Injectable non-leaching tissue-mimetic bottlebrush elastomers as an advanced platform for reconstructive surgery

Injectable non-leaching tissue-mimetic bottlebrush elastomers as an advanced platform for reconstructive surgery

Current materials used in biomedical devices do not match tissue’s mechanical properties and leach various chemicals into the body. These deficiencies pose significant health risks that are further exacerbated by invasive implantation procedures. Herein, we leverage the brush-like polymer architectu...

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Bibliographic Details
Published in:Nature communications Vol. 12; no. 1; p. 3961
Main Authors: Dashtimoghadam, Erfan, Fahimipour, Farahnaz, Keith, Andrew N., Vashahi, Foad, Popryadukhin, Pavel, Vatankhah-Varnosfaderani, Mohammad, Sheiko, Sergei S.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 25-06-2021
Nature Publishing Group
Nature Portfolio
Subjects:
639/301/54
639/301/54/989
639/638/455/303
Animals
Biocompatible Materials - administration & dosage
Biocompatible Materials - chemistry
Biocompatible Materials - pharmacology
Biomedical materials
Biomimetic Materials - administration & dosage
Biomimetic Materials - chemistry
Biomimetic Materials - pharmacology
Cell proliferation
Cell Proliferation - drug effects
Elastomers
Elastomers - administration & dosage
Elastomers - chemistry
Elastomers - pharmacology
Fibrosis
Gels
Health risks
Humanities and Social Sciences
Implants
In situ leaching
Inflammation
Inflammatory response
Injections
Leaching
Mechanical properties
Mice
multidisciplinary
Plastic surgery
Plastic Surgery Procedures - methods
Polymers
Polymers - administration & dosage
Polymers - chemistry
Polymers - pharmacology
Rats
Reconstructive surgery
Science
Science (multidisciplinary)
Time Factors
Tissues
Transplants & implants
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Description
Summary:Current materials used in biomedical devices do not match tissue’s mechanical properties and leach various chemicals into the body. These deficiencies pose significant health risks that are further exacerbated by invasive implantation procedures. Herein, we leverage the brush-like polymer architecture to design and administer minimally invasive injectable elastomers that cure in vivo into leachable-free implants with mechanical properties matching the surrounding tissue. This strategy allows tuning curing time from minutes to hours, which empowers a broad range of biomedical applications from rapid wound sealing to time-intensive reconstructive surgery. These injectable elastomers support in vitro cell proliferation, while also demonstrating in vivo implant integrity with a mild inflammatory response and minimal fibrotic encapsulation. Minimally invasive materials that match tissues mechanical properties are needed for biomedical applications. Here, the authors report on brush-like polymers which can be injected and cured in situ, resulting in elastomeric implants which mechanically blend with surrounding tissue and show minimal foreign body response.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-021-23962-8