High frequency of silent brain infarcts associated with cognitive deficits in an economically disadvantaged population

OBJECTIVE: Using magnetic resonance imaging, we aimed to assess the presence of silent brain vascular lesions in a sample of apparently healthy elderly individuals who were recruited from an economically disadvantaged urban region (São Paulo, Brazil). We also wished to investigate whether the findings were associated with worse cognitive performance. METHODS: A sample of 250 elderly subjects (66-75 years) without dementia or neuropsychiatric disorders were recruited from predefined census sectors of an economically disadvantaged area of Sao Paulo and received structural magnetic resonance imaging scans and cognitive testing. A high proportion of individuals had very low levels of education (4 years or less, n=185; 21 with no formal education). RESULTS: The prevalence of at least one silent vascular-related cortical or subcortical lesion was 22.8% (95% confidence interval, 17.7-28.5), and the basal ganglia was the most frequently affected site (63.14% of cases). The subgroup with brain infarcts presented significantly lower levels of education than the subgroup with no brain lesions as well as significantly worse current performance in cognitive test domains, including memory and attention (

Framingham coronary heart disease risk score can be predicted from structural brain images in elderly subjects

Recent literature has presented evidence that cardiovascular risk factors (CVRF) play an important role on cognitive performance in elderly individuals, both those who are asymptomatic and those who suffer from symptoms of neurodegenerative disorders. Findings from studies applying neuroimaging methods have increasingly reinforced such notion. Studies addressing the impact of CVRF on brain anatomy changes have gained increasing importance, as recent papers have reported gray matter loss predominantly in regions traditionally affected in Alzheimer’s disease (AD) and vascular dementia in the presence of a high degree of cardiovascular risk. In the present paper, we explore the association between CVRF and brain changes using pattern recognition techniques applied to structural MRI and the Framingham score (a composite measure of cardiovascular risk largely used in epidemiological studies) in a sample of healthy elderly individuals. We aim to answer the following questions: is it possible to decode (i.e., to learn information regarding cardiovascular risk from structural brain images) enabling individual predictions? Among clinical measures comprising the Framingham score, are there particular risk factors that stand as more predictable from patterns of brain changes? Our main findings are threefold: (i) we verified that structural changes in spatially distributed patterns in the brain enable statistically significant prediction of Framingham scores. This result is still significant when controlling for the presence of the APOE 4 allele (an important genetic risk factor for both AD and cardiovascular disease). (ii) When considering each risk factor singly, we found different levels of correlation between real and predicted factors; however, single factors were not significantly predictable from brain images when considering APOE4 allele presence as covariate. (iii) We found important gender differences, and the possible causes of that finding are discussed

Abnormalities on brain metabolism associated to cardiovascular risk factors: a positron emission tomography (PET) study

INTRODUÇÃO: Os fatores de risco cardiovascular (FRCV) afetam o fluxo sanguíneo cerebral, contribuindo possivelmente para o declínio cognitivo e a emergência da Doença de Alzheimer (DA), a forma mais comum de demência. A tomografia por emissão de pósitrons (positron emission tomography, PET) com fluordesoxiglucose F18 (18F-FDG) é largamente usada para demonstrar o padrão específico de metabolismo cerebral de glicose reduzido em sujeitos com DA e em indivíduos não-demenciados portadores do alelo e4 da apolipoproteína E (APOE e4), o maior fator de risco genético para DA. Entretanto, estudos de PET investigando o impacto dos FRCV no metabolismo cerebral são escassos. OBJETIVO: Examinar se níveis diferentes de FRCV estariam associados com reduções na taxa de metabolismo cerebral de glicose (TMCG), envolvendo as regiões cerebrais afetadas nos estágios iniciais da DA (pré-cúneo e giro do cíngulo posterior, neocórtex parieto-temporal lateral e região hipocampal). MÉTODOS: Nós avaliamos 59 indivíduos cognitivamente preservados (66-75 anos) subdivididos em três grupos de acordo com seu escore para Framingham Coronary Heart Disease Risk (FCHDR) (alto-risco, médio-risco e baixo-risco) para os exames de ressonância magnética (RM) e de PET-FDG. Dados de PET foram corrigidos para os efeitos de volume parcial a fim de evitar efeitos confundidores devido à atrofia cerebral regional. Nós realizamos uma análise de covariância global (ANCOVA) para investigar as reduções de TMCG em associação com os três grupos, comparações entre dois grupos para as diferenças de TMCG pelo teste-t, e índices de correlação linear voxel-a-voxel entre os valores de TMCG e escores FCHDR. Todas as análises incluíram a presença ou a ausência do APOE e4 como covariada confundidora de interesse. RESULTADOS: A investigação ANCOVA de diferenças de TMCG entre os três grupos mostraram significantes diferenças de TMCG somente no giro parahipocampal direito (p=0,032). Nas comparações entre dois grupos, reduções de TMCG significantes foram detectadas no grupo de altorisco comparado ao baixo-risco no pré-cúneo esquerdo (p=0,008) e o giro do cíngulo posterior esquerdo (p=0,007). Focos inesperados de reduções de TMCG no grupo baixo-risco comparado ao grupo alto-risco no giro parahipocampal foram detectados em ambos os hemisférios direito (p=0,001) e esquerdo (p=0,045). Havia também uma significante correlação linear positiva entre valores de TMCG e escores FCHDR no giro parahipocampal em ambos os lados direito (p=0,007) e esquerdo (p=0,025). CONCLUSÃO: Depois de controlar para a presença do APOE 4, nossos achados de hipofunção cerebral regional relacionado a FRCV mantiveram a significância estatística no pré-cúneo e no giro do cíngulo posterior, as duas regiões cerebrais onde comprometimentos funcionais são os mais consistentemente detectados nos estágios incipientes da DA. Isso sugere que os achados de hipometabolismo cerebral similares àqueles vistos nos sujeitos com DA podem ser vistos em associação com a gravidade de FRCV em amostras de indivíduos cognitivamente preservados. Uma possível explicação para o hipermetabolismo relativo no giro parahipocampal nos indivíduos com elevados FRCV seria um viés na seleção da amostra. É possível que nós tenhamos excluídos os sujeitos com os níveis mais graves de risco cardiovascular que teriam exibido os padrões de reduções de TMCG no giro parahipocampal, forçando a seleção de indivíduos que estão para o alto risco cardiovascular, mas que são capazes de exibir mecanismos compensatórios para manter o funcionamento metabólico adequado para as regiões temporolímbicas, as quais são vulneráveis às mudanças microvascularesINTRODUCTION: Cardiovascular risk factors (CVRF) are known to affect cerebral blood flow, possibly contributing to cognitive decline and to the emergence of Alzheimers disease (AD), the commonest form of dementia. Positron emission tomography (PET) with 18-fluoro-2-deoxyglucose (18FFDG) has been widely used to demonstrate specific patterns of reduced brain glucose metabolism in AD subjects and in non-demented individuals carriers of the apolipoprotein e4 allele (APOE e4), the major genetic risk factor for DA. However, PET studies investigating the impact of CVRF on cerebral metabolism have been scarce to date. OBJECTIVE: To examine whether different levels of CVRF would be associated with cerebral metabolic rate of glucose (CMRgl) reductions, involving brain regions affected in early stages of DA (precuneus and posterior cingulate gyrus, lateral temporalparietal neocortices and hippocampal region). METHODS: We assessed 59 cognitively preserved individuals (66-75 years), subdivided into three groups according to their Framingham Coronary Heart Disease Risk (FCHDR) score (high-risk, medium-risk, and low-risk), both with magnetic resonance imaging (MRI) and FDG-PET scans. PET data were corrected for partial volume effects to avoid confounding effects due to regional brain atrophy. We performed an overall analysis of covariance (ANCOVA) to investigate CMRgl reductions in association with the three groups, two-group comparisons of CMRgl differences by t-tests, and voxelwise linear correlation indices between CMRgl values and FCHDR scores. All analysis included the presence or absence of the APOE 4 allele as a confounding covariate of interest. RESULTS: The ANCOVA investigation of CMRgl differences across the three groups showed significant CMRgl differences only in the right parahippocampal gyrus (p=0.032). In the two-group comparisons, significant CMRgl reductions were detected in the high-risk group compared to the lowrisk group in the left precuneus (p=0.008); and the left posterior cingulate gyrus (p=0.007). Unexpected foci of CMRgl reductions in the low-risk compared to the high-risk group in the parahippocampal gyrus were detected, both on the right (p=0.001) and left (p=0.045) hemispheres. There was also a significant positive linear correlation between CMRgl values and FCHDR scores in the parahippocampal gyrus both for the right (p=0.007) and left (p=0.025) sides. CONCLUSION: After controlling for the presence of the APOE 4 allele, our findings of CVRF-related regional brain hypofunction retained statistical significance in the precuneus and posterior cingulate gyrus, the two brain regions where functional impairments are most consistently detected in incipient stages of AD. This suggests that findings of brain hypometabolism similar to those seen in AD subjects can be seen in association with the severity of CVRF in samples of cognitively preserved individuals. One possible explanation for the relative hypermetabolism in the parahippocampal gyrus in high CVRF individuals would be a bias in the sample selection. It is possible that we have excluded subjects with severest levels of cardiovascular risk who would have displayed patterns of reduced CMRgl in the parahippocampal gyrus, forcing the selection of individuals who are at high cardiovascular risk but are capable of displaying compensatory mechanisms to maintain adequate metabolic functioning in temporolimbic regions vulnerable to microvascular change

The link between cardiovascular risk, Alzheimer's disease, and mild cognitive impairment: support from recent functional neuroimaging studies

Objective: To review functional neuroimaging studies about the relationship between cardiovascular risk factors (CVRFs), Alzheimer's disease (AD), and mild cognitive impairment (MCI). Methods: We performed a comprehensive literature search to identify articles in the neuroimaging field addressing CVRF in AD and MCI. We included studies that used positron emission tomography (PET), single photon emission computerized tomography (SPECT), or functional magnetic resonance imaging (fMRI). Results: CVRFs have been considered risk factors for cognitive decline, MCI, and AD. Patterns of AD-like changes in brain function have been found in association with several CVRFs (both regarding individual risk factors and also composite CVRF measures). In vivo assessment of AD-related pathology with amyloid imaging techniques provided further evidence linking CVRFs and AD, but there is still limited information resulting from this new technology. Conclusion: There is a large body of evidence from functional neuroimaging studies supporting the hypothesis that CVRFs may play a causal role in the pathophysiology of AD. A major limitation of most studies is their cross-sectional design; future longitudinal studies using multiple imaging modalities are expected to better document changes in CVRF-related brain function patterns and provide a clearer picture of the complex relationship between aging, CVRFs, and AD

High frequency of silent brain infarcts associated with cognitive deficits in an economically disadvantaged population

OBJECTIVE: Using magnetic resonance imaging, we aimed to assess the presence of silent brain vascular lesions in a sample of apparently healthy elderly individuals who were recruited from an economically disadvantaged urban region (São Paulo, Brazil). We also wished to investigate whether the findings were associated with worse cognitive performance. METHODS: A sample of 250 elderly subjects (66-75 years) without dementia or neuropsychiatric disorders were recruited from predefined census sectors of an economically disadvantaged area of Sao Paulo and received structural magnetic resonance imaging scans and cognitive testing. A high proportion of individuals had very low levels of education (4 years or less, n=185; 21 with no formal education). RESULTS: The prevalence of at least one silent vascular-related cortical or subcortical lesion was 22.8% (95% confidence interval, 17.7-28.5), and the basal ganglia was the most frequently affected site (63.14% of cases). The subgroup with brain infarcts presented significantly lower levels of education than the subgroup with no brain lesions as well as significantly worse current performance in cognitive test domains, including memory and attention (p<0.002). CONCLUSIONS: Silent brain infarcts were present at a substantially high frequency in our elderly sample from an economically disadvantaged urban region and were significantly more prevalent in subjects with lower levels of education. Covert cerebrovascular disease significantly contributes to cognitive deficits, and in the absence of magnetic resonance imaging data, this cognitive impairment may be considered simply related to ageing. Emphatic attention should be paid to potentially deleterious effects of vascular brain lesions in poorly educated elderly individuals from economically disadvantaged environments

Relationship Between Regional Brain Volumes and Cognitive Performance in the Healthy Aging: An MRI Study Using Voxel-Based Morphometry

The presence of cognitive impairment is a frequent complaint among elderly individuals in the general population. This study aimed to investigate the relationship between aging-related regional gray matter (rGM) volume changes and cognitive performance in healthy elderly adults. Morphometric magnetic resonance imaging (MRI) measures were acquired in a community-based sample of 170 cognitively-preserved subjects (66 to 75 years). This sample was drawn from the "Sao Paulo Ageing and Health" study, an epidemiological study aimed at investigating the prevalence and risk factors for Alzheimer's disease in a low income region of the city of Sao Paulo. All subjects underwent cognitive testing using a cross-culturally battery validated by the Research Group on Dementia 10/66 as well as the SKT (applied on the day of MRI scanning). Blood genotyping was performed to determine the frequency of the three apolipoprotein E allele variants (APOE epsilon 2/epsilon 3/epsilon 4) in the sample. Voxelwise linear correlation analyses between rGM volumes and cognitive test scores were performed using voxel-based morphometry, including chronological age as covariate. There were significant direct correlations between worse overall cognitive performance and rGM reductions in the right orbitofrontal cortex and parahippocampal gyrus, and also between verbal fluency scores and bilateral parahippocampal gyral volume (p &lt; 0.05, familywise-error corrected for multiple comparisons using small volume correction). When analyses were repeated adding the presence of the APOE epsilon 4 allele as confounding covariate or excluding a minority of APOE epsilon 2 carriers, all findings retained significance. These results indicate that rGM volumes are relevant biomarkers of cognitive deficits in healthy aging individuals, most notably involving temporolimbic regions and the orbitofrontal cortex.CAPES (Brazil)CAPES-BrazilWellcome Trust, UK [GR066133MA]Wellcome Trust, UKFAPESP (Brazil)FAPESP, Brazil [2004/15336-5]CNPQ-BrazilCNPq (Brazil

Relationship between Brain Age-Related Reduction in Gray Matter and Educational Attainment

<div><p>Inter-subject variability in age-related brain changes may relate to educational attainment, as suggested by cognitive reserve theories. This voxel-based morphometry study investigated the impact of very low educational level on the relationship between regional gray matter (rGM) volumes and age in healthy elders. Magnetic resonance imaging data were acquired in elders with low educational attainment (less than 4 years) (n = 122) and high educational level (n = 66), pulling together individuals examined using either of three MRI scanners/acquisition protocols. Voxelwise group comparisons showed no rGM differences (p<0.05, family-wise error corrected for multiple comparisons). When within-group voxelwise patterns of linear correlation were compared between high and low education groups, there was one cluster of greater rGM loss with aging in low versus high education elders in the left anterior cingulate cortex (p<0.05, FWE-corrected), as well as a trend in the left dorsomedial prefrontal cortex (p<0.10). These results provide preliminary indication that education might exert subtle protective effects against age-related brain changes in healthy subjects. The anterior cingulate cortex, critical to inhibitory control processes, may be particularly sensitive to such effects, possibly given its involvement in cognitive stimulating activities at school or later throughout life.</p></div

Differences in regional GM volumes between scanners / acquisition protocols.

<p>* Refers to statistical significant differences;</p><p>L: left; R: right; Ant Cing: Anterior Cingulate Cortex; Dors Front: Dorsal Frontal Cortex; Hippoc: Hippocampus; Parahippoc: Parahippocampus</p><p>Differences in regional GM volumes between scanners / acquisition protocols.</p