Optimization of the Longa Middle Cerebral Artery Occlusion Method for Complete Reperfusion

The middle cerebral artery occlusion model serves as the primary animal model for studying ischemic stroke. Despite being used in research for over three decades, its standardization remains inadequate. Predominantly conducted on rats and mice, the procedure poses challenges due to mice's smaller and more fragile nature. Unlike the Koizumi common carotid artery method, the Longa external carotid artery is the sole intraluminal filament stroke model ensuring complete reperfusion postischemia. This aspect holds critical significance for studies investigating reperfusion phenomena. The surgical modifications demonstrated in this article ensure continuous blood flow from the common carotid artery throughout the ischemic phase and after the reperfusion onset. The goal of these modifications is to selectively occlude the middle cerebral artery by keeping the perfusion uninterrupted in branches proximal to the middle cerebral artery during the ischemia period. Furthermore, the onset of reperfusion is sudden and can be precisely controlled, thereby modeling endovascular thrombectomy in human medicine more accurately. Our aim in presenting this comprehensive video article is to ease the training of new surgeons and promote the standardization of surgical procedures within the scientific community.