UMLS:C0392674 - FACTA Search

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Query: UMLS:C0392674 (exhaustion)
13,658 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The contribution of proinsulin to the total serum immunoreactive insulin (IRI) was measured in 59 patients with maturity onset diabetes (23 being treated with diet alone and 36 with oral sulfonylurea agents) and compared to that in 44 control subjects. The percentage of proinsulin was increased in 11 patients and correlated with plasma glucose, but not with IRI. There was no difference between the drug-treated group and diet-treated group, or between patients taking different sulfonylurea agents. Sequential studies in one patient showed normalization of the proportion of proinsulin following lowering of the plasma glucose level. It is probably that the increased circulating proportion of proinsulin in hyperglycemic diabetic patients is secondary to beta cell exhaustion with release of less mature granules.
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PMID:Circulating proinsulin in patients with maturity onset diabetes. 34 87

To determine the dynamics of insulin and of glucagon secretion in response to several sequential stimuli administered shortly after an arginine pulse (5 g), 20 nonobese, apparently healthy volunteers were given arginine (5 g), glucose (5 g), and tolbutamide (1 g) by rapid intravenous injection. The early insulin and glucagon area 0-8 min was studied. At the intervals and with the dosages used in this study, different stimuli with and without prestimulation with arginine did not lead to changes in early secretion of insulin. There was no exhaustion of the pool of insulin released after multiple sequential pulses. These results suggest a pattern in which stimulation induces a rapid release of insulin and activates the interchange between the stored and labile insulin pool; the 8-min interval is sufficient for the rapid return of the two compartments to a state of equilibrium. Also for glucagon, subsequent different stimuli did not exhaust glucagon release; nevertheless, glucagon is immediately suppressed by a submaximal glucose pulse.
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PMID:Early insulin and glucagon response to subsequent pulses of arginine, glucose, and tolbutamide in normal man. 36 91

"Essential labile diabetes" is an insulin-dependent diabetes, in the course of which irregular and unpredictable hyperglycemias, frequently with ketosis, and sometimes serious hypoglycemias alternate. In spite of careful treatment with insulin, diet and suitable hygienic measures, this form of diabetes cannot be influenced. Fortunately, it seldom occurs, not more frequently than in 1 to 2% of diabetics. Various attempts have been made to explain the pathogenesis of this form of the disease. The most probable explanation is that there is an almost complete exhaustion of insulin secretion. This hypothesis is based on the extremely low level of the C peptide below 0.60 ng/ml, whereas in non-labile insulin-dependent diabetics the C peptide amounts to more than 2.2 ng/ml
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PMID:[Essential labile diabetes (author's transl)]. 40 27

Insulin-induced hypoglycemia caused depression of rhythmic monosynaptic EPSP motoneurons of the lumbar cord in acute experiments on narcotized and spinal cats. It was demonstrated that growing depression of monosynaptic transmission was associated with the exhaustion of mediator operative fraction and not with any pre- or postsynaptic delay or inhibition over a period of initial hypoglycemia when the sugar content in the blood fell to the level of 50--60 mg%. The function disturbance of postsynaptic formations of monosynaptic reflex arc of spinal cord occured in more advanced hypoglycemia.
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PMID:[Monosynaptic reflexes of the cat spinal cord during the development of insulin hypoglycemia]. 43 22

Seven young, healthy subjects performed bicycle exercise with a working load leading to exhaustion after one hour of work. The tests were done in the afternoon in the fed state. The serum insulin concentrations decreased from 22 to 4 mU/l and plasma glucagon increased from 241 to 340 pg/l already after 30 min of work. The level of adipose tissue lipoprotein lipase activity (LPLA) did not fall as had been expected, but increased. The skeletal muscle LPLA was unchanged. The results indicate that during the first hour of heavy exercise the heparin-releasable LPLA in tissues is not influenced by the work induced changes in serum hormone levels.
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PMID:Lipoprotein-lipase activity of human skeletal-muscle and adipose tissue after intensive physical exercise. 44 62

The importance of autonomic nervous activity for the pancreatic hormonal response to exercise in man was studied. 7 men ran at 58% of V(O2)max (determined without administration of drugs) to exhaustion during alpha-adrenergic blockade with phentolamine (P), during parasympathetic blockade with atropine (A), or without drugs (C). At rest phentolamine increased the plasma concentrations of both insulin and norepinephrine. During exercise norepinephrine concentrations increased and were in P experiments 3 times the concentrations in C experiments. Insulin always declined during exercise but in P experiments never decreased below basal levels. At identical times neither glucagon nor glucose differed significantly in the different expts. Thus during exercise alpha-adrenergic blockade increased insulin concentrations but did not diminish the glucagon response. Nor was this response increased when beta-receptor stimulation in P experiments was intensified by the particularly high catecholamine concentrations. The concentrations of FFA, glycerol and lactate were highest in P experiments and identical in A and C experiments. These findings indicate that during prolonged moderate exercise in man insulin secretion is depressed by stimulation of alpha-adrenergic receptors whereas glucagon secretion is not influenced by adrenergic receptors. Stimulation of beta-adrenergic receptors enhances lipolysis but neither lipolysis nor pancreatic hormonal secretion is influenced by cholinergic activity during exercise.
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PMID:Catecholamines and pancreatic hormones during autonomic blockade in exercising man. 59 18

The conception of a specific association between maturity-onset diabetes and manic-depressive psychosis, on a common basis with diencephalic functional obesity, has been recently taken again in consideration by the psychiatric literature. Investigations on this problem from diabetological point of view have been so far completely lacking, and are proposed with the present study. Symptomatic depressive conditions in diabetes are frequent and should be primarily separated from depressive endogenous psychosis. The pathogenesis of the association between diabetes of the adult-obese type and psychosis might be discussed according to a transactional theoretical model, assuming a positive feed-back mechanism of the two relationships: diabetes-psychosis and psychosis-diabetes. With these criteria, 4 observations of the clinical association were collected out of 274 admissions for diabetes, during 1976. Diabetes is intended as overt diabetes; obesity presented with the stenic picture; psychosis had a monopolar melancholic course. Similar clinical features were characteristic in all cases. The relationship diabetes-psychosis showed no evidence, unless importance should be given to a potential diabetes in 3 cases. On the contrary, the relationship psychosis-diabetes could be demonstrated in the four cases. A psychosomatic scheme connecting the neuro-hormonal correlations to a genetically conditioned exhaustion of the beta-function, is postulated. During melancholic recurrences, diabetes proved to be insulin-dependent and even insulin-resistent in 2 cases. Tricyclic antidepressant theraphy did not modify the metabolic situation.
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PMID:[Association of adult obese-type diabetes and depressive psychosis (clinical cases)]. 61

The influence of 12 h of fasting after prolonged severe exercise on the muscle glycogen concentration was studed in 5 normal subjects. The subjects exercised in the post absorptive state at 70% of max. Vo2 till exhaustion, then rested for 12 h. No food was allowed during recovery. Blood samples and muscle biopsies were obtained before exercise, immediately after the cessation of exercise, and after 2, 4, 6, 9 and 12 h of recovery. Muscle glycogen content decreased from 70.4 +/- 3.0 to 21.6 +/- 3.9 mmol glucosyl units/kg w.w. in response to exercise. After 4 h of recovery muscle glycogen had increased to 28.8 +/- 3.6 mmol glucosyl units/kg (P less than 0.025). During the next 8 h of recovery no further increase in glycogen concentration was observed. Mean plasma glucose concentration was observed. Mean plasma glucose concentration decreased from 5.25 +/- 0.16 to 4.37 +/- 0.18 mmol/l during exercise (P less than 0.001). No change in the plasma glucose level was observed during recovery. Immunoreactive insulin (IRI) concentration decreased from 15.9 +/- 1.0 to 10.2 +/- 0.5 micromicron/ml (P less than 0.001) during exercise, and remained at this level during recovery. It is concluded that some muscle glycogen repletion may occur after prolonged, severe exercise even under fasting conditions. It is suggested that this may proceed through an increased hepatic gluconeogenesis.
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PMID:Muscle glycogen concentration during recovery after prolonged severe exercise in fasting subjects. 70 38

Seven men ran at 60% of individual maximal oxygen uptake to exhaustion during beta-adrenergic blockade with propranolol or without drugs. After propranolol administration the increases during exercise in plasma glucagon and epinephrine concentrations as well as the decrease in plasma glucose concentrations were faster than in control experiments. When euglycemia was maintained by glucose infusion during beta-adrenergic blockade, glucagon and epinephrine responses to exercise, although not abolished, were markedly reduced. The diminution of the exercise-induced decline in glucose concentrations correlated significantly with the diminution of the glucagon as well as the epinephrine responses. Thus decreased glucose concentrations may significantly enhance the secretion of glucagon and epinephrine during prolonged exercise in man. Since the diminution of the glucagon response produced by glucose infusion was not accompanied by significant alterations in the levels of nonesterified fatty acid (NEFA) and glycerol, increased glucagon secretion does not seem to be a major determinant of lipolysis during exercise in man. During glucose infusion, glycogen utilization rates in muscle (n = 4) tended to decrease, whereas carbohydrate combustion rate and concentrations of norepinephrine, insulin, alanine, and lactate were unchanged.
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PMID:Glucose-induced decrease in glucagon and pinephrine responses to exercise in man. 86 12

Seven men ran at 60% of individual maximal oxygen uptake to exhaustion during beta-adrenergic blockade with propranolol (P), during lipolytic blockade with nicotinic acid (N), or without drugs (C). The total work times (83 +/- 9 (P), 122 +/- 8 (N), 166 +/- 10 (C) min, mean and SE) differed significantly. Epinephrine rose progressively above preexercise levels (0.06 +/- 0.01 ng/ml); at exhaustion concentrations in P experiments (2.15 +/- 0.41) were larger than in N (1.08 +/- 0.31) and C (0.72 +/- 0.28) experiments. Norepinephrine increased consistently while insulin decreased. After an initial decrease glucagon concentrations increased progressively in parallel with declining plasma glucose and were at exhaustion always three times preexercise values. Thus beta-adrenergic blockade did not diminish the glucagon response. Nor was this response increased when alpha-receptor stimulation in P experiments was intensified. Carbohydrate combustion was smaller and NEFA and glycerol concentrations in serum larger during C experiments. Alanine concentrations were never raised at exhaustion. Accordingly, neither stimulation of adrenergic receptors nor NEFA and alanine concentrations are major determinants for the exercise-induced glucagon secretion in man. It is suggested that decreased glucose availability enhances the secretion of glucagon and epinephrine during prolonged exercise.
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PMID:Glucagon and plasma catecholamines during beta-receptor blockade in exercising man. 93 21

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