Abstract Details

Title Blood Pressure Reductions in the Hyperacute Phase of Large Vessel Occlusion Ischemic Stroke Are Associated With Infarct Progression And Poor Functional Outcome

Topic Cerebrovascular Disease and Interventional Neurology

Presentation(s) S6 - Cerebrovascular Disease and Interventional Neurology: Acute Stroke Treatment (4:24 PM-4:32 PM)

Poster/Presentation
Number 003

Background

BP reductions during endovascular therapy (EVT) have been associated with infarct progression and worse outcome after LVO stroke. However, BP trajectories in the hyperacute phase prior to EVT have not been well characterized. We used high-frequency BP and hemodynamic monitoring to study timing of BP reductions during hyperacute period of stroke.

Objective

To evaluate relation of blood pressure (BP) reductions during hyperacute period of large vessel occlusion (LVO) stroke with infarct progression and functional outcome.

Design/Methods

Patients with LVO undergoing EVT were prospectively enrolled. High frequency BP was recorded using non-invasive finger plethysmography. Patients underwent initial CT perfusion and MRI at 24 hours to calculate infarct growth. Exposure variables were defined as: difference between admission MAP and lowest MAP (ΔMAP), MAP drop > 20%, MAP < 70 mmHg, and SBP < 140 mmHg. Functional outcome was measured with modified Rankin Scale (mRS) at 90 days. Associations between BP reductions and outcomes were studied using linear regression and logistic regression models.

Results

45 patients underwent continuous BP monitoring (age 72±17; 58% female; NIHSS 13±6). Aggregated time series data revealed marked BP reduction around the time of imaging from which patients recovered and sustained decrease in BP after groin puncture without return to baseline. Linear regression analysis revealed 13 ml infarct growth for every 10mmHg reduction in ΔMAP (p=0.054). Patients were divided into two groups based on median ΔMAP = 29. Those with ΔMAP ≤29 had better functional outcome at 90 days (34.78% vs. 9.09%, p = 0.038).

Conclusions

Marked iatrogenic BP reductions occur around the time of initial imaging and may present a potential target for therapeutic intervention. Decrease in blood pressure before reperfusion may increase the risk of infarct progression and poor functional outcome. Changes in cardiac hemodynamic variables throughout the acute stroke period suggest a potential role for fluid resuscitation for hemodynamic optimization.

Authors/Disclosures
Krithika Umesh Peshwe, MD (West Virginia University School of Medicine) PRESENTER	Dr. Peshwe has nothing to disclose.
Cindy Khanh P. Nguyen (Yale University)	Miss Nguyen has nothing to disclose.
Sreeja Kodali	Ms. Kodali has nothing to disclose.
Jessica Kobsa (Yale University)	Ms. Kobsa has nothing to disclose.
Ayush Prasad (Yale School of Medicine & Yale - New Haven Hospital)	Mr. Prasad has nothing to disclose.
Alexandria Soto	Ms. Soto has nothing to disclose.
Charles Wira	No disclosure on file
Charles Matouk	No disclosure on file
Kevin N. Sheth, MD, FAAN (Yale UniversityDivision of Neuro and Critical Care)	Dr. Sheth has received personal compensation in the range of $500-$4,999 for serving as a Consultant for Ceribell. Dr. Sheth has received personal compensation in the range of $500-$4,999 for serving on a Scientific Advisory or Data Safety Monitoring board for Zoll. Dr. Sheth has received personal compensation in the range of $10,000-$49,999 for serving on a Scientific Advisory or Data Safety Monitoring board for NControl. Dr. Sheth has received stock or an ownership interest from Astrocyte. Dr. Sheth has received stock or an ownership interest from Alva. The institution of Dr. Sheth has received research support from Biogen. The institution of Dr. Sheth has received research support from Novartis. The institution of Dr. Sheth has received research support from Bard. The institution of Dr. Sheth has received research support from Hyperfine. Dr. Sheth has received intellectual property interests from a discovery or technology relating to health care.
Nils Petersen, MD (Yale University)	Dr. Petersen has received research support from NIH.