Developing a Ministroke Model in Mouse Barrel Cortex.

Stroke is a worldwide leading cause of death and long-term disability, with ischemic strokes making up approximately 85% of all cases. There is a significant need for an ideal animal model that accurately replicates the disease's pathology to study the molecular mechanisms of brain injury. Various experimental models have been created to induce middle cerebral artery occlusion (MCAO), including intraluminal MCAO, photothrombotic models, endothelin-1 injections, and electrocoagulation. However, these often result in large infarct or lesion volumes accompanied by considerable variability. In this study, we present a ministroke model that specifically targets the mouse barrel cortex, making it suitable for investigating the mechanisms of minor strokes and stroke recurrence. In our model, the distal branch of the right middle cerebral artery (MCA), which supplies the sensorimotor cortex, is permanently ligated using 10-0 sutures. This is followed by a 7-min occlusion of the bilateral common carotid arteries (CCAs) and subsequent reperfusion. This approach produces a mild stroke characterized by small and consistent lesion volumes and very low mortality rates. A well-trained experimenter can achieve nearly zero mortality with this technique. Furthermore, this model of localized ischemia induces lesions in the functionally defined barrel cortex, allowing the use of the vibrissae-evoked forelimb placing test to assess functional outcomes. Key features • Introduces a novel ministroke model targeting the mouse barrel cortex, specifically designed for studying minor strokes. • Achieves consistently small infarct sizes and low mortality rates, allowing for long-term assessments of functional outcomes. • Requires specialized surgical skills for the permanent ligation of the right middle cerebral artery and temporary occlusion of common carotid arteries. • The adhesive removal test and the vibrissae-evoked forelimb placing test exhibit remarkable sensitivity in this model.