Skip to Content
Merck
  • The contribution of gastric digestion and ingestion of amino acids on the postprandial rise in oxygen consumption, heart rate and growth of visceral organs in pythons.

The contribution of gastric digestion and ingestion of amino acids on the postprandial rise in oxygen consumption, heart rate and growth of visceral organs in pythons.

Comparative biochemistry and physiology. Part A, Molecular & integrative physiology (2013-02-07)
Sanne Enok, Lasse Stærdal Simonsen, Tobias Wang
ABSTRACT

To investigate the contribution of gastric and intestinal processes to the postprandial rise in metabolism in pythons (Python regius), we measured oxygen consumption after ligation of the pyloric sphincter to prevent the chyme from entering the intestine. Pyloric blockade reduced the postprandial rise in metabolism during the first 18h after ingestion of mice amounting to 18% of the snake's body mass by 60%. In another series of the experiments, we showed that infusion of amino acids directly into the stomach or the intestine elicited similar metabolic responses. This indicates a lower gastric contribution to the SDA response than previously reported. To include an assessment of the gastric contribution to the postprandial cardiovascular response, we also measured blood and heart rate. While heart rate increased during digestion in snakes with pyloric blockade, there was no rise in the double-blocked heart rates compared to fasting controls. Thus, the non-adrenergic-non-cholinergic factor that stimulates heart rate during digestion does not stem from the stomach. Finally, there was no growth of the visceral organs in response to digestion when chyme was prevented from reaching the intestine.

MATERIALS
Product Number
Brand
Product Description

Millipore
Peptone from animal tissue, from meat