Clinical Trial: Assessing Cerebrovascular Reactivity Based on Cerebral Oximetry: a Pilot Study

Study Status: Completed
Recruit Status: Completed
Study Type: Observational

Official Title: Assessing Cerebrovascular Reactivity Based on Cerebral Oximetry

Brief Summary: The brain is such a metabolically active organ that it consumes about 20% of oxygen burned every minute by an average adult even though it only contributes about 2% of the body weight. As a result, the brain produces a disproportionately high amount of CO2 every minute in comparison with the rest of the body.

Detailed Summary:

The researcher can use Diffuse Optical Spectroscopy Imaging, cerebral non-invasive oximetry instrument, to determine cerebrovascular reactivity during surgery procedure. Specifically, the cerebral tissue O2 saturation can measure by Diffuse Optical Spectroscopy Imaging can use for cerebral blood flow in the evaluation of cerebrovascular reactivity.

Adequate brain perfusion is critical not only to supply oxygen and nutrients but also to wash out metabolic end products including CO2. Blood flow depends on perfusion pressure and vascular bed resistance. It is well known that multiple physiological and pathological factors affect cerebral vasculature, and the resistance to blood flow. The cerebrovascular responsiveness to those factors determines how well the brain can maintain and adjust its perfusion.

Sponsor: University of California, Irvine

Current Primary Outcome: Brain blood flow [ Time Frame: 6 hours ]

Original Primary Outcome: Optical Imaging assess of Brain blood flow during surgical procedure [ Time Frame: during surgery procedure ]

Current Secondary Outcome:

Original Secondary Outcome:

Information By: University of California, Irvine

Dates:
Date Received: August 2, 2011
Date Started: December 2011
Date Completion:
Last Updated: February 8, 2017
Last Verified: February 2017