Rev Neurol France
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Vascular cognitive impairment (VCI) includes vascular dementia (VaD), vascular mild cognitive impairment (VaMCI) and mixed dementia. In clinical practice, VCI concerns patients referred for clinical stroke or cognitive complaint. To improve the characterization of VCI and to refine its diagnostic criteria, an international group has elaborated a new standardized evaluation battery of clinical, cognitive, behavioral and neuroradiological data which now constitutes the reference battery. ⋯ The first studies showed that about a third of patients with VaD due to small vessel disease or with poststroke dementia have amyloid PET imaging suggestive of AD. These new techniques will examine the interaction between vascular lesions and promotion of amyloid deposition. Although results of these on-going studies will be available in few years, these data indicate that efforts should be done in clinical practice to reduce underdiagnosis of VCI; VCI should be examined using a specific protocol which will be fully normalized soon for French-speaking patients; the sub-optimal sensitivity of screening tests prompts to use a structured interview to grade Rankin scale and to perform systematically a comprehensive assessment in stroke patients at risk of VCI; poststroke dementia occurring after 3 months poststroke may be preventable by treatment of modifiable vascular risk factors and secondary prevention of stroke recurrence according to recent recommendations.
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The cerebrospinal fluid (CSF) biomarkers β-amyloid1-42 (Aβ1-42), total tau protein (T-tau) and hyperphosphorylated tau (P-tau181P) are well-validated and are increasingly used in clinical practice as an affirmative diagnostic tool for Alzheimer's disease (AD). These biomarkers have also been implemented in the revised diagnostic criteria of AD. The combination of the CSF biomarkers Aβ1-42, T-tau and P-tau181P results in high levels of sensitivity, specificity and diagnostic accuracy for discriminating AD from controls (including psychiatric disorders like depression). ⋯ Other CSF biomarkers like Aβ1-40, and those that are reflective of the pathology of non-AD dementias, could improve the accuracy of differential dementia diagnosis. The added differential diagnostic value of the CSF biomarkers Aβ1-42, T-tau and P-tau181P could lie within those cases in which the routine clinical diagnostic work-up is not able to discriminate between AD or non-AD dementias. In summary, the CSF biomarkers Aβ1-42, T-tau and P-tau181P can be used in clinical practice to discriminate AD from healthy aging (including psychiatric disorders like depression), to diagnose AD in its prodromal phase or in atypical forms with prominent non-memory impairment, to identify AD in patients with mixed pathologies and in case of an ambiguous (AD versus non-AD) dementia diagnosis.
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Approximately 20% of patients with the neurodegenerative disorder frontotemporal dementia (FTD) have an autosomal dominant pattern of inheritance. Genetic FTD is caused by mutations in three genes in most cases (progranulin, microtubule-associated protein tau and chromosome 9 open reading frame 72) although a number of other genes are rare causes. ⋯ Lastly, neuropsychometric tests become abnormal in proximity to the onset of symptoms. Such studies have been relatively small until now but research centres with an expertise in genetic FTD are now forming consortia such as the Genetic Frontotemporal Dementia Initiative (GenFI) to create larger cohorts that can form the basis of future clinical trials.
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Review Comparative Study
Frontotemporal lobar degeneration and amyotrophic lateral sclerosis: molecular similarities and differences.
In the last years, new disease proteins and genes have been identified in frontotemporal lobar degeneration (FTLD) and amyotrophic lateral sclerosis (ALS), leading to a dramatic shift in our understanding of the molecular mechanisms underlying both conditions. The vast majority of FTLD and ALS are characterized by the abnormal accumulation of TDP-43, including genetic forms associated with mutations in the genes C9ORF72, GRN, TARDBP and VCP. The overlap in pathology and of genetic factors, particularly C9ORF72 as common cause of ALS and FTLD, provides molecular evidence that both conditions represent a spectrum of diseases sharing similar pathomechanisms. ⋯ However, here some striking differences have been identified. All members of the FET family (FUS, EWS, TAF15) are co-accumulating with their nuclear import receptor Transportin in FTLD-FUS which is usually not associated with FUS mutations, whilst ALS-FUS is almost always associated with FUS mutations and reveals only FUS aggregates. Together with recent data demonstrating differences in the arginine methylation status of FUS in FTLD-FUS and ALS-FUS, these findings strongly imply at least partially distinct underlying disease mechanisms in these molecular subtypes of ALS and FTLD.