99 research outputs found

    Cohort profile: \u2018Centenari a Trieste\u2019 (CaT), a study of the health status of centenarians in a small defined area of Italy

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    Purpose Centenarians, a segment of the population which some 50 years ago comprised only a few individuals, now count thousands in many countries, and demographic projections forecast that this growth will continue. The study of this new population will give us new information on extreme longevity and help prepare for their health and social needs. The aim of the Centenari a Trieste study is to describe the health and health service use by centenarians, with speci c focus on cognitive status. Participants This is a population-based study of centenarians living in the province of Trieste (Italy), a small area with a high prevalence of centenarians and a close network of health and social services, which makes it possible to conduct a study. Consenting individuals were visited by a clinician, tested by neuropsychologists and also gave a sample of their blood. Administrative data were retrieved as well. Findings to date Of the 163 centenarians, 70 could be contacted and participated in the study. The main reasons for non-participation were impossibility to contact the subject (70) and death (20). Centenarians were mostly women (90%), tended to live in a nursing home (60%) and were generally severely functionally impaired (Barthel Index <50: 61%). Data from the administrative database showed that about one out of ve needed hospitalisation in the preceding year and more than three out of four had at least one drug prescription. Future plans In 2017, we started a new wave of the study enrolling people who had just become centenarian and reassessing subjects already seen; we hope to extend this recruitment in the next years. Subjects are now examined also by cardiologists and dental specialists. We are collecting further different biological specimens to investigate new hypotheses on the cognitive function of the centenarians

    A novel missense mutation in PSEN2 gene associated with a clinical phenotype of frontotemporal dementia

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    Background: In Familial Alzheimer's disease defects in three genes - the amyloid precursors protein (APP) gene on chromosome 21, the presenilin 1 (PSEN1) gene on chromosome 14 and the presenilin 2 (PSEN2) on chromosome 1- have been identified. More than 160 pathogenic missense mutations have been described in PSEN1, with wide clinic phenotypic variability. In PSEN2 only 11 missense mutations are known, in two of which (M239V and T122R) the clinical phenotype may be frontotemporal dementia-like. Methods: We present a novel PSEN2 mutation (Y231C) in an Italian patient who seven years ago, at age 55, manifested mood and behavioural disorders characterized by apathia, delusions, physical aggressive behaviour and psychomotor agitation. Language disturbances appeared one year later and mild memory loss three years later. The neuropsychological pattern suggested a main dysfunction in posterior temporal and parietal cortex. MRI showed diffuse atrophy, especially in posterior regions. Results: The genetic study showed an A-to-G mutation in exon seven of PSEN2 gene, resulting in tyrosine to cysteine substitution at residue 231. Conclusions: This new mutation confirms the variability of the phenotypes associated with PSEN2 mutations and justified the analysis of this gene in behavioural disturbances associated with degenerative dementia, at least in Italy in which PSEN2 mutations seems more frequent than in other countries

    Clinical phenotypic variability in an Italian family bearing the IVS6+ 5_8delGTGA mutation in PGRN gene

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    Background Frontotemporal dementia (FTD) is a complex presenile disorder characterized by behavioural changes and executive functions, expression of fronto-temporal degeneration. Hereditary FTD accounts for 20-30% of cases and, in the past decade, mutations in the microtubule associated protein tau (MAPT)gene were identified as a main genetic causes of familial FTD. In 2006, mutations in the gene encoding progranulin (PGRN) were reported, to account for a wide part of the familial FTD cases. Clinically, an high phenotypic variability within and among the kindreds is reported in the familial FTD associated with PGRN mutations and occasionally the memory deficits are the first symptoms, resembling Alzheimer's disease (AD). We report an Italian family with dementia associated with a PGRN mutation characterized by a deletion of 4 base pairs inside the intron 6 of the gene, leading to haploin sufficiency In our kindred, all three affected patients carried the mutation, but presented very different clinical phenotypes, evoking FTD, AD and rapidly-progressive dementia mimicking prion disease. Methods Informations on the members of the first, second and third generations were obtained conducting interviews with relatives, while for the three patients studied, the clinical evidence of dementia symptoms and their characterization was documented directly with sequential neurological examinations, cognitive assessments and neuroimaging. Blood sample collection and DNA extraction from peripheral blood lymphocytes for genetic analysis were performed after written informed consent of the patients. Results In our pedigree, the PGRN mutated patients are affected by dementia with three different clinical pictures: FTD, AD and rapidly progressive dementia mimicking prion disease. Neuropsychological examinations supported these diagnoses, documenting generalized deficits of cortical functions in AD patient and deficits in executive functions and in language in FTD patient. Regarding neuroimaging, in the same two cases MRI results do not correspond to the clinical diagnosis. Conclusions These findings confirms the marked heterogeneity of the clinico-radiological features in patients with PGNR mutations and underline the need of considering mutations of this gene as causes of familial dementing diseases with atypical or uncommon features or discrepancies between the clinical and the neuroimaging findings

    COVID-19 MORTALITY IN LOMBARDY: THE VULNERABILITY OF THE OLDEST OLD AND THE RESILIENCE OF MALE CENTENARIANS

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    Italy was the first European nation to be affected by COVID-19. The biggest cluster of cases occurred in Lombardy, the most populous Italian region, and elderly men were the population hit in the hardest way. Besides its high infectivity, COVID-19 causes a severe cytokine storm and old people, especially those with comorbidities, appear to be the most vulnerable, presumably in connection to inflammaging. In centenarians inflammaging is much lower than predicted by their chronological age and females, presenting survival advantage in almost all centenarian populations, outnumber males, a phenomenon particularly evident in Northern Italy. Within this scenario, we wondered if: a) the COVID-19 mortality in centenarians was lower than that in people aged between 50 and 80 and b) the mortality from COVID-19 in nonagenarians and centenarians highlighted gender differences. We checked COVID-19-related vulnerability/mortality at the peak of infection (March 2020), using data on total deaths (i.e. not only confirmed COVID-19 cases). Our conclusion is that excess mortality increases steadily up to very old ages and at the same time men older than 90 years become relatively more resilient than age-matched females

    Brainstem Sparing in Human Prion Disease: Sleep and Autonomic Function in a Long Survival Case Report

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    Abstract Background: The prion diseases are characterized by sleep disruption, with FFI typically characterized also by severe autonomic dysfunction and sympathetic hyperactivity. We report the results of an extensive neurophysiological and autonomic assessment in a CJD patient carrying the D178 mutation with the uncommon homozygosity for valine at codon 129. Results: A 47years old female presented with a memory impairment followed by progressive cognitive deficits and ataxia. The clinical picture slowly worsened to a state of akinetic mutism in about 2 years, and the patient died six years after the onset of symptoms. Repeated PSG and long-term actigraphic recordings, showed a peculiar, previously undescribed, pattern characterized by conservation of a rudimental circadian and ultradian rhythm, despite dramatic sleep micro-structure deterioration. We also observed a normal autonomic physiological response to orthostatic challenge and normal dynamic autonomic modulation during wake and sleep. The post-mortem brain pathology study, showed that neuronal loss was substantial in the cerebral cortex, diencephalon and thalami, but not in brainstem nuclei. Conclusions: We hypothesize that, despite a dramatic neurological picture (i.e. akinetic mutism) and a severe sleep micro-structural alteration, the persistence of an autonomic modulation and the persistence of a rudimental circadian and ultradian oscillation, are related to the relatively conserved anatomo-functional integrity of foundamental neuronal systems in the brainstem

    Amyotrophic Lateral Sclerosis, a Multisystem Pathology: Insights into the Role of TNF\u3b1

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    Amyotrophic lateral sclerosis (ALS) is considered a multifactorial, multisystem disease in which inflammation and the immune system play important roles in development and progression. The pleiotropic cytokine TNF\u3b1 is one of the major players governing the inflammation in the central nervous system and peripheral districts such as the neuromuscular and immune system. Changes in TNF\u3b1 levels are reported in blood, cerebrospinal fluid, and nerve tissues of ALS patients and animal models. However, whether they play a detrimental or protective role on the disease progression is still not clear. Our group and others have recently reported opposite involvements of TNFR1 and TNFR2 in motor neuron death. TNFR2 mediates TNF\u3b1 toxic effects on these neurons presumably through the activation of MAP kinase-related pathways. On the other hand, TNFR2 regulates the function and proliferation of regulatory T cells (Treg) whose expression is inversely correlated with the disease progression rate in ALS patients. In addition, TNF\u3b1 is considered a procachectic factor with a direct catabolic effect on skeletal muscles, causing wasting. We review and discuss the role of TNF\u3b1 in ALS in the light of its multisystem nature

    Expression pattern of perilipins in human brain during aging and in Alzheimer's disease

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    Aims: Perilipins are conserved proteins that decorate intracellular lipid droplets and are essential for lipid metabolism. To date, there is limited knowledge on their expression in human brain or their involvement in brain aging and neurodegeneration. The aim of this study was to characterise the expression levels of perilipins (Plin1-Plin5) in different cerebral areas from subjects of different age, with or without signs of neurodegeneration. Methods: We performed real-time RT-PCR, western blotting, immunohistochemistry and confocal microscopy analyses in autoptic brain samples of frontal and temporal cortex, cerebellum and hippocampus from subjects ranging from 33 to 104 years of age, with or without histological signs of neurodegeneration. To test the possible relationship between Plins and inflammation, correlation analysis with IL-6 expression was also performed. Results: Plin2, Plin3 and Plin5, but not Plin1 and Plin4, are expressed in the considered brain areas with different intensities. Plin2 appears to be expressed more in grey matter, particularly in neurons in all the areas analysed, whereas Plin3 and Plin5 appear to be expressed more in white matter. Plin3 seems to be expressed more in astrocytes. Only Plin2 expression is higher in old subjects and patients with early tauopathy or Alzheimer's disease and is associated with IL-6 expression. Conclusions: Perilipins are expressed in human brain but only Plin2 appears to be modulated with age and neurodegeneration and linked to an inflammatory state. We propose that the accumulation of lipid droplets decorated with Plin2 occurs during brain aging and that this accumulation may be an early marker and initial step of inflammation and neurodegeneration

    Region-specific and age-related differences in astrocytes in the human brain

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    Astrocyte heterogeneity and its relation to aging in the normal human brain remain poorly understood. We here analyzed astrocytes in gray and white matter brain tissues obtained from donors ranging in age between the neonatal period to over 100 years. We show that astrocytes are differently distributed with higher density in the white matter. This regional difference in cellular density becomes less prominent with age. Additionally, we confirm the presence of morphologically distinct astrocytes, with gray matter astrocytes being morphologically more complex. Notably, gray matter astrocytes morphologically change with age, while white matter astrocytes remain relatively consistent in morphology. Using regional mass spectrometry-based proteomics, we did, however, identify astrocyte specific proteins with regional differences in abundance, reflecting variation in cellular density or expression level. Importantly, the expression of some astrocyte specific proteins region-dependently decreases with age. Taken together, we provide insights into region- and age-related differences in astrocytes in the human brain
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