The investigators propose a technique using cone beam CT perfusion (CBCTP) imaging with an acetazolamide challenge as a potential diagnostic tool to detect a defect in cerebral autoregulation at a time when it has not yet caused clinically apparent signs or symptoms. 30 participants will be enrolled at the University of Wisconsin - Madison and can expect to be on study for about 2 weeks.
Acetazolamide or vasodilatory challenge should identify subjects having a abnormal cerebrovascular reactivity capacity. More specifically, after receiving the drug there will not be the expected increase in cerebral blood flow (CBF) in some of the subjects because they are already suffering from a disturbance in the vasculature's ability to respond to the signal for vasodilation. The investigators believe the presence of this deficit will be helpful in identifying patients who are at risk for potential brain ischemia due to this decreased capacity to autoregulate if/when clinically significant vasospasm occurs. The investigators predict that acetazolamide-activated regional cerebral blood flow studies will be more sensitive in the detection of mild cerebral vasospasm and will not just detect changes in cerebral blood flow as does standard perfusion imaging, but will provide information regarding changes in cerebrovascular reactivity. Under these circumstances, a better predictor of those patients at risk of cerebral infarction due to delayed vasospasm would be delineated. Identifying this "high-risk cohort" prior to the onset of clinically apparent symptoms would result in the institution of preventative measures such as triple H therapy. The objective of this proposal is to conduct a feasibility study of acetazolamide activated C-arm cone beam CT perfusion (CBCTP) to determine its application in the prediction of symptomatic cerebral vasospasm (i.e. ischemia or stroke) in patients with aneurysmal subarachnoid hemorrhage. The initial plan is to obtain C-arm CBCTP pre- and post-intravenous infusion of 1g acetazolamide within 24 hours of symptom onset in aneurysmal subarachnoid hemorrhage patients. The hypothesis is that some of these patients that will later develop clinical vasospasm of a degree sufficient to cause cerebral ischemia. The investigators believe this cohort of patients will demonstrate altered cerebrovascular reactivity during the acetazolamide challenge at a time before there is either angiographic evidence of vasospasm or clinical evidence of abnormal perfusion.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
11
1 g acetazolamide through a peripheral IV line
University of Wisconsin
Madison, Wisconsin, United States
Number of Participants Who Develop Delayed Cerebral Vasospasm
Clinical neurological deterioration not attributable to other causes, mores specifically not due to re-bleeding, hydrocephalus, or metabolic changes.
Time frame: Day 1-14 during the hospitalization
Relative Percent Change in Cerebral Blood Flow
The data that will be statistically compared is the pre-diamox perfusion in comparison to the post-diamox perfusion. A statistically significant change increase in CBF represents an appropriate response to Diamox. Lack of change in CBF or decrease in CBF could be suggestive of potential for developing vasospasm.
Time frame: pre and post perfusion during imaging procedure, up to an hour
Percent Change in Left Hemisphere Brain Imaging Maps
Using perfusion map values, relative percent change will be calculated
Time frame: pre and post perfusion during imaging procedure, up to an hour
Percent Change in Right Hemisphere Brain Imaging Maps
Using perfusion map values, relative percent change will be calculated
Time frame: pre and post perfusion during imaging procedure, up to an hour
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