A low-glycemic index diet combined with exercise reduces insulin resistance, postprandial hyperinsulinemia, and glucose-dependent insulinotropic polypeptide responses in obese, prediabetic humans.
Study Goal
The researchers aimed to determine the effects of a low-glycemic index (GI) diet combined with exercise on glucose metabolism and insulin secretion in obese, prediabetic individuals.
Results Summary
Both low-GI and high-GI diets led to similar weight loss and improvements in insulin sensitivity, but only the low-GI diet reduced postprandial hyperinsulinemia and improved pancreatic β cell function. The high-GI diet impaired β cell and intestinal K cell function despite weight loss.
Population
Obese, prediabetic individuals (mean age 66 ± 1 y; BMI 34.4 ± 0.8 kg/m²).
Effective Dosage
Low-GI diet (40 ± 0.3 units).
Duration
12 weeks.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
low-glycemic index (GI) diet and exercise intervention | neutral | glucose metabolism and insulin secretion | obese, prediabetic individuals | - | examined the effect of | #1 |
low-glycemic index (GI) diet and exercise intervention | decrease | body weight | obese, prediabetic individuals | -8.8 ± 0.9% | lost equal amounts of | #2 |
low-glycemic index (GI) diet and exercise intervention | decrease | adiposity | obese, prediabetic individuals | - | lost equal amounts of | #3 |
low-glycemic index (GI) diet and exercise intervention | increase | peripheral tissue insulin sensitivity | obese, prediabetic individuals | +76.2 ± 14.9% | showed similar improvements in | #4 |
low-glycemic index (GI) diet and exercise intervention | increase | hepatic insulin sensitivity | obese, prediabetic individuals | +27.1 ± 7.1% | showed similar improvements in | #5 |
low-GI diet (LoGIX) | decrease | oral glucose-induced insulin secretion | obese, prediabetic individuals | 6.59 ± 0.86 nmol in the prestudy compared with 4.70 ± 0.67 nmol in the poststudy | reduced | #6 |
low-GI diet (LoGIX) | decrease | postprandial response of glucose-dependent insulinotropic polypeptide | obese, prediabetic individuals | - | suppressed | #7 |
low-GI diet (LoGIX) | decrease | changes in insulin secretion when corrected for changes in β cell glucose exposure | obese, prediabetic individuals | - | attenuated | #8 |
high-GI diet (HiGIX) | increase | changes in insulin secretion when corrected for changes in β cell glucose exposure | obese, prediabetic individuals | - | became significantly elevated | #9 |
lifestyle-induced weight loss | decrease | insulin resistance | prediabetic individuals | - | improves | #10 |
low-GI diet | decrease | postprandial hyperinsulinemia | prediabetic individuals | - | reduced | #11 |
high-GI diet | decrease | pancreatic β cell function | prediabetic individuals | - | impairs | #12 |
high-GI diet | decrease | intestinal K cell function | prediabetic individuals | - | impairs | #13 |
low-GI diet | decrease | type 2 diabetes risk reduction | - | - | mediating the effects on | #14 |
BACKGROUND: The optimal lifestyle intervention that reverses diabetes risk factors is not known. OBJECTIVE: We examined the effect of a low-glycemic index (GI) diet and exercise intervention on glucose metabolism and insulin secretion in obese, prediabetic individuals. DESIGN: Twenty-two participants [mean ± SEM age: 66 ± 1 y; body mass index (in kg/m(2)): 34.4 ± 0.8] underwent a 12-wk exercise-training intervention (1 h/d for 5 d/wk at ≈ 85% of maximum heart rate) while randomly assigned to receive either a low-GI diet (LoGIX; 40 ± 0.3 units) or a high-GI diet (HiGIX; 80 ± 0.6 units). Body composition (measured by using dual-energy X-ray absorptiometry and computed tomography), insulin sensitivity (measured with a hyperinsulinemic euglycemic clamp with [6,6-(2)H(2)]-glucose), and oral glucose-induced insulin and incretin hormone secretion were examined. RESULTS: Both groups lost equal amounts of body weight (-8.8 ± 0.9%) and adiposity and showed similar improvements in peripheral tissue (+76.2 ± 14.9%) and hepatic insulin sensitivity (+27.1 ± 7.1%) (all P < 0.05). However, oral glucose-induced insulin secretion was reduced only in the LoGIX group (6.59 ± 0.86 nmol in the prestudy compared with 4.70 ± 0.67 nmol in the poststudy, P < 0.05), which was a change related to the suppressed postprandial response of glucose-dependent insulinotropic polypeptide. When corrected for changes in β cell glucose exposure, changes in insulin secretion were attenuated in the LoGIX group but became significantly elevated in the HiGIX group. CONCLUSIONS: Although lifestyle-induced weight loss improves insulin resistance in prediabetic individuals, postprandial hyperinsulinemia is reduced only when a low-GI diet is consumed. In contrast, a high-GI diet impairs pancreatic β cell and intestinal K cell function despite significant weight loss. These findings highlight the important role of the gut in mediating the effects of a low-GI diet on type 2 diabetes risk reduction.