Experimental Intracerebral Hemorrhage in the Mouse

Author:

Belayev Ludmila1,Saul Isabel1,Curbelo Karell1,Busto Raul1,Belayev Andrey1,Zhang Yongbo1,Riyamongkol Panomkhawn1,Zhao Weizhao1,Ginsberg Myron D.1

Affiliation:

1. Cerebral Vascular Disease Research Center, Department of Neurology, University of Miami School of Medicine, Miami, FL; 33101

Abstract

Background and Purpose— A major limitation of intracerebral hemorrhage (ICH) research is the lack of reproducible animal models. The present study was conducted to validate in the mouse the double-injection method of ICH initially developed in the rat. We investigated the effect of intrastriatal injection of blood or cerebrospinal fluid (CSF) on cerebral blood flow (CBF), neurological score, hematoma volume, and brain swelling. Methods— Male C57BL/6 mice were anesthetized with halothane/nitrous oxide delivered by face mask. Rectal and cranial temperatures were regulated at 37°C to 37.5°C. Mice were placed in a stereotactic frame, and a 30-gauge stainless steel cannula was introduced through a burr hole into the left striatum. Each mouse received a 5-μL injection of either whole blood or CSF (over 3 minutes), followed 7 minutes later by 10 μL injected over 5 minutes. The injection cannula was slowly withdrawn 10 minutes after the second injection. Control mice had only cannula insertion. CBF was studied by laser Doppler perfusion imaging. Neurological status was evaluated on days 1 and 2. After 2 days, hematoma volume and brain swelling were calculated. Results— Physiological values were stable. Mice with ICH but not those with CSF or cannula alone had a marked, persistent neurological deficit and a highly reproducible hematoma, whose mean±SEM volume was 2.0±0.2 mm 3 compared with a lesion size of 0.2±0.1 mm 3 in mice with CSF. Residual swelling of the ipsilateral hemisphere at 48 hours was 5.7% in the hematoma and 1.5% in the CSF groups. Relative CBF in the neocortex ipsilateral to the injection site declined by ∼45% to 60% during the first 20 minutes after cannula insertion/injection in all groups but began to renormalize at ∼25 to 30 minutes in the CSF and cannula-only groups; in the hematoma group, cortical hypoperfusion of ∼35% to 50% persisted during the 90-minute measurement period. Conclusions— The present ICH model in mice produces a consistent neurological deficit, hypoperfusion, hematoma volume, and brain swelling. This model closely mimics human hypertensive basal ganglionic ICH and should be useful for the evaluation of pharmaceutical therapies. Laser Doppler perfusion imaging is a useful new technique to quantify relative CBF changes and can be used for studies of dynamic changes of CBF in this in vivo model of ICH in mice.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Advanced and Specialised Nursing,Cardiology and Cardiovascular Medicine,Clinical Neurology

Reference30 articles.

1. Wagner KR Broderick JP. Hemorrhagic stroke: pathophysiological mechanisms and neuroprotective treatments. In: Lo EH Marwah J eds. Neuroprotection. Scottsdale Ariz: Permanent Press; 2002: 471–508.

2. Early hemodynamic changes in experimental intracerebral hemorrhage

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