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NTIS 바로가기Journal of cellular physiology, v.236 no.2, 2021년, pp.763 - 770
Mahalaxmi, Iyer (Department of Zoology, Avinashilingam Institute for Home Science and Higher Education, Coimbatore, Tamil Nadu, India) , Kaavya, Jayaramayya (Department of Zoology, Avinashilingam Institute for Home Science and Higher Education, Coimbatore, Tamil Nadu, India) , Mohana Devi, Subramaniam (Department of Genetics and Molecular Biology, Vision Research Foundation, Chennai, India) , Balachandar, Vellingiri (Human Molecular Cytogenetics and Stem Cell Laboratory, Department of Human Genetics and Molecular Biology, Bharathiar University, Coimbatore, Tamil Nadu, India)
AbstractThe emergence of severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2), the agent of novel coronavirus 2019 (COVID‐19), has kept the globe in disquiets due to its severe life‐threatening conditions. The most common symptoms of COVID‐19 are fever, sore thr...
Ahmad , I. , & Rathore , F. A. ( 2020 ). Neurological manifestations and complications of COVID‐19: A literature review . Journal of Clinical Neuroscience , 77 , 8 – 12 . 10.1016/j.jocn.2020.05.017 32409215
Al Saiegh , F. , Ghosh , R. , Leibold , A. , Avery , M. B. , Schmidt , R. F. , Theofanis , T. , … Gooch , M. R. ( 2020 ). Status of SARS‐CoV‐2 in cerebrospinal fluid of patients with COVID‐19 and stroke . Journal of Neurology, Neurosurgery and Psychiatry , 10.1136/jnnp-2020-323522
Armocida , D. , Pesce , A. , Raponi , I. , Pugliese , F. , Valentini , V. , Santoro , A. , & Berra , L. V. ( 2020 ). Anosmia in COVID‐19: severe acute respiratory syndrome coronavirus 2 through the nasoliary epithelium and a possible spreading way to the central nervous system—A purpose to study . Neurosurgery , 10.1093/neuros/nyaa204
Asadi‐Pooya , A. A. , & Simani , L. ( 2020 ). Central nervous system manifestations of COVID‐19: A systematic review . Journal of the Neurological Sciences , 413 , 116832 . 32299017
Baig , A. M. , Khaleeq , A. , Ali , U. , & Syeda , H. ( 2020 ). Evidence of the COVID‐19 virus targeting the CNS: Tissue distribution, host‐virus interaction, and proposed neurotropic mechanisms . ACS Chemical Neuroscience , 11 ( 7 ), 995 – 998 . 32167747
Balachandar , V. , Mahalaxmi , I. , Mohana Devi , S. , Kaavya , J. , Senthil Kumar , N. , Gracy , L. , … Ssang‐Goo , C. ( 2020 ). Follow‐up studies in COVID‐19 recovered patients ‐ Is it mandatory . Science of the Total Environment , 729 , 139021 . 10.1016/j.scitotenv.2020.139021 32360909
Dahm , T. , Rudolph , H. , Schwerk , C. , Schroten , H. , & Tenenbaum , T. ( 2016 ). Neuroinvasion and inflammation in viral central nervous system infections . Mediators of Inflammation , 2016 , 8562805 . 27313404
Dalakas , M. C. ( 2020 ). Guillain‐Barré syndrome: The first documented COVID‐19‐triggered autoimmune neurologic disease: More to come with myositis in the offing . Neurology(R) Neuroimmunology & Neuroinflammation , 7 ( 5 ), e781 . 10.1212/NXI.0000000000000781 32518172
Das , G. , Mukherjee , N. , & Ghosh , S. ( 2020 ). Neurological insights of COVID‐19 pandemic . ACS Chemical Neuroscience , 11 , 1206 – 1209 . 32320211
De Santis , G. ( 2020 ). SARS‐CoV‐2: A new virus but a familiar inflammation brain pattern . Brain, Behavior, and Immunity , S0889‐1591 ( 20 ), 30676 .
Ding , Y. Q. , He , L. , Zhang , Q. L. , Huang , Z. , Che , X. , Hou , J. , … Jiang , S. ( 2004 ). Organ distribution of severe acute respiratory syndrome (SARS) associated coronavirus (SARS‐CoV)in SARS patients: Implications for pathogenesis and virus transmission pathways . Journal of Pathology , 203 , 622 – 630 . 15141376
Doursout , M. F. , Schurdell , M. S. , Young , L. M. , Osuagwu , U. , Hook , D. M. , Poindexter , B. J. , … Bick , R. J. ( 2013 ). Inflammatory cells and cytokines in the olfactory bulb of a rat model of neuroinflammation; insights into neurodegeneration? Journal of Interferon & Cytokine Research: The Official Journal of the International Society for Interferon and Cytokine Research , 33 ( 7 ), 376–383. 10.1089/jir.2012.0088
Filatov , A. , Sharma , P. , Hindi , F. , & Espinosa , P. S. ( 2020 ). Neurological complications of coronavirus disease (COVID‐19): Encephalopathy . Cureus , 12 ( 3 ), e7352 . 32328364
Gómez‐Iglesias , P. , Porta‐Etessam , J. , Montalvo , T. , Valls‐Carbó , A. , Gajate , V. , Matías‐Guiu , J. A. , … Matías‐Guiu , J. ( 2020 ). An online observational study of patients with olfactory and gustory alterations secondary to SARS‐CoV‐2 infection Frontiers in Public Health , 8 , 243. 10.3389/fpubh.2020.00243
Hassanzadeh , K. , & Rahimmi , A. ( 2019 ). Oxidative stress and neuroinflammation in the story of Parkinson's disease: Could targeting these pathways write a good ending? Journal of Cellular Physiology , 234 , 23 – 32 .
Kaavya , J. , Mahalaxmi , I. , Dhivya , V. , Venkatesh , B. , Arul , N. , Mohana Devi , S. , … Balachandar , V. ( 2020 ). Unraveling correlative roles of dopamine transporter (DAT) and Parkin in Parkinson's disease (PD)‐A road to discovery? Brain Research Bulletin , 157 , 169 – 179 . 32035946
Koralnik , I. J. , & Tyler , K. L. ( 2020 ). COVID‐19: A global threat to the nervous system . Annals of Neurology , 88 ( 1 ), 1 – 11 . 10.1002/ana.25807 32506549
Lechien , J. R. , Chiesa‐Estomba , C. M. , De Siati , D. R. , Horoi , M. , Le Bon , S. D. , Rodriguez , A. , … Saussez , S. ( 2020 ). Olfactory and gustatory dysfunctions as a clinical presentation of mild‐to‐moderate forms of the coronavirus disease (COVID‐19): A multicenter European study . European Archives of Oto‐Rhino‐Laryngology , 1 – 11 . 10.1007/s00405-020-05965-1
Li , Y. C. , Bai , W. Z. , & Hashikawa , T. ( 2020 ). The neuroinvasive potential of SARS‐CoV2 may play a role in the respiratory failure of COVID‐19 patients . Journal of Medical Virology , 92 , 1 – 4 . 31502247
Marinosci , A. , Landis , B. N. , & Calmy , A. ( 2020 ). Possible link between anosmia and COVID‐19: Sniffing out the truth . European Archives of Oto‐Rhino‐Laryngology , 1 – 2 .
Matthew , A. ( 2020 , March 24). Lost smell and taste hint COVID‐19 can target the Nervous system. The Scientist .
McGavern , D. B. , & Kang , S. S. ( 2011 ). Illuminating viral infections in the nervous system . Nature Reviews Immunology , 11 , 318 – 329 . 10.1038/nri2971
Montalvan , V. , Lee , J. , Bueso , T. , De Toledo , J. , & Rivas , K. ( 2020 ). Neurological manifestations of COVID‐19 and other coronavirus infections: A systematic review . Clinical Neurology and Neurosurgery , 194 , 105921 . 10.1016/j.clineuro.2020.105921 32422545
Nath , A. ( 2020 ). Neurologic complications of coronavirus infections . Neurology , 94 ( 19 ), 809 – 810 . 32229625
Paniz‐Mondolfi , A. , Bryce , C. , Grimes , Z. , Gordon , R. E. , Reidy , J. , Lednicky , J. , … Fowkes , M. ( 2020 ). Central nervous system involvement by severe acute respiratory syndrome coronavirus ‐2 (SARS‐CoV‐2) . Journal of Medical Virology , 92 , 699 – 702 . 10.1002/jmv.25915 32314810
Pinna , P. , Grewal , P. , Hall , J. P. , Tavarez , T. , Dafer , R. M. , Garg , R. , … Silva , I. D. ( 2020 ). Neurological manifestations and COVID‐19: Experiences from a tertiary care center at the frontline . Journal of the Neurological Sciences , 415 , 116969 . 10.1016/j.jns.2020.116969 32570113
Ponsen , M. M. , Stoffers , D. , Booij , J. , van Eck‐Smit , B. L. F. , Wolters , E. C. , & Berendse , H. W. ( 2004 ). Idiopathic hyposmia as a preclinical sign of Parkinson's disease . Annals of Neurology , 56 ( 2 ), 173 – 181 . 15293269
Ralli , M. , Di Stadio , A. , Greco , A. , de Vincentiis , M. , & Polimeni , A. ( 2020 ). Defining the burden of olfactory dysfunction in COVID‐19 patients . European Review for Medical and Pharmacological Sciences , 24 ( 7 ), 3440 – 3441 . 32329813
Rambaran , R. N. , & Serpell , L. C. ( 2008 ). Amyloid fibrils: Abnormal protein assembly . Prion , 2 ( 3 ), 112 – 117 . 19158505
Richard , L. D. ( 2013 , September 30). Smell and the degenerating brain. The Scientist .
Seo , Y. , Kim , H. S. , & Kang , K. S. ( 2018 ). Microglial involvement in the development of olfactory dysfunction . Journal of Veterinary Science , 19 ( 3 ), 319 – 330 . 29032655
Sohal , S. , & Mossammat , M. ( 2020 ). COVID‐19 presenting with seizures . IDCases , 20 , e00782 . 32363146
Velayudhan , L. , & Lovestone , S. ( 2009 ). Smell identification test as a treatment response marker in patients with Alzheimer disease receiving donepezil . Journal of Clinical Psychopharmacology , 29 , 387 – 390 . 19593181
Vellingiri , B. , Jayaramayya , K. , Iyer , M. , Narayanasamy , A. , Govindasamy , V. , Giridharan , B. , … Subramaniam , M. D. ( 2020 ). COVID‐19: A promising cure for the global panic . Science of the Total Environment , 725 , 138277. 10.1016/j.scitotenv.2020.138277
Venugopal , A. , Mahalaxmi , I. , Venkatesh , B. , & Balachandar , V. ( 2019 ). Mitochondrial calcium uniporter as a potential therapeutic strategy for alzheimer's disease (AD) . Acta Neuropsychiatrica , 32 ( 2 ), 65 – 71 . 31556366
Wang , H. , Zhou , M. , Brand , J. , & Huang , L. ( 2009 ). Inflammation and taste disorders: mechanisms in taste buds . Annals of the New York Academy of Sciences , 1170 , 596 – 603 . 19686199
Whitcroft , K. L. , & Hummel , T. ( 2020 ). Olfactory dysfunction in COVID‐19: Diagnosis and management . Journal of the American Medical Association , 10.1001/jama.2020.8391
Xydakis , M. S. , Dehgani‐Mobaraki , P. , Holbrook , E. H. , Geisthoff , U. W. , Bauer , C. , Hautefort , C. , … Hopkins , C. ( 2020 ). Smell and taste dysfunction in patients with COVID‐19 . The Lancet Infectious Diseases , S1473‐S3099 ( 20 ), 30293 . 10.1016/S1473-3099(20)30293-0
Yin , R. , Feng , W. , Wang , T. , Chen , G. , Wu , T. , Chen , D. , … Xiang , D. ( 2020 ). Concomitant neurological symptoms observed in a patient diagnosed with coronavirus disease 2019 . Journal of Medical Virology , 10.1002/jmv.25888
Zhou , Y. , Li , W. , Wang , D. , Mao , L. , Jin , H. , Li , Y. , … Hu , B. ( 2020 ). Clinical time course of COVID‐19, its neurological manifestation and some thoughts on its management . Stroke and Vascular Neurology , 5 ( 2 ), 177 – 179 . 10.1136/svn-2020-000398 32366614
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