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Design of Boron Nitride/Gelatin Electrospun Nanofibers for Bone Tissue Engineering

Sakthivel NagarajanCrystal Growth Centre, Anna University, Chennai 600025, IndiaHabib BelaidUniversité de MontpellierCéline Pochat‐BohatierInstitut Européen des Membranes, UMR 5635, Université Montpellier, CNRS, ENSCM, Place Eugene Bataillon, Montpellier Cedex 5 F-34095, FranceCatherine TeyssierIRCM, Institut de Recherche en Cancérologie de Montpellier, INSERM U1194, Université Montpellier, Montpellier F-34298, FranceIgor IatsunskyiNanoBioMedical Centre, Adam Mickiewicz University, 85 Umultowska Str., 61-614 Poznan, PolandEmerson CoyNanoBioMedical Centre, Adam Mickiewicz University, 85 Umultowska Str., 61-614 Poznan, PolandSébastien BalmeInstitut Européen des Membranes, UMR 5635, Université Montpellier, CNRS, ENSCM, Place Eugene Bataillon, Montpellier Cedex 5 F-34095, FranceDavid CornuInstitut Européen des Membranes, UMR 5635, Université Montpellier, CNRS, ENSCM, Place Eugene Bataillon, Montpellier Cedex 5 F-34095, FrancePhilippe MieleInstitut Européen des Membranes, UMR 5635, Université Montpellier, CNRS, ENSCM, Place Eugene Bataillon, Montpellier Cedex 5 F-34095, FranceNarayana KalkuraCrystal Growth Centre, Anna University, Chennai 600025, IndiaVincent CavaillèsIRCM, Institut de Recherche en Cancérologie de Montpellier, INSERM U1194, Université Montpellier, Montpellier F-34298, FranceMikhaël BechelanyInstitut Européen des Membranes
2017en
ABI

Аннотация

Gelatin is a biodegradable biopolymer obtained by collagen denaturation, which shows poor mechanical properties. Hence, improving its mechanical properties is very essential toward the fabrication of efficient nontoxic material for biomedical applications. For this aim, various methods are employed using external fillers such as ceramics or bioglass. In this report, we introduce boron nitride (BN)-reinforced gelatin as a new class of two-dimensional biocompatible nanomaterials. The effect of the nanofiller on the mechanical behavior is analyzed. BN is efficiently exfoliated using the biopolymer gelatin as shown through Fourier transform infrared (FTIR) spectroscopy and X-ray diffraction (XRD). The exfoliated BN reinforces gelatin electrospun fibers, which results in an increase in the Young's modulus. The Electrospun Mats (ESM) are stable after the glutaraldehyde cross-linking, and the fibrous morphology is preserved. The cross-linked gelatin/BN ESM is highly bioactive in forming bonelike hydroxyapatite as shown by scanning electron microscopy. Due to their enhanced mineralization ability, the cross-linked ESM have been tested on human bone cells (HOS osteosarcoma cell line). The cell attachment, proliferation, and biocompatibility results show that the ESM are nontoxic and biodegradable. The analysis of osteoblast gene expression and the measurement of alkaline phosphatase activity confirm that these materials are suitable for bone tissue engineering.

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