Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The usual treatment of diabetic patients during surgery with general anesthesia owes little to logic, common sense, or knowledge of requirements, and mortality and morbidity remain high in many centers. In the nondiabetic patient, surgery is accompanied by a rise in secretion of catabolic hormones, insulin-resistance and loss of protein. Therapy of the diabetic patient should be designed to account for these changes and to avoid hypoglycemia, hyperglycemia, and hyperketonemia. It is suggested that for major operations for well-controlled non-insulin-dependent diabetic (NIDDM) persons and for all minor and major operations for insulin-dependent diabetic (IDDM) persons and poorly controlled NIDDM, a combined insulin (3.2 U/h), glucose (10 g 10% dextrose/h), and potassium infusion should be used until oral feeding recommences. The insulin dose should be modified periodically according to bedside glucose monitoring. Fluids should be used as in nondiabetic patients, except that lactate-containing solutions should be avoided. Insulin requirements will be increased (1) by infection, (2) in patients with hepatic disease, (3) in obese patients, (4) in steroid-treated patients, and (5) during cardiovascular surgery. A diabetes-care team should preferably be responsible for the care of the diabetic pre-, per-, and postoperatively.
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PMID:Insulin delivery during surgery in the diabetic patient. 676 22

ATP-regulated potassium channels play a key role in regulating insulin secretion. We have isolated cDNA clones from a RINm5F insulinoma cell cDNA library that encode a protein, KATP-2, whose sequence shows 72% identity with the rat heart potassium channel KATP. RNA blotting showed that KATP-2 mRNA was present at high levels in brain and undetectable in heart, spleen, lung, liver, skeletal muscle, kidney and testis. A quantitative RT-PCR assay indicated that there were 1.85 +/- 0.32 x 10(5) molecules of KATP-2 mRNA per microgram of total RNA in pancreatic islets from nondiabetic rats. The levels of KATP-2 mRNA were reduced by 34% in islets from diabetic Zucker diabetic fatty male rats, a model of non-insulin dependent diabetes mellitus, compared to their lean nondiabetic littermates (p < 0.05), suggesting that decreased expression of KATP-2 may contribute to beta-cell dysfunction in this animal model.
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PMID:Cloning of rat KATP-2 channel and decreased expression in pancreatic islets of male Zucker diabetic fatty rats. 762 27

Sulphonylurea derivatives are widely used in the treatment of non-insulin-dependent diabetes mellitus. The mechanism of action of the insulino-tropic effect of these agents is based on the closure of adenosine-5'-triphosphate (ATP)-sensitive potassium channels (KATP-channels) in the beta cells of the pancreas. In the last decade, these KATP-channels have been demonstrated in myocardial cells as well as in vascular smooth muscle cells. During myocardial ischaemia, the KATP-channels are thought to open by a fall in the cytosolic ATP concentration. The increase in the extracellular adenosine concentration, and the release of endothelium-derived hyperpolarizing factor (EDHF) during ischaemia may further contribute to the opening of cardiovascular KATP-channels. Independently from the mechanism of opening, sulphonylurea derivatives have been reported to block the opening of cardiovascular KATP-channels. Related to the role of KATP-channel-opening in the (patho)physiology of ischaemia, the use of sulphonylurea derivatives significantly modifies the outcome of experimental myocardial infarction. Sulphonylurea derivatives impair the recovery of the contractile function and increase the ultimate infarct size in animal models. In contrast, sulphonylurea derivatives have a beneficial effect on the incidence of ventricular fibrillation as occurs after ischaemic incidents of the myocardium. Based on these experimental observations, human studies are indicated to investigate whether the use of these drugs modifies the clinical outcome of cardiovascular events in patients with non-insulin dependent diabetes mellitus.
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PMID:Cardiovascular effects of sulphonylurea derivatives. Implications for the treatment of NIDDM? 774 16

A 62-year-old patient with non-insulin dependent diabetes (NIDDM) was admitted to our hospital for blood pressure control. He had been treated with angiotensin converting enzyme inhibitor (ACEI) for 7 years and showed marked hypokalemia with increased urinary potassium excretion. Hormonal examination revealed a normal plasma aldosterone concentration and increased plasma renin activity (PRA, 13.4 ng/ml/h), so potassium losing nephropathy was suspected. After discontinuation of the ACEI, PRA decreased to normal. An adrenal adenoma was found on abdominal magnetic resonance imaging (MRI) and adrenalectomy was performed to confirm aldosterone producing adenoma (APA). Although ACEIs are said not to alter PRA in APA, this drug was primarily responsible for the increased PRA in this case. This is a rare case of APA, which showed markedly increased PRA during ACEI treatment.
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PMID:A case of aldosterone producing adenoma associated with high PRA after long-term angiotensin converting enzyme inhibitor treatment. 795 96

There are two types of diabetes mellitus. Type I, insulin-dependent diabetes (IDDM), which becomes manifest before the age of 40, is the result of an absolute deficiency of insulin. Type II, the non-insulin-dependent diabetes (NIDDM), develops in the elderly and is caused by a relative insulin deficiency. Patients with type-I diabetes are prone to the development of ketoacidosis, while type II causes hyperglycaemic, hyperosmolar, nonketotic coma. Apart from these acute metabolic alterations, the long-term complications of diabetes are of concern to the anaesthesiologist. Hypertension, coronary artery disease, renal insufficiency and autonomic neuropathy are common and can result in myocardial ischaemia, cardiovascular instability and gastroparesis, with an increased risk of aspiration. Limited movement of the atlanto-occipital joint can cause difficult intubation. To avoid perioperative metabolic catastrophy, blood glucose concentration should be kept between 6.7 and 10 mmol.l-1 (120-180 mg.dl-1). Hypoglycaemia can result in neurological damage, whereas hyperglycaemia causes impaired wound healing and susceptibility to infections and worsens ischaemic damage to the myocardium and brain. Perioperative diabetes management depends on the severity of the surgical procedure and the type of diabetes. All type-I diabetics, whatever operation being performed, need insulin. The intravenous route is recommended as it allows better adjustment. After determination of the fasting blood glucose level, insulin is given at a dosage of 0.5-1 U.h-1 (at gluc < 11.1 mmol.l-1), 1.5-2 U.h-1 (at gluc 11.1-16.7 mmol.l-1) or 3 U.h-1 (at gluc > 16.7 mmol.l-1). In addition, 5-10 g glucose.h-1 is given. In type-II diabetes the oral antidiabetic drug is withheld. During minor surgery the blood glucose concentration is monitored frequently, and if necessary insulin (with gluc > 13.9 mmol.l-1) or glucose is given. In most cases of major surgery insulin therapy will be necessary. Administration should follow the guidelines listed for type-I diabetes. Whether the intravenous or the subcutaneous route is used for insulin, repeated glucose determinations are mandatory. If ketoacidosis develops the volume depletion is treated with normal saline. For hyperglycaemia and acidosis insulin (3-6 U.h-1) with 10-20 mmol.h-1 potassium phosphate is given. Bicarbonate is only indicated when the serum pH is lower than 7.1. It must be borne in mind that perioperative management of diabetes does not end with postanaesthesia care.
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PMID:[Anesthesia and diabetes mellitus]. 804 63

A total of 78 Chinese patients with clinically uncomplicated non-insulin-dependent diabetes (NIDDM) who had plasma creatinine concentrations of < 150 mumol/l were studied. Antihypertensive treatment was discontinued for at least six weeks prior to measurements of routine biochemistry, proteinuria, plasma atrial natriuretic peptide (ANP) concentrations and components of the renin-angiotensin-aldosterone system (RAAS). BP was measured on three occasions during the six weeks period prior to these measurements. At the end of the six week period, a total of 33 patients had definite hypertension (supine BP > or = 160/95 mmHg). The hypertensive patients had significantly higher plasma sodium (mean +/- SD): 140.3 +/- 1.9 vs. 138.5 +/- 2.0 mmol/l, P < 0.001) and lower plasma potassium (3.8 +/- 0.5 vs. 4.2 +/- 0.5 mmol/l, P < 0.01) concentrations. These were associated with reduced plasma aldosterone (median (range): 297 (98-1145) vs. 448.5 (93-1330) pmol/l, P < 0.01) and renin concentrations (16.8 (7.4-71.8) vs. 23.5 (7.4-83.7) ng/l, P = 0.06). The hypertensive patients also had significantly higher plasma ANP concentrations (36.5 (20.5-125.1) vs. 23.2 (11.7-63.0) pg/ml, P < 0.001), serum angiotensin converting enzyme (ACE) activity (65 (26-140.9) vs. 47 (22-106) units/l, P < 0.001) and urinary albumin excretion (UAE) (35.4 (1.6-4800) vs. 7.8 (1.8-310.4) mg/day, P < 0.001). Glycaemic control and renal function were similar between the two groups. Mean arterial pressure (MAP) correlated positively with plasma ANP concentration (r = 0.53, P < 0.001) and serum ACE activity (r = 0.37, P < 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Atrial natriuretic peptide and renin-angiotensin-aldosterone system in non-insulin-dependent diabetes mellitus. 808 30

Liquorice extract has been claimed to induce inhibition of the activity of 11 beta-hydroxysteroid dehydrogenase which converts cortisol to cortisone. This enzyme is thought to protect the mineralocorticoid receptor from being occupied by endogeneous glucocorticoids in the kidney. Based on these hypotheses, we investigated the effect of low-dose glycyrrhizine on hyperkalemia due to hyporeninemic hypoaldosteronism in eight subjects with NIDDM. The mean serum potassium concentration decreased from 5.3 +/- 0.3 (SD) mEq/1 to 4.9 +/- 0.2 mEq/1 when 15 g of calcium polystyrene sulfonate, a potassium-binding resin, was given per day, and it decreased significantly to 4.4 +/- 0.4 mEq/1 with 150 mg/day of glycyrrhizine therapy. Changes in fasting plasma glucose and hemoglobin A1c were not significant. These data support the assumption that liquorice extract can be used safely in the therapy for treating hyperkalemia due to selective hypoaldosteronism in diabetes mellitus subjects.
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PMID:Effect of glycyrrhizine on hyperkalemia due to hyporeninemic hypoaldosteronism in diabetes mellitus. 833 14

Non-insulin-dependent diabetes mellitus (NIDDM, type 2 diabetes) is a disorder of glucose homeostasis characterized by hyperglycaemia, peripheral insulin resistance, impaired hepatic glucose metabolism, and diminished glucose-dependent secretion of insulin from pancreatic beta-cells. Glucagon-like-peptide-1(7-37) (GLP-1) is an intestinally derived hormone that may be useful for the treatment of NIDDM because it acts in vivo to increase the level of circulating insulin, and thus lower the concentration of blood glucose. This therapeutic effect may result from the ability of GLP-1 to compensate for a defect in the glucose signalling pathway that regulates insulin secretion from beta-cells. In support of this concept we report here that GLP-1 confers glucose sensitivity to glucose-resistant beta-cells, a phenomenon we term glucose competence. Induction of glucose competence by GLP-1 results from its synergistic interaction with glucose to inhibit metabolically regulated potassium channels that are also targeted for inhibition by sulphonylurea drugs commonly used in the treatment of NIDDM. Glucose competence allows membrane depolarization, the generation of action potentials, and Ca2+ influx, events that are known to trigger insulin secretion.
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PMID:Pancreatic beta-cells are rendered glucose-competent by the insulinotropic hormone glucagon-like peptide-1(7-37). 838 Dec 11

There is accumulating evidence that insulin resistance, glucose intolerance, and hyperinsulinemia exist in people with high blood pressure, and it has been suggested that insulin resistance and hyperinsulinemia may be of great importance in the origin of hypertension and its ultimate clinical course. Of importance are the recent observations that persons with normal glucose tolerance, selected on the basis of hyperinsulinemia, had higher blood pressure than matched individuals with normoinsulinemia. Hypertension in in insulin-resistant states generally has been attributed to hyperinsulinemia, with resulting increases in sympathetic nervous system activity. However, recent data from our laboratory suggest that cellular insulin resistance rather than hyperinsulinemia per se may lead to hypertension. The basic tenet proposed in this article is that a deficiency of insulin at the cellular level represents a common mechanism that is involved in the development of hypertension in both type I and type II diabetes mellitus. Insulin has an important role in the modulation of cellular calcium metabolism. Decreased insulin action on vascular smooth muscle cells may contribute both to hypertension and to accelerated atherosclerosis. Recent observations suggest that an impaired cellular response to insulin predisposes to increased vascular smooth muscle tone (the hallmark of hypertension in the diabetic state). For example, recently reported studies from our laboratory demonstrate that insulin attenuates the vascular contractile response to phenylephrine, serotonin, and potassium chloride. Thus, it appears that insulin normally modulates (attenuates) vascular smooth muscle contractile responses to vasoactive factors, and insulin resistance should accordingly be associated with enhanced vascular reactivity.
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PMID:Vascular insulin abnormalities, hypertension, and accelerated atherosclerosis. 850 34

During long-term treatment of arterial hypertension with calcium antagonists of the dihydropyridine type activation of the sympathetic nervous system and subsequently also of the renin-angiotensin-aldosterone system persists, while the haemodynamic reaction to vasodilatation, manifested by an elevated pulse rate and minute volume from the initial stage of therapy, recedes. In type II diabetics the basal and stimulated response of the renin-angiotensin-aldosterone system is reduced. The administration of calcium antagonists of the dihydropyridine type does not stimulate significantly the renin-angiotensin-aldosterone system as the starting function of the sympathetic nervous system is impaired within the framework of vegetative neuropathy. In almost 20% NIDDM plasma renin activity and aldosterone do not respond to furosemide administration and the vertical posture. In others the response is found but takes place at reduced levels. Hyporeninaemic hypoaldosteronism is thus manifested not so much by a drop of plasma renin and aldosterone beneath the lower range of reference values as by a reduced response to stimulation. Functional hyporeninaemic hypoaldosteronism is another, frequent late complication of diabetes. In advanced forms a further block of the renin-angiotensin-aldosterone system by ACE inhibitors can then produce, even in the absence of diabetic nephropathy, in the stage of chronic renal failure dangerous hyperkaliaemia which may threaten the patient. Dynamic examination of the sympathetic nerve and the renin-angiotensin-aldosterone system makes it possible to predict this condition. In practice it is necessary in diabetics with arterial hypertension after starting with ACE inhibitors during the first days to monitor repeatedly plasma potassium and creatinine. ACE inhibitors and calcium antagonists are otherwise for diabetics drugs of first choice which can arrest the progression of nephropathy, effectively reduced the blood pressure without causing deterioration of insulin resistance and hyperlipoproteinaemia and lead even to regression of hypertrophy of the vascular wall and left ventricle.
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PMID:[The effect of long-term treatment of arterial hypertension with Ca antagonists on the renin-angiotensin-aldosterone system in diabetics. Hyporeninemic hypoaldosteronism]. 857 95


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