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

Vigorous exercise is currently being encouraged for health maintenance. There is much evidence that a moderate amount of exercise is needed for the maintenance of functional integrity of the cardiovascular system, muscles, bones, and ligaments. There is also fragmentary evidence of a preliminary nature suggesting that regularly performed exercise may protect against and have beneficial effects on coronary artery disease, diabetes, and hypertension. However, the scientific evidence that strenuous exercise has long-term health benefits or slows aging is meager and unconvincing. Even in the case of coronary artery disease, diabetes, and hypertension, the majority of studies have provided either negative or inconclusive results or have resulted in only minor improvements. Taken together, available evidence is inadequate to serve as a basis for recommending regular participation in strenuous exercise for middle-aged and older individuals. This is particularly true because the theories that exercise may accelerate the aging process as a result of increases in metabolic rate and stress hormone production have never been disproved. Therefore, because of the major public health implications of exercise, large-scale, well-controlled studies of the effects of exercise on coronary artery disease, adult onset diabetes, hypertension, and various aspects of the aging process are urgently needed. Important barriers to progress in this area are the current dearth of exercise physiologists interested in research on health maintenance and well trained in human exercise physiology and the lack of an appropriate research funding mechanism for large-scale, interdisciplinary studies of the effects of exercise on chronic disease processes and aging.
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PMID:Exercise, health, and aging: a need for more information. 684 18

During the last decades the physical activity drastically was reduced in daily life. Epidemiological and prospective studies suggest that regular physical activity has beneficial effects in prevention of non-insulin dependent diabetes mellitus, and has protective benefit in control of risk factors in coronary artery disease. It increases cardiovascular functional capacity, decreases myocardial oxygen demand and has a blood-pressure lowering effect. In the prevention of obesity together with a proper diet, regular training is the most important factor influencing life-style. Some studies indicate that exercise might promote protection against colon, breast and lung cancers. To maintain good health aerobic exercise with a moderate intensity on a regular basis is recommended.
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PMID:[The role of physical activity in the prevention of certain internal diseases]. 747 81

Diastolic dysfunction may be the earliest marker of a diabetes-induced heart muscle disease which leads to the progressive development of cardiac failure. Left ventricular diastolic function was indirectly assessed using pulsed wave Doppler ultrasound mitral-flow velocities in 20 normotensive patients with a new diagnosis of type 2 diabetes mellitus, normal cardiac function and no evidence of coronary artery disease and in 16 age-matched normal subjects. Peak velocities of early (E) and late (A) left ventricular filling were measured. The median (interquartile ranges) peak E/A ratio was significantly reduced in the diabetic group 0.96 (0.8-1.2) vs 1.2 (1.1-1.3), P < 0.01. Despite improvements in glycaemic control over 3 months, HbA1c 9.9% (7.6%-10.5%) to 7.4% (6.5%-7.9%), P < 0.001, maintained at 6 months, HbA1c 7.0% (6.4%-7.3%), there were no changes in the E/A ratio, 0.96 (0.83-1.15) and 0.95 (0.83-1.17), respectively. Furthermore, there was no correlation between percentage change in HbA1c and E/A ratio over 6 months. The results of this study suggest that in patients with type 2 diabetes mellitus and normal systolic function, diastolic function was impaired at diagnosis and was not affected by an improvement in the glycaemic control.
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PMID:Diastolic dysfunction is not related to changes in glycaemic control over 6 months in type 2 (non-insulin-dependent) diabetes mellitus. A cross-sectional study. 757 31

Diabetes mellitus is associated with a three to fourfold increased risk for coronary artery disease and diabetic patients frequently have an abnormal plasma lipid profile. Lately, lipoprotein (a) has received attention as an important independent risk factor for cardiovascular disease. This lipoprotein is elevated in patients with type II diabetes mellitus and there may be an association between the metabolic control of these subjects and its levels. In this review the main features of lipoprotein (a) and its relationship to the fibrinolytic system and atherosclerosis are reviewed.
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PMID:[Lipoprotein (a), atherosclerosis, and diabetes mellitus]. 765 88

In order to evaluate whether Lp(a), a lipoprotein that is potentially thrombogenic and atherogenic, is a potential risk factor for CAD in non-insulin-dependent diabetes (NIDDM), we compared the Lp(a) and its distribution in 145 NIDDM patients with that in 94 healthy control subjects. Furthermore, we studied the effect of insulin treatment on serum Lp(a) in 108 patients with NIDDM. Male and female NIDDM patients had similar Lp(a) concentrations to healthy controls (median value 167 mg L-1, range 15-1550 mg L-1 vs. 157 mg L-1, range 15-919 mg L-1, NS and 92, range 15-1190 mg L-1 vs. 103 mg L-1, range 15-842 mg L-1, NS). Also, the cumulative distribution of Lp(a) did not differ between the NIDDM patients and healthy subjects. Insulin treatment increased Lp(a) in diabetics with a Lp(a) concentration of less than 300 mg L-1, but this effect was not related to the concomitant improvement in metabolic control (mean change (+/- SEM) of HbA1c from 9.80 +/- 0.15 to 8.00 +/- 0.12; P < 0.001). In subjects with elevated Lp(a) concentrations (> 300 mg L-1) the Lp(a) concentration was unaffected by insulin, despite a similar improvement in glycaemic control. These results suggest that insulin may modulate the concentration of Lp(a).
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PMID:Effect of insulin treatment on serum lipoprotein(a) in non-insulin-dependent diabetes. 778 67

The microvascular complications of retinopathy, nephropathy, and neuropathy are less prevalent, and not as severe, in NIDDM as compared with IDDM for unknown reasons. Macrovascular disease is the greatest challenge in the management of NIDDM because it is the cause of death in 50% to 60% of this patient population. Control of the hyperglycemia is the most important because the prevention of complications is more effective than the treatment of them. Blood glucose control through diet, exercise, and medication is the key to reducing the previously identified complications. Lifestyle modifications of diet and exercise are the most effective treatment to reduce hyperglycemia. It is important to emphasize during the asymptomatic period the serious consequences of the complications and to set goals using the glycosylated hemoglobin. If these goals are not met, treatment should be intensified by more frequent visits or referral for the team approach. The time for intervention is before the complications are present, not after they occur. It is certainly reasonable to reduce as many risk factors as possible that adversely affect the complications of NIDDM. Hypertension can affect the course of coronary artery disease, retinopathy, nephropathy, and neuropathy and should be treated. The avoidance of tobacco is a must for the prevention of vascular disease and is associated with painful neuropathy. Dyslipidemia is seen frequently in NIDDM and should be assessed by fasting lipid panel and treated to lower the LDL cholesterol below 130 mg/dL. Reduction of individual risk factors is the most effective approach to this complex clinical syndrome until such time as a better understanding of the pathophysiology provides a more specific and effective intervention.
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PMID:Noninsulin-dependent diabetes mellitus. The prevention of complications. 787 91

Hyperinsulinaemia and hypertriglyceridaemia are frequently associated. This may be as a part of the syndrome of insulin resistance or in diabetes, particularly non-insulin-dependent diabetes (NIDDM). The importance of this association lies in the facts that atherosclerosis is the most frequent complication of diabetes, that hypertriglyceridaemia is a risk factor for coronary artery disease in diabetic populations and that hyperinsulinaemia also appears to be a risk factor for atherosclerosis. Hypertriglyceridaemia, even without obesity, is associated with resistance to insulin. This can result in compensatory hyperinsulinaemia. Chronic hyperinsulinaemia has been shown to increase the production of triglyceride (TG)-rich lipoproteins. The vast majority of particles in the TG-rich lipoprotein spectrum are in the intermediate-density-lipoprotein (IDL) range. Furthermore, increased levels of TG result primarily from increased numbers of these particles, rather than from increased particle size. This is important because, at least in nondiabetic individuals, increased levels of IDL are associated with increased atherosclerosis. Thus, there may be a vicious cycle of insulin resistance, hyperinsulinaemia, hypertriglyceridaemia and atherosclerosis. We have found that by reducing plasma TG levels alone, one can increase sensitivity to insulin and break this cycle.
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PMID:Hyperinsulinaemia and hypertriglyceridaemia. 798 4

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

This study was aimed at evaluating the level of metabolic control and cardiovascular risk factors in a population of Type 2 diabetic patients with coronary artery disease. We used myocardial thallium-201 scintigraphy as a measure of coronary perfusion integrity. One hundred and forty six diabetic patients presenting with chest pain, ischaemic ECG changes or a positive exercise test underwent myocardial thallium-201 imaging perfusion in conjunction with exercise stress. Scintigrams were assessed by a computer assisted image analysis. The cardiovascular risk factors considered were sex, age, BMI and waist-hip ratio, smoking, systolic and diastolic blood pressure, serum lipids (total cholesterol and triglycerides), glycated haemoglobin A1, urinary albumin excretion, white blood cell count, and diabetes duration. The proportion of male diabetic subjects with a positive scintigraphy was 63% while that of diabetic women was 45% (p < 0.05). Mean age, anthropometric measures and diabetes indices were similar when diabetic patients with positive or negative scintigraphy were compared. The prevalence of patients with microalbuminuria and retinopathy (both non-proliferative and proliferative) was higher in positive (26% and 27%, respectively) than in negative (10% and 11%, respectively, p = 0.01) diabetic patients. Total cholesterol and white blood cell counts were also higher in positive diabetics (p < 0.05-0.01). These findings suggest that a cluster of risk factors (cholesterol, white blood cells, microalbuminuria) may be implicated in the development of coronary artery disease in Type 2 diabetes mellitus.
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PMID:Coronary artery disease in type-2 diabetes mellitus: a scintigraphic study. 805 27

The relationship between serum levels of lipoprotein(a) Lp(a)) and the presence of chronic diabetic complications was studied in 194 patients with non-insulin-dependent diabetes mellitus (NIDDM; 75 males, 119 females; age 66 +/- 11 years; duration of diabetes, 11 (range 1-35) years). They were taking various treatments (diet alone, oral hypoglycaemic agents and/or insulin). Metabolic status and prevalence of diabetic complications were assessed by detailed history, physical examination, laboratory analysis and ECG. Average metabolic control was moderate (HbA1c 8.2 +/- 1.7%). Median serum Lp(a) level was 183 U l-1 (range 8-2600 U l-1), which was significantly higher than in control subjects of comparable age (median 101; range 8-1747 U l-1; P < 0.05), while HDL-cholesterol levels were lower (1.14 +/- 0.38 vs. 1.35 +/- 0.35 mmol l-1; P = 0.001), and total cholesterol levels were comparable. No significant relationships between diabetes treatment or metabolic control and Lp(a) levels were observed. In the quartile of patients with the highest Lp(a) levels, total cholesterol and triglycerides were slightly higher (P < 0.05), whereas HDL-cholesterol was not different. With increasing Lp(a) levels, higher prevalences of preproliferative retinopathy and of coronary artery disease (CAD) were observed, but not of the other complications. No relationship was found between the degree of albuminuria and Lp(a) levels. We conclude that in NIDDM patients, Lp(a) levels are elevated compared with non-diabetic subjects, and that higher Lp(a) levels are associated with higher prevalences of CAD and of retinopathy.
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PMID:Lipoprotein(a) levels in relation to diabetic complications in patients with non-insulin-dependent diabetes. 824 30


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