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

Epidemiologic research indicates that glucose intolerance and hypertension are interrelated phenomena, each powerfully predisposing to atherosclerotic cardiovascular disease. Both diabetic and hypertensive patients have greater amounts of atherogenic risk factors, including dyslipidemia, hyperuricemia, elevated fibrinogen, and left ventricular hypertrophy. Diabetic persons have an increased prevalence of hypertension (50%), and glucose intolerance is more common in hypertension (15% to 18%). Both share a strong relationship to excess weight, but the excess of hypertension in diabetic persons occurs in both lean and obese subjects. Diabetes doubles the risk of hypertension associated with overweight. The risk of coronary disease, stroke, and peripheral arterial disease increases with increasing blood pressure to the same degree in diabetic persons as in nondiabetic persons, but at any level of blood pressure, diabetic persons have a doubled risk of these outcomes. Both diabetic and hypertensive patients are particularly prone to silent or unrecognized myocardial infarctions. Greater efforts at primary prevention of both hypertension and diabetes are clearly needed, including efforts at weight control, exercise, limitation of salt intake, and control of blood lipid levels. In either diabetic or hypertensive candidates for cardiovascular disease, optimization of the chances of avoiding sequelae requires a comprehensive multifactorial approach. Prevention requires more than normalization of either the blood sugar or blood pressure. Rational preventive measures must also include weight reduction, a fat-modified diet, cessation of smoking cigarettes, raising high-density lipoprotein, lowering low-density lipoprotein, and reduction of fibrinogen. Hypertension, obesity, insulin resistance, hyperinsulinemia, hypertriglyceridemia, and low high-density lipoprotein cholesterol tend to coexist.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The epidemiology of impaired glucose tolerance and hypertension. 200 55

In an ongoing study of brain microvasculature in humans at autopsy, we had the opportunity to analyze the overall scheme of this vascular supply. The native endothelial membrane enzyme, alkaline phosphatase, is used to precipitate black lead sulfide salt in the vessel wall, rendering the brain microvasculature visible by both light microscopy and microradiography. There are six distinct patterns of intraparenchymal afferent blood supply to the supratentorial brain: short arterioles from a single source (e.g., those in the cortex); short- to intermediate-length arterioles, single source (anterior two-thirds of the corpus callosum); short- to intermediate length arterioles and arteries, dual source (subcortical U fibers); intermediate-length arterioles and arteries, triple source (extreme/external capsule and claustrum); long arteries and arterioles, single source (centrum semiovale); and large, long muscular arteries, single source (thalamus and basal ganglia). The nature of this arrangement offers some protection to certain regions of the cerebrum from circulatory challenges such as hypotension, while leaving other areas vulnerable. The distal arterioles supplying two of these protected regions, the U-fiber area and the extreme/external capsule and claustrum area, also exhibit the feature of interdigitation, which can offer additional collateral potential from one arteriolar territory to the next. Aging, hypertension, diabetes mellitus, and atherosclerosis can have a significant impact on brain microcirculation. The way in which vascular patterns dictate the distribution of these effects is discussed. The ability to stain the cerebral microvessels and demonstrate the finer points of their patterns in sections and microradiographs has enabled us to resolve some long-standing questions about vascular connections and directions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Features of the cerebral vascular pattern that predict vulnerability to perfusion or oxygenation deficiency: an anatomic study. 211 4

1. To dissociate the effects on the development of diabetic renal injury of angiotensin converting enzyme (ACE) inhibition per se, and a reduction in systemic blood pressure, we have studied the effects of chronic ramapril treatment in streptozotocin diabetic spontaneously hypertensive rats, with modulation of the hypotensive effect by a high salt diet. 2. Three weeks following uninephrectomy and induction of diabetes with streptozotocin, spontaneously hypertensive rats were allocated to three treatment groups. Groups 1 and 2 received 1% sodium chloride and Group 3 water as drinking solution. Groups 2 and 3 received 0.4 mg/kg per day ramapril in drinking solution over the subsequent 2 month study period. 3. Sodium chloride drinking solution (1%) completely prevented any hypotensive effect of ramapril. Blood pressure was reduced in Group 3 rats over the entire period of study, when compared with Group 2 rats (P less than 0.001). 4. Urinary protein excretion progressively increased in Group 1 and 2 rats, and was significantly reduced (P less than 0.001) in Group 3. After 2 months treatment, urinary protein (expressed as mean and s.e.m.) was 160 +/- 30 mg/day in Group 1, 240 +/- 50 mg/day in Group 2, and 60 +/- 11 mg/day in Group 3. 5. Angiotensin converting enzyme inhibition per se was not associated with a reduced protein excretion in diabetic nephropathy, requiring concomitant control of systemic blood pressure to become renoprotective.
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PMID:High salt diet ameliorates effects of angiotensin converting enzyme inhibition in spontaneously hypertensive streptozotocin diabetic rats. 214 Mar 3

The risk factors vascular disease, smoking, alcohol, a diet high in saturated fat and cholesterol, sedentary life style, obesity, glucose intolerance and diabetes, high salt intake, oral contraceptives, left ventricular disease, hyperlipidemia, hyperfibrinogenemia, and uricemia are discussed in terms of evidence for added risk to hypertensive patients. Most of these risk factors have been extensively studied as contributors to the vascular diseases of the heart, brain and peripheral circulation, but not specifically in hypertensive people. For example, there is definite evidence that women with high blood pressure are at risk for coronary heart disease, and that oral contraceptives may raise blood pressure, but there are not large studies examining the level of risk for vascular disease for hypertensive women who take the pill. Similarly, the vascular risks to women who smoke and use orals are known to be multiplied, but one can only assume that hypertensive women smokers who contemplate using the pill would be at even higher risk. An exception is exercise, which has been shown to be as effective as drug therapy in lowering blood pressure and other cardiac risk factors. Generally many of these risk factors interact in a logarithmic, rather than additive manner. Furthermore, these risk factors tend to occur together more frequently in the same patient with high blood pressure more than they do in the normotensive population. High blood pressure is itself an independent risk factor for vascular disease, in proportion to its height, for all ages and sexes, whether systolic or diastolic, labile or fixed, and the threat is further aggravated by surges in blood pressure throughout the person's daily activities. In pharmacologic management of hypertension, it is important to ensure that the drug chosen does not aggravate other risk factors, such as hyperglycemia, cardiac arrhythmias or mobilization of uric acid.
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PMID:Management of vascular risk factors in the hypertensive patient. 214 91

The three forms of origin of the atherosclerotic plaque of adults, that is, the fatty streaks, gelatinous elevations, and microthrombi, all occur in arteries of normal infants and children. Some of these may become arrested or regress, but many progress to the prominent lesions that precipitate various clinical catastrophies. The aim of modern medicine is to modify or eliminate many of the factors known to advance the atherosclerotic process and thus decrease the incidence of this disease, which ranks highest on the list of causes of morbidity and mortality in the Western world. Of these factors, some may be controlled by dietary means (low salt; low total fat and cholesterol; appropriate ratios of saturated to mono- and polyunsaturated fatty acids; high content of complex carbohydrates and fiber); controlling hypertension, diabetes, and obesity; abstaining from cigarette smoking; and vigorous physical activities. Because patterns of life-style are determined in childhood and adolescence, and because it is only during that period of life that measures to prevent progression of atherosclerosis may be predictably effective, it becomes increasingly apparent that atherosclerosis is, indeed, a pediatric problem.
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PMID:The genesis of atherosclerosis in pediatric age-group. 217 19

Obesity is known to be associated with diabetes, hypertension and hyperlipidemia in the majority of the patients. There could be inaccuracy in measuring the blood pressure in obesity, therefore a cuff of sufficient size is important in blood pressure measurement. All parameters of obesity have been found to have a correlation with hypertension and it has been suggested that change in weight would cause a change in blood pressure. A weight reduction of 12 kg results in a blood pressure fall of 21/13 mm Hg. Such changes in blood pressures have been noted in untreated hypertensives. A few studies have negated the role of change in weight to have any influence on hypertension. Obesity causes a higher cardiac output and higher blood volume leading to hypertension. There may be increased intracellular sodium and reduced sodium-potassium-ATPase activity in obesity which causes increased sodium loading in hypertension. Abnormalities related to the insulin-carbohydrate metabolism and the renin-angiotensin aldosteron system have also been demonstrated in obese patients. Weight reduction also causes reduced dietary salt intake and diminished sympathetic activity. The benefits of weight reduction appear to be directly related to the amount of weight lost.
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PMID:Effect of obesity and weight reduction in hypertension. 218 Feb 41

Magnesium (Mg) makes up 0.5-1% of bone ash and is therefore not a trace element in the skeleton. Mg influences both mineral and matrix metabolism in bone by a combination of effects on hormones and other factors that regulate skeletal and mineral metabolism, and by direct effects on bone itself. The skeletal content of Mg is very variable both between and within species, and reported values range between 150 and 440 mmol/kg ash weight (AW). Dietary Mg has a direct influence and age an inverse influence on skeletal Mg content. It is unclear whether skeletal Mg content varies from region to region. In humans, reported values cluster around the 200 mmol/kg AW level, 30-40% lower than most rat data. Human iliac crest cortical bone has 10-20% less Mg per unit weight than iliac crest trabecular bone. Mg depletion adversely affects all phases of skeletal metabolism. In the rat, cessation of bone growth is noted with a decrease in both osteoblast and osteoblast activity, decreased bone formation, osteopenia, increased fragility and development of a form of 'aplastic bone disease'. The epiphyseal growth plate is thinned and the percent ash weight of the growth plate is increased, possibly due to enhanced crystallization of bone salt under conditions of Mg depletion. In contrast, in chicks and in rats with severe Mg deficiency, these 'antianabolic' effects are not observed but instead, predominant inhibition of bone resorption occurs with increased cortical thickness rather than osteopenia, and the occasional development of subperiosteal hyperplasia or of fibrous tumors of the periosteum. It is probable that this unusual response under conditions of severe Mg deficiency is in part an indirect effect secondary to a defect in secretion and/or skeletal responsiveness to parathyroid hormone (PTH) and vitamin D metabolites. Mg excess also has adverse biologic effects on bone. Crystallization of bone salt is severely impaired and an osteomalacia-like picture may be produced with decreased osteoblastic activity, widened growth plates, excessive osteoid seams and short, thickened bones. In some studies, especially in mice, Mg excess stimulates bone resorption, independently of PTH. The role of Mg deficiency and excess in human skeletal conditions requires more extensive investigation. Bone Mg is uniformly increased in renal insufficiency and may play a role in renal osteodystrophy since improvement has been noted in the osteomalacic component by normalizing the serum Mg. Decreased bone Mg has been reported in alcoholic patients, diabetes and in osteoporosis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of magnesium on skeletal metabolism. 218 30

The role of renal vasoregulatory hormones in the hyperfiltration of early insulin-dependent diabetes mellitus (IDDM) was studied by micropuncture methods in rats with streptozotocin-induced diabetes. Seven to ten days after streptozotocin injection, untreated diabetic rats had elevated glomerular filtration rate (GFR) and single-nephron glomerular filtration rate (SNGFR), compared with normal euvolemic rats. Infusion of indomethacin (5 mg/kg) markedly reduced urinary and proximal tubular fluid prostaglandin E2 (PGE2), but GFR and SNGFR did not change. In a second group, intrarenal infusion of aprotinin (1,000 kallikrein inhibitor units.min-1.kg-1) to inhibit kallikrein also had no effect on GFR or SNGFR. In a third group, intrarenal infusion of angiotensin II (ANG II, 0.1 microgram.min-1.kg-1) reduced GFR, renal plasma flow (RPF), SNGFR, and glomerular plasma flow rate (QA) to values close to those in normal euvolemic rats. Single-nephron filtration fraction rose significantly with ANG II, but glomerular pressure (PG) was unaltered. Tubular fluid PGE2 increased in response to ANG II. Saralasin infusion following ANG II returned GFR, RPF, SNGFR, and QA to supernormal levels, and PG fell. In chronically salt-loaded normal rats, the responses to intrarenal ANG II and saralasin were similar to those observed in the diabetic rats. We conclude that hyperfiltration in early IDDM is not dependent on intact renal PGE2 or bradykinin synthesis. The results with ANG II infusion indicate that pre- and postglomerular and glomerular contractile cells of the diabetic kidney are able to constrict in response to this hormone.
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PMID:Vasoregulatory hormones and the hyperfiltration of diabetes. 244 21

Experimental dietary galactosemia is known to result in accumulation of the polyol, galactitol, via the aldose reductase metabolic pathway in a variety of tissues, including renal glomeruli. Because increased polyol accumulation also occurs in insulin-dependent diabetes mellitus (IDDM), in which marked renal glomerular hyperperfusion occurs, we have studied glomerular hemodynamics in rats with experimental galactosemia. Insulin deficiency and its accompanying metabolic disorders are not present in this experimental model. In additional groups of animals, aldose reductase inhibitors, either sorbinil or tolrestat, were added to the galactose diet. In all, five groups of rats were studied: regular diet, 50% galactose diet, regular diet plus sorbinil, 50% galactose diet plus sorbinil, and 50% galactose plus tolrestat. The diets were comparable in protein and salt, and the rats were pair fed. Micropuncture and whole kidney clearance measurements were carried out after 10-14 days on these diets. Compared with rats fed the regular diet, those fed with 50% galactose diet had significantly higher glomerular filtration rates, renal plasma flow, single-nephron glomerular filtration rates, and plasma flow (QA), whereas afferent vascular resistance (RA) was decreased. Addition of sorbinil or tolrestat to the high-galactose diet not only prevented renal hyperperfusion but RA and single-nephron filtration fraction (SNFF) were higher than in normal rats, and QA was lower. In addition, sorbinil administration to rats on the control diet caused significant decreases in single-nephron blood flow and the ultrafiltration coefficient and a rise in SNFF.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Galactose feeding causes glomerular hyperperfusion: prevention by aldose reductase inhibition. 250 30

Aldose reductase (AR), an enzyme that catalyzes the conversion of glucose to sorbitol, has been implicated in the pathogenesis of many of the complications of diabetes mellitus, but its normal physiological function in various tissues remains uncertain. It has been suggested that in the kidney, sorbitol production may be an important cellular protection against medullary intersitital hypertonicity. Using in situ and Northern hybridization analyses, we found that at the time of birth, AR mRNA expression in the kidney was very low and seen only in the papilla. By 12 days of age, at about the time a corticopapillary osmotic gradient and the capacity for urinary concentration have developed, a striking increase in renal AR mRNA levels was seen. It was confined to the inner medulla and was characterized by a dramatic gradient of expression paralleling the corticopapillary osmotic gradient. Levels of expression were somewhat lower in adults, but showed the same inner medullary boundary and gradient. Under these hybridization and exposure conditions, no AR transcripts were detected in the outer medulla or cortex. Homozygous Brattleboro rats with congenital diabetes insipidus have relatively dilute corticopapillary osmotic gradients, and their level of medullary AR mRNA was significantly lower than that of controls. Conversely, normal rats made hyperosmotic and, hence, antidiuretic by salt loading showed a large increase in medullary AR mRNA. These changes in renal medullary AR gene expression in correlation with changes in medullary tonicity support the hypothesis that renal AR plays a role in cellular adaption to osmotic stress and suggest that local medullary osmolarity may regulate the level of AR gene expression.
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PMID:Developmental and physiological regulation of aldose reductase mRNA expression in renal medulla. 251 49


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