Dynamic changes in the middle cerebral artery perfusion in normal full-term human fetuses in relation to the timing of behavioral state.

Abstract

Our aim is to evaluate serial changes in normal full-term fetal cerebral circulation according to the behavioral states. Flow velocity waveforms in the middle cerebral artery and fetal heart rate (FHR) were well recorded in ten of 19 cases by pulsed Doppler ultrasonography and actocardiography over 45 min, respectively. Behavioral states were classified as resting or active phase by FHR patterns. Resistance indices (RIs) were calculated every 5 s as an average of two consecutive waveforms, and median RI was chosen in each 2-min segment. In order to evaluate changes in median RI from active-to-resting transition to resting-to-active one statistically, differences in RI between two 2-min segments were examined using Mann-Whitney U-test. As a result, median RI was decreased to the minimum one in the active-to-resting transition for 12 min in all cases: significant decrease to the 2-min segment with the minimum one (P<0.01). Various types of increase to the maximum median RI during resting phase followed the minimum one: significant increase from the 2-min segment with the minimum one to that with the maximum one in all cases (P<0.001 in eight cases, P<0.01 in two cases). Thereafter, median RI was decreased from the end of resting phase in the resting-to-active transition for 12 min in all cases: significant decrease from the last 2-min segment of resting phase in all cases (P<0.01). We reveal that fetal cerebral circulation changes dynamically in relation to the timing in each behavioral state.