Abstract
The primary aim in tissue engineering is to repair, replace, and regenerate dysfunctional tissues to restore homeostasis. Cell delivery for repair and regeneration is gaining impetus with our understanding of constructing tissue-like environments. However, the perpetual challenge is to identify innovative materials or re-engineer natural materials to model cell-specific tissue-like 3D modules, which can seamlessly integrate and restore functions of the target organ. To devise an optimal functional microenvironment, it is essential to define how simple is complex enough to trigger tissue regeneration or restore cellular function. Here, the purposeful transition of cell immobilization from a cytoprotection point of view to that of a cell-instructive approach is examined, with advances in the understanding of cell–material interactions in a 3D context, and with a view to further application of the knowledge for the development of newer and complex hierarchical tissue assemblies for better examination of cell behavior and offering customized cell-based therapies for tissue engineering.
Extracellular niche engineering for functional cell studies and in vivo cell delivery is an emerging field in tissue engineering. Current cell-entrapment technologies allow fabrication of tailored tissue-like matrices that dictate cellular function via complex cell–matrix interactions. Heuristic understanding of the cell–matrix interactions on three-dimensional platforms discussed here, marks a paradigm shift in the engineering of cell-entrapment devices.
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