Stroke remains a leading cause of adult disability with treatments limited to thrombolytic therapies that are severely limited by a narrow therapeutic window. The potential of hundreds of other therapeutic agents cannot be evaluated due to their poor ability to cross the blood-brain barrier. Recently, biopolymer hydrogels have shown promise at overcoming these obstacles via the delivering of therapeutic molecules (pharmacological, mRNA, stem cells, etc.) to injured nervous tissue to afford functional recovery in rodent models of stroke. To date, we have tested different biopolymer hydrogels in mouse models of stroke for their ability to promote post-stroke recovery and for in situ delivery of growth factors, small pharmacological compounds, siRNAs, and stem cells. Here, we describe practical instructions on how to prepare various biopolymer hydrogels in house with further guidance on how to use them for intracerebral administration of therapeutic agents in preclinical stroke models.
Keywords: Brain recovery; Chitosan/β-glycerophosphate; Hydrogel; PVA-tyramine; Stroke; Therapeutics.
© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.