Data from this large series substantiate that autoantibody-associated CHB is not coincident with major structural abnormalities, is most often identified in the late second trimester, carries a substantial mortality in the neonatal period and frequently requires pacing. The recurrence rate of CHB is at least two- to three-fold higher than the rate for a mother with anti-SSA/Ro-SSB/La antibodies who never had an affected child, supporting close echocardiographic monitoring in all subsequent pregnancies, with heightened surveillance between 18 and 24 weeks of gestation.
Objective. To compare intervention with fluorinated glucocorticoids to the natural history of untreated congenital heart block (CHB) with respect to conduction abnormalities, associated effusions, ascites, and hydrops fetalis, and the requirement for a pacemaker.Methods. Records of all mothers enrolled in the Research Registry for Neonatal Lupus were reviewed. The cohort includes 47 mothers whose sera contain anti-SSA/Ro or anti-SSB/La antibodies, and their 50 offspring with CHB, in whom at least 4 echocardiograms were performed after in utero diagnosis. In 28 pregnancies, mothers received dexamethasone 4-9 mg/ day for 3-19 weeks or betamethasone 12-24 mg/week for >6 weeks (group A). In 22 pregnancies, fluorinated steroids were not used (group B).Results. Third-degree block was present in 21 fetuses in group A and 18 fetuses in group B; none were reversible despite steroid treatment. Three fetuses in group A and 2 in group B progressed from second-degree block, alternating with third-degree block, to permanent third-degree block at birth and postnatally. Of 4 fetuses in group A with second-degree block at presentation, all reverted to first-degree block by birth; 2 remain so at age 4 years, 1 alternates between first-degree and seconddegree block at 2 years, and the fourth is in second-degree block at age 4 years. Of 2 fetuses in group B with second-degree block at presentation, both progressed to permanent third-degree block postnatally. Initial echocardiographic evaluation revealed pericardial effusions in 13 group A versus 4 group B fetuses, pleural effusions in 2 group A versus 0 group B, ascites in 8 group A versus 0 group B (P < 0.007), hydrops fetalis in 8 group A versus 0 group B (P < 0.007), and intrauterine growth restriction in 1 group A versus 1 group B. Pericardial effusions resolved and reappeared in both groups. Steroid therapy was most effective in the resolution of pleural effusions (2 of 2), ascites (6 of 8), and hydrops fetalis (5 of 8). Oligohydramnios ensued in 9 group A and 2 group B fetuses. Although fetuses in group A had more complications at presentation than those in group B, there were no significant differences in the duration of pregnancy (35.7 weeks versus 37.0 weeks), the number of deaths (4 versus 1), final degree of heart block, or requirement for a pacemaker (14 versus 11).Conclusion. While prospective trials are needed, these data suggest that fluorinated steroids should be considered for fetuses with incomplete block or hydropic changes. Serial echocardiograms are recommended to monitor fetal progress. It remains to be determined whether third-degree block is reversible if therapy is initiated immediately upon detection.Autoimmune-associated congenital heart block (CHB) is a manifestation of neonatal lupus in which active placental transfer of maternal autoantibodies reactive with 52-kd and 60-kd SSA/Ro and 48-kd SSB/La is presumed to mediate an irreversible cardiac conduction defect at the atrioventricular (AV) node (1,2). Bradyarrhythmias are most often detected between 18
IMPORTANCEThe BNT162b2 (Pfizer-BioNTech) messenger RNA COVID-19 vaccine was authorized on May 10, 2021, for emergency use in children aged 12 years and older. Initial reports showed that the vaccine was well tolerated without serious adverse events; however, cases of myocarditis have been reported since approval.OBJECTIVE To review results of comprehensive cardiac imaging in children with myocarditis after COVID-19 vaccine. DESIGN, SETTING, AND PARTICIPANTSThis study was a case series of children younger than 19 years hospitalized with myocarditis within 30 days of BNT162b2 messenger RNA COVID-19 vaccine. The setting was a single-center pediatric referral facility, and admissions occurred between May 1 and July 15, 2021. MAIN OUTCOMES AND MEASURESAll patients underwent cardiac evaluation including an electrocardiogram, echocardiogram, and cardiac magnetic resonance imaging.RESULTS Fifteen patients (14 male patients [93%]; median age, 15 years [range, 12-18 years]) were hospitalized for management of myocarditis after receiving the BNT162b2 (Pfizer) vaccine. Symptoms started 1 to 6 days after receipt of the vaccine and included chest pain in 15 patients (100%), fever in 10 patients (67%), myalgia in 8 patients (53%), and headache in 6 patients (40%). Troponin levels were elevated in all patients at admission (median, 0.25 ng/mL [range, 0.08-3.15 ng/mL]) and peaked 0.1 to 2.3 days after admission. By echocardiographic examination, decreased left ventricular (LV) ejection fraction (EF) was present in 3 patients (20%), and abnormal global longitudinal or circumferential strain was present in 5 patients (33%). No patient had a pericardial effusion. Cardiac magnetic resonance imaging findings were consistent with myocarditis in 13 patients (87%) including late gadolinium enhancement in 12 patients (80%), regional hyperintensity on T2-weighted imaging in 2 patients (13%), elevated extracellular volume fraction in 3 patients (20%), and elevated LV global native T1 in 2 patients (20%). No patient required intensive care unit admission, and median hospital length of stay was 2 days (range 1-5). At follow-up 1 to 13 days after hospital discharge, 11 patients (73%) had resolution of symptoms. One patient (7%) had persistent borderline low LV systolic function on echocardiogram (EF 54%). Troponin levels remained mildly elevated in 3 patients (20%). One patient (7%) had nonsustained ventricular tachycardia on ambulatory monitor. CONCLUSIONS AND RELEVANCEIn this small case series study, myocarditis was diagnosed in children after COVID-19 vaccination, most commonly in boys after the second dose. In this case series, in short-term follow-up, patients were mildly affected. The long-term risks associated with postvaccination myocarditis remain unknown. Larger studies with longer follow-up are needed to inform recommendations for COVID-19 vaccination in this population.
Evaluation of pediatric chest pain is often extensive and rarely yields a cardiac etiology. Practice variation and unnecessary resource use remain concerns. Targeted testing can reduce resource use and lead to more cost-effective care.
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