2021
DOI: 10.1089/ten.tea.2020.0287
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Controlled Release of Anti-Inflammatory and Proangiogenic Factors from Macroporous Scaffolds

Abstract: The simultaneous local delivery of anti-inflammatory and pro-angiogenic agents via biomaterial scaffolds presents a promising method for improving the engraftment of tissue-engineered implants while avoiding potentially detrimental systemic delivery. In this study, PDMS microbeads were loaded with either anti-inflammatory dexamethasone (Dex) or pro-angiogenic 17β-estradiol (E2) and subsequently integrated into a single macroporous scaffold to create a controlled, dual drug-delivery platform. Compared to a stan… Show more

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Cited by 10 publications
(12 citation statements)
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References 64 publications
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“…They can also be used to locally deliver supportive agents, such as pro-survival factors to improve engraftment and/or immunotherapeutics to control inflammation and prevent immunological destruction. [19][20][21][22][23] In addition, the polymeric encapsulation of cells within immunoisolatory hydrogels can mitigate direct immune cell attack and enhance graft protection. [24,25] These biomaterial strategies for housing and supporting islets within a wide range of transplant sites have shown great promise, establishing the basis for hopeful application in humans.…”
Section: Doi: 101002/adhm202200243mentioning
confidence: 99%
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“…They can also be used to locally deliver supportive agents, such as pro-survival factors to improve engraftment and/or immunotherapeutics to control inflammation and prevent immunological destruction. [19][20][21][22][23] In addition, the polymeric encapsulation of cells within immunoisolatory hydrogels can mitigate direct immune cell attack and enhance graft protection. [24,25] These biomaterial strategies for housing and supporting islets within a wide range of transplant sites have shown great promise, establishing the basis for hopeful application in humans.…”
Section: Doi: 101002/adhm202200243mentioning
confidence: 99%
“…[54][55][56][57] In addition to improved nutrient transport, implant porosity globally impacts biocompatibility and engraftment long-term, with optimal pore sizes facilitating healthy cellular infiltration and remodeling. [19,20] The intimate control of pore size and connectivity using particulate leaching and gas foaming methods, however, is limited, resulting in heterogeneity of the final scaffold product. In addition, uneven geometry as a result of the irregular porogen surface can lead to rough macro-scale topographies, potentially increasing the risk of pro-inflammatory responses.…”
Section: Optimized Implant Geometry To Improve Nutrient Transportmentioning
confidence: 99%
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