Cooperative motor control of the pyloric junction by myogenic and neuronal mechanisms [ 2001 - 2003 ]

Research Grant

Researchers: Shi-Yong Yuan (Principal investigator) ,  Prof Marcello Costa

Brief description The coordinated muscle movement in the junction between the stomach and small intestine is an essential mechanism for controlling the speed of gastric content moving into the intestine for further digestion. The muscle movement determines the gastric emptying at an optimal rate and prevents intestinal contents reflux to the stomach. Failure of this coordination is likely to be involved in a variety of clinical conditions including accelerated or delayed gastric emptying. Up to date, little information is available about the interaction between nerve, muscle and pacemaker cells during this coordinated movement. In this project, we will investigate how the nerve, muscle and pacemaker cells work together to control this coordinated movement. We will study this mechanism at both cellular and organ levels and try to establish the patterns of muscle movement and their coordination between the stomach and the small intestine. The interaction between the nerve and pacemaker cells will be characterised in these studies. Our work will provide structural evidence for this activity. It includes identification of the nerve pathways connecting between the small intestine and stomach and determination of whether the pacemaker cell network is an uniform continuous or a discontinuous or a transitional structure across the junction. These studies will reveal the correlation between pacemaker cell mediated activity and the density of these cells in each junctional region. We will also determine whether the difference in propagation activity across the junction is due to differences in the number of cells for signal conduction or electrical connections between the cells. This study will advance our knowledge for understanding how the nerve, muscle and pacemaker cells work in concert in this junction, which is an important step for further clinical investigation of related disease.

Funding Amount $AUD 271,527.54

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant