Multifaceted Hydrogel Scaffolds: Bridging the Gap between Biomedical Needs and Environmental Sustainability

Multifaceted Hydrogel Scaffolds: Bridging the Gap between Biomedical Needs and Environmental Sustainability

Hydrogels are dynamically evolving 3D networks composed of hydrophilic polymer scaffolds with significant applications in the healthcare and environmental sectors. Notably, protein‐based hydrogels mimic the extracellular matrix, promoting cell adhesion. Further enhancing cell proliferation within th...

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Bibliographic Details
Published in:Advanced healthcare materials Vol. 13; no. 27; pp. e2401195 - n/a
Main Authors: Mamidi, Narsimha, De Silva, Fátima Franco, Vacas, Alejandro Bedón, Gutiérrez Gómez, Javier Adonay, Montes Goo, Naomi Yael, Mendoza, Daniela Ruiz, Reis, Rui L., Kundu, Subhas C.
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 01-10-2024
Subjects:
Amino acids
Biological properties
biomedical applications
Biomedical engineering
Biosensors
Cell adhesion
Cell proliferation
engineering novel hydrogels
environmental applications
Extracellular matrix
Food industry
functional hydrogels
Health care
Hydrogels
Metalloproteinase
Peptides
Physicochemical properties
Proteins
protein‐based scaffolds
Remediation
Scaffolds
functional hydrogels
protein‐based scaffolds
engineering novel hydrogels
environmental applications
biomedical applications
cell adhesion
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Summary:Hydrogels are dynamically evolving 3D networks composed of hydrophilic polymer scaffolds with significant applications in the healthcare and environmental sectors. Notably, protein‐based hydrogels mimic the extracellular matrix, promoting cell adhesion. Further enhancing cell proliferation within these scaffolds are matrix‐metalloproteinase‐triggered amino acid motifs. Integration of cell‐friendly modules like peptides and proteins expands hydrogel functionality. These exceptional properties position hydrogels for diverse applications, including biomedicine, biosensors, environmental remediation, and the food industry. Despite significant progress, there is ongoing research to optimize hydrogels for biomedical and environmental applications further. Engineering novel hydrogels with favorable characteristics is crucial for regulating tissue architecture and facilitating ecological remediation. This review explores the synthesis, physicochemical properties, and biological implications of various hydrogel types and their extensive applications in biomedicine and environmental sectors. It elaborates on their potential applications, bridging the gap between advancements in the healthcare sector and solutions for environmental issues. Multifaceted hydrogels mimic the extracellular matrix, promoting cell adhesion and proliferation via controlled amino acid motifs. Integration of peptides and proteins further expands their functionality. This review explores the synthesis, properties, and applications of these versatile hydrogels in biomedicine and environmental sectors (remediation, food industry). Despite progress, ongoing research focuses on optimizing hydrogels for tailored functions in both fields.
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ISSN:2192-2640
2192-2659
2192-2659
DOI:10.1002/adhm.202401195