Abstract A031: Non-Contrast CT Severe Hypodensity versus Net Water Uptake in Assessing Thrombectomy Treatment Effect in Large Core Stroke: A Secondary Analysis of the SELECT2 Trial

Vignan Yogendrakumar; Bruce Campbell; Hannah Johns; Sarthak Singh; Aditya Chaturvedi; leonid churilov; Niruta Dhimal; Prodipta Guha; Gagan Sharma; Felix Ng; Deep Pujara; Ameer Hassan; Michael Abraham; Santiago Ortega-Gutierrez; Muhammad Hussain; Michael Chen; Scott Kasner; Spiros Blackburn; Juan Arenillas; Fawaz Al-Mufti; Thanh Nguyen; Stavropoula Tjoumakaris; Pascal Jabbour; Michael Hill; James Grotta; clark sitton; Mark Parsons; Amrou Sarraj

doi:10.1161/str.57.suppl_1.A031

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Abstract A031: Non-Contrast CT Severe Hypodensity versus Net Water Uptake in Assessing Thrombectomy Treatment Effect in Large Core Stroke: A Secondary Analysis of the SELECT2 Trial

Vignan Yogendrakumar, Bruce Campbell, Hannah Johns, Sarthak Singh, Aditya Chaturvedi, leonid churilov, Niruta Dhimal, Prodipta Guha, Gagan Sharma, Felix Ng, …

Stroke (1970), Vol.57(Suppl_1), A031

02/2026

DOI: 10.1161/str.57.suppl_1.A031

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Abstract

Introduction: Severe CT-hypodensity, representing blood-brain-barrier (BBB) injury, has been shown to modify endovascular therapy (EVT) treatment effect in patients presenting with large core stroke. Net water uptake (NWU), reflecting average hypodensity within the lesion, is another measure of BBB injury and has been shown to be prognostic of poor outcome, but whether it modifies EVT treatment effect is unclear. Methods: We performed a comparative analysis of severe CT-hypodensity and NWU in patients enrolled into SELECT2, a randomized trial of EVT and medical management (MM) in patients with large core stroke (ASPECTS 3-5 or CTP core ≥50ml). Visible CT-hypodensity was manually outlined on baseline imaging. Severe CT-hypodensity was defined as the volume of core voxels <26HU (Hounsfield units). NWU was calculated using the standard method of percentage relative hypodensity versus a contralateral mirror region-of-interest, after exclusion of CSF and artifacts. The primary outcome was mRS 0-3 at 90 days. The associations between severe CT-hypodensity, NWU and the primary outcome were evaluated in separate logistic regression models within EVT and MM arms, adjusted for age, NIHSS, and total CT-core volume. Model performance between severe hypodensity and NWU was compared using Bayesian Information Criterion (BIC). Results: In 318 patients (51% EVT, 49% MM), the median volume of severe hypodensity (EVT: 13.8mL [IQR: 5.1 - 27.0], MM: 15.9mL [IQR: 6.7 - 31.5]) and NWU (EVT: 9.2% [IQR: 6.3 - 13.3], MM: 9.8% [IQR: 7.4 - 13.4]) was balanced between the two treatment groups. The volume of severe hypodensity (per 1mL increase) was associated with a lower odds of mRS 0-3 with EVT (aOR=0.97, 95% CI:0.94-99) but not with MM (aOR=1.01, 95% CI:0.98-1.05, p-interaction<0.01). An increase in NWU (per % increase) was not significantly associated with a lower odds of mRS 0-3 with EVT (aOR=0.96, 95%CI: 0.89-1.024) or MM (aOR=0.96, 95% CI:0.87-1.05, p-interaction=0.86; Figure). Models including severe hypodensity provided a better fit for the primary outcome, compared to models including NWU (delta BIC of 5, favoring severe hypodensity). Conclusions: In patients with large core stroke, the volume of severe CT-hypodensity was associated with clinical outcome and modified EVT treatment effect. NWU did not modify EVT treatment effect. These findings suggest that severe CT-hypodensity may be the preferred imaging criterion when considering EVT treatment decisions.

Computed Tomography

Blood-Brain Barrier

Neuroendovascular (for stroke)

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Title: Subtitle: Abstract A031: Non-Contrast CT Severe Hypodensity versus Net Water Uptake in Assessing Thrombectomy Treatment Effect in Large Core Stroke: A Secondary Analysis of the SELECT2 Trial
Creators: Vignan Yogendrakumar - Ottawa Hospital
Bruce Campbell - The Royal Melbourne Hospital
Hannah Johns - The Royal Melbourne Hospital
Sarthak Singh - Novita Healthcare (Australia)
Aditya Chaturvedi - Novita Healthcare (Australia)
leonid churilov - The University of Melbourne
Niruta Dhimal - Liverpool Hospital
Prodipta Guha - The University of Melbourne
Gagan Sharma - The University of Melbourne
Felix Ng - The Royal Melbourne Hospital
Deep Pujara - The University of Texas Health Science Center at Houston
Ameer Hassan - The University of Texas Rio Grande Valley
Michael Abraham - The University of Kansas Health System
Santiago Ortega-Gutierrez - University of Iowa
Muhammad Hussain - Cleveland Clinic
Michael Chen - Rush University Medical Center
Scott Kasner - University of Pennsylvania
Spiros Blackburn - Memorial Hermann
Juan Arenillas - Hospital Clínico Universitario de Valladolid
Fawaz Al-Mufti - Westchester Medical Center
Thanh Nguyen - Boston Medical Center
Stavropoula Tjoumakaris - Thomas Jefferson University
Pascal Jabbour - Thomas Jefferson University
Michael Hill - University of Calgary
James Grotta - Memorial Hermann
clark sitton - The University of Texas Health Science Center at Houston
Mark Parsons - Liverpool Hospital
Amrou Sarraj - University of Toledo
Resource Type: Abstract
Publication Details: Stroke (1970), Vol.57(Suppl_1), A031
DOI: 10.1161/str.57.suppl_1.A031
ISSN: 0039-2499
eISSN: 1524-4628
Publisher: Lippincott Williams & Wilkins
Language: English
Date published: 02/2026
Academic Unit: Neurology; Radiology; Iowa Neuroscience Institute; Neurosurgery
Record Identifier: 9985132183102771

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