Journal of Neurology and Neurorehabilitation Research

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Tau protein in the retina

18th International Conference on Neurology and Neurological Disorders
August 23-24, 2018 | Paris, France

Umur Kayabasi and John Rose Sr

Bahcesehir University, Turkey John Rose Eye Center, United Kingdom

Posters & Accepted Abstracts : J Neurol Neurorehabil Res

Abstract:

Background: Recent research suggests that Tau is the culprit lesion along with neuroinflammation in the etiology of Alzheimer’ s Disease (AD). Retina is the extension of the brain and is the most easily approachable part of the central nervous system. Detection of the pathological protein accumulations may be possible by using spectral domain optical cohere scent tomography (SD-OCT) and fundus auto fluorescein (FAF). There is evidence showing that retinal plaques start accumulating even earlier than the ones in the brain. Most recent Tau protein images in the brain consist of normal or reverse C-shaped paired helical filaments.

Methods: 20 patients with PET proven AD were examined by SD-OCT and FAF. Mean age was 72. Hypo or hyperfluorescent retinal lesions were scanned by SD-OCT and C shaped paired helical filaments were investigated in a masked fashion. The researchers agreed on the shape of the lesions. Both C-shaped (normal or reverse) filaments and thinner fibrillary structures were taken into consideration.

Results: In all the patients, paired helical filaments that exactly corresponded with the histopathologic and cryo-EM images of Tau (Figure 1) in terms of shape and dimension were detected along with thin fibrils and lesions similar to amyloid beta. The number of the retinal filaments and other abnormal proteins was in concordance with the severity of the disease process. The advanced retinal filaments had normal or reverse paired C shapes (Figure 2) and thin fibrils had the shape of histopathologic images seen in early developmental stages of the disease.

Conclusions: Retinal images of Tau were disclosed for the first time in live AD patients. Retinal neuroimaging is a trustable biomarker and tool for monitoring the disease.

Biography:

E-mail:

kayabasi@yahoo.com

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