Author: Clark, Ian A.
Title: Background to new treatments for COVIDâ€19, including its chronicity, through altering elements of the cytokine storm Cord-id: nobj36xp Document date: 2020_12_24
ID: nobj36xp
Snippet: Antiâ€tumour necrosis factor (TNF) biologicals, Dexamethasone and rILâ€7 are of considerable interest in treating COVIDâ€19 patients who are in danger of, or have become, seriously ill. Yet reducing sepsis mortality by lowering circulating levels of TNF lost favour when positive endpoints in earlier simplistic models could not be reproduced in wellâ€conducted human trials. Newer information with antiâ€TNF biologicals has encouraged reintroducing this concept for treating COVIDâ€19. Viral m
Document: Antiâ€tumour necrosis factor (TNF) biologicals, Dexamethasone and rILâ€7 are of considerable interest in treating COVIDâ€19 patients who are in danger of, or have become, seriously ill. Yet reducing sepsis mortality by lowering circulating levels of TNF lost favour when positive endpoints in earlier simplistic models could not be reproduced in wellâ€conducted human trials. Newer information with antiâ€TNF biologicals has encouraged reintroducing this concept for treating COVIDâ€19. Viral models have had encouraging outcomes, as have the effects of antiâ€TNF biologicals on communityâ€acquired COVIDâ€19 during their longâ€term use to treat chronic inflammatory states. The positive outcome of a large scale trial of dexamethasone, and its higher potency late in the disease, harmonises well with its capacity to enhance levels of ILâ€7Rα, the receptor for ILâ€7, a cytokine that enhances lymphocyte development and is increased during the cytokine storm. Lymphoid germinal centres required for antibodyâ€based immunity can be harmed by TNF, and restored by reducing TNF. Thus the ILâ€7†enhancing activity of dexamethasone may explain its higher potency when lymphocytes are depleted later in the infection, while employing antiâ€TNF, for several reasons, is much more logical earlier in the infection. This implies dexamethasone could prove to be synergistic with rILâ€7, currently being trialed as a COVIDâ€19 therapeutic. The principles behind these COVIDâ€19 therapies are consistent with the observed chronic hypoxia through reduced mitochondrial function, and also the increased severity of this disease in ApoE4â€positive individuals. Many of the debilitating persistent aspects of this disease are predictably susceptible to treatment with perispinal etanercept, since they have cerebral origins.
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