Hydrogel-Based Scaffold Development for Ischemic Stroke In Vitro Platform
Lidadi Agbomi, Richard Goodwin, Bruce Gao

TL;DR
This paper describes the development of a hydrogel scaffold for an in vitro model of ischemic stroke to support future research and interventions.
Contribution
The study identifies an optimal hydrogel formulation with improved structural integrity for use in a stroke research platform.
Findings
A 1% alginate and 5% gelatin hydrogel in a 40/60 ratio provided the best scaffold properties.
Freezing the hydrogel for 15 hours before treatment improved its structural integrity significantly.
The next step is to create microchannels in the scaffold for cell culture experiments.
Abstract
Age-related neurological disorders, especially cerebrovascular disorders, pose a threat to the ever-increasing geriatric community. Improving tools for clinical studies can aid in the overall outcome of cerebrovascular incidents. In particular, ischemic strokes, a type of cerebrovascular disorder, which is the 2nd leading cause of both death and disability worldwide, can benefit from in vitro platforms that support the development of novel interventions. While the microfluidic chip was designed in CAD software, parallel efforts focused on creating the hydrogel scaffold. The first step was choosing the correct material. Material selection was based on desired properties for the scaffold; alginate was selected for its mechanical strength. Considering the tests being done, gelatin was added to help with cell adhesion properties. Following material selection, optimal concentrations were…
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Taxonomy
Topics3D Printing in Biomedical Research · Tissue Engineering and Regenerative Medicine · Hydrogels: synthesis, properties, applications
