Quantification of the fate of dietary fiber in humans by a newly developed radiolabeled fiber marker.

A radiolabeled cellulose (131I-fiber) that retains the essential physical and chemical properties of this class of fiber was developed in our laboratory. We quantified the fate of orally ingested 131I-fiber in healthy individuals by external gamma camera monitoring and fecal collections. The marker passes virtually intact through the human gastrointestinal tract with negligible release and absorption of the label in the gut. Comparison of the gastric emptying rate of 131I-fiber with that of a predominantly aqueous marker, 99mTc-diethylenetriamine pentaacetic acid (99mTc-DTPA), showed that 131I-fiber strands were evacuated more slowly than intragastric fluids. An important finding was that some 131I-fiber emptying occurred during most time periods, even before liquids were completely evacuated. This suggests that the human stomach is able to empty simultaneously liquids and fiber strands (1-15 mm in length) that are resistant to grinding by antral mechanical forces and to digestion by acid-peptic secretion. Thus, some nondigestible solids may be emptied with the bulk of a meal, although at a slower rate. 131I-Fiber may be a useful marker for quantifying gastric emptying of nondigestible solids. Further, the stability of 131I-fiber in the gut, as opposed to most other physiologic solid labels, should enable future investigation of intestinal and colonic transit of fiber, which is an important component of the human diet.