grant

The Role of Coronary Artery Baroreceptors in Cardiopulmonary Reflexes [ 2001 - 2003 ]

Also known as: Do Coronary Artery Baroreceptors Exist?

Research Grant

[Cite as https://purl.org/au-research/grants/nhmrc/160028]

Researchers: A/Pr Douglas Mckitrick (Principal investigator)

Brief description The blood vessels and heart contain sensors that report on the state of the circulation to the brain. Blood vessel sensors send information about the level of blood pressure to the brain, and the brain coordinates appropriate changes in the activity of the heart and blood vessels so that blood pressure stays within narrow limits and blood flow to the brain is protected. Heart sensors send information to the brain about pressures in the heart and the release of chemicals during heart pain. Specialized pressure receptors, like the receptors on blood vessels, have recently been reported to exist on the main blood vessels in the heart and, although not extensively studied, likely send information to the brain to participate in blood pressure regulation and to protect the supply of blood to the heart. These heart receptors normally work in concert with, and overshadowed by, the blood vessel receptors. In cardiovascular disease this concerted and complimentary interaction may be lost, resulting in contradictory signals being sent to the brain and inappropriate regulatory responses occurring. To study the functions of these heart receptors we will compare the number and types of nerves going to the heart receptors with the nerves that go to the blood vessel receptors to tell us whether their functions are likely to be similar. We will activate the heart receptors in healthy conscious animals to see what happens to blood pressure, heart rate, breathing patterns and blood flow to different organs. Finally we will use brain mapping techniques to see which brain cells are excited when the heart receptors are excited, and brain cell recording techniques to determine how individual brain cells respond to heart or vessel information. These studies will provide important new information about heart sensors, and help us understand the role these sensors have in heart disease or heart attack. This knowledge will aid the development of effective new ways of treating heart disease.

Funding Amount $AUD 361,018.36

Funding Scheme NHMRC Project Grants

Notes New Investigator Grant

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