Optimal perfusion rate determined for in situ intestinal absorption studies in rats.

Iopanoic acid was used as a model compound to study the effect of the intestinal perfusion rate on the mean absorption clearance. Absorption of iopanoic acid followed first-order kinetics, with a first-order absorption rate constant (ka) linearly dependent on the dry intestinal weight. An absorption clearance--time plot revealed three phases. Phase I represented an equilibration phase, Phase II was a uniform phase, and Phase III was a physiological deterioration of the animal under prolonged anesthesia. The variability in the observations during Phase II of the absorptive clearance--time profiles was assessed statistically, and the minimum occurred at 9.9 microliters/sec (0.594 ml/min). The relation between the coefficient of variance (CV) and the perfusion rate is given by CV = (-5.52 X 10(-5)Q3 + (2.78 X 10(-3)Q2 - (3.87 X 10(-2)Q + 0.243, where Q is the perfusion rate through the intestinal lumen. These studies demonstrate that an optimal flow rate exists for minimizing the variability in in situ absorption studies. The dependency of the absorption clearance on the intestinal perfusion rate appears to conform to the convective diffusion model.