Hydrogel Design to Understand and Guide 3D Cell Migration
Karen L. Xu, Robert L. Mauck, Jason A. Burdick

TL;DR
This paper reviews how hydrogels can be designed to study and guide cell migration in 3D environments, with applications in tissue repair and regenerative medicine.
Contribution
The paper provides a comprehensive review of hydrogel engineering for modeling and controlling 3D cell migration.
Findings
Hydrogels can mimic extracellular environments to study cell migration mechanisms.
Engineered hydrogels can guide cell migration for biomedical applications like tissue repair.
Understanding 3D cell migration can lead to improved therapies for tissue regeneration.
Abstract
The extracellular environment is critical for cell migration in three-dimensions (3D), which has been understudied when compared to cell migration on two-dimensional (2D) substrates. In 3D, cells must degrade or remodel their surroundings to overcome barriers to migration or find paths that act as migration routes. We performed a literature search for studies related to the engineering of hydrogels to understand and control cell migration. This review highlights the cell-intrinsic machinery that is required for migration, describes how cell migration can be modeled in vitro, and provides examples where hydrogels have been designed with permissive extracellular cues that enhance cell migration for biomedical applications. Hydrogels can be engineered to mimic many features of the extracellular space to help us better understand the interplay between cells and their environment and…
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Taxonomy
TopicsPlanarian Biology and Electrostimulation · 3D Printing in Biomedical Research · Cellular Mechanics and Interactions
