Background: Coronavirus disease 2019 (COVID-19) emerged as a small outbreak in Wuhan rapidly progressing into the deadliest pandemic since the Spanish flu of 1918. The disease was deemed trivial in children, until the reporting, few days ago, of an emerging pediatric multi-inflammatory syndrome mimicking Kawasaki disease (KD). Main body: This report reveals that coronaviridae were implicated in induction of several post-infectious vasculitides, namely, KD, AHEI, and HSP. This occurs in genetically susceptible individuals to vascular inflammation. Shared genetic susceptibilities between KD and CoV include genes encoding for CD 40, HLAB-15:03, and ACE. This leads to augmented inflammation with hypersecretion of cytokines especially IL-6. Conclusion: The revealed relationships between KD and CoV can help to predict the risk of KD in COVID-19 patients through screening levels of upregulated cytokines. It might also signify that classic treatment of KD with IVIG might need to be replaced with anti-cytokine therapy in COVID-19 patients.
Background Several reports of unheeded complications secondary to the current mass international rollout of SARS-COV-2 vaccines, one of which is myocarditis occurring with the FDA fully approved vaccine, Pfizer, and others. Main body of the abstract Certain miRNAs (non-coding RNA sequences) are involved in the pathogenesis in viral myocarditis, and those miRNAs are interestingly upregulated in severe COVID-19. We hypothesize that the use of mRNA-based vaccines may be triggering the release of host miRNAs or that trigger the occurrence of myocarditis. This is based on the finding of altered host miRNA expression promoting virus-induced myocarditis. Short conclusion In conclusion, miRNAs are likely implicated in myocarditis associated with mRNA vaccines. Our hypothesis suggests the use of miRNA as a biomarker for the diagnosis of mRNA vaccine-induced myocarditis. Additionally, the interplay between viral miRNA and the host immune system could alter inflammatory profiles, hence suggesting the use of therapeutic inhibition to prevent such complications.
Background: With the current mass international roll out of several vaccines against SARS-Cov-2, several reports of unheeded complications have made headlines. One of which involves myocarditis with the now FDA fully approved vaccine, Pfizer, and others. We hypothesize through this study that a dysregulated micro-RNA response resulting from such type of vaccines can be involved in triggering myocarditis. Methodology: Embase, Medline and the Cochrane Central Register were used to search for specific keywords such as “mRNA COVID-19 vaccines” AND “Myocarditis” for relevant publications up to 1st of September 2021. The systematic review was performed using PRISMA protocolResults:Literature review has identified 26 cases series and reports involving the development of myocarditis from mRNA vaccines, a total of 89 patients were included. Age range was clearly identified in 66 patients. Among those 66 patients, 94% were below 50 years of age, also out of 89 patients, 94% were males. Myocarditis developed, after a median time of 72 hours of the 2nd dose. 90 of cases of myocarditis developed myocarditis after the 2nd dose, the few patients developing myocarditis after the first dose were either predisposed by a history of myocarditis or a history of previous COVID-19 infection. Conclusion:In conclusion, interpretation of the results in view of the suggested hypothesis, reveals that the micro-RNAs implicated in myocarditis in general are as well implicated in the pathogenesis of severe COVID-19, this can explain why patients having a first dose with a history of COVID-19 can develop myocarditis from mRNA vaccines, also the relatively higher likelihood of this complication in males and younger aged individuals can be explained by the upregulation of key myocarditis related miRNAs in those two strata, due to higher muscle mass and suggests performing a sarcopenia index in recipients of the vaccine to correlate it with the likelihood of this complication. This could later set a cut-off of this easy bed-side index to stratify cases a higher risk of this rare complication.
Background: With the current mass international roll out of several vaccines against SARS-Cov-2, several reports of unheeded complications have made headlines. One of which involves myocarditis with the now FDA fully approved vaccine, Pfizer, and others. We hypothesize through this study that a dysregulated micro-RNA response resulting from such type of vaccines can be involved in triggering myocarditis. Methodology: Embase, Medline and the Cochrane Central Register were used to search for specific keywords such as “mRNA COVID-19 vaccines” AND “Myocarditis” for relevant publications up to 1st of September 2021. The systematic review was performed using PRISMA protocolResults:Literature review has identified 26 cases series and reports involving the development of myocarditis from mRNA vaccines, a total of 89 patients were included. Age range was clearly identified in 66 patients. Among those 66 patients, 94% were below 50 years of age, also out of 89 patients, 94% were males. Myocarditis developed, after a median time of 72 hours of the 2nd dose. 90 of cases of myocarditis developed myocarditis after the 2nd dose, the few patients developing myocarditis after the first dose were either predisposed by a history of myocarditis or a history of previous COVID-19 infection. Conclusion:In conclusion, interpretation of the results in view of the suggested hypothesis, reveals that the micro-RNAs implicated in myocarditis in general are as well implicated in the pathogenesis of severe COVID-19, this can explain why patients having a first dose with a history of COVID-19 can develop myocarditis from mRNA vaccines, also the relatively higher likelihood of this complication in males and younger aged individuals can be explained by the upregulation of key myocarditis related miRNAs in those two strata, due to higher muscle mass and suggests performing a sarcopenia index in recipients of the vaccine to correlate it with the likelihood of this complication. This could later set a cut-off of this easy bed-side index to stratify cases a higher risk of this rare complication.
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