clay and Nausea

Three experiments were conducted showing rats' pica behavior (kaolin clay intake) due to running in activity wheels. The amount of kaolin consumed was a positive function of the available time of voluntary running (20, 40, or 60 min), although this relationship was blunted by a descending (i.e., 60 → 40 → 20 min) test series of execution (Experiment 1). Pica was also generated by forced running in a motorized wheel for 60 min as a positive function of the speed of wheel rotations at 98, 185, or 365 m/h, independent of the order of execution (Experiment 2). Voluntary running generated more pica than did forced running at 80 m/h, although the distance travelled in the former condition was 27% lesser than that in the latter condition (Experiment 3). Because kaolin intake is regarded as a reliable measure of nausea in rats, these results show that wheel running, either voluntary or forced, induces nausea in rats.

Topics: Aluminum Silicates; Animals; Behavior, Animal; Clay; Disease Models, Animal; Energy Intake; Feeding Behavior; Kaolin; Male; Motor Activity; Nausea; Physical Exertion; Pica; Rats, Wistar; Reproducibility of Results; Time Factors

Voluntary running in an activity wheel establishes aversion to paired taste in rats. A proposed mechanism underlying this taste aversion learning is gastrointestinal discomfort caused by running. We tested this hypothesis by measuring the pica behavior (kaolin clay intake) of rats, because it is known that rats engage in pica behavior after various nausea-inducing treatments including irradiation, motion sickness, and injection of emetic drugs such as lithium chloride (LiCl). Following a demonstration of the already-known phenomenon of LiCl-based pica in Experiment 1, we successfully showed running-based pica behavior in Experiment 2 where the running treatment was compared with a non-running control treatment (i.e., confinement in a locked wheel). These results suggest that not only LiCl but also running induces nausea in rats, supporting the gastrointestinal discomfort hypothesis of running-based taste aversion learning.

Topics: Abdominal Pain; Aluminum Silicates; Animals; Avoidance Learning; Behavior, Animal; Clay; Disease Models, Animal; Dysgeusia; Emetics; Injections, Intraperitoneal; Kaolin; Lithium Chloride; Male; Models, Biological; Motor Activity; Nausea; Physical Exertion; Pica; Rats, Wistar; Stress, Physiological