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      The enhanced properties and bioactivity of poly-ε-caprolactone/poly lactic- co-glycolic acid doped with carbonate hydroxyapatite–egg white

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      a , b , a , c , d , e , f , g , a , d ,
      RSC Advances
      The Royal Society of Chemistry

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          Abstract

          Synthetic polymers, such as PCL and PLGA, are among the main material choices in tissue engineering because of their stable structures and strong mechanical properties. In this study, we designed polycaprolactone (PCL)/polylactic- co-glycolate acid (PLGA) nanofibers doped with carbonate hydroxyapatite (CHA) and egg white (EW) with enhanced properties. The addition of CHA and EW significantly influenced the properties and morphology of PCL/PLGA nanofibers; whereby the CHA substitution (PCL/PLGA/CHA) greatly increased the mechanical properties related to the Young's modulus and EW doping (PCL/PLGA/CHA/EW) increased the elongation at break. Bioactivity tests of PCL/PLGA/CHA/EW after immersion in the SBF for 3 to 9 days showed increased fiber diameters and a good swelling capacity that could improve cell adhesion, while biocompatibility tests with NIH-3T3 fibroblast cells showed good cell proliferation (85%) after 48 h and antibacterial properties against S. aureus.

          Abstract

          In this study, we designed polycaprolactone (PCL)/polylactic- co-glycolate acid (PLGA) nanofibers doped with carbonate hydroxyapatite (CHA) and egg white (EW) with enhanced properties.

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          Most cited references8

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          Polymeric biomaterials in tissue engineering.

          Polymeric biomaterials are one of the cornerstones of tissue engineering. A wide range of materials has been used. Approaches have shown increasing sophistication over recent years employing drug delivery functionality, micropatterning, microfluidics, and other technologies. Challenges such as producing three-dimensional matrixes and rendering them deliverable through minimally invasive techniques have been addressed. A major recent development is the design of biomaterials for tissue engineering matrices to achieve specific biologic effects on cells, and vice versa. Much remains to be achieved, particularly in integrating other new technologies into the field.
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            Molecular Biology of the Cell

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              Marine-Derived Biomaterials for Tissue Engineering Applications

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                Author and article information

                Journal
                RSC Adv
                RSC Adv
                RA
                RSCACL
                RSC Advances
                The Royal Society of Chemistry
                2046-2069
                24 November 2023
                22 November 2023
                24 November 2023
                : 13
                : 49
                : 34427-34438
                Affiliations
                [a ] Department of Physics, Faculty of Mathematics and Natural Science, Universitas Gadjah Mada Yogyakarta Indonesia
                [b ] Department of Physics, Faculty of Mathematics and Natural Science, Universitas Pattimura Ambon Indonesia
                [c ] Department of Dental Biomedical Sciences, Faculty of Dentistry, Universitas Gadjah Mada Yogyakarta Indonesia
                [d ] Research Collaboration Center for Biomedical Scaffolds National Research and Innovation Agency of the Republic of Indonesia (BRIN), Universitas Gadjah Mada (UGM) Bulaksumur Yogyakarta 55281 Indonesia
                [e ] Department of Physics, Universitas Airlangga Surabaya 60115 Indonesia
                [f ] Department of Physics, Institut Pertanian Bogor Bogor 16680 Indonesia yusril@ 123456ugm.ac.id
                [g ] Department of Mechanical Engineering, Universitas Andalas Padang 25163 Indonesia
                Author information
                https://orcid.org/0000-0002-7981-7819
                https://orcid.org/0000-0001-9957-4247
                https://orcid.org/0000-0002-8257-220X
                https://orcid.org/0000-0001-9104-9333
                Article
                d3ra07486b
                10.1039/d3ra07486b
                10667861
                38024968
                73400ca6-d6fb-4f6f-a86b-9f6985506b22
                This journal is © The Royal Society of Chemistry
                History
                : 2 November 2023
                : 7 November 2023
                Page count
                Pages: 12
                Categories
                Chemistry
                Custom metadata
                Paginated Article

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