A stem cell therapy to reverse the effects of spinal cord injury
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Project Supervisors
Professor John Furness & Dr Lincon Stampj.furness@unimelb.edu.au; lstamp@unimelb.edu.au
Project Details
Spinal cord injury results in loss of control over limb function, causing paraplegia or tetraplegia. Bowel dysfunction (constipation associated with overflow fecal incontinence) is a further debilitating consequence of most spinal cord injuries. Loss of bowel control means most spinally injured people are incontinent and unable to make voluntary bowel movements. A significant number of spinally injured people become socially reclusive because of the embarrassment of fecal incontinence.
In recent years there has been a degree of success with the use of stem cells to restore spinal cord connection in animals and humans. Mature neurons of the enteric nervous system have a greater plasticity than mature neurons of the central nervous system. Thus, after lesioning in mature animals, enteric neurons regrow and form appropriate functional connections.
In this project you will investigate whether enteric neurons, or enteric neurons plus mesenchymal stem cells, enhance spinal cord repair, and bowel and hind-limb control.
Researchers
- Project supervisors: Professor John Furness, Dr Lincon Stamp,
- Project members: Dr Ruslan Pustovit, Ms Enie lei, Ms Lauren Patten
Collaborators
Dr Mark Habgood
Research Publications
Ellis, AG, Zeglinski, PT, Brown, DJ, Frauman, AG, Millard, M, Furness, J.B.: Pharmacokinetics of the ghrelin agonist capromorelin in a single ascending dose phase 1 safety trial in spinal cord injured and able bodied volunteers. Spinal Cord 53, 103-108 (2015).