N Ohashi

Publications (5)12.9 Total impact

• Article: Effects of troglitazone on fat distribution in the treatment of male type 2 diabetes.

  T Kawai, I Takei, Y Oguma, N Ohashi, M Tokui, S Oguchi, F Katsukawa, H Hirose, A Shimada, K Watanabe, T Saruta
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  ABSTRACT: We investigated the efficacy of additional administration of 400 mg troglitazone (+T), which became available as a treatment for type 2 diabetes following the demonstration of its ability to reduce insulin resistance, in combination with diet (D + T) or sulfonylurea (S + T) therapy. Body fat area as determined by computed tomographic (CT) scanning at the umbilical level, as well as several clinical and biochemical parameters of glycemic control and lipid metabolism, were compared before and after 3 months of additional treatment with troglitazone. The body mass index (BMI) tended to increase in both groups (22.7 +/- 0.6 v 23.2 +/- 0.6 kg/m2 in D + T, nonsignificant [NS]; 22.2 +/- 0.5 v 22.3 +/- 0.5 kg/m2 in S + T, NS), while it tended to decrease in the control group (only diet therapy, 23.6 +/- 0.6 v 23.1 +/- 0.8 kg/m2, NS). Mean blood pressure ([BP] 96 +/- 3 v 89 +/- 4 mm Hg, P < .05) decreased significantly in the D + T group. Changes in the glycemic and lipid profile and leptin did not reach statistical significance. The D + T group showed a significant decline in immunoreactive insulin ([IRI] 12.4 +/- 1.2 v 8.0 +/- 1.0 microU/mL, P < .05), reflecting markedly reduced insulin resistance, as well as a significant increase in plasma insulin-like growth factor-1 ([IGF-1] 175.7 +/- 14.2 v 189.8 +/- 12.6 ng/mL, P < .05). A slight weight gain was associated with a tendency for subcutaneous fat to increase, while visceral fat decreased in both troglitazone-treated groups. The decrease in the visceral to subcutaneous fat ratio (V/S ratio) was statistically significant in the D + T group (1.09 +/- 0.11 v 0.94 +/- 0.09, P < .05), while the V/S ratio in the control group did not change. A notable finding of this study is the difference in the response to troglitazone between subcutaneous and visceral adipose tissue. It is suggested that troglitazone may exert beneficial effects by reducing visceral fat.
  Metabolism 09/1999; 48(9):1102-7. · 2.66 Impact Factor
• Article: Effects of aminoguanidine on serum advanced glycation endproducts, urinary albilmin excretion, mesangial expansion, and glomerular basement membrane thickening in Otsuka Long-Evans Tokushima fatty rats.

  A Yamauchi, I Takei, Z Makita, S Nakamoto, N Ohashi, H Kiguchi, T Ishii, T Koike, T Saruta
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  ABSTRACT: This study evaluated the effects of treatment with an inhibitor of advanced glycation endproducts, aminoguanidine, on the development of albuminuria, mesangial expansion and glomerular basement membrane (GBM) thickening in Otsuka Long-Evans Tokushima Fatty (OLETF) rats, which we found to be an excellent model of non insulin-dependent diabetes mellitus (NIDDM), for its very close similarity to human NIDDM. OLETF rats were randomized into a non-treatment diabetic group (D-group, n = 5) and an aminoguanidine-treated group (AG-group, n = 5). The AG-group was given 100 mg/dl aminoguanidine HCl in free drinking water. Treatment was started at 16 weeks of age. We measured body weight, plasma glucose, total cholesterol, triglycerides and the urinary albumin excretion (UAE) rate before and after treatment at regular intervals. At 56 weeks of age, we measured serum advanced glycation endproducts (AGE), mesangial expansion and glomerular basement membrane. There were no significant differences in pre-treatment body weight, plasma glucose and UAE between the D-group and the AG-group. Likewise, after treatment there were no significant differences in body weight, plasma glucose, total cholesterol, triglycerides and immunoreactive insulin. Significant differences were, however, noted in serum AGE (63.2 +/- 3.5 and 51.8 +/- 3.0 U AGE/ml, P < 0.05), UAE (203.6 +/- 37.7 and 89.8 +/- 18.6 mg/day, P < 0.05), fractional mesangial volume (21.3 +/- 1.7 and 16.7 +/- 0.8%, P < 0.05) and GBM thickness (453 +/- 17 and 366 +/- 50 nm, P < 0.05) between the D-group and the AG-group. Our results suggest that aminoguanidine inhibits the AGE formation and the development of diabetic nephropathy in OLETF rats.
  Diabetes Research and Clinical Practice 02/1997; 34(3):127-33. · 2.75 Impact Factor
• Article: Depression of dehydroepiandrosterone in Japanese diabetic men--comparison between non-insulin-dependent diabetes mellitus and impaired glucose tolerance.

  A Yamauchi, I Takei, A Kasuga, Y Kitamura, N Ohashi, S Nakano, S Takayama, S Nakamoto, F Katsukawa, T Saruta
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  ABSTRACT: Hyperglycemia is known to reduce dehydroepiandrosterone (DHEA) circulating levels; however, the mechanism by which hyperglycemia decreases DHEA is not elucidated. In this study, serum DHEA and DHEA sulfate (DHEA-S) levels were compared in 50 men with non-insulin-dependent diabetes mellitus (NIDDM) and 50 age-matched men with impaired glucose tolerance (IGT) receiving only diet therapy. Serum concentrations of DHEA and DHEA-S in the NIDDM group were significantly lower than in the IGT group (7.8 and 9.7 nmol/l vs 3.4 and 4.9 mumol/l, respectively; p < 0.01) but there was no significant difference in immunoreactive insulin between the two groups. When the results from both groups were combined, HbA1C was significantly inversely related to DHEA (r = -0.243, p < 0.01) and DHEA-S (r = -0.305, p < 0.01). Immunoreactive insulin showed no correlation with DHEA and DHEA-S. Multiple regression analysis showed that HbA1C was independently negatively related to both DHEA and DHEA-S. We conclude that hyperglycemia may decrease serum DHEA and DHEA-S in Japanese men with NIDDM, but the depression of DHEA(-S) is independent of serum insulin level.
  European Journal of Endocrinology 07/1996; 135(1):101-4. · 3.42 Impact Factor
• Article: Hyperglycemia decreases dehydroepiandrosterone in Japanese male with impaired glucose tolerance and low insulin response.

  A Yamauchi, I Takei, S Nakamoto, N Ohashi, Y Kitamura, M Tokui, S Nakano, S Takayama, A Kasuga, F Katsukawa, T Saruta
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  ABSTRACT: Recent studies indicate that experimentally induced hyperinsulinemia may reduce serum dehydroepiandrosterone (DHEA) and dehydroepiandrosterone-sulfate (DHEA-S). Serum DHEA and DHEA-S decrease in diabetic patients, but the mechanism by which hyperglycemia decreases DHEA and DHEA-S is unknown. In this study, we investigated the effect of hyperglycemia on DHEA and DHEA-S in impaired glucose tolerance (IGT) by means of the 75g-oral glucose tolerance test (OGTT). We selected 30 male IGT patients receiving diet therapy only, whose insulinogenic Index was under 0.3. Oral glucose challenge significantly reduced DHEA (P = 0.0001) and DHEA-S (P < 0.05) at 60 and 120 min after OGTT. Setting the value of DHEA and DHEA-S at time zero as 100%, we calculated the DHEA and DHEA-S values at 60 and 120 min after OGTT as %DHEA(-S) 60 min and %DHEA(-S) 120 min, respectively. DHEA and DHEA-S at time zero showed no correlation with BMI, HbA1c, the sum of insulin values (sigma IRI) or the area under the curve of plasma glucose (AUC). We found decreases in %DHEA 60 min (r = -0.411, P < 0.05), %DHEA-S 60 min (r = -0.508, P < 0.01) and %DHEA-S 120 min (r = -0.393, P < 0.05) as AUC increased, but sigma IRI showed no correlation with %DHEA(-S) 60 min or %DHEA(-S)120 min. We conclude that the depression of DHEA and DHEA-S after OGTT is attributable to hyperglycemia in male Japanese IGT with low insulin response.
  Endocrine Journal 07/1996; 43(3):285-90. · 2.03 Impact Factor
• Article: Secretion of GIP in responders to acarbose in obese Type 2(NIDDM) patients.

  I Takei, K Miyamoto, O Funae, N Ohashi, S Meguro, M Tokui, T Saruta
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  ABSTRACT: Acarbose has been shown to reduce postprandial hyperglycemia and to improve lipid parameters in diabetics via its inhibitory effects on intestinal alpha-glucosidases. Response to acarbose may therefore be dependent upon gastric or pancreatic hormone function. To test this hypothesis, we treated 27 mild type 2 (NIDDM) Japanese diabetics who were mildly obese with low-dose acarbose (150 mg/day) for 3 months. We then performed a responder analysis to determine specific hormonal responses that may be associated with a good response to acarbose. At the end of the treatment period, a total of 15 evaluable patients was grouped as responders (n=6) and nonresponders (n=9) based on an effective decrease in postprandial glucose levels (>30 mg/day) and glycosylated hemoglobin (HbA1c) levels (>0.5%). There were no differences between the two groups in demographic variables or mean postprandial glucose levels at baseline. There was a small but significant increase in postprandial cholecystokinin (CCK) in responders, and fasting gastric inhibitory peptide (GIP) levels were significantly increased in responders and all patients after treatment. Serum leptin levels were reduced by treatment in our mildly obese responders and this was associated with a significant decrease in body weight. These results suggest that treatment with low-dose acarbose may reduce hyperglycemia in mild type 2 Japanese patients and may improve metabolic control by regulating hormones involved in glycemic control and digestive absorption. Acarbose may provide a safe adjunct to help treat insulin resistance in type 2 patients.
  Journal of Diabetes and its Complications 15(5):245-9. · 2.03 Impact Factor