations. Both in the basal state and following a hyperglycemic stimulus obese people display hyperinsulinemia, which correlates with the degree of insulin resistance. However, endogenous hyperinsulinemia fails to fully compensate for the insulin resistance
Role of tissue-specific blood flow and tissue recruitment in insulin-mediated glucose uptake of human skeletal muscle
No full textBACKGROUND: Conflicting evidence exists concerning whether insulin-induced vasodilation plays a mechanistic role in the regulation of limb glucose uptake. It can be predicted that if insulin augments blood flow by causing tissue recruitment, this mechanism would enhance limb glucose uptake. METHODS AND RESULTS: Twenty healthy subjects were studied with the forearm perfusion technique in combination with the euglycemic insulin clamp technique. Ten subjects were studied at physiological insulin concentrations (approximately 400 pmol/L) and the other 10 at supraphysiological insulin concentrations (approximately 5600 pmol/L). Four additional subjects underwent a saline control study. Pulse injections of a nonmetabolizable extracellular marker (1-[3H]-L-glucose) were administered into the brachial artery, and its washout curves were measured in one ipsilateral deep forearm vein and used to estimate the extracellular volume of distribution and hence the amount of muscle tissue drained by the deep forearm vein. Both during saline infusion and at physiological levels of hyperinsulinemia we observed no changes in blood flow and/or muscle tissue drained by the deep forearm vein. However, supraphysiological hyperinsulinemia accelerated total forearm blood flow (45.0+/-1.8 versus 36.5+/-1.3 mL x min(-1) x kg(-1), P<0.01) and increased the amount of muscle tissue drained by the deep forearm vein (305+/-46 versus 229+/-32 g, P<0.05). The amount of tissue newly recruited by insulin was strongly correlated to the concomitant increase in tissue glucose uptake (r=0.789, P<0.01). CONCLUSIONS: Acceleration of forearm blood flow mediated by supraphysiological hyperinsulinemia is accompanied by tissue recruitment, which may be a relevant determinant of forearm (muscle) glucose uptake
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