and conclusions An alpha-glucosidehydrolase inhibitor (acarbose; BAY g 5421) taken with food was compared with dummy tablets in seven insulin-treated diabetic patients over eight-hour periods that included breakfast, lunch, and two snacks. Acarbose diminished the postprandial increases in blood glucose, lactate, and pyruvate concentrations and may therefore be of value in the management of insulindependent diabetes.
Twelve insulin deficient Type 1 (insulin-dependent) diabetic subjects were studied over an 11 1/2 h period during both subcutaneous insulin therapy and closed loop insulin delivery, using a glucose controlled insulin system (Biostator) programmed to maintain normoglycaemia. Results were compared with those from 21 age and weight-matched normal subjects. Using the Biostator, normoglycaemia was achieved in all diabetic subjects within 3.5 h and normal profiles maintained thereafter. Blood metabolite and hormone values were evaluated during the subsequent 8 h normoglycaemic period. Subcutaneous therapy resulted in abnormal glucose levels throughout the study period (mean 8 h value 8.3 +/- 0.7 compared with 5.6 +/- 0.3 mmol/l on feedback control and 5.5 +/- 0.1 mmol/l in normal subjects). The mean value of lactate and pyruvate over the final 8 h period was 25% higher in diabetic patients than in normal subjects with no difference between the two insulin treatments (blood lactate: 0.94 +/- 0.04 on subcutaneous insulin, 0.91 +/- 0.04 on feedback control and 0.74 +/- 0.03 mmol/l in control subjects). The pre-prandial peaks of blood glycerol and plasma non-esterified fatty acids were significantly decreased or absent during both feedback control and subcutaneous therapy in comparison with the normal subjects, whereas after the midday and evening meals, total ketone body levels were significantly higher in the diabetic patients. Peripheral serum free insulin levels were two-to fourfold greater in the diabetic than in the normal subjects. There were no significant differences between levels in diabetic patients receiving subcutaneous insulin or on the Biostator. Glucose turnover (1600-1800 h) was normal on feedback control (1.41 +/- 0.20 versus 1.55 +/- 0.18 mg X kg-1 X min-1 in the normal subjects) but was significantly decreased during subcutaneous insulin (1.04 +/- 0.09 mg X kg-1 X min-1). There was, in addition, a decrease in glucose recycling during both subcutaneous insulin therapy and feedback control in the diabetic subjects. These data suggest that although fine control of glucose metabolism both in terms of circulating concentrations and rates of production can be achieved by feedback-control, insulin infusion by the peripheral route is associated with significant metabolic abnormalities, at least in the short term. Longer term studies and examination of portal insulin delivery seem warranted.
SUMMARY. The establishment and first 7 years' operation of an external quality assessment scheme for clinical chemistry in the Middle East region are described. The scheme utilises specimens distributed previously in the UK, and the performance of participating laboratories is assessed relative to the UK consensus values, taking account of method. Variance Index scoring has been used to quantitate performance, and there has been an improvement in average scores during the operation of the scheme. There are currently 88 participants, though some laboratories which failed to return results regularly were removed from the scheme. The consensus values from the scheme itself have now been validated, and in future the scheme should operate independently.
Abstract.
Five diabetic and 14 non-diabetic uraemic patients on long-term haemodialysis were studied during twenty-one 24 h periods including 5 to 7 h of haemodialysis against glucose-free acetate buffered dialysis fluid. Half-hourly blood samples were collected for hormonal and metabolite analysis. In addition, blood samples were analyzed in 40 experiments covering the haemodialysis and a pre-dialysis period. Before dialysis, plasma growth hormone levels were high and fluctuating, but almost always fell to low normal values within the first 2 h of haemodialysis.
In the diabetic uraemic patients, the occasional severe hypoglycaemic episodes occurring during haemodialysis did not provoke growth hormone release, and hypoglycaemic reactions were not encountered.
Intravenous acetate infusion studies resulted in plasma concentrations ranging from 1.3 to 2.7 mmol, i.e. about 60 per cent of the levels reached during haemodialysis and in suppression of growth hormone secretion. It is suggested that the fall in growth hormone levels and the lack of hypoglycaemic symptoms during haemodialysis is due to the use of acetate as a fuel in brain.
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