2020
DOI: 10.3389/fbioe.2020.601704
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Hydrogels for 3D Neural Tissue Models: Understanding Cell-Material Interactions at a Molecular Level

Abstract: The development of 3D neural tissue analogs is of great interest to a range of biomedical engineering applications including tissue engineering of neural interfaces, treatment of neurodegenerative diseases and in vitro assessment of cell-material interactions. Despite continued efforts to develop synthetic or biosynthetic hydrogels which promote the development of complex neural networks in 3D, successful long-term 3D approaches have been restricted to the use of biologically derived constructs. In this study … Show more

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Cited by 23 publications
(21 citation statements)
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“…Rendering the hydrogel network density constant has enabled to test cell mobility behavior such as migration and neurite maneuvering in response to matrix tightness and was successfully used to study cell-cell, cell-material interactions. 165 Regardless of cross-linking method, one of the most significant use of hydrogels has been in vitro models of Alzheimer's disease where Aβ secreted by embedded cells is retained within the vicinity to capture toxicity mechanisms of pathophysiological conditions. 86 Perhaps one of the most popular techniques of hydrogel fabrication in recent years is the use of UV-activated moieties attached as side groups to polymer backbones, especially naturally derived ones.…”
Section: Biomaterials Sciencementioning
confidence: 99%
“…Rendering the hydrogel network density constant has enabled to test cell mobility behavior such as migration and neurite maneuvering in response to matrix tightness and was successfully used to study cell-cell, cell-material interactions. 165 Regardless of cross-linking method, one of the most significant use of hydrogels has been in vitro models of Alzheimer's disease where Aβ secreted by embedded cells is retained within the vicinity to capture toxicity mechanisms of pathophysiological conditions. 86 Perhaps one of the most popular techniques of hydrogel fabrication in recent years is the use of UV-activated moieties attached as side groups to polymer backbones, especially naturally derived ones.…”
Section: Biomaterials Sciencementioning
confidence: 99%
“…Without appropriate mechanical cues, the biomaterials solution to neural tissues may not be successful, as demonstrated in a recent study of 3D neural tissue analogs where insufficient cues for astrocytic mechanosignaling through YAP/actin polymerization resulted in the inability to form appropriate neuron-astrocyte networks and growth. [264]…”
Section: Mechanical Techniques Applicable To Studying Scamsmentioning
confidence: 99%
“…In three-dimensional systems, more complex interactions can be modeled effectively. A critical obstacle in the development of primary three-dimensional neural tissue analogs is the need to support multiple cell types in the same environment [141]. To obtain a true three-dimensional model, the encapsulation of neural cells in hydrogels is an increasingly popular and important technique.…”
Section: Natural Biomaterials For Astrocyte Cell Models Hydrogelsmentioning
confidence: 99%