Local microvascular regulatory mechanisms in diabetes: relevance to neuropathy [ 2001 - 2003 ]

Research Grant

Researchers: Prof Michael Hill (Principal investigator) ,  Sharmini Rajanayagam

Brief description In diabetes mellitus, the excessive levels of sugar in the blood may cause changes in metabolic processes within cells that lead to disturbances in the function of the circulatory and nervous systems. Such disturbances have been shown to occur in the early stages of diabetes and ultimately lead to longterm consequences including poor wound healing (often culminating in limb amputations), increased risk of blindness, kidney disease and heart failure. At present it is not possible to restore normal metabolism, leaving patients at risk of developing complications involving the circulatory and nervous systems. An understanding of the processes involved in the development of such complications would allow alternate treatment strategies to be devised in order to improve the quality of life and life expectancy of diabetic patients. The events leading to abnormalities in the function of the circulatory and nervous systems are uncertain, however, studies have demonstrated that in diabetes there may be an insufficient blood supply to nerves and this would be expected to cause nerve damage. At present, our understanding of the factors involved in regulating blood flow to nerves is limited. The studies described in this proposal are aimed at testing the hypothesis that nerve blood vessels are themselves involved in the regulation of flow through an intrinsic ability to change their diameter in response to tissue demands and that in diabetes alterations in the capacity of nerve blood vessels to constrict or dilate compromises their role in the control of nerve blood flow . Information obtained from these studies will improve our understanding of the early disturbances in the function of circulatory and nervous systems leading to alterations in blood flow which precede the development of overt changes characteristic of the complications associated with diabetes. This will provide insight into developing new treatment strategies for diabetic patients.

Funding Amount $AUD 212,036.72

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant