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W2894065078 startingPage "370" @default.
W2894065078 abstract "Lack of auto osteogenesis and clinical complexities of repairing of bone after severe injuries, urge to develop a significant approach to promote regeneration of bone. The present work represents ornamentation of 2D rod-like nanohydroxyapatite (nHA) on ultra-low concentration graphene oxide (GO) sheet. The nanohybrids (GO-nHA) were incorporated into the spermine based high strength thermoplastic polyurethane-urea (PUU) matrices by in situ technique and the porous scaffolds were fabricated. 1 wt% GO-nHA filled scaffold displayed dramatically improved physico-mechanical properties. Cytotoxicity study using osteoblast cell like MG-63 cell line revealed positive cell viability (above 95%) and increased proliferation over a period of 14 days of culture. Semi-quantitative Real Time polymerase Chain Reaction (qRT-PCR) showed positive expression of collagen type I and osteocalcin indicating excellent maturation and biomineralization of osteoblasts. To avoid burden of carbonaceous particulate in body, very low percentage of GO (0.15%) was incorporated into the scaffold to improve mechanical properties, surface wettability, cell viability and cell proliferation drastically. Furthermore, in vivo study confirmed the promoted osteogenesis of PUU/GO-nHA scaffold in vivo without any cytotoxicity. Based on mechanical, in vitro and in vivo study the high strength nanohybrid scaffold exhibited tremendous potential for orthopedic applications." @default.
W2894065078 created "2018-10-05" @default.
W2894065078 creator A5055574140 @default.
W2894065078 creator A5073720807 @default.
W2894065078 creator A5076603040 @default.
W2894065078 creator A5077947010 @default.
W2894065078 creator A5086126785 @default.
W2894065078 date "2019-01-01" @default.
W2894065078 modified "2023-10-18" @default.
W2894065078 title "Coining attributes of ultra-low concentration graphene oxide and spermine: An approach for high strength, anti-microbial and osteoconductive nanohybrid scaffold for bone tissue regeneration" @default.
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W2894065078 doi "https://doi.org/10.1016/j.carbon.2018.09.062" @default.
W2894065078 hasPublicationYear "2019" @default.
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