Nancy J. Rennert scite author profile

The actions of recombinant human insulin-like growth factor-I (rhIGF-I) and insulin were compared in 21 healthy young (24±1 yr) and 14 healthy middle-aged (48±2 yr) subjects during 3-h paired euglycemic clamp studies using one of three doses (rhIGF-I 0.2, 0.4, and 0.8 ag/kg -min and insulin 0.2, 0.4, and 0.8 mU/kg. min, doses chosen to produce equivalent increases in glucose uptake). In younger subjects, rhIGF-I infusions suppressed insulin by 19-33%, C-peptide by 47-59% and glucagon by 33-47% (all, P < 0.02). The suppression of C-peptide was less pronounced with insulin than with rhIGF-I (P < 0.007). The metabolic responses to rhIGF-I and insulin were remarkably similar: not only did both hormones increase glucose uptake and oxidation in a nearly identical fashion, but they also produced similar suppression of glucose production, free fatty acid levels, and fat oxidation rates. In contrast, rhIGF-I had a more pronounced amino acid-lowering effect than did insulin (P < 0.004).In middle-aged subjects, basal IGF-I levels were 44% lower (P < 0.0001) whereas basal insulin and C-peptide were 20-25% higher than in younger subjects. Age did not alter the response to rhIGF-I. However, insulin-induced stimulation of glucose uptake was blunted in older subjects (P = 0.05). Our data suggest that absolute IGF-I and relative insulin deficiency contribute to adverse metabolic changes seen in middle age. (J.

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Relationship between Sleep Disorders and the Risk for Developing Type 2 Diabetes Mellitus

Ioja

Weir

Rennert

2012

Postgraduate Medicine

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Sleep is increasingly being recognized as an important factor in the homeostasis of multiple body functions, including blood glucose metabolism. One of the most common sleep disorders, obstructive sleep apnea, is not only highly prevalent in patients with type 2 diabetes mellitus, but may contribute to the development of abnormalities in blood glucose metabolism. Evidence suggests that effectively treating sleep apnea, specifically with continuous positive airway pressure, improves glycemic and nonglycemic outcomes. Other common sleep disorders, such as insufficient sleep, shift work disorder, and restless legs syndrome, may also have a significant influence on the development and management of diabetes and its complications. The purpose of this article is to review the recent literature on the relationship between sleep disorders and blood glucose metabolism.

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Insulin-like growth factor I inhibits glucose-stimulated insulin secretion but does not impair glucose metabolism in normal humans.

Rennert

Caprio

Sherwin

1993

The Journal of Clinical Endocrinology & Metabolism

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The effect of human recombinant insulin-like growth factor I (rhIGF-1) on glucose stimulated insulin secretion was studied in 14 healthy human volunteers. Each subject received a primed-continuous infusion of rhIGF-1 (20 micrograms kg prime, 0.4 micrograms kg-1 min-1) or saline while plasma glucose was raised +2.8 mmol/l (+50 mg/dl) (n = 6) or +7.0 mmol/l (+125 mg/dl) (n = 8) above baseline for 2 h using the hyperglycemic clamp technique. Total IGF-1 levels during the IGF-1 studies increased from 196 +/- 37 to 449 +/- 71 ng/ml. At the +2.8 mmol/l (+50 mg/dl) stimulus, first and second phase C-peptide levels were suppressed during IGF-1 infusion vs control (885 +/- 157 vs 544 +/- 99 pmol/l, p < 0.05 and 1379 +/- 246 vs 832 +/- 130 pmol/l, p < 0.05, respectively), whereas insulin levels were suppressed during the second phase only (215 +/- 43 vs 151 +/- 28 pmol/l, p < 0.05). Despite this, the rate of glucose metabolism was two-fold higher in the IGF-1 infused group (8.0 +/- 0.5 vs 3.5 +/- 0.1 mg kg-1 min-1, p < 0.01). At the higher glucose stimulus +7.0 mmol/l (+125 mg/dl) only second phase C-peptide levels were significantly reduced (1922 +/- 251 vs 1466 +/- 74 pmol/l, p < 0.05). Again, rates of glucose metabolism were higher during IGF-1 infusion (11.8 +/- 1.2 vs 8.9 +/- 0.8 mg kg-1 min-1, p < 0.01). These data suggest that rhIGF-1 inhibits glucose-stimulated insulin secretion in humans, but that this inhibitory effect is partially overcome by increasing the hyperglycemic stimulus. Moreover, despite the decrease in insulin secretion, glucose disposal is accelerated by rhIGF-1.

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Nancy J. Rennert

Comparison of the metabolic effects of recombinant human insulin-like growth factor-I and insulin. Dose-response relationships in healthy young and middle-aged adults.

Relationship between Sleep Disorders and the Risk for Developing Type 2 Diabetes Mellitus

Insulin-like growth factor I inhibits glucose-stimulated insulin secretion but does not impair glucose metabolism in normal humans.

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