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• W3089383343 endingPage "272" @default.
• W3089383343 startingPage "265" @default.
• W3089383343 abstract "Introduction COVID-19 disease has shocked the world by its spread and contagiousness. At this time, there is no valid vaccine and no proven drug treatment for COVID-19 patients. Current treatments are focused on Oxygenation, Cytokine Storm management, anti-inflammatory effects, and antiviral therapy. Antiviral photodynamic therapy (aPDT) is based on the reaction between a photo-sensitive agent and a light source in the presence of oxygen which can produce oxidative and free radical agents to damage the virus’ structures. Recent studies show that nanotechnology can improve aPDT’s outcome. The aim of this study was to find out the potential therapeutic effects of Nano antiviral photodynamic therapy on COVID-19.Areas covered This review evaluates Nano Antiviral Photodynamic Therapy: A Probable Biophysicochemical Management Modality in SARS-CoV-2. Data were extracted from published different studies published on PUBMED, SCOPUS, and Web of Science.Expert opinion Studies indicating that aPDT and Nano-based aPDT can be useful in viral pulmonary complications like Influenza, SARS-CoV, and MERS, but there was no direct study on SARS-Cov-2. Recent studies showed that Nano-based aPDT could relate to control of the stages of viral infections. Altogether, further investigations for the application of nanomedicine in antimicrobial photodynamic inactivation are needed for COVID-19 Management." @default.
• W3089383343 created "2020-10-08" @default.
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• W3089383343 date "2020-10-19" @default.
• W3089383343 modified "2023-10-18" @default.
• W3089383343 title "Nano Antiviral Photodynamic Therapy: a Probable Biophysicochemical Management Modality in SARS-CoV-2" @default.
• W3089383343 cites W1595363731 @default.
• W3089383343 cites W1938595213 @default.
• W3089383343 cites W1969308039 @default.
• W3089383343 cites W1970673070 @default.
• W3089383343 cites W1984831037 @default.
• W3089383343 cites W1989502407 @default.
• W3089383343 cites W1994748035 @default.
• W3089383343 cites W1997297811 @default.
• W3089383343 cites W2004779456 @default.
• W3089383343 cites W2004825371 @default.
• W3089383343 cites W2006234086 @default.
• W3089383343 cites W2012912974 @default.
• W3089383343 cites W2021238010 @default.
• W3089383343 cites W2022152519 @default.
• W3089383343 cites W2023781729 @default.
• W3089383343 cites W2043114656 @default.
• W3089383343 cites W2046346311 @default.
• W3089383343 cites W2047586976 @default.
• W3089383343 cites W2054970259 @default.
• W3089383343 cites W2055684927 @default.
• W3089383343 cites W2061040945 @default.
• W3089383343 cites W2061073363 @default.
• W3089383343 cites W2064611989 @default.
• W3089383343 cites W2073932571 @default.
• W3089383343 cites W2078351845 @default.
• W3089383343 cites W2087929720 @default.
• W3089383343 cites W2088146449 @default.
• W3089383343 cites W2089540565 @default.
• W3089383343 cites W2094773533 @default.
• W3089383343 cites W2096647256 @default.
• W3089383343 cites W2098065501 @default.
• W3089383343 cites W2098709097 @default.
• W3089383343 cites W2098756966 @default.
• W3089383343 cites W2100885194 @default.
• W3089383343 cites W2103295247 @default.
• W3089383343 cites W2104154679 @default.
• W3089383343 cites W2104221133 @default.
• W3089383343 cites W2111861011 @default.
• W3089383343 cites W2123044891 @default.
• W3089383343 cites W2133262997 @default.
• W3089383343 cites W2139534622 @default.
• W3089383343 cites W2145617208 @default.
• W3089383343 cites W2146482929 @default.
• W3089383343 cites W2148260760 @default.
• W3089383343 cites W2151671351 @default.
• W3089383343 cites W2158118659 @default.
• W3089383343 cites W2158570595 @default.
• W3089383343 cites W2161802206 @default.
• W3089383343 cites W2163151727 @default.
• W3089383343 cites W2166253703 @default.
• W3089383343 cites W2171444483 @default.
• W3089383343 cites W2171474712 @default.
• W3089383343 cites W2171944637 @default.
• W3089383343 cites W2256430766 @default.
• W3089383343 cites W2278726896 @default.
• W3089383343 cites W2331294724 @default.
• W3089383343 cites W2336829733 @default.
• W3089383343 cites W2340645150 @default.
• W3089383343 cites W2439361552 @default.
• W3089383343 cites W2524937483 @default.
• W3089383343 cites W2586506325 @default.
• W3089383343 cites W2615005392 @default.
• W3089383343 cites W2734374272 @default.
• W3089383343 cites W2791335613 @default.
• W3089383343 cites W2803744068 @default.
• W3089383343 cites W2804875285 @default.
• W3089383343 cites W2950756029 @default.
• W3089383343 cites W2970205866 @default.
• W3089383343 cites W3001118548 @default.
• W3089383343 cites W3001897055 @default.
• W3089383343 cites W3003668884 @default.
• W3089383343 cites W3006390878 @default.
• W3089383343 cites W3007940623 @default.
• W3089383343 cites W3009834387 @default.
• W3089383343 cites W3016084006 @default.
• W3089383343 cites W4237939525 @default.
• W3089383343 cites W4245757221 @default.
• W3089383343 cites W760817272 @default.
• W3089383343 cites W783595816 @default.
• W3089383343 cites W92409275 @default.
• W3089383343 doi "https://doi.org/10.1080/17425247.2021.1829591" @default.
• W3089383343 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33019838" @default.
• W3089383343 hasPublicationYear "2020" @default.
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