Measurement of mucosal blood flow in the canine intestine with laser doppler velocimetry

Abstract

Laser Doppler velocimetry is a technique for continuous estimation of changing blood flow in the surface of a tissue and does not require invasion of the circulation. This technique is based upon the Doppler principle that a shift in the frequency of an electromagnetic wave emitted or reflected from a moving object is proportional to the velocity of the object. The capacity of Laser Doppler velocimetry to estimate changes in intestinal mucosal blood flow was tested in a canine free flow preparation. In anesthetized dogs in which a segment of ileum was isolated, simultaneous measurements of instantaneous changes in total blood flow (measured with the electromagnetic blood flow meter) and instantaneous changes in presumed mucosal blood flow (using laser Doppler velocimetry) were obtained. Determinations were made during conditions of rest, prostacyclin induced vasodilation and norepinephrine induced vasoconstriction. Changes in laser Doppler velocimeter readings were qualitatively similar to and temporally related to changes in total blood flow to the gut segment during administration of the vasoactive drugs. The magnitude and direction of changes with the two measurements were significantly correlated. Stabilizing the laser probe on the mucosal surface to ensure reproducible readings proved technically difficult. Pharmacologically induced changes in laser Doppler velocimeter estimated changes in flow were more readily correlated with changes in electromagnetic flow meter readings than were control values obtained with the two methods.