UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High fat diets and sedentary lifestyles are becoming major concerns for Western countries. They have led to a growing incidence of obesity, dyslipidemia, high blood pressure, and a condition known as the insulin-resistance syndrome or metabolic syndrome. These health conditions are well known to develop along with, or be precursors to atherosclerosis, cardiovascular disease, and diabetes. Recent studies have found that most of these disorders can also be linked to an increased risk of Alzheimer's disease (AD). To complicate matters, possession of one or more apolipoprotein E epsilon4 (APOE epsilon4) alleles further increases the risk or severity of many of these conditions, including AD. ApoE has roles in cholesterol metabolism and Abeta clearance, both of which are thought to be significant in AD pathogenesis. The apparent inadequacies of ApoE epsilon4 in these roles may explain the increased risk of AD in subjects carrying one or more APOE epsilon4 alleles. This review describes some of the physiological and biochemical changes that the above conditions cause, and how they are related to the risk of AD. A diversity of topics is covered, including cholesterol metabolism, glucose regulation, diabetes, insulin, ApoE function, amyloid precursor protein metabolism, and in particular their relevance to AD. It can be seen that abnormal lipid, cholesterol and glucose metabolism are consistently indicated as central in the pathophysiology, and possibly the pathogenesis of AD. As diagnosis of mild cognitive impairment and early AD are becoming more reliable, and as evidence is accumulating that health conditions such as diabetes, obesity, and coronary artery disease are risk factors for AD, appropriate changes to diets and lifestyles will likely reduce AD risk, and also improve the prognosis for people already suffering from such conditions.
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PMID:Apolipoprotein E, cholesterol metabolism, diabetes, and the convergence of risk factors for Alzheimer's disease and cardiovascular disease. 1678 33

Essential hypertension has rather recently become recognized as a major factor in the development of the 2 main types of dementia, that is, no longer merely vascular dementia but Alzheimer disease as well. The relationship between high blood pressure (BP) and the dementias is quite a complicated one, given a wide variability in temporal courses. The interval between the respective manifestations of hypertension and cognitive deterioration may vary from a few years to several decades. Moreover, temporal relationships may be obscured because of the observation that BP tends to fall in the face of imminent Alzheimer disease. Although the cause-and-effect sequence of this relationship has not been established, it may suggest that a low BP in this phase of life could be equally harmful as hypertension in the preceding period. Individual monitoring of BP and drug titration in the hypertensive elderly may well become mandatory in the highest age group. The question whether some antihypertensive drug categories might act more effectively in preventing cognitive deterioration than others, irrespective of their antihypertensive potential, remains. A modest meta-analysis on our part seems to suggest that suppression of the renin-angiotensin-aldosterone system (RAAS) would fail to offer such protection, in contrast to certain dihydropyridine (DHP) calcium-channel blockers. Unfortunately, recently published comparative prospective megatrials (Anti-hypertensive and Lipid-lowering Treatment to Prevent Heart Attack Trial and Anglo-Scandinavian Cardiac Outcomes Trial-Blood Pressure Lowering Arm) failed to carry any record on the mental status of the study populations, thereby missing a golden opportunity to resolve the above issue. Consequently, there remains an urgent need for further blinded long-term comparative hypertension trials, including follow-up evaluation of cognitive functions in relation to the course of BP.
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PMID:Progress in cardiovascular diseases: cognitive function in essential hypertension. 1686 45

Insulin plays a key role in cognition and other aspects of normal brain function. Insulin resistance induces chronic peripheral insulin elevations, reduces insulin activity, and reduces brain insulin levels. The insulin resistance syndrome and associated conditions such as type 2 diabetes mellitus and hypertension, are associated with age-related memory impairment and Alzheimer disease. Our work has focused on potential mechanisms through which this association is forged, including the effects of peripheral hyperinsulinemia on memory, inflammation, and regulation of the beta-amyloid peptide. We have shown that raising plasma insulin to levels that characterize patients with insulin resistance invokes synchronous increases in levels of beta-amyloid and inflammatory agents. These convergent effects may impair memory and induce AD pathology. Therapeutic strategies focused on preventing or correcting insulin abnormalities may thus benefit adults with age-related memory impairment and AD.
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PMID:Insulin resistance syndrome and Alzheimer disease: pathophysiologic mechanisms and therapeutic implications. 1713 77

Insulin modulates cognition and other aspects of normal brain function. Insulin resistance is characterized by chronic peripheral insulin elevations, and it is accompanied by reduced brain insulin levels and insulin activity. Obesity, type 2 diabetes mellitus and hypertension are strongly associated with insulin resistance. In addition, insulin resistance increases the risk of age-related memory impairment and Alzheimer's disease. Possible mechanisms through which these risks are increased include the effects of peripheral hyperinsulinemia on memory, CNS inflammation, and regulation of the beta-amyloid peptide. We have shown that raising plasma insulin in humans to levels that characterize patients with insulin resistance increases the levels of Abeta and inflammatory agents in brain. These convergent effects may impair memory and induce AD pathology. Therapeutic strategies focused on preventing or correcting insulin abnormalities may thus benefit a subset of adults with age-related memory impairment and AD.
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PMID:Insulin resistance and Alzheimer's disease pathogenesis: potential mechanisms and implications for treatment. 1743 Feb 39

Alzheimer's disease (AD) is considered to be the most common dementing disorder. The understanding of this disorder has greatly advanced over the past few years, and new therapeutic options have been developed. Another disorder, vascular dementia (VaD), is a syndrome with multiple etiologies operating through a variety of different mechanisms. The combination of AD and VaD is extremely common, making mixed dementia the most common type of dementia. Risk factors for VaD, which are the common vascular risk factors, are presently known to apply also to AD. Cholinergic deficits occur in both conditions. The identification of several genetic factors that can contribute to vascular damage, as well as possible auto-immune damage to vascular components, are important. It is remarkable that amyloid precursor protein (APP) mutations can cause the typical pathological changes of AD as well as amyloid deposition around blood vessels. These may lead to deficient blood perfusion to the brain, changes of the blood-brain barrier, as well as cerebral hemorrhages. Interestingly, attention to risk factors, such as hypertension, coronary artery disease, hyperlipidemia and smoking could reduce or delay the incidence of dementia, both vascular and AD.
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PMID:The prevention of the dementia epidemic. 1749 Jun 85

A 77-year-old man who was suffering from an intracerebral hemorrhage of the left subcortex without hypertension was admitted to our hospital. The only neurological symptom was right arm monoparesis. Brain MRI demonstrated a subarachnoid hemorrhage (SAH) in the left frontal lobe. On the day of admission, conventional cerebral angiography revealed no abnormalities in brain arteries. His symptom was disappeared immediately after admission. He was discharged without neurological deficit on day 25. However, he was rehospitalized in our hospital on the same day because he experienced a right subcortical hemorrhage. The neurological symptoms were consciousness disturbance, aphasia and right hemiparesis. Brain CT disclosed a subcortical hemorrhage in the left temporal lobe. CT stereo-guided drainage was performed. Then, we examined tissue removed from the brain's surface. Histologically, beta-amyloid protein was deposited on the walls of the meningeal and cortical vessels, and it replaced all the layers of those walls. Therefore, a diagnosis of cerebral amyloid angiopathy (CAA) was made. His condition gradually improved, but CT showed an asymptomatic ICH in the right parietal lobe on day 36. On day 47, he had a symptomatic ICH in the left caudate nuclei and right frontal lobe. He died on day 66 because of pneumonia. Intracranial hemorrhages due to CAA have been reported and the majority of the lesions have been lober hemorrhage. To the best of our knowledge, few reports have been published regarding primary SAH caused by CAA. The cause of SAH should be considered as CAA when SAH appears without hypertension or in elderly patients.
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PMID:[A case of primary subarachnoid hemorrhage due to cerebral amyloid angiopathy]. 1749 36

Physical exercise promotes beneficial health effects by preventing or reducing the deleterious effects of pathological conditions, such as arterial hypertension, coronary artery disease, atherosclerosis, diabetes mellitus, osteoporosis, Parkinson's disease, and Alzheimer disease. Human movement studies are becoming an emerging science in the epidemiological area and public health. A great number of studies have shown that exercise training, in general, reduces sympathetic activity and/or increases parasympathetic tonus either in human or laboratory animals. Alterations in autonomic nervous system have been correlated with reduction in heart rate (resting bradycardia) and blood pressure, either in normotensive or hypertensive subjects. However, the underlying mechanisms by which physical exercise produce bradycardia and reduces blood pressure has not been fully understood. Pharmacological studies have particularly contributed to the comprehension of the role of receptor and transduction signaling pathways on the heart and blood vessels in response to exercise training. This review summarizes and examines the data from studies using animal models and human to determine the effect of exercise training on the cardiovascular system.
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PMID:Effects of exercise training on the cardiovascular system: pharmacological approaches. 1751 99

Alzheimer's disease (AD) is a heterogeneous neurodegenerative disorder and the most prevalent form of dementia worldwide. AD is characterized pathologically by amyloid-? plaques, neurofibrillary tangles and neuronal loss, and clinically by a progressive loss of cognitive abilities. At present, the fundamental molecular mechanisms underlying the disease are unclear and no treatment for AD is known. Epidemiological evidence continues to mount linking vascular diseases, such as hypertension and diabetes, and hypercholesterolaemia with an increased risk for developing AD. A growing amount of evidence suggests a mechanistic link between cholesterol metabolism in the brain and the formation of amyloid plaques in AD development. Cholesterol and statins clearly modulate ?-amyloid precursor protein (?APP) processing in cell culture and animal models. Statins not only reduce endogenous cholesterol synthesis but also exert other various pleiotrophic effects, such as the reduction in protein isoprenylation. Through these effects statins modulate a variety of cellular functions involving both cholesterol (and membrane rafts) and isoprenylation. Although clearly other factors, such as vascular inflammation, oxidative stress and genetic factors, are intimately linked with the progression of AD, this review focuses on the present research findings describing the effect of cholesterol, membrane rafts and isoprenylation in regulating ?APP processing and in particular ?-secretase complex assembly and function and AD progression, along with consideration for the potential role statins may play in modulating these events.
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PMID:Alzheimer's disease: cholesterol, membrane rafts, isoprenoids and statins. 1763 34

CD36 is a transmembrane glycoprotein of the class B scavenger receptor family. The CD36 gene is located on chromosome 7 q11.2 and is encoded by 15 exons. Defective CD36 is a likely candidate gene for impaired fatty acid metabolism, glucose intolerance, atherosclerosis, arterial hypertension, diabetes, cardiomyopathy, Alzheimer disease, and modification of the clinical course of malaria. Contradictory data concerning the effects of antiatherosclerotic drugs on CD36 expression indicate that further investigation of the role of CD36 in the development of atherosclerosis may be important for the prevention and treatment of this disease. This review summarizes current knowledge of CD36 gene structure, splicing, and mutations and the molecular, metabolic, and clinical consequences of these phenomena.
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PMID:Molecular basis of human CD36 gene mutations. 1767 38

Several factors have been implicated in Alzheimer's disease (AD) but there is no definite conclusion as to the main pathogenic agents. Mutations in the amyloid precursor protein (APP) that lead to increased production of amyloid beta peptide (A beta) are associated with the early-onset, familial forms of AD. However, in addition to ageing, the most common risk factors for the sporadic, prevalent form of AD are hypertension, hypercholesterolaemia, ischaemic stroke, the ApoE4 allele and diabetes, all characterized by a vascular pathology. In AD, the vascular pathology includes accumulation of A beta in the vessel wall, vascular fibrosis, and other ultrastructural changes in constituent endothelial and smooth muscle cells. Moreover, the ensuing chronic cerebral hypoperfusion has been proposed as a determinant factor in the accompanying cognitive deficits. In transgenic mice that overexpress mutated forms of the human APP (APP mice), the increased production of A beta results in vascular oxidative stress and loss of vasodilatory function. The culprit molecule, superoxide, triggers the synthesis of other reactive oxygen species and the sequestration of nitric oxide (NO), thus impairing resting cerebrovascular tone and NO-dependent dilatations. The A beta-induced cerebrovascular dysfunction can be completely abrogated in aged APP mice with antioxidant therapy. In contrast, in mice that overproduce an active form of the cytokine transforming growth factor-beta1 and recapitulate the vascular structural changes seen in AD, antioxidants have no beneficial effect on the accompanying cerebrovascular deficits. This review discusses the beneficial role and limitations of antioxidant therapy in AD cerebrovascular pathology.
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PMID:Oxidative stress and cerebrovascular dysfunction in mouse models of Alzheimer's disease. 1791 59

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