The added value of molecular-based diagnostics in the African forensic medical setting.

Sudden unexpected infant death (SUDI) is reported to be an extraordinarily high burden in sub-Saharan Africa, with the incidence rate in South Africa among the highest in the world. It is common for the cause of many such infant deaths to remain unexplained even after a full medico-legal death investigation, and then to be categorised as a sudden unexplained infant death (SUID). Fortunately, advances in molecular-based diagnostics allow researchers to identify numerous underlying inherited cardiac arrhythmogenic disorders in many SUDI cases, with a predominance of variants identified in the SCN5A gene. Such cardiac arrhythmogenic-related sudden deaths generally present with no structural alterations of the heart that are macroscopically identifiable at autopsy, therefore highlighting the importance of post mortem genetic testing. We report on a significant genetic finding that was made on a SUDI case in which the cause was ascribed to an acute bacterial pneumonia but it was still subjected to post mortem genetic testing of the SCN5A gene. The literature shows that many SUDI cases diagnosed with inherited cardiac arrhythmogenic disorders have demonstrated a viral prodrome within days of their death. It is therefore not uncommon for these cardiac disorders in infants to be mistaken for flu, viral upper respiratory tract infection or pneumonia, and without the incorporation of post mortem genetic testing, any other contributory causes of these deaths are often disregarded. This study highlights the need for research reporting on the genetics of inherited cardiac disorders in Africa.

Genetic basis of sudden death after COVID-19 vaccination in Thailand.

BACKGROUND: Severe acute respiratory syndrome coronavirus 2 vaccination reduces morbidity and mortality associated with coronavirus disease 2019 (COVID-19); unfortunately, it is associated with serious adverse events, including sudden unexplained death (SUD). OBJECTIVE: We aimed to study the genetic basis of SUD after COVID-19 vaccination in Thailand. METHODS: From April to December 2021, cases with natural but unexplained death within 7 days of COVID-19 vaccination were enrolled for whole exome sequencing. RESULTS: Thirteen were recruited, aged between 23 and 72 years; 10 (77%) were men, 12 were Thai; and 1 was Australian. Eight (61%) died after receiving the first dose of vaccine, and 7 (54%) died after receiving ChAdOx1 nCoV-19; however, there were no significant correlations between SUD and either the number or the type of vaccine. Fever was self-reported in 3 cases. Ten (77%) and 11 (85%) died within 24 hours and 3 days of vaccination, respectively. Whole exome sequencing analysis revealed that 5 cases harbored SCN5A variants that had previously been identified in patients with Brugada syndrome, giving an SCN5A variant frequency of 38% (5 of 13). This is a significantly higher rate than that observed in Thai SUD cases occurring 8-30 days after COVID-19 vaccination during the same period (10% [1 of 10]), in a Thai SUD cohort studied before the COVID-19 pandemic (12% [3 of 25]), and in our in-house exome database (12% [386 of 3231]). CONCLUSION: These findings suggest that SCN5A variants may be associated with SUD within 7 days of COVID-19 vaccination, regardless of vaccine type, number of vaccine dose, and presence of underlying diseases or postvaccine fever.

Patient-specific, re-engineered cardiomyocyte model confirms the circumstance-dependent arrhythmia risk associated with the African-specific common SCN5A polymorphism p.S1103Y: Implications for the increased sudden deaths observed in black individuals during the COVID-19 pandemic.

BACKGROUND: During the early stages of the coronavirus disease 2019 (COVID-19) pandemic, a marked increase in sudden cardiac death (SCD) was observed. The p.S1103Y-SCN5A common variant, which is present in ∼8% of individuals of African descent, may be a circumstance-dependent, SCD-predisposing, proarrhythmic polymorphism in the setting of hypoxia-induced acidosis or QT-prolonging drug use. OBJECTIVE: The purpose of this study was to ascertain the effects of acidosis and hydroxychloroquine (HCQ) on the action potential duration (APD) in a patient-specific induced pluripotent stem cell-derived cardiomyocyte (iPSC-CM) model of p.S1103Y-SCN5A. METHODS: iPSC-CMs were generated from a 14-year-old p.S1103Y-SCN5A-positive African American male. The patient's variant-corrected iPSC-CMs (isogenic control [IC]) were generated using CRISPR/Cas9 technology. FluoVolt voltage-sensitive dye was used to assess APD90 values in p.S1103Y-SCN5A iPSC-CMs compared to IC before and after an acidotic state (pH 6.9) or 24 hours of treatment with 10 µM HCQ. RESULTS: Under baseline conditions (pH 7.4), there was no difference in APD90 values of p.S1103Y-SCN5A vs IC iPSC-CMs (P = NS). In the setting of acidosis (pH 6.9), there was a significant increase in fold-change of APD90 in p.S1103Y-SCN5A iPSC-CMs compared to IC iPSC-CMs (P <.0001). Similarly, with 24-hour 10 µM HCQ treatment, the fold-change of APD90 was significantly higher in p.S1103Y-SCN5A iPSC-CMs compared to IC iPSC-CMs (P <.0001). CONCLUSION: Although the African-specific p.S1103Y-SCN5A common variant had no effect on APD90 under baseline conditions, the physiological stress of either acidosis or HCQ treatment significantly prolonged APD90 in patient-specific, re-engineered heart cells.