Biological and Procedural Predictors of Outcome in the Stroke Preclinical Assessment Network (SPAN) Trial

Andreia Morais; Takahiko Imai; Xuyan Jin; Joseph J. Locascio; Ligia Boisserand; Alison L. Herman; Anjali Chauhan; Jessica Lamb; Karisma Nagarkatti; Marcio A. Diniz; Mariia Kumskova; Nirav Dhanesha; Pradip K. Kamat; Mohammad Badruzzaman Khan; Krishnan M. Dhandapani; Rakesh B. Patel; Brijesh Sutariya; Yanrong Shi; Klaus van Leyen; W. Taylor Kimberly; David C. Hess; Jaroslaw Aronowski; Enrique C. Leira; Raymond C. Koehler; Anil K. Chauhan; Lauren H. Sansing; Patrick D. Lyden; Cenk Ayata

doi:10.1161/CIRCRESAHA.123.324139

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Biological and Procedural Predictors of Outcome in the Stroke Preclinical Assessment Network (SPAN) Trial

Journal article

Peer reviewed

Biological and Procedural Predictors of Outcome in the Stroke Preclinical Assessment Network (SPAN) Trial

Andreia Morais, Takahiko Imai, Xuyan Jin, Joseph J. Locascio, Ligia Boisserand, Alison L. Herman, Anjali Chauhan, Jessica Lamb, Karisma Nagarkatti, Marcio A. Diniz, …

Circulation research, Vol.135(5), pp.575-592

08/16/2024

DOI: 10.1161/CIRCRESAHA.123.324139

PMCID: PMC11428171

PMID: 39034919

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https://pmc.ncbi.nlm.nih.gov/articles/PMC11428171/pdf/nihms-2008536.pdfView

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Abstract

BACKGROUND: The SPAN trial (Stroke Preclinical Assessment Network) is the largest preclinical study testing acute stroke interventions in experimental focal cerebral ischemia using endovascular filament middle cerebral artery occlusion (MCAo). Besides testing interventions against controls, the prospective design captured numerous biological and procedural variables, highlighting the enormous heterogeneity introduced by the multicenter structure that might influence stroke outcomes. Here, we leveraged the unprecedented sample size achieved by the SPAN trial and the prospective design to identify the biological and procedural variables that affect experimental stroke outcomes in transient endovascular filament MCAo. METHODS: The study cohort included all mice enrolled and randomized in the SPAN trial (N=1789). Mice were subjected to 60-minute MCAo and followed for a month. Thirteen biological and procedural independent variables and 4 functional (weight loss and 4-point neuroscore on days 1 and 2, corner test on days 7 and 28, and mortality) and 3 tissue (day 2, magnetic resonance imaging infarct volumes and swelling; day 30, magnetic resonance imaging tissue loss) outcome variables were prospectively captured. Multivariable regression with stepwise elimination was used to identify the predictors and their effect sizes. RESULTS: Older age, active circadian stage at MCAo, and thinner and longer filament silicone tips predicted higher mortality. Older age, larger body weight, longer anesthesia duration, and longer filament tips predicted worse neuroscores, while high-fat diet and blood flow monitoring predicted milder neuroscores. Older age and a high-fat diet predicted worse corner test performance. While shorter filament tips predicted more ipsiversive turning, longer filament tips appeared to predict contraversive turning. Age, sex, and weight interacted when predicting the infarct volume. Older age was associated with smaller infarcts on day 2 magnetic resonance imaging, especially in animals with larger body weights; this association was most conspicuous in females. High-fat diet also predicted smaller infarcts. In contrast, the use of cerebral blood flow monitoring and more severe cerebral blood flow drop during MCAo, longer anesthesia, and longer filament tips all predicted larger infarcts. Bivariate analyses among the dependent variables highlighted a disconnect between tissue and functional outcomes. CONCLUSIONS: Our analyses identified variables affecting endovascular filament MCAo outcome, an experimental stroke model used worldwide. Multiple regression refuted some commonly reported predictors and revealed previously unrecognized associations. Given the multicenter prospective design that represents a sampling of real-world conditions, the degree of heterogeneity mimicking clinical trials, the large number of predictors adjusted for in the multivariable model, and the large sample size, we think this is the most definitive analysis of the predictors of preclinical stroke outcome to date. Future multicenter experimental stroke trials should standardize or at least ensure a balanced representation of the biological and procedural variables identified herein as potential confounders.

Ischemia

Stroke

infarction, middle cerebral artery

mice

Details

Title: Subtitle: Biological and Procedural Predictors of Outcome in the Stroke Preclinical Assessment Network (SPAN) Trial
Creators: Andreia Morais - Massachusetts General Hospital
Takahiko Imai - Massachusetts General Hospital
Xuyan Jin - Massachusetts General Hospital
Joseph J. Locascio - Biostatistical Consulting (United States)
Ligia Boisserand - Yale University
Alison L. Herman - Yale University
Anjali Chauhan - Department of Neurology, McGovern Medical School, University of Texas HSC, Houston (A.C., J.A.)
Jessica Lamb - Keck Hospital of USC
Karisma Nagarkatti - Keck Hospital of USC
Marcio A. Diniz - Icahn School of Medicine at Mount Sinai
Mariia Kumskova - University of Iowa
Nirav Dhanesha - University of Iowa
Pradip K. Kamat - Augusta University
Mohammad Badruzzaman Khan - Department of Pathology and Translational Pathobiology, Louisiana State University Health Sciences Center at Shreveport (N.D., M.B.K.)
Krishnan M. Dhandapani - Augusta University
Rakesh B. Patel - University of Iowa
Brijesh Sutariya - University of Iowa
Yanrong Shi - Johns Hopkins University
Klaus van Leyen - Massachusetts General Hospital
W. Taylor Kimberly - Harvard University
David C. Hess - Augusta University
Jaroslaw Aronowski - Department of Neurology, McGovern Medical School, University of Texas HSC, Houston (A.C., J.A.)
Enrique C. Leira - University of Iowa
Raymond C. Koehler - Johns Hopkins University
Anil K. Chauhan - University of Iowa
Lauren H. Sansing - Yale University
Patrick D. Lyden - Keck Hospital of USC
Cenk Ayata - Massachusetts General Hospital
Resource Type: Journal article
Publication Details: Circulation research, Vol.135(5), pp.575-592
DOI: 10.1161/CIRCRESAHA.123.324139
PMID: 39034919
PMCID: PMC11428171
NLM abbreviation: Circ Res
ISSN: 0009-7330
eISSN: 1524-4571
Publisher: LIPPINCOTT WILLIAMS & WILKINS
Grant note: National Institutes of Health: U01NS113443 Yale University: U01NS113445 University of Texas: U01NS113451 University of Southern California: U24NS113452 Johns Hopkins University: U01NS113444, R01NS102583, R01NS105894 University of Iowa: U01NS113388, R35HL139926 Augusta University: R01 NS099455, RF1NS122863, U01NS113356 Laboratory of Neuro Imaging Resource (LONIR) at the University of Southern California: P41EB015922
National Institutes of Health funding to Massachusetts General Hospital (U01NS113443, C. Ayata), Yale University (U01NS113445, L.H. Sansing), University of Texas (U01NS113451, J. Aronowski), the University of Southern California (U24NS113452, P.D. Lyden), Johns Hopkins University (U01NS113444, R01NS102583, and R01NS105894), University of Iowa (U01NS113388, A.K. Chauhan and E.C. Leira; R35HL139926, A.K. Chauhan), Augusta University (R01 NS099455; RF1NS122863 and U01NS113356, D.C. Hess), and The Laboratory of Neuro Imaging Resource (LONIR) at the University of Southern California (P41EB015922).
Language: English
Electronic publication date: 07/22/2024
Date published: 08/16/2024
Academic Unit: Neurology; Hematology, Oncology, and Blood & Marrow Transplantation; Epidemiology; Iowa Neuroscience Institute; Neurosurgery; Internal Medicine
Record Identifier: 9984687786002771

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