Shizuko Konno

Risk factors accelerating cerebral degenerative changes, cognitive decline and dementia

Factors accelerating cerebral degenerative changes represent potentially modifiable risks for cognitive decline. Putative risk factors accelerating subtle cognitive decline and dementia were correlated with repeated measures of cerebral atrophy, CT densitometry, perfusions and cognitive testing among neurologically and cognitively normative ageing volunteers.

Classification, Diagnosis and Treatment of Vascular Dementia

SummaryVascular 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;(?) 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.

Risk factors for cerebral degenerative changes and dementia.

It is concluded that the most important determinants for cerebral neurodegenerative changes and cognitive decline during aging are neuronal shrinkage and/or loss, which are accelerated by certain risk factors: e.g. TIAs, hypertension, heart disease, hyperlipidemia, smoking, heavy alcohol consumption, male gender, low educational status, family history of cerebrovascular disease and absence of estrogen replacement therapy among women. Some of these risk factors are remediable by therapeutic interventions, including prevention of TIAs and medications that control hypertension, heart disease, hyperlipidemia and estrogen replacement in postmenopausal women, as well as abstention from abuse of tobacco and alcohol. Cerebral neurodegenerative changes measured by neuroimaging appear to be premorbid markers for depleted neuronal and synaptic reserves which predispose to the onset of dementias of both VAD and DAT types. Normal subjects at risk for cognitive decline include those with TIAs, hypertension and heart disease since these risk factors measurably accelerate cerebral atrophy, ventricular enlargement, leukoaraiosis, and decline in cortical perfusion.

Age-related cerebrovascular disease alters the symptomatic course of migraine

Migraine headaches usually decrease in frequency and severity and often cease during advancing age. Occasionally, migraineurs report late-life migrainous accompaniments, i.e., auras without headache, particularly when typical migraine attacks terminate or diminish following major or minor strokes, at which time the auras may become atypical. Clinical observations such as these suggest that degenerative cerebrovascular changes accompanying aging may modify the course of migraine headaches particularly those with aura. To test this hypothesis, we quantitated age-related changes in cerebral vasodilator capacitance by measuring local cerebral blood flow utilizing xenon contrast computed tomography (CT) scanning before and after oral administration of the pharmacological cerebral vasodilator, acetazolamide (Diamox®). Measurements were compared among 27 normal volunteers without headache (aged 24–94 years; mean age 61.1 ± 17.6) and 37 carefully categorized groups of migraine patients (aged 27–83 years; mean age 59.4 ±12.4). The normals comprised Group A. Migraineurs were divided into two subgroups: Group B consisted of 27 migraineurs with and without aura who continued to suffer from incapacitating and frequent headaches and Group C consisted of 10 migraineurs who no longer suffered from severe and frequent headaches, two of whom still complained of atypical auras of the “late-life migrainous accompaniments” type. Cerebral vasodilator capacitance significantly declined with advancing age among normals and the two groups of migraineurs, confirming the development of age-related cerebrovascular diseases. Global CBF increases after Diamox® in Group B (with persistent and severe migraine), were significantly greater compared with normals without headache, and with Group C consisting of migraineurs whose headaches had decreased, subsided, or become replaced by late-life migrainous accompaniments (Group C). Results establish that cerebrovasodilator capacitance declines with advancing age, probably due to progressive cerebral atherosclerosis, since these declines were accentuated by risk factors for stroke, particularly TIAs or documented lacunar infarcts by CT. Progressive impairments of cerebral vasodilator capacitance among migraineurs were associated with: (i) reductions in frequency and severity of migrainous cephalalgia and (ii) appearance of late-life migrainous accompaniments.

Vasodilator responses to acetazolamide tested in subtypes of vascular dementia

OBJECTIVES Thirty seven vascular dementia (VAD) patients were categorized into eight subtypes based on clinical, radiological, and pathogenetic features. Cerebral vasodilator responses to acetazolamide were then compared with age-matched normal controls and stroke patients without dementia. METHODS VAD results were compared with 42 normals and 19 cognitively intact stroke patients. Regional cerebral vasodilator responses were quantitated utilizing xenon contrasted computed tomography measures of local cerebral blood flow (LCBF) before and after oral administration of acetazolamide. LCBF changes (DeltaLCBF) before and after acetazolamide were calculated within cortical and subcortical, gray and white matter. Clinical VAD subtypes were: type 1, multi-infarct dementia (MID); type 2, strategically placed infarcts; type 3, subcortical lacunar infarcts; type 4, Binswangers subcortical arteriosclerotic leukoencephalopathy; type 5, subcortical infarctions due to cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), inflammatory angitis, or antiphospholipid antibodies; type 6, admixtures of above types; type 7, cerebral hemorrhagic lesions; and type 8, VAD combined with Alzheimers disease (DAT). The group with subcortical VAD comprised types 3-5. The group with cortical VAD comprised the remainder (types 1, 2, and 6-8). Cerebral vasodilator responses were also compared between these two main groups. RESULTS Cerebral vasodilator responses identified differences between the two main groups of VAD patients, those with cortical and those with subcortical dementia. Leukoaraiosis was measurably greater in subcortical VAD compared with cortical VAD. Among subcortical VAD patients, cortical LCBF increases after administration of acetazolamide were greater compared with cortical VAD and with normal controls. CONCLUSIONS Cognitive impairments in subcortical VAD are attributable to cortical disconnection syndromes. This concept is supported by reduced perfusion in deactivated cortex. In patients with subcortical VAD, deactivated cortical LCBF becomes promptly activated by acetazolamide resulting in marked cortical LCBF increases. Leukoaraiosis is greater among VAD patients and leukoaraiosis contributes to cortical disconnections, confirmed by excessive cortical vasodilator responses to acetazolamide.

Factors influencing survival among patients with vascular dementia and Alzheimer's disease

BACKGROUND AND PURPOSE Vascular dementia (VAD) and dementia of the Alzheimer type (DAT) are malignant conditions of the elderly. More information is required to clarify expected lengths of survival, which condition is more lethal, and which risk factors may influence survival duration. METHODS Cross-sectional and longitudinal designs were used. Survival interval was the period after study admission to death. From a population of 392 patients (of the 150 patients with VAD, mean age at entry was 68.3 years, of the 242 patients with DAT, mean age at entry was 73.0 years), there were 52 deaths, 26 patients with VAD and 26 patients with DAT. Pre-entry dementia symptoms were present for a mean of 3.1 years, with median follow-up of 3.6 years. Among 236 control subjects, there were 19 deaths. Entry age was 69.5 years, with median follow-up of 8.8 years. Influences of risk factors for stroke and body mass index on symptom duration, survival intervals, and cause of death were evaluated. RESULTS Family history of neurodegenerative disorders, principally DAT, negatively influenced DAT survival. Body mass index declined with age and duration of pre-entry symptoms among men and women in all three groups. Before entry, for men, dementia symptoms were present for shorter periods compared with women. After entry, VAD and DAT patients had similar survival intervals. Causes of death were similarly distributed (78% of patients with VAD died from vascular causes, 56% of patients with DAT and 67% of the controls). CONCLUSION VAD and DAT are malignant conditions negatively influencing survival times. Being a woman seems to play a protective role in symptom duration before diagnosis, but after diagnosis survival times of men and women were similar. We attribute equivalence of survival intervals among dementia groups to control of risk factors for cerebrovascular disease.