UMLS:C0011860 - FACTA Search

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the potential roles of astragalus and angiotensin II type 2 receptor (AT2) in rats with streptozotocin (STZ)-induced diabetic cardiomyopathy. Of 52 female 4-week-old Wistar rats treated with high glucose and lipid diet to induce insulin resistance, 7 treated with sodium citrate buffer (pH=4.5) served as controls (con1) and the other 45 were treated by intraperitoneal injection (ip) of STZ to induce type 2 diabetes. After 20 weeks, the maximal velocity decrease of pressure per second in left ventricle within the period of isovolumic relaxation (-dp/dtmax) was detected by inserting cannula through right carotid artery. Of the 45 rats, 24 with -dp/dtmax < or = 700 mmHg/s (1 mmHg=0.133 kPa) developing diabetic cardiomyopathy were grouped as follows: 7 treated with double distilled H2O (ip) were included in control group 2 (con2); other 8 treated with AT2 agonist (CGP42112A, ip) were included in experimental group1 (exp); 9 treated with astragalus (po) constituted experimental group 2 (exp2). All injections lasted 4 weeks (qd) and the heart weight (HW) was recorded. Cardiomyocyte apoptosis index (CAI), mRNA of AT2 and Bcl-2 as well as AT2 and Bcl-2 protein values in cardiomyocytes were also measured. Our results showed that -dp/dtmax in exp1, exp2 and con2 were much lower than those in con1 (P<0.01). CAI and AT2 in both mRNA and protein in con1 were lower than those in the other three groups (P<0.01). The three parameters above were higher in exp1 but less in exp2 than those in con2, respectively (P<0.01). The three parameters and HW in exp1 were much higher than those in exp2 (P<0.01). Changes of Bcl-2 were opposite to those of AT2. Our results suggested that high expression of AT2 might accelerate the apoptosis of cardiomyocytes in diabetic rats and play an important role in precipitating diabetic cardiomyopathy and astragalus protects diabetic rats from developing cardiomyopathy by downregulating AT2.
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PMID:Astragalus prevents diabetic rats from developing cardiomyopathy by downregulating angiotensin II type2 receptors' expression. 1558 4

Diabetic cardiomyopathy is a common chronic complication leading to heightened risk of heart failure among diabetic patients. In this chapter, we describe the methods for maintenance and breeding of two diabetic animal models, OVE26 and Agouti mice, for type 1 and type 2 diabetes, respectively. To understand the pathological mechanism, antioxidants such as manganese superoxide dismutase are overexpressed specifically in hearts of diabetic mice. Methods utilized to produce cardiac-targeted transgenic mice are presented in this chapter. Diabetic cardiomyopathy is evaluated in control, diabetic and transgene-protected diabetic animals by measuring contractility of isolated cardiomyocytes. Preparation and contractile analysis of cardiac myocytes are described in detail. Diabetic cardiomyocytes exhibit impaired contractility as well as delayed relaxation, and cardiac-overexpressed antioxidant transgenes are shown to reverse this damage.
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PMID:Cardiomyocyte defects in diabetic models and protection with cardiac-targeted transgenes. 1601 31

Diabetes mellitus is associated with a distinct cardiomyopathy. Whether cardiac myofilament function is altered in human diabetes mellitus is unknown. Myocardial biopsies were obtained from seven diabetic patients and five control, nondiabetic patients undergoing coronary artery bypass surgery. Myofilament function was assessed by determination of the developed force-Ca2+ concentration relation in skinned cardiac cells from flash-frozen human biopsies. Separate control experiments revealed that flash freezing of biopsy specimens did not affect myofilament function. All patients in the diabetes mellitus cohort were classified as Type 2 diabetes mellitus patients, and most showed signs of diastolic dysfunction. Diabetes mellitus was associated with depressed myofilament function, that is, decreased Ca2+ sensitivity (29%, P < 0.05 vs. control) and a trend toward reduction of maximum Ca2+-saturated force (29%, P = 0.08 vs. control). The slope of the force-Ca2+ concentration relation (Hill coefficient) was not affected by diabetes, however. We conclude that human diabetes mellitus is associated with decreased cardiac myofilament function. Depressed cardiac myofilament Ca2+ responsiveness may underlie the decreased ventricular function characteristic of human diabetic cardiomyopathy.
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PMID:Depressed cardiac myofilament function in human diabetes mellitus. 1608 78

In this study we examined diabetes- and hypertension-induced changes in cardiac structure and function in an animal model of type 2 diabetes, the Goto-Kakizaki (GK) rat. We hypothesized that treatment with omapatrilat, a vasopeptidase inhibitor, which causes simultaneous inhibition of angiotensin converting enzyme and neutral endopeptidase, provides additional cardioprotective effects, during normal- as well as high sodium intake, compared to treatment with enalapril, a selective inhibitor of angiotensin converting enzyme. Fifty-two GK rats were randomized into 6 groups to receive either normal-sodium (NaCl 0.8%) or high-sodium (NaCl 6%) diet and enalapril, omapatrilat or vehicle for 12 weeks. The GK rats developed hypertension, cardiac hypertrophy and overexpression of cardiac natriuretic peptides and profibrotic connective tissue growth factor compared to nondiabetic Wistar rats. The high dietary sodium further increased the systolic blood pressure, and changed the mitral inflow pattern measured by echocardiography towards diastolic dysfunction. Enalapril and omapatrilat equally decreased the systolic blood pressure compared to the control group during normal- as well as high-sodium diet. Both drugs had beneficial cardioprotective effects, which were blunted by the high dietary sodium. Compared to enalapril, omapatrilat reduced the echocardiographically measured left ventricular mass during normal-sodium diet and improved the diastolic function during high-sodium diet in GK rats. Furthermore, omapatrilat reduced relative cardiac weight more effectively than enalapril during high sodium intake. Our results suggest that both the renin-angiotensin and the neutral endopeptidase system are involved in the pathogenesis of diabetic cardiomyopathy since vasopeptidase inhibition was shown to provide additional benefits in comparison with selective angiotensin converting enzyme inhibition alone.
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PMID:Vasopeptidase inhibition has beneficial cardiac effects in spontaneously diabetic Goto-Kakizaki rats. 1613 72

Fifty type 2 diabetes patients (25 of them being hypertensive) who had no cardiac symptoms had their left ventricular function assessed. There were 24 female and 26 male diabetes patients evaluated, along with a control group of 50 healthy subjects. The patients and controls underwent full clinical evaluation, which included physical examination, blood biochemistry (urea and electrolyte; creatinine, creatinine clearance; fasting blood and two-hour postprandial glucose levels, lipid profile), electrocardiograph, chest radiograph, and echocardiograph. The hypertensive diabetes patients had higher cholesterol levels, and 50% had levels >5.0 mmol/L. Sixteen patients had cataracts, 14 had background retinopathy, 12 had peripheral neuropathy, and 7 had peripheral vascular disease. The subjects had significantly lower ejection fraction than controls, and fractional shortening showed a similar pattern. Eight patients had ejection fraction <50% compared to none of the controls. Sixty-six percent of the subjects and 30% of the controls had diastolic dysfunction (reverse E/A ratio, prolonged deceleration time, and lower deceleration rate), respectively, but the diabetes patients did not show any difference. Diastolic dysfunction correlated significantly with age, fasting blood glucose, and two-hour postprandial glucose. The subjects had higher left ventricular mass (LVM) than controls. The LVM correlated significantly positively with diastolic blood pressure, systolic blood pressure, and pulse pressure. Subclinical diabetic cardiomyopathy exists in our patients; in addition, other risk factors for cardiomyopathy and coronary artery disease exist, including hypertension, hypercholesterolemia, and obesity.
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PMID:Left ventricular function in type 2 diabetes patients without cardiac symptoms in Zaria, Nigeria. 1626 87

Insulin-resistance syndromes are of pandemic proportions; 150 million people worldwide and an estimated 43 million people in the US are currently affected by type 2 diabetes mellitus or metabolic syndrome respectively. Treatment of heart disease in the context of type 2 diabetes requires multifactorial risk-factor management, including lifestyle modification and drug treatment for comorbidities. Management of coronary risk extends beyond simple cholesterol lowering. Early use of cardiac imaging and, where appropriate, revascularization should be considered in high-risk or symptomatic patients. Traditionally, patients with type 2 diabetes and coronary arterial disease have been treated surgically, but percutaneous revascularization of these patients is increasingly common. Indeed, revascularization by use of drug-eluting coronary stents combined with administration of novel antiplatelet agents has revolutionized percutaneous coronary intervention in patients with type 2 diabetes. Despite these advances, there is no consensus of opinion regarding revascularization strategies or risk-factor management in insulin-resistant patients with symptomatic or prognostically important coronary arterial disease. Furthermore, specific therapies and preventative strategies for diabetic cardiomyopathy and heart failure in patients with type 2 diabetes remain elusive. The identification of optimized approaches for the prevention and treatment of the metabolic syndrome and heart disease in insulin-resistant, nondiabetic patients remains a major global challenge.
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PMID:Therapy insight: heart disease and the insulin-resistant patient. 1626 9

Altered cardiac metabolism and function (diabetic cardiomyopathy) has been observed in diabetes. We hypothesize that cardiac efficiency, the ratio of cardiac work (pressure-volume area [PVA]) and myocardial oxygen consumption (MVo(2)), is reduced in diabetic hearts. Experiments used ex vivo working hearts from control db/+, db/db (type 2 diabetes), and db/+ mice given streptozotocin (STZ; type 1 diabetes). PVA and ventricular function were assessed with a 1.4-F pressure-volume catheter at low (0.3 mmol/l) and high (1.4 mmol/l) fatty acid concentrations with simultaneous measurements of MVo(2). Substrate oxidation and mitochondrial respiration were measured in separate experiments. Diabetic hearts showed decreased cardiac efficiency, revealed as an 86 and 57% increase in unloaded MVo(2) in db/db and STZ-administered hearts, respectively. The slope of the PVA-MVo(2) regression line was increased for db/db hearts after elevation of fatty acids, suggesting that contractile inefficiency could also contribute to the overall reduction in cardiac efficiency. The end-diastolic and end-systolic pressure-volume relationships in db/db hearts were shifted to the left with elevated end-diastolic pressure, suggesting left ventricular remodeling and/or myocardial stiffness. Thus, by means of pressure-volume technology, we have for the first time documented decreased cardiac efficiency in diabetic hearts caused by oxygen waste for noncontractile purposes.
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PMID:Increased myocardial oxygen consumption reduces cardiac efficiency in diabetic mice. 1644 82

The Otsuka-Long-Evans Tokushima Fatty rat represents a model for spontaneous non-insulin-dependent type II diabetes mellitus (DM), characterized by diastolic dysfunction and associated with abnormal calcium handling and decrease in sarcoplasmic reticulum Ca2+ -ATPase (SERCA2a) expression. The aim of this study was to examine whether SERCA2a gene transfer can restore the energetic deficiency and left ventricular (LV) function in this model. DM rats were randomized to receive adenovirus carrying either the SERCA2a gene (DM + Ad.SERCA2a) or the beta-galactosidase gene (DM + Ad.betaGal) or saline (DM + saline). LV mechanoenergetic function was measured in cross-circulated heart preparations 3 days after infection. In DM, end-systolic pressure at 0.1 ml intraballoon water (ESP0.1) was low and end-diastolic pressure at 0.1 ml intraballoon water (EDP0.1) was high (22 mm Hg), compared with non-DM (EDP0.1 12 mm Hg). In DM + Ad.SERCA2a, however, ESP0.1 was increased over 200 mm Hg and EDP(0.1) was decreased to 7 mm Hg. LV relaxation rate was fast in DM + Ad.SERCA2a, but slow in the other DM groups. There was no difference in relation between cardiac oxygen consumption per beat and systolic pressure-volume area among all groups. Finally, the oxygen cost of LV contractility in DM was about three times as high as that of normal. In DM + Ad.SERCA2a, the oxygen cost decreased to control levels, but in DM + Ad.betaGal/DM + saline it remained high. In DM failing hearts, the high oxygen cost indicates energy wasting, which contributes to the contractile dysfunction observed in diabetic cardiomyopathy. SERCA2a gene transfer transforms this inefficient energy utilization into a more efficient state and restores systolic and diastolic function to normal.
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PMID:Mechanical and metabolic rescue in a type II diabetes model of cardiomyopathy by targeted gene transfer. 1658 3

Given the heterogeneous nature of metabolic dysfunctions associated with insulin resistance and type 2 diabetes (T2D), a single pharmaceutical cannot be expected to provide complication-free therapy in all patients. Thiazolidinediones (TZD) increase insulin sensitivity, reduce blood glucose and improve cardiovascular parameters. However, in addition to increasing fat mass, TZD have the potential in certain individuals to exacerbate underlying hepatosteatosis and diabetic cardiomyopathy. Pharmacogenetics should allow patient selection to maximize therapy and minimize risk. To this end, we have combined two genetically diverse inbred strains, NON/Lt and NZO/Lt, to produce a "negative heterosis" increasing the frequency of T2D in F1 males. As in humans with T2D, treatment of diabetic and hyperlipemic F1 males with rosiglitazone (Rosi), an agonist of peroxisome proliferator-activated gamma receptor (PPARgamma), reverses these disease phenotypes. However, the hybrid genome perturbed both major pathways for phosphatidylcholine (PC) biosynthesis in the liver, and effected remarkable alterations in the composition of cardiolipin in heart mitochondria. These metabolic defects severely exacerbated an underlying hepatosteatosis and increased levels of the adipokine, plasminogen activator inhibitor-1 (PAI-1), a risk factor for cardiovascular events. This model system demonstrates how the power of mouse genetics can be used to identify the metabolic signatures of individuals who may be prone to drug side effects.
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PMID:Adverse hepatic and cardiac responses to rosiglitazone in a new mouse model of type 2 diabetes: relation to dysregulated phosphatidylcholine metabolism. 1675 Jun 56

Diabetes mellitus increases by 2.5 to 5 the relative risk of congestive heart failure. Besides the classical risk factors of congestive heart failure such as obesity, arterial hypertension and coronary artery disease that are frequently associated to type 2 diabetes, a diabetic cardiomyopathy plays also a role. This specific complication is related to metabolic factors and oxidative stress, leading to muscular cell apoptosis and fibrosis. The management of a diabetic patient with congestive heart failure has several specificities not only concerning the treatment of cardiac insufficiency but most importantly concerning antidiabetic therapy. The relationship between glitazones, peripheral oedema and risk of congestive heart failure is currently raising much interest and controversies.
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PMID:[Diabetes mellitus and congestive heart failure: physiopathology and treatment]. 1697 38

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