UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Magnesium and potassium were analyzed in plasma, erythrocytes, and urine collected during 24 h and in muscle biopsies from 25 subjects with insulin-dependent, type I diabetes mellitus (IDDM). Magnesium was also measured in mononuclear cells. The results were compared with those of 28 healthy controls, and were also correlated with the degree of diabetic control as estimated by analysis of the level of glycosylated hemoglobin (HbA1c). Subjects with IDDM had significantly lower muscle (P less than 0.01) and plasma (P less than 0.001) concentrations of magnesium compared with those of healthy controls. The HbA1c levels correlated significantly with the concentrations of magnesium in muscle (r = -0.62, P less than 0.001), plasma (r = -0.62, P less than 0.001), and mononuclear cells (r = -0.47, P less than 0.05). The results indicate that some patients with IDDM have lowered contents of magnesium in striated muscular and/or plasma, and that those parameters are dependent on the degree of diabetic control.
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PMID:Magnesium deficiency in IDDM related to level of glycosylated hemoglobin. 395 82

Aim of the present paper is to study the modifications of some laboratory parameters most related to glycaemic metabolism during 24 hours of feed-back glycaemic control by artificial beta-cell. Twelve subjects affected by insulin dependent diabetes mellitus were submitted to GCIIS BIOSTATOR Miles evaluating, before and after 24 hours, blood tryglicerides, cholesterol, uric acid, sodium, potassium. A significant variation was found between the trygliceridemic values before and after automatic control. There was no variation in natriemic values before and after control. Variations, but not significant, were found in cholesterolemic, kaliemic and uricacidaemic values.
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PMID:[Various biohumoral parameters (blood triglycerides, blood cholesterol, blood uric acid, blood electrolytes) after automatic control by an artificial pancreas in subjects with type I diabetes mellitus]. 652 87

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

The effects of acute deprivation of insulin on renal glomerular and tubular functions were studied in 10 children with juvenile diabetes mellitus. Serum glucose concentrations were similar when insulin was administered (251 +/- 112 mg/dl) and when it was withheld (306 +/- 130 mg/dl; 0.5 greater than 0.2). Acute insulin deprivation was associated with a significant reduction in glomerular filtration rate, from 151 +/- 48 ml/min/1.73 m2 to 114 +/- 41 ml/min/1.73 m2 (p less than 0.01). The fractional excretion of sodium rose from 0.45 +/- 0.43 to 0.85 +/- 0.54% (p less than 0.05) and was associated with an enhanced natriuresis; the urinary excretion of sodium increased from 1.67 +/- 1.23 to 2.43 +/- 1.72 microEq/min/kg body weight (p less than 0.05), whereas the urinary excretion of phosphate was not significantly altered from control values. During insulin deprivation a drop occurred in the serum concentration of calcium from 10.37 +/- 0.52 to 9.73 +/- 0.61 mg/dl (p less than 0.01) as well as in its urinary excretion from 0.34 +/- 0.24 to 0.24 +/- 0.20 microgram/min/kg body weight (p less than 0.01). The serum concentration of potassium rose from 4.44 +/- 0.41 to 4.96 +/- 0.51 mEq/l, but its urinary excretion was not significantly different from control values. These data suggest that in juvenile diabetes mellitus the acute deprivation of insulin, dissociated from fluctuations in serum glucose concentration, is associated with a fall in glomerular filtration rate, an increased natriuresis, and a modified calcium and potassium homeostasis.
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PMID:Renal glomerular and tubular function following acute insulin deprivation in juvenile diabetes mellitus. 705 Jul 53

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

We have previously demonstrated weekly iv insulin-like growth factor-I (IGF-I; 500 micrograms/kg) bolus therapy to be effective in inducing sustained insulin sensitivity in a patient with type I diabetes mellitus and massive insulin resistance. The present study was undertaken to determine the efficacy of daily sc IGF-I in the treatment of two severely insulin-resistant type I diabetic patients (requiring in excess of 3500 U insulin/day) compared to weekly iv IGF-I therapy. Prolonged insulin sensitivity was achieved in both patients after weekly 500 micrograms/kg iv bolus infusions of IGF-I, with sc insulin requirements falling to approximately 1 U/kg.day. Smaller iv doses (250 micrograms/kg) of IGF-I were ineffective in acutely lowering serum glucose or inducing sustained insulin sensitivity. However, even this smaller IGF-I dose resulted in acute symptomatic hypophosphatemia, which could be prevented by coadministration of potassium phosphate. With sc administered IGF-I (up to 10 mg twice daily), insulin appeared to control patient glucose concentrations, but severe insulin resistance returned within 72 h of discontinuing IGF-I therapy. IGF-I dosing was decreased to the lowest concentration that maintained euglycemia (7.5 mg in the morning and 2.5 mg in the evening). However, severe arthropathy in both patients and neurological symptoms including multiple cranial nerve palsies in one patient were associated with chronic therapy. We conclude that both iv and sc administered IGF-I can precipitate acute symptomatic hypophosphatemia. Chronic low dose sc therapy may be associated with severe neuropathy and arthropathy, and does not induce the sustained insulin sensitivity associated with high dose intermittent bolus IGF-I therapy.
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PMID:High dose intravenous, but not low dose subcutaneous, insulin-like growth factor-I therapy induces sustained insulin sensitivity in severely resistant type I diabetes mellitus. 804 59

To examine the interaction between angiotensin II (ANGII) and dopamine in type 1 diabetes mellitus, urinary dopamine excretion was examined during ANGII infusion in 15 diabetic patients and 10 control subjects after pretreatment with lithium 750 mg and placebo. The antinatriuretic response and the urinary dopamine response to ANGII did not differ within or between the two groups on each study day. No correlation was observed between the decrements in urinary sodium excretion and urinary dopamine output during ANGII infusion in either group. The effect of insulin on urinary dopamine excretion was studied separately in seven non-diabetic subjects; sodium and potassium retention occurred during a hyperinsulinaemic euglycaemic clamp, but urinary dopamine did not change. The data suggest that the relationship between urinary sodium excretion and tubular dopamine synthesis remains normal in early type 1 diabetes mellitus both at baseline and during the antinatriuresis induced by angiotensin II. The cause of the reduction in urinary dopamine during ANGII infusion is unclear, but is probably not mediated directly by changes in proximal tubular sodium transport.
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PMID:Urinary dopamine response to angiotensin II is not abnormal in type 1 (insulin-dependent) diabetes mellitus. 838 32

The influence of diabetic nephropathy on urinary glycosaminoglycan distribution was assessed in 96 patients with insulin-dependent diabetes mellitus (IDDM, 49 female, age: 16 - 64 yrs, median 35; duration of IDDM: 0 - 43 yrs, median 13 yrs) in comparison to 103 healthy controls (57 female, 17 - 82 yrs, median 40 yrs). Glycosaminoglycan concentration of 24 h urine samples was determined by means of precipitation with cethylpyridinium chloride and potassium acetate in ethanol followed by a colorimetric test with carbazole. A marked difference (p = 0.0008) in urinary glycosaminoglycan excretion between patients (19.0, 12.4, 35.6 mg/24 h, median, 25th, 75th percentile) and controls (15.8, 10.4, 21.6 mg/24h) could be detected. In patients with insulin-dependent diabetes mellitus of longer duration, glycosaminoglycan excretion was increased (<10 years: 17.3, 10.8, 30.5 mg/24 h; > 10 yrs: 23.3, 16.0, 39.1 mg/24 h; p = 0.03). Furthermore, diabetic patients with manifest nephropathy and retinopathy exhibited a significantly higher glycosaminoglycan excretion compared to patients without nephropathy (40.8, 23.3, 42.2 versus 18.2, 11.4, 31.0 mg/24 h, p = 0.005) or retinopathy (31.9, 16.6, 41.6 versus 17.6, 11.2, 26.7 mg/24 h, p = 0.009). Thus, the results of this study demonstrate a close relationship between diabetic nephropathy and the renal glycosaminoglycan excretion.
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PMID:Insulin-dependent diabetes mellitus and glycosaminoglycans. 875 Jul 85

The whole-cell configuration of the patch-clamp technique was employed to measure the transient outward potassium current in enzymatically isolated ventricular cells of spontaneously diabetic rats (BB/Wor) and mice (ob/ob). Healthy littermates (non-diabetic BB rats and lean mice) were used as controls. There was no significant difference between the non-diabetic and diabetic BB rats (Type I diabetes, IDDM) in the amplitude of either the current measured in the absence or the one found in the presence of 4-aminopyridine. The voltage dependence of the activation and steady-state inactivation was also similar in both populations, as no significant difference was observed in the rate of recovery from inactivation of Ito. The amplitudes of the total and 4-aminopyridine sensitive currents of lean and obese mice (Type II diabetes, NIDDM) were also similar. The voltage dependences of the activation and of the steady-state inactivation did not differ significantly, either. Our results might indicate certain limitations of the applicability of experiments carried out on genetically diabetic rats if the results are compared to those derived from the healthy littermates as controls.
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PMID:Characteristics of the ventricular transient outward potassium current in genetic rodent models of diabetes. 907 5

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