To present our experiences of using HDliveFlow and/or HDliveFlow silhouette mode with spatiotemporal image correlation (STIC) to reconstruct normal and abnormal fetal cardiac structures, and to assess detection rates of these techniques for the three-vessel, and panoramic views in normal fetuses. 61 normal fetuses and three fetuses with congenital heart anomalies [transposition of great arteries (TGA), hypoplastic left heart syndrome (HLHS), and pulmonary valve stenosis (PS)] at 18-34 weeks were included. Detection rates of spatial three-vessel and panoramic views in normal fetuses were evaluated. In spatial three-vessel view, relationships and course of the outflow tracts and superior vena cava were clearly identified. The panoramic view facilitated visualisation of the course and relationships of out- and inflow tracts. Spatial relationships between cardiac chamber and vessels were clearly understood. Detection rate of spatial three-vessel view was 90.2%, for panoramic view was 75.4%. In TGA fetus, spatial parallel arrangement of aorta originating from the right ventricle and pulmonary artery left from left ventricle was clearly identified. In HLHS, extremely small aorta and tear-drop-like heart were depicted. In PS, a markedly large main pulmonary artery due to poststenotic dilatation was evident. HDliveFLow and HDliveFlow silhouette mode with STIC provide novel visual experience for operators due to clear visualisation of fetal cardiac structure. They may provide easier way of demonstration of spatial relationship among fetal cardiac chambers, great arteries, veins and the difference in the size of great vessels. These techniques might become important diagnostic modalities for assessment of fetal congenital heart disease.