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Multiple defects of both hepatic and peripheral intracellular glucose processing contribute to the hyperglycaemia of NIDDM (1995)

Vaag, A. ; Alford, F. ; Henriksen, F. L. ; [et al.]

Springer

Diabetologia 38 (1995), S. 326-336

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ISSN: 1432-0428

Keywords: Key words Hepatic glucose production ; glucose fatty acid cycle ; Cori cycle ; muscle glucose metabolism ; glycogen synthase.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Non-insulin-dependent diabetic (NIDDM) patients were studied during a modified euglycaemic state when fasting hyperglycaemia was normalized by a prior (–210 to –150 min) – and later withdrawn (–150–0 min) – intravenous insulin infusion. Glucose metabolism was assessed in NIDDM patients (n = 10) and matched control subjects (n = 10) using tritiated glucose turnover rates, indirect calorimetry and skeletal muscle glycogen synthase activity determinations. Total and non-oxidative exogenous glycolytic flux rates were measured using appearance rates of tritiated water. A + 180 min euglycaemic hyperinsulinaemic (40 mU · m–2· min–1) clamp was performed to determine the insulin responsiveness of the various metabolic pathways. Plasma glucose concentration increased spontaneously during baseline measurements in the NIDDM patients (-120 to 0 min: 4.8 ± 0.3 to 7.0 ± 0.3 mmol/l; p 〈 0.01), and was primarily due to an elevated rate of hepatic glucose production (3.16 ± 0.13 vs 2.51 ± 0.16 mg · kg FFM–1· min–1; p 〈 0.01). In the NIDDM subjects baseline glucose oxidation was decreased (0.92 ± 0.17 vs 1.33 ± 0.14 mg · kg FFM–1· min–1; p 〈 0.01) in the presence of a normal rate of total exogenous glycolytic flux and skeletal muscle glycogen synthase activity. The simultaneous finding of an increased lipid oxidation rate (1.95 ± 0.13 vs 1.61 ± 0.07 mg · kg FFM–1· min–1; p = 0.05) and increased plasma lactate concentrations (0.86 ± 0.05 vs 0.66 ± 0.03 mmol/l; p = 0.01) are consistent with a role for both the glucose-fatty acid cycle and the Cori cycle in the maintenance and development of fasting hyperglycaemia in NIDDM during decompensation. Insulin resistance was demonstrated during the hyperinsulinaemic clamp in the NIDDM patients with a decrease in the major peripheral pathways of intracellular glucose metabolism (oxidation, storage and muscle glycogen synthase activity), but not in the pathway of non-oxidative glycolytic flux which was not completely suppressed during insulin infusion in the NIDDM patients (0.55± 0.15 mg · kg FFM–1· min–1; p 〈 0.05 vs 0; control subjects: 0.17 ± 0.29; NS vs 0). Thus, these data also indicate that the defect(s) of peripheral (skeletal muscle) glucose processing in NIDDM goes beyond the site of glucose transport across the cell membrane. [Diabetologia (1995) 38: 326 –336]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400638

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Multiple defects of both hepatic and peripheral intracellular glucose processing contribute to the hyperglycaemia of NIDDM (1995)

Vaag, A. ; Alford, F. ; Henriksen, F. L. ; [et al.]

Springer

Diabetologia 38 (1995), S. 326-336

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ISSN: 1432-0428

Keywords: Hepatic glucose production ; glucose fatty acid cycle ; Cori cycle ; muscle glucose metabolism ; glycogen synthase

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Non-insulin-dependent diabetic (NIDDM) patients were studied during a modified euglycaemic state when fasting hyperglycaemia was normalized by a prior (−210 to −150 min) — and later withdrawn (−150–0 min) — intravenous insulin infusion. Glucose metabolism was assessed in NIDDM patients (n=10) and matched control subjects (n=10) using tritiated glucose turnover rates, indirect calorimetry and skeletal muscle glycogen synthase activity determinations. Total and non-oxidative exogenous glycolytic flux rates were measured using appearance rates of tritiated water. A+180 min euglycaemic hyperinsulinaemic (40 mU·m−2·min−1) clamp was performed to determine the insulin responsiveness of the various metabolic pathways. Plasma glucose concentration increased spontaneously during baseline measurements in the NIDDM patients (−120 to 0 min: 4.8±0.3 to 7.0±0.3 mmol/l; p〈0.01), and was primarily due to an elevated rate of hepatic glucose production (3.16±0.13 vs 2.51±0.16 mg·kg FFM−1·min−1; p〈0.01). In the NIDDM subjects baseline glucose oxidation was decreased (0.92±0.17 vs 1.33±0.14 mg·kg FFM−1·min−1; p〈0.01) in the presence of a normal rate of total exogenous glycolytic flux and skeletal muscle glycogen synthase activity. The simultaneous finding of an increased lipid oxidation rate (1.95±0.13 vs 1.61±0.07 mg·kg FFM−1·min−1; p=0.05) and increased plasma lactate concentrations (0.86±0.05 vs 0.66±0.03 mmol/l; p=0.01) are consistent with a role for both the glucose-fatty acid cycle and the Cori cycle in the maintenance and development of fasting hyperglycaemia in NIDDM during decompensation. Insulin resistance was demonstrated during the hyperinsulinaemic clamp in the NIDDM patients with a decrease in the major peripheral pathways of intracellular glucose metabolism (oxidation, storage and muscle glycogen synthase activity), but not in the pathway of non-oxidative glycolytic flux which was not completely suppressed during insulin infusion in the NIDDM patients (0.55±0.15 mg·kg FFM−1·min−1; p〈0.05 vs 0; control subjects: 0.17±0.29; NS vs 0). Thus, these data also indicate that the defect(s) of peripheral (skeletal muscle) glucose processing in NIDDM goes beyond the site of glucose transport across the cell membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400638

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Troglitazone, an insulin action enhancer, improves metabolic control in NIDDM patients (1996)

Kumar, S. ; Boulton, A. J. M. ; Beck-Nielsen, H. ; [et al.]

Springer

Diabetologia 39 (1996), S. 701-709

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ISSN: 1432-0428

Keywords: Insulin resistance ; thiazolidinedione ; troglitazone ; oral anti-diabetic agent ; non-insulin-dependent ; diabetes mellitus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of troglitazone, a novel thiazolidinedione, in non-insulin-dependent diabetic (NIDDM) patients were studied in a double-blind, parallel-group, placebo-controlled, dose-ranging trial. A total of 330 patients (63% male), mean age 57 years (range 39–72), with two fasting capillary blood glucose values ≥ 7 and ≤ 15 mmol/l (within 2.5 mmol/l of each other) were randomised to treatment with placebo or troglitazone at doses of 200, 400, 600 or 800 mg once daily, or 200 or 400 mg twice daily, for 12 weeks. Prior to the study, treatment had been with diet alone (38% patients) or with oral hypoglycaemic agents which were stopped 3–4 weeks before study treatment started. During treatment, HbA1c tended to rise in patients taking placebo (7.2–8.0%), but remained unchanged with all doses of troglitazone. After 12 weeks of treatment, HbA1c was significantly lower in the troglitazone-treated (mean 7.0–7.4%) compared to the placebo-treated (8.0%) patients (p=0.055 to 〈0.001), as was fasting serum glucose concentration (troglitazone, 9.3–11.0 mmol/l vs placebo, 12.9 mmol/l, p〈0.001). All doses of troglitazone were equally effective. Troglitazone also lowered fasting plasma insulin concentration, by 12–26% compared to placebo (p=0.074 to 〈0.001). Insulin sensitivity assessed by homeostasis model assessment (HOMA) was greater after 12 weeks of treatment in troglitazone-treated patients (troglitazone, 34.3–42.8% vs placebo, 29.9%, p〈0.05). In addition, serum triglyceride and non-esterified fatty acid concentrations were significantly lower and HDL cholesterol higher at troglitazone doses of 600 and 800 mg/day. LDL cholesterol increased at 400 and 600 mg doses only (from 4.3 and 3.9 mmol/l at baseline to 4.8 and 4.5 mmol/l, respectively at 12 weeks, p〈0.05), but not at doses of 800 mg once daily or 400 mg twice daily. LDL/HDL ratio did not change during treatment. All doses were well tolerated; incidence of adverse events in troglitazone-treated patients was no higher than in those treated with placebo. However, a tendency to reduced neutrophil counts was observed in patients taking the highest doses of troglitazone. We conclude that troglitazone is effective and well-tolerated and shows potential as a new therapeutic agent for the treatment of NIDDM.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00418542

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Effect of bepridil on metabolic control and insulin secretion in diabetics (1988)

Husted, S. E. ; Pedersen, C. ; Nielsen, H. Kræmmer ; [et al.]

Springer

European journal of clinical pharmacology 34 (1988), S. 221-226

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ISSN: 1432-1041

Keywords: bepridil ; diabetes mellitus ; Type I ; Type II ; insulin secretion ; C-peptide ; adverse effects ; diabetic control

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary In a double-blind cross-over study bepridil 900 mg followed by 300 mg daily for 11 days was given to 37 insulin (Type I) or non-insulin (Type II)-dependent diabetic patients. It did not modify the metabolic control of the patients as levels of glucose in blood and urine, doses of insulin and oral hypoglycaemic drugs, energy intake, and the number of hypoglycaemic attacks during therapy were unchanged. The serum concentration of C-peptide was not modified in either type of diabetic patient, and serum insulin in the Type I but not in the Type II patients was slightly higher during active drug treatment. No adverse organotoxic or arrhythmogenic effects or changes in possible atherogenic lipid fractions in serum could be demonstrated during bepridil therapy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00540947

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