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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The incidence of both atherosclerosis and demential increases with age and therefore the terms "cerebral atherosclerosis" or "cerebro-vascular dementia" are commonly used for any mental deterioration in elderly persons. These names depend on the proposition of a gradual narrowing of cerebral arteries as an inevitable accompaniement of ageing which ends in dementia through a progressive reduction of cerebral blood flow. This apparently reasonnable hypothesis has now been shown to be wrong. ;t has been established that first, senile dementia is not due to cerebral atherosclerosis in spite of the frequent coexistence of degenerative and vascular lesions; and secondly, true cerebro vascular dementia results from the destruction of brain tissue following cerebral infarction; hence the proper term is "multi-infarct dementia". This neuronal destruction leads to decrease in cerebral metabolism and blood flow and to intellectual deterioration. The diagnostic criteria are therefore those of cerebral infarcts i.e: arterial hypertension and/or signs of atherosclerosis, sudden onset and/or stepwise progression, and focal neurological signs. If one follow those criteria, multi-infarct dementia accounts for only about 10% of all dementias; if one does not, the diagnosis will continue to be made to the exclusion of other potentially curable causes of dementias. Five clinico-pathological forms can be distinguished according to the size, number and site of the infarcts: lacunar state, large multiple infarcts, watershed infarction, single infarct and Binswanger's encephalopathy. This distinction is always arbitrary because the association of lacunes and large infarcts is very common in multi-infarct dementia. The almost invariable failure of all therapeutic measures once multi-infarct dementia has been established stresses the importance of prevention. This depends on prevention of cerebral infarcts, i.e. on the correction of risk factors amongst which arterial hypertension is by far, the most important. Some cases benefit also from carotid surgery, anticoagulants, and antiplatelet drugs but antihypertensive drugs are the most essential part. It is very likely that if all cases of arterial hypertension are properly treated, the incidence of multi-infarct dementia will decrease greatly.
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PMID:[Modern concepts of "cerebrovascular dementia"]. 61 Oct 16

Postmortem surveys on patients treated for chronic hypertension often fail to demonstrate significant vessel changes. Nevertheless, hypertensive alterations in the brain can include infarcts and hemorrhages. Autopsies in a primary care hospital have shown that hypertension can affect arteries, arterioles, and capillaries in various patterns and degrees in the brain. These vascular lesions may be associated with large and small infarcts and hemorrhages in isolated or diffuse patterns. Widespread cerebral edema can occur with rapidly progressive hypertension. Atherosclerosis, arterial and arteriolar fibrinoid necrosis, and micro-aneurysms may be observed. Chronic hypertensive encephalopathy causes vascular dementia and can be associated with subcortical arterial and arteriolar leukoencephalopathy, leukoaraiosis and/or Binswanger's disease. Epidemiologic evaluations based on complete autopsy studies need to be correlated with compliance of therapy, appropriate diagnosis of hypertension, and its long-term effects on the nervous system. Although persistent poorly controlled hypertension is known to damage the brain both acutely and chronically, the effects of intermittent hypertension remain to be defined.
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PMID:Hypertension and vascular dementia. 173 72

Arteriolosclerotic leucoencephalopathy in the elderly (ALE) is characterized by white matter lesions associated with atherosclerosis and arteriolosclerosis. Mild lesions are focal and probably represent early status cribosus or incomplete lacunar infarcts. Moderate and severe lesions are diffuse areas of demyelination in the centrum semiovale in which lacunar infarcts are seldom observed. The incidence of ALE in a consecutive necropsy series of 50 cases (mean age 62.6 +/- 13.1 years) was 52%, it was rare in the fourth and fifth decades but increased thereafter to reach a prevalence of 100% at the age of 80 years. Mild lesions occurred in 19 patients and lesions were moderate or severe in 7 (14%). The mean age was higher in this group (74.7 +/- 7.6 years) than in patients with white matter changes as a whole. Dementia occurred only in 3 patients with moderate or severe ALE. These data suggest that (a) ALE is common in old age and is probably the cause of leuko-araiosis in most CT scans in the elderly; (b) ALE may be asymptomatic; (c) the severity of white matter changes may be not related to the severity of neurological deficits; and (d) multiple lacunar infarcts or associated degenerative diseases (i.e., Alzheimer's disease) may be the main cause of dementia in patients with ALE. White matter lesions in ALE, Binswanger's disease, transition areas in multi-infarct encephalopathy (MIE) and Alzheimer's disease (AD) are similar in morphology and are probably the result of a subacute hypoperfusion/hypoxic process. Increased arterial blood pressure is a frequent risk factor in ALE, Binswanger's disease and MIE, whereas congophilic angiopathy of the meningeal and cortical vessels, in addition to mild or moderate arteriolar hyalinosis in the white matter, may play a role in the pathogenesis of incomplete infarctation of the white matter in patients with AD.
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PMID:Arteriolosclerotic leucoencephalopathy in the elderly and its relation to white matter lesions in Binswanger's disease, multi-infarct encephalopathy and Alzheimer's disease. 223 Aug 30

Atherosclerosis and its relationship with mental disorders, in particular in advanced age, arouses vivid interest of specialists at home and abroad. In their paper the authors focused attention on the historical development of the term dementia in the work of European doctors, starting in the second century after Christ, on the genesis of the term atherosclerosis and some discoveries associated with disease. Special attention is devoted to circumstances of the nosological differentiation of atherosclerotic mental disorders. The authors emphasize the importance of Binswanger's and Alzheimer's work in this area and draw attention to progressive elements in the work of K. Kuffner.
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PMID:[The beginnings of the history of atherosclerosis in mental disorders]. 269 82

Two cases of subcortical arteriosclerotic encephalopathy (Binswanger's disease) are reported. The two patients lacked a clinical history of hypertension, relevant pathogenetic factor in the development of the small and medium size cerebral arteries atherosclerosis, which is the main pathologic finding of the disease. The two subjects clinically showed a marked intellectual deterioration, together with mood depression and focal neurological signs, that were an expression of the multifocal neurologic involvement. In both cases CT scans evidentiated a mainly periventricular leucoencephalopathy associated, in the first patient, with small multiple ischemic lesions and, in the second, with a unique hypodense area in the centrum semiovale. A review of the literature on the subjects is proposed, together with an attempt of pathogenetic interpretation of our two cases.
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PMID:[2 cases of Binswanger's disease not associated with arterial hypertension: clinical-instrumental and neuropsychological evaluation]. 305 88

An 80-year-old hypertensive woman developed right hemiplegia and died 24 hours after admission. Neuropathologic examination revealed multiple cerebral infarcts of various ages and diffuse subcortical arteriosclerotic encephalopathy. Clusters of asymptomatic "expanding" lacunes, due to dilatation of the perivascular spaces, were found in both dentate nuclei. These cavities, which presented as space-occupying lesions, were surrounded by a single layer of flattened cells and contained 1 or more sections of normal-looking arterioles. Such a topographic grouping of lacunes in the dentate nucleus has not been described previously. The mechanism of widening of the perivascular compartment remains unclear; its occurrence in a hypertensive patient and its association with typical Binswanger's subcortical arteriosclerotic encephalopathy and severe atherosclerosis with multiple infarcts suggest a common pathophysiologic mechanism possibly including an alteration of the blood-brain barrier.
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PMID:Expanding cerebellar lacunes due to dilatation of the perivascular space associated with Binswanger's subcortical arteriosclerotic encephalopathy. 368 82

A clinicopathological study of senile dementia of Alzheimer's type (SDAT) accompanied by the white matter lesions of Binswanger's type was carried out. Fifty-seven patients, who were diagnosed as suffering from SDAT based on clinical and pathological criteria, were classified into two groups based on the white matter lesions of Binswanger's type. Namely, group 1 consisted of the SDAT patients without any subcortical or white matter lesions (30 cases); group 2 consisted of those with white matter lesions of Binswanger's type (11 cases). The other 9 cases included those with vascular lesions and 4 with some of the same pathological changes found in Parkinson's disease. Clinically, group 2 patients showed subcortical symptoms such as urinary incontinence, Parkinsonian gait, being accompanied by hypertension and arrhythmias. Periventricular lucency (CT) were common in group 2. Macroscopically, both groups showed moderately to severe atrophy, and the width of the corpus callosum of group 2 was narrower than that of group 1. There was no difference in cerebral arteriosclerosis between the groups. In microscopic findings, patients in group 2 showed diffuse distribution of cortical changes such as senile plaques as well as Alzheimer's senile plaques as well as Alzheimer's neurofibrillary tangles while those in group 1 showed various types of diffuse or local distribution. Arteriolosclerosis of the white matter were found in both groups. There was no difference in aortic atherosclerosis and/or heart disease. The complication of white matter lesions of Binswanger's type was not a rare finding in SDAT.
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PMID:[A clinicopathological study of senile dementia of Alzheimer's type (SDAT) and white matter lesions of Binswanger's type]. 820 74

Today, multiple, thromboembolically generated cerebral infarcts are regarded as the main pathogenetic pathway of vascular dementia (VAD), with multi-infarct dementia (MID) as its clinical counterpart. However, taking into account other vascular mechanisms that may influence the brain, such as vessel-wall damage (atherosclerosis, hyalinosis, amyloid angiopathy, or blood-brain barrier dysfunction), cerebrovascular insufficiency (disturbance of systemic circulation, perfusion vulnerability related to the vascular anatomy of the brain, or disturbance of autoregulation), and hyperviscosity, it is evident that MID is not the only VAD category. The diagnosis of MID ought to be reserved for the combination of progressive dementia associated with cerebral ischemic events and evidence of infarction that is mainly associated with the large cerebral arteries. Subcortical white-matter dementia characterized by frontosubcortical symptomatology, white-matter lesions, and small-vessel involvement with or without lacunes/infarcts--a combination of lacunar dementia and Binswanger's disease--appears to be another important VAD disease.
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PMID:Heterogeneity of vascular dementia: mechanisms and subgroups. 839 62

We report a 91-year-old man who had a stroke and died of renal failure. He had been treated for hypertension since 20 years before the onset of the present illness. In addition, he was operated on a gastric cancer 17 years previously. Otherwise he was doing well until May 29, 1991 (when he was 87-year-old) when he had sudden onset of dysarthria and right facial weakness. He was admitted to our hospital. On admission, general physical examination was unremarkable, and neurologic examination revealed a mentally sound man with slight dysarthria, right facial weakness, orolingual dyskinesia, and dysequilibrium in which he showed difficulty in tandem gait; however, no cerebellar ataxia was noted. A cranial CT scan revealed leukoaraiosis with multiple low density areas in the cerebral white matter. His BUN was 37 mg/dl and Cr 2.2 mg/dl. His neurologic symptoms cleared within the next few weeks and he was discharged with ticlopidine 100 mg q.d.. He had been doing well after the discharge except for gradual worsening of his renal function; his BUN was 65 mg/dl and Cr 3.27 mg/dl in April of 1994. On March 10, 1995, he fell down and hit his back; he became unable to walk because of pain, and he was admitted again on March 16, 1995. On admission, his blood pressure was 170/80 mmHg. There was an 1 + pitting pretibial edema; otherwise general physical examination was unremarkable. Neurologic examination revealed an alert and oriented man, however, Hasegawa's dementia scale was 23/30. Higher cerebral functions as well as cranial nerves were intact. He showed some unsteadiness of gait, however, no motor weakness or ataxia was noted. Deep tendon reflexes were diminished, but Chaddock sign was positive bilaterally. Vibration was diminished in the feet, however, pain and touch sensations were intact. Laboratory examination revealed a compression fracture of the twelfth thoracic vertebra. Blood count and chemistries were as follows; Hb 7.6 g/dl, Hct 23.3%, TP 6.0 g/dl, Alb 3.6 g/dl, BUN 87 mg/dl, Cr 4.53 mg/dl, T-Chol 174 mg/dl, HDL-Chol 49 mg/dl, Glu 156 mg/dl, Na 142 mEq/L, K 5.4 mEq/L, Cl 115 mEq/L. A urine specimen contained 1 + protein and 1 + glucose, and the sediments contained hyaline casts. A cranial CT scan was essentially same as that taken four years ago. His hospital course was complicated with pneumonia, congestive heart failure, and progressive renal failure. He was treated with intravenous fluid, chemotherapy, and other supportive measures, however, he expired from respiratory failure on April 30, 1995. He was discussed in a neurologic CPC, and the chief discussant arrived at the conclusion that the patient had Binswanger's disease in the brain, benign nephrosclerosis from arteriolosclerosis due to hypertension, congestive heart failure, and pneumonia. Opinions were divided regarding the question as to whether or not this patient had Binswanger's disease. Although his cranial CT scan revealed leukoaraiosis, his dementia and gait disturbance was only mild until his fall on March, 1995. Clinical features did not conform to those of Binswanger's disease. Postmortem examination of the right hemisphere revealed wide spread atherosclerosis and arteriolosclerosis. The kidney showed benign nephrosclerosis due to arteriolosclerosis. Sclerotic changes were also seen in the coronary arteries and the left middle cerebral artery with 70% stenosis. Myelin stain showed diffuse myelin pallor of the cerebral white matters with scattered small infarcts. Arterioles in the white matter showed arteriolosclerosis. Small infarcts were also seen in the putamen and in the thalamus. This patient appeared to have had circulatory disturbance of the white matter which is the basic abnormality causing Binswanger's disease. However, white matter changes in this patient were not quite severe enough to make a pathologic diagnosis of Binswanger's disease.
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PMID:[A 91-year-old man with a stroke, hypertension, and renal failure]. 899 Apr 84

Vascular dementia (VAD) is considered to be the second most common cause of dementia in Europe and the US. In Asia and many developing countries, it is more common than dementia of the Alzheimer's type (DAT). VAD is the most preventable form of dementia associated with later life. The pathogenesis of VAD is multifactorial, and it represents a heterogeneous, not a homogeneous, clinical entity. Classification of VAD by pathogenesis is important for its prevention and treatment. Control of the risk factors for VAD reduces its incidence and stabilises or improves cognitive performance following stroke. Proper diagnostic evaluation of VAD requires: (i) a well defined quantitative assessment of the cognitive deficits present; (ii) assessment of risk factors for stroke; (iii) identification of cerebral vascular lesions by history, neurological examination and neuroimaging; (iv) exclusion of other causes of dementia; (v) establishment of a positive diagnosis of possible, probable or definite VAD versus DAT or mixed VAD/DAT; and (vi) identification of the temporal relationship between cognitive deficits and cerebral vascular lesions. VAD can be subdivided into 8 major types, as follows: (i) multi-infarct dementia secondary to large cerebral emboli [type 1]; (ii) strategically placed infarctions causing dementia [type 2]; (iii) multiple subcortical lacunar lesions secondary to atherosclerosis or degenerative arteriolar changes [type 3]; (iv) Binswanger's disease (arteriosclerotic subcortical leukoencephalopathy) [type 4]; (v) mixtures of types 1, 2 and 3 [type 5]; (vi) haemorrhagic lesions causing dementia [type 6]; (vii) subcortical dementia secondary to hereditary factors (type 7); and (viii) mixtures of DAT and VAD (type 8). Treatment is dictated by the pathogenetic subtype of VAD that is present.
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PMID:Classification, diagnosis and treatment of vascular dementia. 935 23


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