Journal article
Feasibility of a Multi-Laboratory Model of Middle Cerebral Artery Thromboembolic Stroke with Thrombolysis: TE-MCAo
Translational stroke research, Vol.17(1), 20
01/30/2026
DOI: 10.1007/s12975-025-01407-4
PMID: 41611917
Abstract
No single animal stroke model satisfies all needs of translational stroke investigation. While the nylon filament model is widely accepted in preclinical translational stroke research, thromboembolic models have more physiological relevance. Thromboembolic models are technically difficult, time consuming, and show variable results, making them problematic for multi-laboratory preclinical network use. We sought to develop and validate a multi-laboratory thromboembolic middle cerebral artery occlusion model that encompasses vessel occlusion and subsequent thrombolysis. To reduce the numbers of donor animals used, we developed a method to store donor blood for later use. Using prefabricated microcatheters, we simplified thrombus preparation and handling. Emboli were prepared in microcatheters and injected directly into the middle cerebral artery from the internal carotid artery. For thrombolysis we used intravenous Tenecteplase dosing at 1.5 mg/kg. To demonstrate feasibility and ease-of-use, the model was implemented at six research laboratories. We wrote and field-tested standard operating procedures, training videos, and hands-on surgical training workshops. We enrolled 170 Sprague Dawley rats of both sexes at six laboratories who performed 4 to 6 thrombus embolizations per week. All sites could achieve reproducible occlusion and thrombolysis. Thromboemboli prepared from stored blood served as well as emboli from freshly drawn blood. Of 135 rats who received one embolus, 33 (24%) died before 48-hour MRI scan. In survivors, stroke volume was 13 ± 16% of the ipsilateral hemisphere. Occlusions were seen in the MCA in 15%, distal ICA in 19%, both (T-occlusions) in 2% and in the MCA/ACA in 1%. Corner test, neurobehavioral battery, and MRI showed reasonably consistent stroke injury. We established the feasibility and reproducibility of a multi-laboratory rodent thromboembolic model but further development is needed to improve the success rate and lower the mortality rate before this model can be accepted widely.
Details
- Title: Subtitle
- Feasibility of a Multi-Laboratory Model of Middle Cerebral Artery Thromboembolic Stroke with Thrombolysis: TE-MCAo
- Creators
- Michelle Lin - Keck Hospital of USCMozammel Bhuiyan - Keck Hospital of USCCarly McCurry - Keck Hospital of USCJessica Lamb - Keck Hospital of USCMarcio A Diniz - Icahn School of Medicine at Mount SinaiKarni Bedirian - Icahn School of Medicine at Mount SinaiAnil K Chauhan - University of IowaAbhishek Jha - University of IowaAditi Jain - University of IowaEnrique C Leira - University of Iowa, Iowa Neuroscience InstituteRakeshkumar Patel - University of IowaMohammad B Khan - Augusta UniversityPradip Kamat - Augusta UniversityDavid C Hess - Augusta UniversityKrishnan Dhandapani - Augusta UniversityHuaxin Sheng - Duke UniversitySasha Zhang - Duke UniversityWei Yang - Duke UniversityBingren Hu - University of California San DiegoChunli Liu - University of California San DiegoLauren Sansing - Yale UniversityPinar Caglayan - Yale UniversityQinyue Guan - Yale UniversityLigia Boisserand - Yale UniversityCenk Ayata - Massachusetts General HospitalTakahiko Imai - Massachusetts General HospitalKirsten Lynch - Cognitive Neuroimaging LabPatrick Lyden - Keck Hospital of USC
- Resource Type
- Journal article
- Publication Details
- Translational stroke research, Vol.17(1), 20
- DOI
- 10.1007/s12975-025-01407-4
- PMID
- 41611917
- NLM abbreviation
- Transl Stroke Res
- ISSN
- 1868-4483
- eISSN
- 1868-601X
- Publisher
- Springer Nature
- Grant note
- University of Southern California
Open access funding provided by SCELC, Statewide California Electronic Library Consortium
- Language
- English
- Date published
- 01/30/2026
- Academic Unit
- Neurology; Hematology, Oncology, and Blood & Marrow Transplantation; Epidemiology; Iowa Neuroscience Institute; Neurosurgery; Internal Medicine
- Record Identifier
- 9985132068202771
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