Evaluation of in vitro corrosion behavior and biocompatibility of poly[xylitol‐(1,12‐dodecanedioate)](pxdd)‐ha coated porous iron for bone scaffolds applications
The present study evaluates the corrosion behavior of poly[xylitol‐(1,12‐dodecanedioate)](PXDD)‐HA coated porous iron (PXDD140/HA‐Fe) and its cell‐material interaction aimed for temporary bone scaffold applications. The physicochemical analyses show that the addition of 20 wt.% HA into the PXDD poly...
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| Main Authors: | , , , , , , , , |
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| Format: | Article |
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John Wiley and Sons
2024
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| Online Access: | http://psasir.upm.edu.my/id/eprint/112125/ https://analyticalsciencejournals.onlinelibrary.wiley.com/doi/10.1002/biot.202300464 |
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| Summary: | The present study evaluates the corrosion behavior of poly[xylitol‐(1,12‐dodecanedioate)](PXDD)‐HA coated porous iron (PXDD140/HA‐Fe) and its cell‐material interaction aimed for temporary bone scaffold applications. The physicochemical analyses show that the addition of 20 wt.% HA into the PXDD polymers leads to a higher crystallinity and lower surface roughness. The corrosion assessments of the PXDD140/HA‐Fe evaluated by electrochemical methods and surface chemistry analysis indicate that HA decelerates Fe corrosion due to a lower hydrolysis rate following lower PXDD content and being more crystalline. The cell viability and cell death mode evaluations of the PXDD140/HA‐Fe exhibit favorable biocompatibility as compared to bare Fe and PXDD‐Fe scaffolds owing to HA's bioactive properties. Thus, the PXDD140/HA‐Fe scaffolds possess the potential to be used as a biodegradable bone implant. |
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