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W3183204265 abstract "Bioresorbable polymers composed of poly(D,L-lactide-co-glycolide) (PDLLGA) and poly(L-lactide-co-glycolide) (PLLGA) have become increasingly popular for the preparation of bone substitute constructs. However, there are reports of a delayed inflammatory reaction occurring months or years after implantation. Due to the long polymer degradation times, in vitro tests carried out at physiological temperature, 37°C, tend to assess only the short-term biocompatibility of these materials. The aim of this work is to develop an in vitro protocol that can be used to assess the long-term cytotoxicity of bioresorbable polymers in a time efficient manner. This study used a previously developed and validated accelerated degradation protocol to obtain samples of PDLLGA and PLLGA at increasing levels of degradation. Samples were then applied to standard ISO 10993-5 direct contact cytotoxicity testing and it was found that PDLLGA samples showed increasing levels of cytotoxicity at the later stages of degradation, with PLLGA samples demonstrating significantly less cytotoxic behaviour. Following concern that accumulation of acidic degradation products in a closed multi-well culture environment could overestimate cytotoxicity, we developed and validated a new dynamic flow culture methodology, for testing the cytotoxicity of these degradable materials, by adapting a commercial organ on a chip flow culture system, Quasi Vivo®. In addition to cytotoxicity testing, we have carried out profiling of inflammatory cytokines released by cells in response to degraded PDLLGA and PLLGA, and have suggested mechanism by which lactide-based bioresorbable materials could modulate the inflammatory response through the G-protein coupled receptor (GPCR), hydroxycarboxylic acid receptor 1 (HCA1). STATEMENT OF SIGNIFICANCE: Bioresorbable materials naturally disintegrate over time when implanted into the body. They are often used to make screws and clips for repair of broken bones. Unfortunately, some patients can react badly to the material, resulting in painful inflammation. Biomaterials scientists are interested in developing materials that are more compatible with the body. However, it is very difficult to predict the long-term compatibility of bioresorbable materials in the lab. In our study, we have developed a method that will allow us to study the effects of the materials as they continue to break down. This will help us understand why the materials may cause inflammation, and will support research into the development of new and improved materials for bone repair." @default.
W3183204265 created "2021-08-02" @default.
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W3183204265 date "2021-10-01" @default.
W3183204265 modified "2023-09-29" @default.
W3183204265 title "Evaluation of the in vitro cytotoxicity and modulation of the inflammatory response by the bioresorbable polymers poly(D,L-lactide-co-glycolide) and poly(L-lactide-co-glycolide)" @default.
W3183204265 cites W127024613 @default.
W3183204265 cites W1504280911 @default.
W3183204265 cites W1509156154 @default.
W3183204265 cites W1955049927 @default.
W3183204265 cites W1971925267 @default.
W3183204265 cites W1974379864 @default.
W3183204265 cites W1984610422 @default.
W3183204265 cites W1993694424 @default.
W3183204265 cites W1995063875 @default.
W3183204265 cites W1997789613 @default.
W3183204265 cites W2002939688 @default.
W3183204265 cites W2015639818 @default.
W3183204265 cites W2017306882 @default.
W3183204265 cites W2022396334 @default.
W3183204265 cites W2029705383 @default.
W3183204265 cites W2036453442 @default.
W3183204265 cites W2036520352 @default.
W3183204265 cites W2046902834 @default.
W3183204265 cites W2054950544 @default.
W3183204265 cites W2056833999 @default.
W3183204265 cites W2057763473 @default.
W3183204265 cites W2061537454 @default.
W3183204265 cites W2065181822 @default.
W3183204265 cites W2068167789 @default.
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W3183204265 cites W2074099345 @default.
W3183204265 cites W2075329560 @default.
W3183204265 cites W2076770618 @default.
W3183204265 cites W2086554547 @default.
W3183204265 cites W2089700473 @default.
W3183204265 cites W2093535787 @default.
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W3183204265 cites W2100800394 @default.
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W3183204265 cites W2122180971 @default.
W3183204265 cites W2122635498 @default.
W3183204265 cites W2146037312 @default.
W3183204265 cites W2149064558 @default.
W3183204265 cites W2155685912 @default.
W3183204265 cites W2170438331 @default.
W3183204265 cites W2257787258 @default.
W3183204265 cites W2308746644 @default.
W3183204265 cites W2535343961 @default.
W3183204265 cites W2746204302 @default.
W3183204265 cites W2762717139 @default.
W3183204265 cites W2787216835 @default.
W3183204265 cites W2806104533 @default.
W3183204265 cites W2807711473 @default.
W3183204265 cites W2884391863 @default.
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W3183204265 doi "https://doi.org/10.1016/j.actbio.2021.07.049" @default.
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