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体积 3, 问题 3 (2020)

研究文章

ACE2-Expressing Endothelial Cells in Aging Mouse Brain

Su Bin Lim, Valina L. Dawson, Ted M. Dawson and Sung-Ung Kang

Angiotensin-Converting Enzyme 2 (ACE2) is a key receptor mediating the entry of SARS-CoV-2 into the host cell. Through a systematic analysis of publicly available mouse brain sc/snRNA-seq data, we found that ACE2 is specifically expressed in small sub-populations of endothelial cells and mural cells, namely pericytes and vascular smooth muscle cells. Further, functional changes in viral mRNA transcription and replication, and impaired blood-brain barrier regulation were most prominently implicated in the aged, ACE2-expressing endothelial cells, when compared to the young adult mouse brains. Concordant EC transcriptomic changes were further found in normal aged human brains. Overall, this work reveals an outline of ACE2 distribution in the mouse brain and identifies putative brain host cells that may underlie the selective susceptibility of the aging brain to viral infection.

研究

Wavelet Time Scattering Based Classification of Interictal and Preictal EEG Signals

Afreda A. Susu, H.A. Agboola, C. Solebo, F.E.A. Lesi and D.S. Aribike

If it were possible to reliably identify the preictal brain state from dynamical changes in EEG data of epilepsy patients, then the age long problem of actualizing a fully automated closed-loop seizure – warning or seizure-prevention system that is clinically deployable would have been resolved. Accordingly, through feature engineering, a great deal of effort has been invested over the discovery of EEG features or measures that are always indicative of the preictal brain state. However, this has proven to be difficult, time consuming and apparently unsuccessful. Therefore, lately, attention has shifted to feature learning-methods that automatically learn and extracts useful discriminatory features from raw data. This paper studies the efficacy of wavelet time scattering learned EEG features for interictal and preictal EEG classification. Wavelet time scattering network developed in Matlab and two different EEG datasets: CHB-MIT scalp EEG and AES intracranial EEG datasets were used for the study. The learned interictal and preictal EEG features were used to train and evaluate a simple binary support vector machine classifier. Three different classification accuracy results namely ordinary cross validation, true cross validation and test classification accuracy results were reported for the analysis. Mean classification accuracy values of 93.15%, 97.57% and 91.33% were obtained respectively for the scalp EEG while mean classification accuracy values of 98.33%, 100% and 96.73% were obtained respectively for the intracranial EEG. A general comparison showed that the combination of wavelet time scattering learned EEG features and a simple binary support vector machine classifier performed equally or even better than deep convolutional neural networks in EEG classification tasks. Finally, wavelet time scattering has proven to be a very good EEG feature learner and may greatly improve the sensitivity and specificity of seizure prediction algorithms.

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Brain Injury and SARS-CoV-2 Infection: Bidirectional Pathways

Hayder M. Al-kuraishy, Ali I. Al-Gareeb, Marta Chagas Monteiro and Hanan J. Al-Saiddy

Coronavirus Infection Disease (COVID-19) is a recent pandemic infectious disease caused by Severe Acute Respiratory Syndrome Coronavirus (SARS-CoV2), ongoing in Wuhan, China that earlier known as Wuhan pneumonia. COVID-19 was declared by the World Health Organization (WHO) as a pandemic disease on March 11th, 2020. As of October, 2020, there have been total of 34,392,166 confirmed cases with 1,022,391 deaths globally.

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