Twenty diabetics with end-stage renal disease who had never previously received dialysis treatment were treated with continuous ambulatory peritoneal dialysis for periods of two to 36 months (average, 14.5). Intraperitoneal administration of insulin achieved good control of blood sugar. Even though creatinine clearance decreased significantly (P = 0.001), control of blood urea nitrogen and serum creatinine was adequate. Hemoglobin and serum albumin levels increased significantly (P = 0.005 and 0.04, respectively). Similarly, there was a significant increase in serum triglycerides and alkaline phosphatase (P = 0.02 and 0.05). Blood pressure became normal without medications in all but one of the patients. Retinopathy, neuropathy, and osteodystrophy remained unchanged. Peritonitis developed once in every 20.6 patient-months--a rate similar to that observed in nondiabetics. The calculated survival rate was 93 per cent at one year; the calculated rate of continuation on ambulatory peritoneal dialysis was 87 per cent. We conclude that continuous ambulatory dialysis with intraperitoneal administration of insulin is a good alternative treatment for diabetics with end-stage renal disease.
The higher number of readings/h during daytime leads to an overestimation of conventional 24-h average BP, particularly in individuals with preserved nocturnal BP dipping. This can be avoided either by scheduling the same number of readings/h throughout 24 h or by performing a time-weighted quantification of 24-h BP. The clinical implications of these different approaches deserve further investigation.
In order to understand and eventually prevent peritonitis, which still is the most frequent complication of CAPD, workers in this field must agree on which statistical methods will be applied to the study of this complication. After a trial of various methods among our CAPD patients, we have concluded that life-table analysis, considering the first episode of peritonitis as an end event, provides the simplest method of expressing the probability of developing peritonitis. The comparison of two subpopulations of dialysis patients or of the performance of two units can be done by the comparison of the two peritonitis probability curves calculated from the respective data. Finally, regression analysis be tween the probability to develop peritonitis within a specific interval on CAPD and calendar time of entrance into the program ot Ters a simple way to assess changes in the performance of a dialysis center over time.
Insulin resistance in uremia has been attributed to impaired hormone-receptor binding or to postbinding defects. Oral glucose tolerance tests, insulin binding, and in vitro glycolytic activity were studied in purified red blood cells from normal control subjects (C) and from uremic patients belonging to three groups: nondialyzed (U), on chronic hemodialysis (HD), and on continuous ambulatory peritoneal dialysis (CAPD). Glucose intolerance and hyperinsulinemia were demonstrated in all groups of patients. Maximal specific binding of 125I-insulin to erythrocytes, kinetically derived receptor numbers per cell, and affinity constants for insulin binding did not differ between control and patient groups. No correlation was found between the degree of glucose intolerance and insulin binding parameters. Basal lactate production by erythrocytes incubated invitro was significantly higher in U and HD patients than in Cwhereas CAPD patients did not differ from C in this respect. Addition of 1 mI dibutiryl-cAMP and 0.5 mM isobutyl-methyl-xanthine during incubation of erythrocytes caused an increase in the rate of lactate production that was similar in magnitude in the U, HD and C groups, whereas cells from CAPD subjects showed a significantly larger absolute response to these compounds after 1 h of incubation. There was no evidence of impairment of glycolytic capacity in red blood cells from uremic patients. In addition, no correlation was found between the degree of glucose intolerance and basal or stimulated lactate production by erythrocytes. Our results obtained in human erythrocytes suggest that the insulin resistance observed in uremia does not involve a defect in hormone binding or in the intracellular capacity to utilize glucose through glycolysis.
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