UMLS:C0011849 - FACTA Search

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

A polygraphic study involved 122 patients with acute myocardial infarction mostly of transmural nature. In 42 cases using parallel catheterization, barograms of the right portion of the heart and pulmonary artery were recorded. The above non-invasive techniques were tested in relation to their suitability for the indirect determination of the pulmonary circulation pressure. Mathematically substantiated formula are presented designed for the indirect measurement of right atrium and pulmonary pressure. The localization of the primary infarction in the left ventricle anterior wall, recurrent necrosis of the cardiac muscle, attendant essential hypertension and diabetes mellitus are shown to be associated with a more pronounced pulmonary hypertension. An attempt is made to elicit the mechanisms of pulmonary hypertension by correlating the phasic structures of the systole of the right and left ventricles.
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PMID:[Changes in blood pressure in the pulmonary artery in myocardial infarct]. 654 90

Glycogen synthase in skeletal muscle of 3-day alloxan-diabetic rats was found to be in a less active state than in normal muscle. Both the activity ratio (activity without G6P divided by activity with 7.2 mM G6P at 4.4 mM UDPG, pH 7.8) and fractional velocity (activity with 0.25 mM G6P divided by activity with 10 mM G6P at 0.03 mM UDPG, pH 6.9) were significantly lower in the diabetic tissue. Correspondingly, the S0.5 for UDPG and A0.5 for G6P were significantly higher in diabetic tissue, suggesting decreased affinity for substrate and activator, respectively. The kinetic changes in the diabetic synthase were identical whether the alloxan-treated animals were maintained on insulin for 7 days prior to withdrawal for 3 days, or studied 3 days immediately after alloxan treatment. The diabetes-induced changes in synthase could be reversed by injecting the diabetic rat with insulin 10 min prior to sacrifice. After insulin treatment, the S0.5 for UDPG and A0.5 for G6P decreased to control levels or lower and the activity ratios and fractional velocities increased to control levels or higher. The activity of glycogen synthase phosphatase was not decreased in diabetic skeletal muscle. This observation, coupled with the rapid response of the diabetic synthase to in vivo insulin treatment, suggests that, unlike the phosphatase in cardiac muscle and liver, the glycogen synthase phosphatase in skeletal muscle is not altered by the diabetic state.
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PMID:Glycogen synthase in diabetic rat skeletal muscle: activation by insulin. 681 78

Diabetes appears to cause a cardiomyopathy independent of atherosclerotic coronary artery disease and hypertension. Left ventricular papillary muscle function studies in rats made severely diabetic with streptozotocin have shown a slowing of relaxation and a depression of shortening velocity. However, the effects of insulin therapy on the myocardial mechanics of diabetic rats have not been studied. Therefore, rats diabetic for 6-10 weeks were treated with PZI insulin for 2, 6, 10, or 28 days and the mechanical performance of their left ventricular papillary muscles was compared to that of untreated diabetics and age-matched controls; cardiac contractile protein enzymatic activity was also measured. Neither 2 nor 6 days of therapy had any effects on the depressed cardiac muscle performance of diabetic animals, although plasma glucose concentration was restored to normal. By 10 days of therapy, recovery of mechanical performance was nearly complete, and by 28 days of therapy, complete reversal of the altered myocardial mechanics was observed. Crystalline insulin added to the bath (9 mU/ml) had no effect on myocardial mechanics in either diabetics or controls. A gradual recovery of actomyosin and myosin ATPase activity in the hearts of insulin-treated diabetic animals was also found, complementing the mechanical studies. In addition to demonstrating a gradual but complete reversibility of the abnormalities in papillary muscle function in diabetic rats (although control of hyperglycemia was less than ideal), this study confirms that this model of a cardiomyopathy is not a result of streptozotocin-induced cardiac toxicity. Additional data are provided indicating that depressed thyroid hormone levels in diabetic rats are not responsible for the mechanical changes observed.
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PMID:Reversibility of diabetic cardiomyopathy with insulin in rats. 703 May 13

The effects of fasting and diabetes on pantothenic acid (PA) metabolism were studied in rats. Tissue levels of PA and coenzyme A (CoA) and rates of [14C]PA uptake and incorporation into tissue CoA were determined. Both fasting and diabetes resulted in accelerated rates of [14C]PA uptake, higher tissue concentrations of PA, increased incorporation of [14C]PA into CoA, and elevated tissue concentrations of CoA in the liver. The concentration of PA in liver was near the Km of pantothenate kinase for PA in control animals, and increased PA uptake may, in part, account for the increased [14C]PA incorporation into CoA though an elevation in tissue PA levels. In cardiac muscle, increased [14C]PA incorporation into CoA and increased CoA levels were associated with reduced PA uptake and reduced tissue PA levels in both fasting and diabetic animals, suggesting that CoA synthesis is not controlled by substrate availability in this tissue. Uptake of [14C]PA by skeletal muscle was also reduced in diabetic animals. These data suggest that PA uptake by tissues is under metabolic or hormonal control. Decreased uptake by muscle and increased uptake by liver may represent a mechanism for shifting large body stores of PA present in muscle to the liver in which endogenous PA concentrations are normally low. In addition, both fasting and diabetes resulted in decreased urinary PA excretion, a finding that may represent a regulatory mechanism to conserve whole-body PA under these conditions.
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PMID:Effects of diabetes and fasting on pantothenic acid metabolism in rats. 724 30

Diabetes mellitus is associated frequently with congestive heart failure in humans, even in the absence of associated coronary disease or hypertension. Nevertheless, the effects of the diabetic state on myocardial mechanics have not been studied. Accordingly, diabetes was induced in female Wistar rats by injection of streptozotocin (60 mg/kg). Left ventricular papillary muscles were studied 5, 10, and 30 weeks later and compared with controls. Relaxation was delayed significantly and velocity of shortening was depressed at all loads. However, the passive and active force-length curves, as well as the series elastic properties, were not altered. The changes in cardiac performance were found over a range of muscle lengths, stimulus frequencies, and bath concentrations of calcium, glucose, and norepinephrine. The duration of diabetes had no major effect on the mechanical changes observed. The possible influences of drug-induced cardiac toxicity, malnutrition, and altered thyroid hormone levels have been considered; the latter two factors could not be excluded completely from having some influence on the mechanical properties of diabetic cardiac muscle. Evidence is cited showing abnormalities in calcium uptake by sarcoplasmic reticulum and depressed actomyosin ATPase activity. Thus a cardiomyopathic state has been produced in the rat consequent to the induction of experimental diabetes mellitus. Various mechanisms for this entity have been suggested.
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PMID:Altered myocardial mechanics in diabetic rats. 743 39

L-Carnitine metabolism is abnormal in diabetes mellitus, and treatment with acetyl-L-carnitine (ALC) improves the function of cardiac muscle, retina, and peripheral nerve in experimental models. The aim was to compare the effects of ALC and proprionyl-L-carnitine (PLC) on motor and sensory nerve conduction in streptozotocin-diabetic rats and to ascertain whether their action could be mediated by a vascular mechanism. ALC and PLC treatment for 2 months after diabetes induction attenuated the development of sciatic motor nerve conduction velocity (NCV) deficits by 59.4% +/- 4.4% and 46.9% +/- 3.2%, respectively. There was a similar level of protection for sensory saphenous NCV (42.9% +/- 6.6% and 47.8% +/- 6.0%, respectively). Neither ALC nor PLC prevented the development of resistance to hypoxic conduction failure (RHCF) in sciatic nerve from diabetic rats. A 46.5% +/- 3.4% deficit in sciatic endoneurial blood flow, measured by microelectrode polarography and hydrogen clearance, in diabetic rats was partially prevented by both ALC (48.7% +/- 6.4%) and PLC (69.4% +/- 10.1%). ALC had no significant effect on blood flow in nondiabetic rats. Thus, the data show that these L-carnitine derivatives have a similar efficacy in preventing nerve dysfunction, which depends on a neurovascular action.
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PMID:Effects of acetyl- and proprionyl-L-carnitine on peripheral nerve function and vascular supply in experimental diabetes. 766 97

The present study was undertaken to compare the cardiomyopathies induced by experimental diabetes mellitus and chronic isoproterenol (ISO) pretreatment on inotropic reactivity of right ventricular strips from rats. One month after initiation of treatment, cardiac muscle was isolated and challenged with either the beta-adrenoceptor agonist ISO or the calcium channel activator Bay K 8644. Sensitivity and responsiveness to these agonists were determined. Crude membrane preparations were obtained from residual ventricular muscle and beta-adrenoceptor density determined using iodocyanopindolol. Isolated right ventricular strips from diabetic and ISO-treated rats demonstrated hyperresponsiveness to the inotropic effects of Bay K 8644 but subsensitivity to ISO. Ventricular beta-adrenoceptor density was found to be significantly depressed in membrane preparations from both diabetic and ISO-treated groups relative to controls. These data indicate that both forms of cardiomyopathy may affect inotropic reactivity through similar alterations to beta-adrenoceptors and calcium utilization.
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PMID:Pharmacological study of isoproterenol and diabetic cardiomyopathies in rat right ventricular strips. 768 Jan 34

To identify the gene or genes associated with insulin resistance in Type II (non-insulin-dependent) diabetes mellitus, subtraction libraries were prepared from skeletal muscle of normal and diabetic humans and screened with subtracted probes. Only one clone out of 4000 was selectively overexpressed in Type II diabetic muscle as compared to muscle of non-diabetic or Type I diabetic individuals. This clone encoded a new 29-kilodalton member of the Ras-guanosine triphosphatase superfamily and was termed Rad (Ras associated with diabetes). Messenger ribonucleic acid of Rad was expressed primarily in skeletal and cardiac muscle and was increased an average of 8.6-fold in the muscle of Type II diabetics as compared to normal individuals.
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PMID:Rad: a member of the Ras family overexpressed in muscle of type II diabetic humans. 824 82

The effects of streptozotocin-induced diabetes (13 weeks) on the in-vivo glucose uptake and on the protein levels of glucose transporters in rat brain were studied and compared with those in cardiac muscle. Diabetes reduced the uptake of 2-[3H]deoxyglucose into lobus frontalis by 70%. However, uptake rates corrected for the 4-fold increase in serum glucose (glucose metabolic index, GMI) were essentially unaltered. The levels of glucose transporter proteins GLUT1 and GLUT3 in crude membranes from brain as assessed by immunoblotting were unaffected by diabetes, whereas GMI and levels of glucose transporters GLUT1 and GLUT4 in heart were reduced by 80 and 65%, respectively. Thus, glucose uptake and levels of glucose transporters in brain, unlike that in insulin sensitive tissues, are normal in long-term hypo-insulinaemia.
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PMID:In-vivo glucose uptake and glucose transporter proteins GLUT1 and GLUT3 in brain tissue from streptozotocin-diabetic rats. 826 11

Although various factors, such as myocardial infarction, pressure overload and volume overload, result in the development of congestive heart failure (CHF), the pathogenesis of contractile dysfunction in this situation is poorly understood. Loss of cardiac muscle due to myocardial infarction appears to activate several humoral and hormonal pathways, including the renin-angiotensin and sympathetic systems which serve as adaptive mechanisms to maintain cardiovascular performance at early stages of failure. However, under chronic conditions, an altered hormonal profile produces deleterious effects and permits transition from the compensated heart to the failing heart. Since several risk factors--such as hypertension, hypercholesteremia, stress, diabetes, smoking, ageing, obesity and lack of exercise--precipitate ischemic heart disease, it is possible that development of CHF due to myocardial infarction may vary according to the nature of these pathogenetic entities. While a great deal of research work remains in this area of investigation, it is becoming evident that cardiac dysfunction is intimately associated with calcium handling abnormalities of cardiac cells. In view of the role of sarcolemma, sarcoplasmic reticulum and mitochondria in regulating the intracellular concentration of Ca2+ and the importance of myofibrillar interaction with Ca2+, it appears that Ca2+ handling and Ca2+ interaction abnormalities in the failing heart are due to remodelling of different subcellular organelles. Such a remodelling of the subcellular organelles may be due to changes in gene expression for different protein components or the interactions of proteins with phospholipids. Accordingly, it is proposed that new interventions, which could prevent the remodelling of subcellular organelles, be developed for improving the therapy of CHF.
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PMID:Pathophysiology of cardiac dysfunction in congestive heart failure. 828 76

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