Novel nanofibre integrated SiN scaffolds for skeletal implant applications

Serder Onat Aklabut, Betül Özbek Iptec, Adrian Butterworth, Hahmad Ghorbanpoor, Gamze Avcioğlou, Yasemin Akbaş, Semih Oksuz, Leyla Didem Kozaci, Güilsüm Topateş, Fatma Dogan Güzel, Damion Corrigan, Hüseyin Avci

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

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Abstract

Nowadays, increase in number of orthopedic surgery accelerates global interest in the world orthopedic industry. Apart from the increased number of the surgery, the rapid recovery becomes very important following the initial operations. One of the common problem for the patients is the biocompatibility between the implant and tissue [1-3]. In this study, we aimed to improve attachment of the implant to the tissue in addition to provide high biocompatibility. After preparing a scaffold by using SiN subsequently we have coated with fine gelatine nanofibers. SiN is one of the most commonly used bioactive ceramic class, and also its biocompatibility is good enough.
Original languageEnglish
Title of host publication14th Nanoscience and Nanotechnology Conference
Place of PublicationAnkara, Turkey
Pages163
Number of pages1
Publication statusPublished - 22 Sep 2018

Keywords

  • nanofibre
  • skeletal impacts
  • orthopedics
  • patient recovery
  • biocompatibility

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    Aklabut, S. O., Iptec, B. Ö., Butterworth, A., Ghorbanpoor, H., Avcioğlou, G., Akbaş, Y., Oksuz, S., Kozaci, L. D., Topateş, G., Güzel, F. D., Corrigan, D., & Avci, H. (2018). Novel nanofibre integrated SiN scaffolds for skeletal implant applications. In 14th Nanoscience and Nanotechnology Conference (pp. 163).