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Cellular-resolution monitoring of ischemic stroke pathologies in the rat cortex

Sergiy Chornyy, Aniruddha Das, Julie Borovicka, Davina Patel, Hugh H. Chan, John K. Hermann, Thomas C. Jaramillo, André G. Machado, Kenneth B. Baker, Hod Dana

2021Biomedical Optics Express14 citationsDOIOpen Access PDF

Abstract

Stroke is a leading cause of disability in the Western world. Current post-stroke rehabilitation treatments are only effective in approximately half of the patients. Therefore, there is a pressing clinical need for developing new rehabilitation approaches for enhancing the recovery process, which requires the use of appropriate animal models. Here, we demonstrate the use of nonlinear microscopy of calcium sensors in the rat brain to study the effects of ischemic stroke injury on cortical activity patterns. We longitudinally recorded from thousands of neurons labeled with a genetically-encoded calcium indicator before and after an ischemic stroke injury in the primary motor cortex. We show that this injury has an effect on the activity patterns of neurons not only in the motor and somatosensory cortices, but also in the more distant visual cortex, and that these changes include modified firing rates and kinetics of neuronal activity patterns in response to a sensory stimulus. Changes in neuronal population activity provided animal-specific, circuit-level information on the post-stroke cortical reorganization process, which may be essential for evaluating the efficacy of new approaches for enhancing the recovery process.

Topics & Concepts

Somatosensory systemStroke (engine)NeuroscienceMedicineMotor cortexPopulationPremovement neuronal activitySensory systemCalcium imagingStroke recoveryStimulus (psychology)RehabilitationPsychologyCalciumInternal medicinePsychotherapistStimulationEngineeringMechanical engineeringEnvironmental healthNeural dynamics and brain functionNeuroscience and Neuropharmacology ResearchNeuroinflammation and Neurodegeneration Mechanisms
Cellular-resolution monitoring of ischemic stroke pathologies in the rat cortex | Litcius