The risk for diabetic nephropathy is low in young adults in a 17-year follow-up from the Diabetes Incidence Study in Sweden (DISS). Older age and higher BMI at diabetes onset can be important risk factors.

AIMS: The main objective of this study was to estimate the occurrence of diabetic nephropathy in a population-based cohort of patients diagnosed with diabetes as young adults (15-34 years). METHODS: All 794 patients registered 1987-1988 in the Diabetes Incidence Study in Sweden (DISS) were invited to a follow-up study 15-19 years after diagnosis, and 468 (58%) participated. Analysis of islet antibodies was used to classify type of diabetes. RESULTS: After median 17 years of diabetes, 15% of all patients, 14% T1DM and 25% T2DM, were diagnosed with diabetic nephropathy. Ninety-one percent had microalbuminuria and 8.6% macroalbuminuria. Older age at diagnosis (HR 1.05; 95% CI 1.01-1.10 per year) was an independent and a higher BMI at diabetes diagnosis (HR 1.04; 95% CI 1.00-1.09 per 1 kg/m²), a near-significant predictor of development of diabetic nephropathy. Age at onset of diabetes (p = 0.041), BMI (p = 0.012) and HbA1c (p < 0.001) were significant predictors of developing diabetic nephropathy between 9 and 17 years of diabetes. At 17 years of diabetes duration, a high HbA1c level (OR 1.06; 95% CI 1.03-1.08 per 1 mmol/mol increase) and systolic blood pressure (OR 1.08; 95% CI 1.05 1.12 per 1 mmHg increase) were associated with DN. CONCLUSIONS: Patients with T2DM diagnosed as young adults seem to have an increased risk to develop diabetic nephropathy compared with those with T1DM. Older age and higher BMI at diagnosis of diabetes were risk markers for development of diabetic nephropathy. In addition, poor glycaemic control but not systolic blood pressure at 9 years of follow-up was a risk marker for later development of diabetic nephropathy.

Changing healthcare utilization patterns in diabetes mellitus: case-control studies 1 year and 8 years after diagnosis.

AIMS: To describe healthcare utilization patterns in young and middle-aged patients with diabetes 1 year and 8 years after diagnosis and to compare with the general population at two time points, 16 years apart. METHODS: Four cohorts with disease duration of 1 year or 8 years were selected from the Diabetes Incidence Study in Sweden, which registers all incident cases of diabetes in the 15- to 34-year age group. Control subjects were selected from the population register matched by age, sex and county of residence. A postal questionnaire was sent to the 1983 and 1992 cohorts in 1991 and 1993, and to the 1999 and 2008 cohorts in 2007 and 2009. Nine hundred and thirteen patients with diabetes and 1679 control subjects responded. RESULTS: One year after diagnosis, 49% of patients with diabetes in the 1992 cohort compared with 4.2% in the 2008 cohort reported visits to departments of internal medicine and endocrinology. A similar pattern was seen 8 years after diagnosis. The use of day care was 4-5 times higher among patients with diabetes compared with control subjects. Utilization of outpatient hospital care was higher among patients with diabetes compared with control subjects, even when excluding visits to diabetes clinics. CONCLUSIONS: Excess use of health care among patients with diabetes remained 16 years after the first follow-up. Utilization patterns were stable, except for a major decrease in inpatient care 1 year after diagnosis and an increase in day care 8 years after diagnosis. Observed changes probably reflect successive reforming of diabetes care in Sweden.

Long-term detrimental consequences of the onset of type 1 diabetes on annual earnings--evidence from annual registry data in 1990-2005.

AIMS/HYPOTHESIS: Young adults in the early stages of their participation in the labour market may be particularly vulnerable to the effects of onset of a chronic disease. Our aim was to quantify the consequences of the onset of type 1 diabetes in young adults on annual earnings, using individual-level longitudinal data before and after the onset of diabetes. METHODS: The Econ-DISS database contains annual socioeconomic information for 1990-2005 from Statistics Sweden. Econ-DISS includes data for persons with diabetes onset at the age of 15-34 years between 1983 and 2005, registered in the national Diabetes Incidence Study in Sweden (DISS) database, and for controls. Considering the onset of type 1 diabetes as an unanticipated and significant life event, we compared the progression of annual earnings for 3,650 cases born between 1949 and 1970 before and after onset of diabetes with that of 14,629 controls. Possible confounders--education, participation in the labour market, sick leave and parental education--were analysed. RESULTS: We found no differences between the groups in annual earnings or participation in the labour market before onset of diabetes. After onset, persons with type 1 diabetes gradually lagged behind the controls. Their median annual earnings were lower in each year from 1995 to 2005 (p < 0.01). The difference in 2005 was euro (EUR) 1,411 (5.3%). Controlling for confounders, duration of type 1 diabetes > or = 10 years was associated with 4.2% (men) and 8.1% (women) lower average annual earnings for persons with upper secondary education only who were active in the labour market. CONCLUSION/INTERPRETATION: The onset of type 1 diabetes in young adults has long-term detrimental consequences on earnings that cannot be attributed to confounders.

Glucose stimulation of the antilipolytic effect of insulin in humans.

Dose-response studies of the inhibition of lipolysis by insulin in isolated human adipocytes were conducted with the use of a sensitive bioluminescent assay of glycerol release. The addition of glucose to the incubation medium was associated with an increase in insulin sensitivity and an increase in the maximum insulin effect. The results suggest that glucose plays an important role in regulating the antilipolytic action of insulin in humans.

Gender differences and temporal variation in the incidence of type 1 diabetes: results of 8012 cases in the nationwide Diabetes Incidence Study in Sweden 1983-2002.

OBJECTIVES: To establish the gender difference amongst newly diagnosed type 1 diabetic patients aged 15-34 years, considering age at diagnosis, temporal trend and seasonal variation at time of diagnosis. STUDY DESIGN: A population-based prospective study with a mean annual population at risk of 2.3 million. SETTING: All departments of medicine, endocrinology and paediatrics and primary health care units in Sweden. SUBJECTS: Incident cases of diabetes aged 15-34 years at diagnosis 1983-2002. MEASURE INSTRUMENT: Basic characteristics of patients at diagnosis were reported by the diagnosing doctor on a standardized form. Level of ascertainment was estimated at 80-90%. RESULTS: Amongst all incident cases (n = 8012), 74% was diagnosed with type 1 diabetes. The mean annual incidence rate of type 1 diabetes was 12.7/100,000, in men 16.4/100,000 and in women 8.9/100,000. The incidence of type 1 diabetes decreased slowly by increasing age but was in all age groups higher in men, yielding an overall male/female ratio of 1.8. In both genders the incidence of type 1 diabetes decreased in average of 1.0% per year. A seasonal pattern with significantly higher incidence during January-March and lower during May-July was seen in both genders. CONCLUSIONS: A clear male predominance of type 1 diabetes was seen in all ages. The temporal trend and the seasonal pattern was similar in men and women. Hence, internal factors related to the gender rather than differences in the exposure to environmental factors seem to explain the consistent male-female bias in the postpubertal risk of developing type 1 diabetes.

Marked increase in insulin sensitivity of human fat cells 1 hour after glucose ingestion.

The effect of glucose ingestion on insulin action was investigated in isolated human fat cells. Subcutaneous adipose tissue was obtained from eight normal adult volunteers before and 1 h after oral intake of 100 g of glucose. Lipolysis (glycerol release) and specific insulin receptor binding were determined. Insulin binding increased significantly by 20-30% after glucose ingestion. This was due to an increase in insulin binding affinity, without any change in the receptor number. The concentration of insulin producing half-maximum inhibition (ED(50)) of basal lipolysis was 50 muU/ml before and 0.25 muU/ml after glucose ingestion (P < 0.01), which represented a 200-fold difference. As regards isoprenaline-induced lipolysis, the ED(50) for insulin inhibition was 30 muU/ml before and 2.5 muU/ml after oral glucose (P < 0.01), which was a 12-fold difference. The maximum insulin-induced inhibition of basal and isoprenaline-induced lipolysis were not altered after oral glucose. It is concluded that glucose ingestion is accompanied by a marked increase in insulin sensitivity of human fat cells and this may be an important modulating factor in the overall scheme of insulin action.

Insulin action in human adipose tissue in acromegaly.

The mechanisms underlying insulin resistance in acromegaly were investigated. Adipose tissue was obtained from nine patients with acromegaly who had in vivo insulin resistance and from 14 matched healthy control subjects. Receptor binding and the antilipolytic effect of insulin were determined in isolated fat cells. Insulin-induced glucose oxidation at a physiological hexose concentration was investigated in fat segments. In fat cells obtained from acromegaly patients after an overnight fast, insulin binding at low hormone concentrations was significantly reduced by 20-30%, insulin-induced antilipolysis was unchanged, but glucose oxidation was unresponsive to insulin. Since it has recently been observed that glucose feeding may rapidly modify insulin action in human adipocytes, fat cells were also obtained 60 min after an 100-g oral glucose load. In this situation, insulin binding at low hormone concentrations was further reduced to one-half of that in the control group, and the sensitivity of insulin-induced antilipolysis was markedly decreased in acromegaly. It is concluded that, in the fasting state, the action of insulin on glucose utilization but not on lipolysis is impaired in adipose tissue of acromegalic patients because of a postreceptor defect. After glucose ingestion, the resistance to insulin in acromegaly is further enhanced and antilipolysis is also impaired. Altered coupling between receptor and effector alone or in combination with an additional decrease in receptor binding may explain the enhancement of insulin resistance. These mechanisms may be essential factors in the pathogenesis of insulin resistance in acromegaly.

Turnover and splanchnic metabolism of free fatty acids and ketones in insulin-dependent diabetics at rest and in response to exercise.

Nine insulin-dependent diabetics and six healthy controls were studied at rest, during, and after 60 min of bicycle exercise at a work load corresponding to 45% of their maximal oxygen intake. The catheter technique was employed to determine splanchnic and leg exchange of metabolites. FFA turnover and regional exchange was evaluated using [14C]oleate infusion. Basal glucose (13.8 +/- 1.1 mmol/l), ketone body (1.12 +/- 0.12 mmol/l), and FFA (967 +/- 110 mumol/l) concentrations were elevated in the diabetics in comparison with controls. In the resting state, splanchnic ketone acid production in the diabetics was 6-10-fold greater than in controls. Uptake of oleic acid by the splanchnic bed was increased 2-3-fold, and the proportion of splanchnic FFA uptake converted to ketones (61%) was threefold greater than in controls. In contrast, splanchnic fractional extraction of oleic acid was identical in diabetics and controls. A direct relationship was observed between splanchnic uptake and splanchnic inflow (plasma concentration X hepatic plasma flow) of oleic acid that could be described by the same regression line in the diabetic and control groups. During exercise, splanchnic ketone production rose in both groups. In the control group the increase in ketogenesis was associated with a rise in splanchnic inflow and in uptake of oleic acid, a rise in splanchnic fractional extraction of oleate, and an increase in the proportion of splanchnic FFA uptake converted to ketone acids from 20-40%. In the diabetic group, the increase in ketogenesis occurred in the absence of a rise in splanchnic inflow or uptake of oleic acid, but was associated with an increase in splanchnic fractional extraction of oleic acid and a marked increase in hepatic conversion of FFA to ketones, so that the entire uptake of FFA was accountable as ketone acid output. Splanchnic uptake of oleic acid correlated directly with splanchnic oleic acid inflow in both groups, but the slope of the regression line was steeper than in the resting state. Plasma glucagon levels were higher in the diabetic group at rest and during exercise, while plasma norepinephrine showed a twofold greater increment in response to exercise in the diabetic group (to 1,400-1,500 pg/ml). A net uptake of ketone acids by the leg was observed during exercise but could account for less than 5% of leg oxidative metabolism in the diabetics and less than 1% in controls. Despite the increase in ketogenesis during exercise, a rise in arterial ketone acid levels was not observed in the diabetics until postexercise recovery, during which sustained increments to values of 1.8-1.9 mmol/l and sustained increases in splanchnic ketone production were observed at 30-60 min. The largest increment in blood ketone acids and in splanchnic ketone production above values observed in controls thus occurred in the diabetics after 60 min of recovery from exercise. We concluded that: (a) In the resting state, increased ketogenesis in the diabetic is a consequence of augmented splanchnic inflow of FFA and increased intrahepatic conversion of FFA to ketones, but does not depend on augmented fractional extraction of circulating FFA by the splanchnic bed. (b) Exercise-induced increases in ketogenesis in normal subjects are due to augmented splanchnic inflow and fractional extraction of FFA as well as increased intrahepatic conversion of FFA to ketones. (c) When exercise and diabetes are combined, ketogenesis increases further despite the absence of a rise in splanchnic inflow of FFA. An increase in splanchnic fractional extraction of FFA and a marked increase intrahepatic conversion of FFA to ketones accounts for the exaggerated ketogenic response to exercise in the diabetic. (d) Elevated levels of plasma glucagon and/or norepinephrine may account for the increased hepatic ketogenic response to exercise in the diabetic. (e) Ketone utilization by muscle increases during exercise but constitutes a quantitatively minor oxidative fuel for muscle even in the diabetic. (f) The accelerated ketogenesis during exercise in the diabetic continues unabated during the recovery period, resulting in an exaggerated postexercise ketosis.

Influence of obesity on the antilipolytic effect of insulin in isolated human fat cells obtained before and after glucose ingestion.

The antilipolytic effect of insulin was studied in 9 obese and 10 age- and sex-matched subjects of normal weight. Isolated fat cells were taken before and 1 h after an 100 g oral glucose load. Insulin inhibition of basal and isoprenaline-induced rates of lipolysis were determined by using a sensitive bioluminescent glycerol assay. When compared with the controls, the obese group showed a lower glucose tolerance, a higher insulin secretion, and a lower specific insulin receptor binding per adipocyte surface area, which would suggest an insulin-resistant state. Before oral glucose, however, the sensitivity of the antilipolytic effect of insulin was enhanced 10-fold in obesity (P less than 0.01), but the maximum antilipolytic effect was not altered. Glucose ingestion induced a 10-25-fold increase in insulin sensitivity (P less than 0.01) and a 10% but not significant increase in specific adipocyte insulin receptor binding in the nonobese group. In the obese group, however, neither the insulin binding nor the antilipolytic effect of the hormone was increased by oral glucose. After oral glucose, insulin sensitivity was similar in the two groups. The concentration of the hormone which produced a half maximum effect was about 1 microU/ml. Similar results were obtained with insulin inhibition of basal and isoprenaline-stimulated glycerol release. It is concluded that, after an overnight fast, the sensitivity of the antilipolytic effect of insulin is markedly enhanced in adipocytes of "insulin-glucose resistant" obese subjects, presumably because of alterations at postreceptor levels of insulin action. In obesity, the antilipolytic effect of insulin seems normal after glucose ingestion. Furthermore, in adipocytes of subjects of normal weight, oral glucose rapidly stimulates the sensitivity of the antilipolytic effect of insulin, apparently because of changes at postreceptor sites. This short-term regulation of insulin action following the ingestion of glucose does not seem to be present in obesity.

Survival of isolated human islets of Langerhans maintained in tissue culture.

Transplantation of human pancreatic islets to diabetic patients may require that donor islets be kept viable in vitro for extended time periods before transfer to the recipient. We have maintained isolated pancreatic islets obtained from the human cadaveric pancreas in tissue culture for 1-3 wk, after which we studied the structure and function of the islets. Electron micrographs of the cultured islets showed a satisfactory preservation of both beta-cells and alpha 2-cells. After culture for 1 wk, the islet oxygen uptake proceeded at a constant rate at a low glucose concentration (3.3 mM) and was significantly enhanced by raising the glucose concentration to 16.7 mM. Likewise, after culture for 1 wk, the islets responded with an increased insulin release when exposed to 16.7 mM glucose with or without added theophylline (10 mM). Islets cultured for 1-3 wk were able to incorporate [3H]leucine into proinsulin, as judged by gel filtration of acid-alcohol extracts. Glucagon release from the cultured islets was reduced significantly by 16.7 mM glucose alone, but stimulated by glucose (16.7 mM) plus theophylline (10 MM). It is concluded that viable pancreatic islets can be isolated from the pancreas of adult human donors and maintained in tissue culture for at least 1 wk without loss of the specific functions of the alpha 2- and beta-cells. It remains to be established whether such islets will survive and remain functionally competent after transplantation to human recipients.

Postreceptor defects causing insulin resistance in normoinsulinemic non-insulin-dependent diabetes mellitus.

The mechanisms of the diminished hypoglycemic response to insulin in non-insulin-dependent diabetes mellitus (NIDDM) with normal levels of circulating plasma insulin were investigated. Specific binding of mono-125I (Tyr A14)-insulin to isolated adipocytes and effects of insulin (5--10,000 microunits/ml) on glucose oxidation and lipolysis were determined simultaneously in subcutaneous adipose tissue of seven healthy subjects of normal weight and seven untreated NIDDM patients with normal plasma insulin levels. The two groups were matched for age, sex, and body weight. Insulin binding, measured in terms of receptor number and affinity, was normal in NIDDM, the total number of receptors averaging 350,000 per cell. Neither sensitivity nor the maximum antilipolytic effect of insulin was altered in NIDDM patients as compared with control subjects; the insulin concentration producing half the maximum effect (ED50) was 10 microunits/ml. As regards the effect of insulin on glucose oxidation, for the control subjects ED50 was 30 microunits/ml, whereas in NIDDM patients, insulin exerted no stimulatory effect. The results obtained suggest that the effect of insulin on glucose utilization in normoinsulinemic NIDDM may be diminished in spite of normal insulin binding to receptors. The resistance may be due solely to postreceptor defects, and does not involve antilipolysis.

Effects of intravenous and oral glucose administration on insulin action in human fat cells.

The effects of various forms of glucose administration on insulin action were investigated in isolated human fat cells. Subcutaneous (s.c.) adipose tissue was obtained before and (1) 30 min (eight subjects) and 60 min (seven subjects) after an intravenous (i.v.) glucose load, and (2) after a 60-min continuous i.v. glucose infusion (five subjects). In addition, five subjects were reinvestigated before and 60 min after oral glucose ingestion. Lipolysis (glycerol release) and insulin receptor binding were determined. After all forms of i.v. glucose administration, adipocyte insulin binding was significantly reduced by 20% owing to a decrease in the high-affinity binding, whereas the concentrations of insulin producing the half-maximum inhibitions of basal and isoprenaline-induced rates of glycerol release were unaltered. Sixty minutes after oral glucose ingestion, insulin sensitivity increased 7-30-fold (P less than 0.05-0.01) and high-affinity insulin binding increased by 25% (P less than 0.05). The maximum insulin-induced inhibitions of basal and isoprenaline-stimulated lipolysis were not altered after oral or i.v. glucose. The plasma level of glycerol was markedly and rapidly reduced after oral glucose, but the fall was slow and less pronounced after i.v. glucose. It is concluded that oral, but not i.v., glucose administration mediates a rapid increase in the antilipolytic potency of insulin in human fat cells in vitro. This may explain why antilipolysis in vivo is more pronounced after oral than after i.v. glucose challenge.(ABSTRACT TRUNCATED AT 250 WORDS)

Influence of aging on insulin receptor binding and metabolic effects of insulin on human adipose tissue.

The influence of aging on the peripheral action of insulin was studied using subcutaneous adipose tissue from eight young (range 22-30 yr) and seven middle-aged (40-59 yr), healthy, normal-weight subjects. Insulin binding per cell was 50% lower in the older than in the younger group (P less than 0.01), essentially owing to a decrease in the insulin receptor number. Concomitantly, insulin sensitivity, as reflected in the degree of antilipolysis and stimulation of glucose oxidation, was 10-20 times smaller in the older subjects (P less than 0.01). Basal lipolysis and the maximum antilipolytic effect of insulin were similar in the two groups. The basal rate of glucose oxidation in the older subjects was less than one-half that for the younger group (P less than 0.025), and the maximum level of insulin-induced glucose oxidation was lower by about 75% (P less than 0.012). Age was significantly and negatively correlated with insulin receptor number (r = -0.81), basal production of 14CO2 (r = -0.73) and maximum level of insulin-induced glucose oxidation (r =- -0.68). The decreases in the receptor number and insulin sensitivity were larger in early adulthood than in the elderly, while the decrease in insulin responsiveness was more uniform. It is concluded that aging is accompanied by impairment of the action of insulin on target cells, owing to alterations at both the receptor and the postreceptor levels. These mechanisms, and especially the postreceptor defect, may be essential factors in the development of relative glucose intolerance in the aged.

Influence of fasting and refeeding on the antilipolytic effect of insulin in human fat cells obtained from obese subjects.

The antilipolytic effect of insulin was investigated in obese subjects before and after 7 days of total fasting, and 1 h after oral refeeding with 100 g glucose. Isolated fat cells were prepared from subcutaneous gluteal adipose tissue and incubated in vitro. Specific insulin receptor binding and insulin inhibition of basal and isoprenaline-stimulated lipolysis were determined. During the fasting period, a 15% increase (P less than 0.05) in high-affinity insulin binding and a concomitant 3-4-fold increase in insulin sensitivity were noted, and there was a marked enhancement of the maximum insulin-induced inhibition of basal lipolysis, from 4 to 10 mumol of glycerol/10(7) cells/2 h. The maximum insulin-induced inhibition of isoprenaline-induced lipolysis was similar before and after fasting, about 10 mumol/10(7) cells/2 h. Glucose refeeding induced a 30% decrease (P less than 0.02) in high-affinity insulin binding and a 20-60-fold decrease (P less than 0.01) in the sensitivity of the antilipolytic effect of insulin under basal conditions and in the presence of isoprenaline. The maximum antilipolytic effect of insulin, however, was not altered by glucose refeeding. Thus, in the basal state, maximum antilipolytic effect was larger after refeeding as compared with that before fasting. The high-affinity insulin binding and insulin sensitivity were significantly lower after refeeding than before fasting. Before the fasting period, neither the insulin binding nor the antilipolytic effect of the hormone was altered by oral glucose. It is concluded that fasting and glucose refeeding are associated with marked alterations in the antilipolytic effect of insulin on human fat cells of obese subjects.(ABSTRACT TRUNCATED AT 250 WORDS)

Differences at the receptor and postreceptor levels between human omental and subcutaneous adipose tissue in the action of insulin on lipolysis.

The possible existence of regional differences in the antilipolytic action of insulin in human adipose tissue was investigated in vitro. Insulin-induced inhibition of glycerol release and insulin binding, measured in terms of receptor number, receptor affinity, and dissociation rates, were determined in omental and subcutaneous adipose tissue segments and isolated fat cells of 16 nonobese subjects who were undergoing elective abdominal surgery but were otherwise healthy. The sensitivity of the antilipolytic effect of insulin was higher in subcutaneous than in omental adipose tissue; the half-maximal effect was obtained with 1 and 3 microU/ml of insulin, respectively (P less than 0.01). Responsiveness of the antilipolytic effect of insulin was threefold higher in the subcutaneous than in the omental region (P less than 0.005). Insulin receptor affinity was significantly higher in subcutaneous than in omental fat cells, but there was no difference in receptor number (about 300,000 sites/cell). 125I-insulin dissociated more rapidly from omental than from subcutaneous adipocytes in both the absence and the presence of excess native insulin. The data suggest that significant regional differences exist in the antilipolytic action of insulin in man; omental fat being less responsive than subcutaneous fat. The difference involves the insulin receptor affinity, which is caused at least partly by variations in the insulin dissociation rate but is also due to differences in insulin action at the postreceptor level.

Fifteen years' experience with pancreas transplantation with pancreaticoenterostomy.

We report on 92 pancreas transplantations with exocrine diversion by pancreaticoenterostomy. All recipients suffered from long-term type I (insulin-dependent) diabetes. In most transplantations, cadaveric segmental grafts were used (n = 89). In a few patients, segmental grafts from related donors were used (n = 3), and in a few other patients, whole-organ cadaveric grafts were used (n = 4). There were 9 retransplantations. Most pancreas transplantations were performed in uremic diabetic patients in combination with a kidney transplantation (n = 58). In a few patients the pancreas transplantation was performed after a kidney transplantation (n = 6). The remaining transplantations were in nonuremic diabetic patients who received only a pancreas (n = 25). Over the years, the results have improved considerably; in the 1986-1987 series the overall 1-yr patient survival (ps) and graft survival (gs) rates were 97 and 56%, respectively. The best results were achieved with the combined procedure (ps 100%, gs 77%); with pancreas only, the figures were inferior (ps 92%, gs 34%). Several factors explain the improved results. The incidence of graft thrombosis has been reduced by the use of anticoagulation, and posttransplantation pancreatitis has been reduced by avoiding ischemic injury to the graft. Cyclosporin has helped reduce the incidence of graft rejection, and monitoring of the exteriorized pancreatic juice has helped in the diagnosis of rejection.

Influence of thyroid hormone level on insulin action in human adipose tissue.

The relationship between the levels of circulating thyroid hormones and the action of insulin on adipose tissue was investigated in 6 hypothyroid patients and 6 hyperthyroid patients, all untreated, and 8 healthy control subjects. All were matched for age, body weight, and fat cell size. Gluteal s.c. adipose tissue was used. The insulin receptor number in isolated adipocytes was increased by 70% in hypothyroidism and decreased by 40% in hyperthyroidism. The sensitivities of the effects of insulin on lipolysis and glucose oxidation were increased fourfold in hypothyroidism and decreased fivefold in hyperthyroidism. The maximum insulin-induced glucose oxidation (insulin responsiveness) was inhibited by 60% in hypothyroidism and enhanced by 180% in hyperthyroidism. The thyroid hormone concentration was significantly correlated with insulin receptor number (r = -0.72), insulin responsiveness (r = 0.71), and insulin sensitivity (r = -0.75). It is suggested that thyroid hormones regulate the effect of insulin on adipose tissue, which occurs at the receptor and postreceptor levels of insulin action.

Influence of physical training on formation of muscle capillaries in type I diabetes.

The effects of physical training on skeletal muscle morphology and enzyme activities were compared in 10 male, type I diabetic subjects and 10 healthy, male, control subjects. The training program consisted of running for 45 min, three times per week for 8 wk. Muscle biopsies were obtained before and after the training period from the lateral portion of the gastrocnemius muscle. Pretraining maximal oxygen uptake was similar in the two groups (diabetic subjects 42 +/- 1 versus control subjects 43 +/- 2 ml X kg-1 X min-1), and the training resulted in an identical increase (+ 13%, P less than 0.01). Muscle capillarization (number of capillaries per muscle fiber) increased on the average in the control group (+ 14 +/- 4%, P less than 0.01), but was unchanged in the diabetic group (0 +/- 4%). Capillary density, expressed as number of capillaries per unit muscle cross sectional area, also increased on the average in controls (8 +/- 4%, P less than 0.05) but failed to do so in the diabetic patients (-8 +/- 6%, NS). The activities of the mitochondrial enzymes citrate synthase (+ 26-27%, P less than 0.01-0.05) and succinate dehydrogenase (+ 24-25%, P less than 0.05) increased significantly and similarly in the two groups, whereas training did not result in significant changes in the activities of the glycolytic enzymes 6-phosphofructokinase and glyceraldehyde-phosphate dehydrogenase. Glycemic control in the diabetic group did not improve with the training, as evaluated from hemoglobin A1 and home-monitored blood glucose.(ABSTRACT TRUNCATED AT 250 WORDS)

Segmental pancreatic transplantation with duct ligation or drainage to a jejunal Roux-en-Y loop in nonuremic diabetic patients.

The results of seven segmental pancreas transplantations in diabetic patients, using a jejunal Roux-en-Y loop for drainage of digestive enzymes, are presented. An initial case with pancreatic duct ligation is also included. The patients ranged in age from 30 to 45 yr, with duration of diabetes from 8 to 24 yr, and were incapacitated but not uremic. Immunosuppression was attempted with azathioprine, prednisone, and antilymphocyte globulin, and, in one patient, thoracic duct drainage was added. The pancreas tolerated at least 16 min of warm ischemia and at least 4 h of cold storage; flushing with a balanced electrolyte solution was optimal. Six of the grafts provided control of blood glucose for 7--51 days, and, in one patient, an intravenous glucose tolerance test was normal at 7 and 21 days. Five of the grafts failed due to rejection 7--51 days after transplantation, and one was removed at 14 days, while still functioning, due to bleeding. In one case, early detection of rejection by a rise in post-prandial blood glucose was treated and reversed by corticosteroid administration. Two failed in the immediate postoperative period from vascular thrombosis. Drainage of pancreatic secretions from a fistula was a common problem.

Increased peripheral insulin sensitivity and muscle mitochondrial enzymes but unchanged blood glucose control in type I diabetics after physical training.

Nine male, insulin-dependent diabetic patients participated in a 16-wk training program consisting of 1 h of jogging, running, ball games, and gymnastics, performed 2-3 times/wk. The training resulted in an 8% increase of maximal oxygen uptake (P less than 0.01). Insulin sensitivity as determined by the insulin clamp technique increased 20% (P less than 0.05). Glycosylated hemoglobin showed no change (10.4 +/- 0.7% versus 11.3 +/- 0.5%), 24-h urinary glucose excretion was not reduced, and home-monitored urine tests were unchanged. The frequency of hypoglycemic attacks did not change during the training period and body weight remained constant. There was a 14% fall in plasma cholesterol (P less than 0.01) and a rise in the proportion of HDL-cholesterol from 24 +/- 2% to 30 +/- 3% (P less than 0.01). Thigh muscle oxidative capacity increased, as indicated by a 24% increase in succinate dehydrogenase activity (P less than 0.05). The number of capillaries/muscle fiber increased 15% (P less than 0.01). However, as the mean muscle fiber cross-sectional area increased to a similar extent (11%, P less than 0.05), capillary density (cap x mm-2) was unchanged. In conclusion, this study demonstrates that physical training in insulin-dependent diabetics results in increased peripheral insulin sensitivity, a rise in muscle mitochondrial enzyme activities, decreased total plasma cholesterol levels, and unchanged blood glucose control. The findings suggest that in the absence of efforts to alter dietary regulation and insulin administration, physical training consisting of 2-3 weekly bouts of moderate exercise may not of itself improve blood glucose control in type I diabetes.