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Polymeric cryogels are biocompatible, and their biodegradation is independent of oxidative radicals
Indian Institute of Technology Kanpur, Kanpur, India; Karolinska Institute, Stockholm, Sweden.
Karolinska Institute, Stockholm, Sweden.
Karolinska Institute, Stockholm, Sweden; University of Arkansas for Medical Sciences, Little Rock, AK, United States.ORCID iD: 0000-0001-7790-8197
Indian Institute of Technology Kanpur, Kanpur, India.
2014 (English)In: Journal of Biomedical Materials Research. Part A, ISSN 1549-3296, E-ISSN 1552-4965, Vol. 102, no 10, p. 3409-3418Article in journal (Refereed) Published
Abstract [en]

Biocompatibility and in vivo degradation are two important characteristics of cell scaffolds. We evaluated these properties for four different polymeric macroporous cryogels, polyvinylcaprolactam, polyvinyl alcohol-alginate-bioactive glass composite, polyhydroxyethylmethacrylate-gelatin (pHEMA-gelatin), and chitosan-agarose-gelatin in mice. All the cryogels were synthesized at subzero temperature and were implanted subcutaneously in C57Bl/10.Q inbred mice. Both local and systemic toxicities were negligible as determined by serum tumor necrosis factor alpha analysis and histology of surrounding tissues nearby the implants. Complete integration of cryogels into the surrounding tissues with neovascular formation was evident in all the mice. At the implantation site, massive infiltration of macrophages and few dendritic cells were observed but neutrophils and mast cells were clearly absent. Macrophage infiltrations were observed even inside the pores of cryogel implants. To ascertain whether oxidative radicals are involved in the cryogel degradation, we implanted these gels in mice deficient for reactive oxygen species (ROS) production. Rapid gel degradation was observed in the absence of ROS, and there was no significant difference in the biodegradation of these cryogels between ROS sufficient and deficient mice thereby excluding any major role for ROS in this process. Thus, we demonstrate the biocompatibility and ROS-independent biodegradable properties of cryogels that could be useful for tissue-specific tissue engineering applications. © 2013 Wiley Periodicals, Inc.

Place, publisher, year, edition, pages
Hoboken, NJ: John Wiley & Sons, 2014. Vol. 102, no 10, p. 3409-3418
Keywords [en]
biocompatibility, cryogel, degradation, host tissue response; toxicity
National Category
Biomaterials Science
Identifiers
URN: urn:nbn:se:hh:diva-48887DOI: 10.1002/jbm.a.35013ISI: 000341130400008PubMedID: 24142798Scopus ID: 2-s2.0-84896544198OAI: oai:DiVA.org:hh-48887DiVA, id: diva2:1718769
Note

Funding text: Contract grant sponsor: Swedish research council grant; contract grant number: Dnr. 348-2008-6007, KA Wallenberg foundation and the European Community's Framework programs under grant agreements Neurinox (Health-F2-2011-278611) and the IMI program BeTheCure.

Contract grant sponsor: Department of Biotechnology (DBT), and Department of Science and Technology (DST), Ministry ofScience & Technology, Government of India (to AK)

Available from: 2022-12-13 Created: 2022-12-13 Last updated: 2023-02-22Bibliographically approved

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Nandakumar, Kutty Selva

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