Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seventy per cent of the patients aged 45 years or under and suffering from diabetic ketoacidosis who were seen in one diabetic clinic over five years were women. The association of menstruation with ketoacidosis was assessed over two and a half years, and it was found that menstruation was associated with ketoacidosis more often than would be expected by chance (P less than 0-01). Two hundred women were interviewed and 76 observed that menstruation changed their diabetic control. Fifty-three found that control deteriorated and hyperglycaemia occurred, while 23 found that control improved and hypoglycaemia was a common problem. Menstruation appears to be an important factor in influencing control of diabetes. The mechanism of the changes observed has not yet been determined, but it seems to be a subject worthy of further investigation.
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PMID:Menstruation and control of diabetes. 40 8

A 59-year-old women with no previous history of diabetes mellitus was admitted in diabetic ketoacidosis. Ultrasonic biometry was used to measure axial vitreous length during therapy. Vitreous length increased from 14.09 mm shortly after admission to 14.26 mm (p less than 0.05) when the episode of diabetic ketoacidosis cleared. An interesting finding was the presence of a horseshoe-shaped retinal tear after the patient was discharged. Severe dehydration with resultant shrinkage of the vitreous compartment may provide sufficient vitreoretinal traction to cause a retinal tear. In addition, an estimate of volume change showed a comparable decrease in vitreous volume seen with therapy using osmotic agents measured in rabbits.
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PMID:Diabetic ketoacidosis with retinal tear. 41 55

The binding of insulin to a specific receptor on IM-9-cultured human lymphocytes was studied in vitro under conditions simulating diabetic ketoacidosis. Compared with control incubations at pH 7.4, binding was reduced by 19 per cent at pH 7.1 and by 48 per cent at pH 6.8. Addition of beta-hydroxybutyrate, at concentrations similar to those seen clinically, "restored" insulin binding toward normal. We suggest that, by counteracting the effects of acidosis, ketoacids themselves maintain normal insulin-receptor binding in diabetic ketoacidosis. These data also illustrate that small molecules, present in vivo, can significantly alter the interactions between a hormone and its receptor in vitro.
Diabetes 1978 May
PMID:Ketoacids and the insulin receptor. 64 43

In a group of pancreatectomized subjects, immunoreactive glucagon (IRG) concentrations were normal after an overnight fast, increased after oral glucose, were not suppressed by somatostatin (SRIF) or insulin, and in two of four subjects they rose with an arginine infusion. Even though the SRIF infusion failed to lower IRG, there was a fall in plasma glucose concentration in both subjects. In two subjects, endogenous hyperglycemia occurred during insulin withdrawal without a rise in IRG, and, in one subject, mild diabetic ketoacidosis developed with only a minimal rise in IRG. These results support the presence of an extrapancreatic source of IRG in man. Secretion from these extrapancreatic alpha cells appears to be regulated differently than secretion from pancreatic alpha cells.
Diabetes 1978 Oct
PMID:Immunoreactive glucagon responses to oral glucose, insulin infusion and deprivation, and somatostatin in pancreatectomized man. 70 Feb 56

Glucagon is secreted not only by A2-cells of the pancreatic islets but also by A cells in the gastric fundus and duodenum. Several reports have demonstrated that the glucagon plasma concentration is increased in genetic diabetes as well as in many conditions associated with a decreased glucose tolerance such as hepatic cirrhosis, myocardial infarction, infectious diseases, burns, taumatic shock, glucagonomas, acute pancreatitis, acromegaly, pheochromacytoma and Cushing's syndrome. Hyperglucagonemia is particularly important in diabetic ketoacidosis and in non-ketotic hyperosmolar coma. The mechanisms responsible for the diabetic's hyperglucagonemia remain controversial. According to several authors, the increased glucagon secretion is, for its main part, secondary to a prolonged defect in insulin secretion and thus relatively insensitive to an acute insulin administration. According to others, the A cell abnormality is of primary origin, independant from insulin deficiency and its effects are cumulative with those of the insulin lack. Several reports dealing with induced or spontaneous experimental diabetes are in favor of the first or the second hypothesis. It appears likely that glucagon plays a role in the metabolic derangments of diabetes. Indeed, hepatic glucose production is closely related to the ratio of molar concentrations of insulin and glucagon. Finally, in insulin-dependant diabetics, somatostatin infusion reduces plasma glucagon concentration and blood glucose and prevents the development of ketosis after withdrawal of insulin therapy. These results illustrate the contribution of glucagon in the pathogenesis of hyperglycemia and ketosis. Several arguments have been accumulated in favor of the following concept: diabetes hyperglycemia results both from glucose under-utilization secondary to insulin lack and from hepatic glucose over-production due to glucagon excess. Although controversial, the role of glucagon in ketogenesis appears likely.
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PMID:[The role of glucagon in hyperglycemia. A review (author's transl)]. 79 28

To evaluate the role of glucagon in the pathogenesis of diabetic ketoacidosis in man, we studied the effect of suppression of glucagon secretion by somatostatin on changes in plasma beta-hydroxybutyrate and glucose concentrations (as well as changes in their precursors) after acute withdrawal of insulin from seven patients with juvenile-type diabetes. Suppression of glucagon secretion prevented the development of ketoacidosis for 18 hours after acute insulin withdrawal, whereas in control studies mild ketoacidosis occurred 10 hours after insulin was stopped. Plasma beta-hydroxybutyrate, glucose, free fatty acid, and glycerol levels were all markedly lower during suppression of glucagon secretion (p smaller than 0.001), whereas plasma alanine levels were higher (p smaller than 0.001). These studies indicate that insulin lack per se does not lead to fulminant diabetic ketoacidosis in man and that glucagon, by means of its gluconeogenic, ketogenic, and lipolytic actions, is a prerequisite to the development of this condition.
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PMID:Prevention of human diabetic ketoacidosis by somatostatin. Evidence for an essential role of glucagon. 80 37

Glucose tolerance and insulin responses have been examined over extended periods in severely obese, but otherwise healthy, subjects. Three significant points emerge from this study. First, it was shown that obese, supposedly ketosis resistant, subjects may deteriorate in a brief time span from a state of normal glucose disposal and adequate or increased insulin responses to insulin-deficient diabetes, culminating in ketoacidosis. Unusually high blood glucose levels complicating the ketoacidosis in two patients suggest hyperosmolarity obesity and added risk factor in severely obese diabetics. It appears that, after long-standing obesity and after years of hyperinsulinemia, a large weight gain due to prolonged overeating may impose an excessive challenge to islet cells of marginal competence. Such an event by itself or a superimposed stress or both may then cause acute insulin deficiency and/or insulin resistance leading to diabetic ketoacidosis. Hyperosmolarity may be exacerbated in the obese with cessation of food intake due to large losses of salt and water. Second, many symptoms and manifestations of hyperphagic obesity are similar to the early functional abnormalities of decompensated diabetes. The advent of the critical phase of uncontrolled diabetes, therefore, fails to alarm the obese patient and may escape timely recognition by the physician. Third, technical and mechanical difficulties due to severe obesity are apt to cause critical delays in therapy. These factors, when added to coexisting hyperosmolarity and ketoacidosis, probably account for the high mortality in these patients.
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PMID:Evolution of diabetic ketoacidosis in gross obesity. 80 48

The renin-angiotensin-aldosterone system was evaluated in two types of uncontrolled diabetes: a) diabetic ketoacidosis, and b) nonketotic hyperglycemia. In thirteen patients with ketoacidosis, mean plasma renin activity (PRA) was 58 plus or minus 12 (S.E.M.) ng. per milliliter per hour and in four patients, plasma aldosterone was 82 plus or minus 17 ng. per 100 ml. Corresponding values for upright salt-depleted subjects were 13 plus or minus 2 and 62 plus or minus 8. In eleven diabetics with nonketotic hyperglycemia (mean glucose 318 plus or minus 19 mg. per cent), mean blood volume was 4,660 ml. and PRA 2.1 plus or minus .7. After control of the diabetes (mean glucose 129 plus or minus 13) blood volume was 4,553 ml. and PRA 3.3 plus or minus 1 (NS). The results suggest that: 1) diabetic ketoacidosis is a state of severe secondary aldosteronism, 2) no significant change in blood volume or PRA occurs during short periods of hyperglycemia, and 3) insulin is not necessary for renin release.
Diabetes 1975 Feb
PMID:Plasma renin activity and blood volume in uncontrolled diabetes. Ketoacidosis, a state of secondary aldosteronism. 80 22

To evaluate the effect of insulin-saline-bicarbonate therapy on amino acid metabolism in diabetic ketoacidosis, arterial and venous blood samples as well as cerebrospinal fluid (CSF) were obtained from six patients before and after initiation of corrective therapy. Levels of CSF glutamine were decreased while alanine alpha-amino-n-butyrate, valine, isoleucine and leucine were increased significantly compared to a control group composed of six normal, postabsorptive adults free of any neurologic disease. Following therapy, CSF levels of alanine, alpha-amino-n-butyrate, valine, isoleucine, and leucine declined while glutamine levels did not change. Admission arterial plasma levels of the glycogenic amino acids were lower than normal while the branched-chain amino acids were elevated. Plasma alanine and glutamine arterio-venous (A-V) differences across forearm tissue were larger. After four hours of corrective therapy, arterial plasma levels of most of the amino acids had declined sharply and A-V differences for glutamine and alanine were markedly reduced (p smaller than.025 and p smaller than.01, paired t, respectively). Coincident with the decrease in A-V amino acid differences, plasma glucagon and free fatty acid levels declined significantly. These data suggest that the effect exerted by insulin-saline-bicarbonate therapy on amino acid metabolism is manifested by diminished A-V plasma alanine and glutamine differences across forearm tissue. Thus, the role played by the splanchnic bed both before and following corrective measures may be secondary to substrate availability.
Diabetes 1975 May
PMID:Plasma and cerebrosponal fluid amino acid levels in diabetic ketoacidosis before and after corrective therapy. 80 76

1. The interaction of insulin and isometric exercise on glucose uptake by skeletal muscle was studied in the isolated perfused rat hindquarter. 2. Insulin, 10 m-i.u./ml, added to the perfusate, increased glucose uptake more than 10-fold, from 0.3-0.5 to 5.2-5.4 mumol/min per 30g of muscle in hindquarters of fed and 48h-starved rats respectively. In contrast, it did not stimulate glucose uptake in hindquarters from rats in diabetic ketoacidosis. 3. In the absence of added insulin, isometric exercise, induced by sciatic-nerve stimulation, increased glucose uptake to 4 and 3.4 mumol/min per 30g of muscle in fed and starved rats respectively. It had a similar effect in rats with moderately severe diabetes, but it did not increase glucose uptake in rats with diabetic ketoacidosis or in hindquarters of fed rats that had been "washed out" with an insulin-free perfusate. Insulin, at concentrations which did not stimulate glucose uptake in resting muscle, restored the stimulatory effect of exercise in these situations. 4. The stimulation of glucose uptake by exercise was independent of blood flow and the degree of tissue hypoxia; also it could not be reproduced by perfusing resting muscle with a medium previously used in an exercise experiment. 5. At rest glucose was not detectable in muscle cell water of fed and starved rats even when perfused with insulin. In the presence of insulin, a small accumulation of glucose, 0.25 mM, was noted in the muscle of ketoacidotic diabetic rats, suggesting inhibition of glucose phosphorylation, as well as of transport. 6. During exercise, the calculated intracellular concentration of glucose in the contracting muscle increased to 1.1-1.6mM in the fed, starved and moderately diabetic groups. Insulin significantly increased the already high rates of glucose uptake by the hindquarters of these animals but it did not alter the elevated intracellular concentration of glucose. 7. In severely diabetic rats, exercise did not cause glucose to accumulate in the cell in the absence of insulin. In the presence of insulin, it increased glucose uptake to 6.1 mumol/min per 30g of muscle and intracellular glucose to 0.72 mM. 8. The data indicate that the stimulatory effect of exercise on glucose uptake requires the presence of insulin. They suggest that in the absence of insulin, glucose uptake is not enhanced by exercise owing to inhibition of glucose transport into the cell.
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PMID:Glucose metabolism in perfused skeletal muscle. Interaction of insulin and exercise on glucose uptake. 80 2


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