Affiliation:
1. Ultrasonic Department The Third Affiliated Hospital of Zhengzhou University (Maternal and Child Health Hospital of Henan Province) Zhengzhou China
2. Prenatal Diagnosis Center The Third Affiliated Hospital of Zhengzhou University (Maternal and Child Health Hospital of Henan Province) Zhengzhou China
Abstract
ObjectivesDue to the government's liberalization of epidemic control, the current 2019 novel coronavirus disease (COVID‐19) has started to spread widely within China. This study aimed to use the fetal heart quantification (fetal HQ) technique to assess the cardiac function and morphology of the fetuses of pregnant women diagnosed with COVID‐19 in the early stages of pregnancy.MethodsExactly 86 pregnant women diagnosed with COVID‐19 infection in early pregnancy (COVID‐19 group) and 90 healthy pregnant women (control group) who underwent fetal echocardiography were prospectively included in this study. The fetal HQ technique was applied to compare the differences in the global sphericity index (GSI), global strain values (GS), fractional area change (FAC), and 24‐segment fractional shortening (FS) of the left and right ventricles, between the COVID‐19 group and the control group.ResultsCompared with the control group, the differences in GS and 24‐segment FS of the left ventricle in the COVID‐19 group were not statistically significant. However, the COVID‐19 group showed lower GSI values compared with the control group (1.24 vs 1.28). FAC (48.12%) of the left ventricle and GS (−23.55%), FAC (41.74%) of the right ventricle in the COVID‐19 group were reduced compared with FAC (50.50%) of the left ventricle and GS (−27.63%), FAC (46.01%) of the right ventricle in the control group. Segmental analysis revealed reduced FS in segments 20–24 in the COVID‐19 group compared with the control group. Right ventricular GS was an independent predictor of adverse pregnancy outcome with an optimal cutoff value of −18.66%.ConclusionsThe results suggest that COVID‐19 infection in early pregnancy may have a negative impact on fetal cardiac morphology and function. Fetal HQ may offer a new assessment method for the early identification of fetal cardiac alterations in pregnant women infected with COVID‐19.