Abstract
After completing this article, readers should be able to: 1. Describe the calculations used to measure fetal systemic and placental vascular impedance in the umbilical artery via Doppler ultrasonography. 2. Delineate the two primary uses of measurement of middle cerebral artery flow velocity. 3. List the fetal conditions in which Doppler flow velocity has been studied. The Doppler principle, discovered by Johann Christian Andreas Doppler in 1842, (1) was used initially in astronomy and later in the military, in various branches of industry, and more recently in medicine. Doppler shift is based on the perceived change in frequency of an energy waveform as the source and the receiver move toward or away from each other. The Doppler shift principle applies to light waves as well as sound waves. In biology, Doppler ultrasonography is used noninvasively, primarily to measure flow velocity in blood vessels. Flow velocity depends on the volume and speed of effluent relative to the diameter of the vessel. Estimating fetal vascular resistance through study of Doppler flow velocity provides a means to assess, albeit indirectly, fetal physiology and pathology. Johnson and colleagues (2) in 1965, made the earliest mention of the use of Doppler effect in obstetrics. The use of Doppler ultrasonography to investigate the pattern of waveforms in the umbilical artery during pregnancy initially was reported in 1977 by Fitzgerald and Drumm. (3) Subsequently, Wladimiroff and associates (4) reported on Doppler assessment of cerebral blood flow in the human fetus. The addition of color mapping has enhanced the utility of the Doppler effect in sonographic assessment of the fetus. The fetal umbilical artery (UA) and middle cerebral artery (MCA) have evolved as the primary targets of fetal Doppler studies (Figs. 1 and 2). Figure 1. Color Doppler view of circle of Willis. Arrows show anterior (ACA), middle (MCA), and posterior cerebral …
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