Assessment of the fetal thymus by two‐ and three‐dimensional ultrasound during normal human gestation and in fetuses with congenital heart defects

Objectives Our objectives were to compare the size and volume of the developing fetal thymus obtained by two‐dimensional ultrasound (2D‐US) and three‐dimensional ultrasound (3D‐US), develop normative data for thymus volume (TV), and investigate TV in fetuses with congenital heart disease (CHD) and normal twin gestations. Methods We studied 321 fetuses (gestational age (GA): 17–39 weeks) including 238 normal singletons, 64 normal twins and 19 singleton fetuses with CHD. We used 2D‐US to assess fetal thymus maximum transverse diameter (MTD), maximum transverse area (MTA), anteroposterior diameter (APD) and superoinferior diameter (SID). TV was obtained by 3D‐US using virtual organ computer‐aided analysis. Measurements were adjusted for estimated fetal weight where appropriate. Linear regression analysis, general linear models and Fisher's Z ‐transformation were used where appropriate. A nomogram of fetal TV based on singleton gestations was produced according to previously published methods. Results Ultrasound assessment of the fetal thymus was possible in 95.3% (306/321) of cases. Both 3D‐US and 2D‐US measurements were significantly correlated with GA (TV r = 0.989; MTA r = 0.918; MTD r = 0.884; APD r = 0.849; and SID r = 0.816; all P < 0.05). After Fisher's Z ‐transformation, the correlation between the TV and GA was significantly stronger than that between any individual 2D‐US measurement and GA ( P < 0.05). Normal twin fetuses had TVs similar to those of singletons adjusted for estimated fetal weight and GA ( P = 0.85). TV adjusted for estimated fetal weight and GA was significantly lower in fetuses with CHD than in normal singletons ( P < 0.05). Conclusion 2D‐US and 3D‐US are useful tools for evaluation of the size and volume of the human fetal thymus through gestation. Fetal TV by 3D‐US seems to reflect normal development of the thymus in utero better than do 2D‐US measurements. Lower TV should be expected in association with CHDs. Copyright © 2011 ISUOG. Published by John Wiley & Sons, Ltd.