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Volume 08

Journal of Alzheimers Disease & Parkinsonism

Alzheimer's Congress 2018

May 30-31, 2018

May 30-31, 2018 Osaka, Japan

10

th

World Congress on

Alzheimer's Disease & Dementia

Candidate biomarkers and CSF profiles for alzheimer’s disease and CADASIL

Bowirrat Abdalla

EMMS Nazareth Hospital, Israel

T

he differential diagnosis between Alzheimer’s Disease (AD) and Vascular Dementia (VaD) are still roughly problematic

in clinical practice, despite the widely used diagnostic criteria to differentiate between the two disorders. There is an

increasing evidence that cerebrovascular dysfunction plays a role not only in vascular causes of cognitive alterations but also

in AD. Cognitively patients, with AD, show sometimes-mixed degrees of associated vascular lesions in 30-60% of AD cases.

In opposition, AD pathology may be present in 40%-80% of VaD patients, thus impeding diagnosis accuracy. Therefore, to

eliminate this bewilderment and discrepancies in the diagnosis between the AD and VaD, it is worthy to shed light firstly on a

disease that is a microangiopathy and represents VaD with clear milestones and features, as is the case of Cerebral Autosomal

Dominant Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CADASIL). Studying CADASIL CSF biomarkers

profile will help in the differential diagnosis between both diseases sharing the coexisting neurodegeneration, furthermore,

CADASIL is a dominantly inherited mid-adult life disorder causing ischemic strokes, which belongs to vasculopathies and

symbolizes a genuine prototype of VaD that provides a valuable opportunity for studying its CSF biomarkers. Secondly,

examining and evaluating the CSF biomarkers of AD compared to that of CADASIL. The pathogenesis similarities between

CADASIL and early onset AD affecting the small vessels of the brain have suggested plausible molecular mechanisms involved

in vascular damage and their impact on brain function and come from the fact that in both diseases genetic mutations occur.

CADASIL mutations in NOTCH3 gene generate toxic protein aggregates (Granular Osmiophilic Material-GOM) in the

vicinity of Vascular Smooth Muscle Cells (VSMCs) causing degeneration and loss of VSMCs in small arteries and arterioles of

white matter regions of the brain that lead to dementia, similar to those attributed to mutant forms of the Amyloid Precursor

Proteins (APP) and presenilins genes who cause overproduction and accumulations of the toxic Aβ42 protein in the brain and

collapse of Aβ42 clearance mechanisms in AD. Despite the presumed pathological similarities, substantial differences between

the two phenomena may exist especially in the CSF neurochemical phenotypes.

bowirrat@gmail.com

J Alzheimers Dis Parkinsonism 2018, Volume 8

DOI: 10.4172/2161-0460-C4-046