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Cardiac adverse effects of COVID19 m-RNA Vaccine Doses
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Cardiac adverse effects of COVID19 m-RNA Vaccine Doses

Vaccine

Vaccine

Autopsy Histopathologic Cardiac Findings in 2 Adolescents Following the Second COVID-19 Vaccine Dose 

James R. Gill, MDRandy Tashjian, MD; Emily Duncanson, MD Arch Pathol Lab Med (2022) 146 (8): 925–92. Vaccine derived: The myocardial injury seen in these postvaccine hearts is different from typical Myocarditis and has an appearance most closely resembling a catecholamine-mediated stress (toxic) cardiomyopathy. Understanding that these instances differ from typical myocardiMyocarditist cytokine storm has a known feedback loop with catecholamines may help guide screening and therapy. Vaccine

Myocarditis in adolescents (particularly teenage boys) has been reported following the second dose of the Pfizer-BioNTech COVID-19 vaccine. Since cardiac biopsies are rarely performed in these instances with clinically stable patients, the myocardial pathology has not been Myocardi.  It is rarMyocarditised at autopsy in deaths due to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infect infection evidence of myocarditis, althoMyocarditiss has been shown to increase after the receipt of the BNT162b2 vaccine, particularly after the second dose among young male recipient   In addition, the first week after the second vaccine dose was found to be the main risk windo   The clinical presentation of myocarditis after Myocarditis was usually mild.

We report the autopsy results, including microscopic myocardial findings, of 2 teenage boys who died within the first week after receiving the second Pfizer-BioNTech COVID-19 dose. Tdoseicroscopic findings are not the alterations seen with typical myocarditis. This suggests a role for cytokine storm, which may occur with an excessive inflammatory response, as there also is a feedback loop between catecholamines and cytokines.

The results of autopsies for 2 teenage boys who were found dead in bed 3 and 4 days after receiving the second dose of the Pfizer-BioNTech COVID-19 vaccine are presented (Table. Both boys were pronounced dead at home without attempted resuscitation.

Boy A complained of a headache and gastric upset but felt better by postvaccine day. There was no history of prior medical problems (he took prescribed amphetamine/dextroamphetamine during the school year for attention deficit hyperactivity disorder but was not currently receiving it) or prior SARS-CoV-2 infectionfection had no complaints, previous health issues, or prior SARS-CoV-2 infection. Neither boy complained of fever, chest pain, palpitations, or dyspnea. Dyspneautopsies were unremarkable except for obesity in one boy and the cardiac findings.

This photo shows a vial of the Moderna Covid-19 vaccine, Bivalent, at AltaMed Medical clinic in Los Angeles, California, on October 6, 2022. (Photo by RINGO CHIU / AFP) (Photo by RINGO CHIU/AFP via Getty Images)

Myocarditis is an inflammatory disease of the myocardium, which may occur in isolation or as part of multiorgan/systemic immune-mediated disorders or reactions to exogenous/endogenous substances.  The etiologies are varied and include infectious and noninfectious causes. Noninfectious causes include immune/autoimmune conditions (autoantigens, association with immune-mediated diseases, alloantigens, and allergens), drugs/toxic substances (e.g., hypersensitivity or direct poisonous effects), and other causes (e.g., radiation, insect stings, snake bites.  Lymphocytic my cameo carditis is the most logical ogicalype, characterized by an inflammatory myocardial infiltrate typically comprising mononuclear cellsCellsss acute/active phases, usually accompanied by myocyte damage/necrosis h criteria are evolving; the Dallas criteria require “inflammatory infiltrates of the myocardium with necrosis and degeneration of adjacent myocytes, not typical of ischemic damage associated with coronary artery disease.

Toxic myoMyocarditis is an etiologic classification involving direct myocardial injury by various drugs or substances.gh variable, the histologic features consist of 2 main patterns: an early stage with foci of solely necrotic/damaged myocytes and the later phase of “myocarditis.” Toxic myocardiMyocarditis indicates inflammatory stages of catecholamine-induced myocardial injury. Catecholamine toxicity in the heart was first described in patients with pheochromocytoma. These lesions have been described in patients with subarachnoid hemorrhages and, more recently, in donor hearts rejected for transplantation in persons declared dead by neurologic criteria, secondary to catecholamine release during the “sympathetic storm” following brain death or administered as pharmacologic support (see supplemental material   The wide spectrum of these lesions has been studied in detail in routine pathology examination of donor hearts unsuitable for transplantation.

Both teenage boys had similar clinical presentations with no obvious cardiac symptom symptoms. Histopathology demonstrates typical myocardmyocarditisose instances; lymphocytic (or giant cell) infiltrates with adjacent myocyte necrosis; changes such as hypereosinophilic myocytes and contraction bands are absent. In these 2 postvaccination instances, areas of contraction bands and hypereosinophilic myocytes are distinct from the inflammation. This injury pattern is instead similar to what is seen in the myocardium of patients who have been clinically diagnosed with Takotsubo, toxic, or stress cardiomyopathy, which is a temporary myocardial injury that can develop in patients with extreme physical, chemical, or sometimes emotional stressors.

Stress cardiomyopathy is a catecholamine-mediated ischemic process seen in high catecholamine states in the absence of coronary artery disease or spas.  It has also been called “neurogenic myocardial injury” and “broken heart syndrome. Surges in catecholamines may have several triggers (fight/flight response, adrenal pathology, etc. Proposed mechanisms for catecholamine-mediated stunning in stress cardiomyopathy include epicardial spasm, microvascular dysfunction, hyperdynamic contractility with midventricular or outflow tract obstruction, and direct effects of catecholamines on cardiomyocytes. 

Catecholamine-mediated myocardial stunning may be due to direct myocyte injury, as elevated catecholamines decrease the viability of myocytes through cyclic adenosine monophosphate–mediated calcium overload. Catecholamines are also a potential source of oxygen-derived free radicals, which can interfere with sodium and calcium transporters, possibly resulting in myocyte dysfunction through increased trans sarcolemmal calcium influx and cellular calcium overload.37 

Histologically, catecholamine effects have been associated with contraction band necrosis, characterized by hypercontracted sarcomeres, dense eosinophilic transverse bands, and an interstitial mononuclear inflammatory response distinct from the polymorphonuclear inflammation seen with infarction. In addition, the mononuclear cells do not cause myocyte necrosis; there is a separate distribution.

We suspect that the acute cardiac changes seen in these 2 boys result from epinephrine-mediated effects on cardiomcar diomyocyte occurrences generally have a favorable prognosis; however, some patients may die from the underlying (noncardiac) cause of the myocardial findings (e.g., as with subarachnoid hemorrhage. Histologically, diffuse hypereosinophilic myocytes, contraction bands, and coagulative myocytolysis are seen, with a patchy and random pattern and a neutrophilic/mononuclear cell infill trifle rate of longer survival, global myocardial ischemia may develop.

This postvaccine reaction may represent an overly exuberant immune response, with the myocardial injury mediated by similar immune mechanisms to those described with SARS-CoV-2 and multisystem inflammatory syndrome cytokine storm   Multisystem inflammatory syndrome is a rare systemic illness presenting with persistent fever and extreme inflammation following exposure to SARS-CoV-2  Affected children have persistent fever and may have acute abdominal pain with diarrhea or vomiting, muscle pain/malaise, and hypotension. Other reported symptoms include rashes, enlarged lymph nodes, and swelling.

A hypersensitivity reaction is in the differential diagnosis; however, infrequency or lack of eosinophils would be unusual The denominator of a hypersensitivity reaction is the eosinophilic infiltrate, which may be the major inflammatory component or part of a complex picture of mixed inflammation with lymphocytes, macrophages, plasma cells, poorly formed microgranulomas, and giant cells.  An autopsy study of 69 cases of hypersensitivity myocarditis examined the spectrum of histologic findings, including the distribution of infiltrates and the extent and composition of the infiltrate. The authors reported that hypersensitivity myocarditis was “defined by the presence of eosinophils, a mixed lymphohistiocytic infiltrate along natural planes of separation, and an absence of fibrosis or granulation tissue in areas of infiltrate.”

Despite a molecular investigation, the etiology of the fibrosis in case A is unclear. It is conceivable that this process started with the first vaccination dose, and the initial myocardial effects resolved and healed over time. The second dose may have restarted the process. We might. Expect some scarring/repair after a few weeks, although the scarring in case A appears more organized than the 3-week interval between the vaccine dose. Also, it is only in one of the carcasses that fib fibroid mare presents arrhythmogenic cardiomyopathy. Unfortunately, cardiac molecular testing was equivocal.

Regardless of the etiology of the fibrosis, the extent of scarring by itself is potentially arrhythmogenic and may be a contributing factor through postvaccine myocardial injury .injuryarly, the cardiac hypertrophy in case B may have made the heart more susceptible to an arrhythmia. The ey point is that since these boys died suddenly and unexpectedly in their sleep without resuscitation, if the arrhythmia had been due to the myocardial scar (boy A) or cardiomegaly (boy B), then the fulminant, global myocardial injury would not be an expected finding. These 2 clinical histories support the etiology of the acute myocardial injury as a primary factor, not a secondary agonal or posters resuscitative.

Two adults (ages 42 and 45 years) with myocarditis diagnosed histologically (one at autopsy and one by biopsy) following SAMyocarditisNA vaccinations were recently reported.  One occurred 10 days after receiving the first Pfizer-BioNTech COVID-19 vaccine dose, and the other occurred 14 days after receiving the second mRNA-1273 (Moderna) dos. Histologically, both were described as “fulminant” myocarditis with “multifocal cardiomyocyte damage associated with mixed inflammatoMyocarditistion.” In addition to areas of myocyte necrosis associated with the inflammatory infiltrate, the photomicrographs demonstrate ischemic changes distinct from the inflammation, similar to our findings.

Cytokine storm has been described with an excessive and uncontrolled inflammatory response, and there is a feedback loop between catecholamines and cytokines.12 Clinical complications may include cardiac compromise, respiratory distress, and hypercohypercoagulationyocardial injury seen in these postvaccine hearts has a similar histologic appearance to catecholamine-mediated stress cardiomyopathy and severe SARS-CoV-2 infection, including myocarditis, which is associated with cytokine release syndromsyndromenition that Myocarditisnces are difdifferypical myocarditis. Understanding the feedback loop between cytokine storm and catecholamines is of utmost importance in the medical field, making the audience feel valued and integral to advancing patient care.

Cardiotoxic effects of vaccine mRNA-1273 and BNT162b2 induce disturbances of regular contractile function in rat cardiomyocyteshttps

Jan 25, 2024 | Post COVID vaccination syndrome (Featured)

The authors from Germany and Hungary investigated the effect of mRNA-1273, Moderna and BNT162b2, and Pfizer/Biotech vaccines on the function, structure, and viability of isolated adult rat cardiomyocytes over 72 hours. The results showed, for the first time, that both mRNA-1273 and BNT162b2 induce cardiotoxic effects with disturbances of normal contractile function in rat left ventricular cardiomcardiomyocyteser; the effects of vaccines differed fundamentally in their pathophysiological mechanisms, which were very specifispecificne mRNA-1273 induced arrhythmic and irregular contractions through extensive disruption of sarcoplasmic calcium release. In contrast, vaccine BNT162b2 induced a pattern of cell contraction through chronic activation of protein kinase A (PKA) activity, histopathologically consistent with catecholamine-induced cardiomyopathy.

In both vaccines (mRNA-1273 and BNT162b2), a messenger RNA (mRNA) sequence determines the structure and assembly of the immunogen, the SARS-CoV-2 spike (S) glycoprotein. The mRNA is protected from degradation by lipid nanoparticles (LNPs) and taken up by the cells as an LNP-mRNA complex through simple endocytendocytosisuthors noted that inadequate cardiac safety testing and exploration of the adverse event profile of mRNA vaccines led to adverse cardiac events, which have been classified as myocarditis and pericarditis   https://discovermednews.com/cytokine-dependent-pathology-and-aMyocarditisc-myeloid-response-in-23-patients-with-vaccine-associated-myocarditis-after-mrna-sars-cov-2-vaccination/

A common theory about the underlying pathophysiological mechanisms of myocardial injury is that there is a possible immunological cross-across-reactions been suggested that antibodies directed against epitopes of the S protein, as a result of vaccination, may also react with epitopes of the α-myosin heavy chain (α-MHC. The authors, however, point out that α-MHC is a sarcomeric protein almost exclusively expressed in atria and cannot directly interact with circulating antibodies due to its intracellular localization.

About the study

The scientists studied the direct effect of mRNA-1273 and BNT162b2 on the function, structure, and viability of isolated rat cardiomyocytes over a 72 -hou72-hour period this model of isolated rat cardiomyocytes allows accurate quantification of myocyte contraction parameters up to 48 hours after isolation, the ‘functional state’ after 72 hours was assessed solely qualitatively article was published in British Journal of Pharmacology Schreckenberg R, Woitasky N, Itani N. et a . Cardiac side effects of RNA-based SARS-CoV-2 vaccines: Hidden cardiotoxic effects of mRNA-1273 and BNT162b2 on ventricular myocyte function and structure. Br J Pharmacol. 2024;181:345–361.  https://doi.org/10.1111/bph.16262

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