The Mouse Stroke Unit Protocol with Standardized Neurological Scoring for Translational Mouse Stroke Studies.

Abstract

The filament model of middle artery occlusion (fMCAo) is perhaps the most translational mouse stroke model, allowing for controlled ischemia with intravascular reperfusion/recanalization. However, it lacks alignment with current clinical advances for stroke care (e.g., Stroke Units), usually employs subjective or vague neurological scoring among laboratories, and exhibits high acute-phase mortality. Here, we address these limitations with validated video-guided protocols. We present the mouse Stroke Unit (mSU) protocol with instructional videos and a decision algorithm (Risk Stratification Score), bridging the gap between clinical and mouse stroke modeling. To increase accuracy and sensitivity of stroke neurological scoring, we present for the first time a video-standardized format of the focal Experimental Stroke Scale (fESS) and prove its value up to 6 months post-stroke. Additionally, protocols for mice Ladder-rung test, as well as the known Cylinder test, for unbiased, quantitative assessment of limbs´ motor function are presented. Results highlight mSU's translational efficacy. Focal ESS (fESS) excels over other known scales in detecting focal stroke deficits, capturing recovery, and maintaining sensitivity for up to 6 months post-stroke. Ladder-rung and Cylinder tests objectively quantify and monitor fore- and hind-limb motor deficits, long-term. In summary, integrating mSU, fESS, and motor function tests provides a robust framework for clinically relevant stroke investigations. Our protocols improve the translational value in mouse stroke research.