Ternary nanofiber matrices composed of PCL/black phosphorus/collagen to enhance osteodifferentiation

[Display omitted] •Black phosphorus (BP)-incorporated PCL and collagen nanofiber matrix is designed.•PCL/BP/Col nanofiber matrix favorably supports cell growth.•Biocompatibility and biofunctionality of PCL/BP/Col matrix is demonstrated.•PCL/BP/Col matrix can stimulate spontaneous osteodifferentiatio...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 80; pp. 802 - 810
Main Authors Lee, Yu Bin, Song, Su-Jin, Shin, Yong Cheol, Jung, Yu Jin, Kim, Bongju, Kang, Moon Sung, Kwon, Il Keun, Hyon, Suong-Hyu, Lee, Hyun Uk, Jung, Seo-Hyun, Lim, Dohyung, Han, Dong-Wook
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.12.2019
한국공업화학회
Subjects
Black phosphorus
Bone tissue engineering
Collagen
Nanofiber matrices
Polycaprolactone
화학공학
Nanofiber matrices
Bone tissue engineering
Polycaprolactone
Collagen
Black phosphorus
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2019.06.055

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Abstract [Display omitted] •Black phosphorus (BP)-incorporated PCL and collagen nanofiber matrix is designed.•PCL/BP/Col nanofiber matrix favorably supports cell growth.•Biocompatibility and biofunctionality of PCL/BP/Col matrix is demonstrated.•PCL/BP/Col matrix can stimulate spontaneous osteodifferentiation.•PCL/BP/Col matrix can be employed as a bone tissue engineering scaffold. Recently, considerable research has been made on the development of bone tissue engineering (BTE) scaffolds to support cellular behaviors. Here, black phosphorus-incorporated poly(ε-caprolactone) and collagen (PCL/BP/Col) nanofiber matrices were designed and their potential as BTE scaffolds were explored. The PCL/BP/Col nanofiber matrices were fabricated successfully by electrospinning, showing that they were suitable for supporting cell growth. The PCL/BP/Col nanofiber matrices could promote not only initial attachment and proliferation, but also osteodifferentiation of preosteoblasts. In conclusion, PCL/BP/Col nanofiber matrices possess excellent biocompatibility and improve osteogenic differentiation. Therefore, the PCL/BP/Col nanofiber matrices can be a promising candidate as a scaffold for BTE.
AbstractList Recently, considerable research has been made on the development of bone tissue engineering (BTE)scaffolds to support cellular behaviors. Here, black phosphorus-incorporated poly(e-caprolactone) andcollagen (PCL/BP/Col) nanofiber matrices were designed and their potential as BTE scaffolds wereexplored. The PCL/BP/Col nanofiber matrices were fabricated successfully by electrospinning, showingthat they were suitable for supporting cell growth. The PCL/BP/Col nanofiber matrices could promote notonly initial attachment and proliferation, but also osteodifferentiation of preosteoblasts. In conclusion,PCL/BP/Col nanofiber matrices possess excellent biocompatibility and improve osteogenic differentia-tion. Therefore, the PCL/BP/Col nanofiber matrices can be a promising candidate as a scaffold for BTE. KCI Citation Count: 2
[Display omitted] •Black phosphorus (BP)-incorporated PCL and collagen nanofiber matrix is designed.•PCL/BP/Col nanofiber matrix favorably supports cell growth.•Biocompatibility and biofunctionality of PCL/BP/Col matrix is demonstrated.•PCL/BP/Col matrix can stimulate spontaneous osteodifferentiation.•PCL/BP/Col matrix can be employed as a bone tissue engineering scaffold. Recently, considerable research has been made on the development of bone tissue engineering (BTE) scaffolds to support cellular behaviors. Here, black phosphorus-incorporated poly(ε-caprolactone) and collagen (PCL/BP/Col) nanofiber matrices were designed and their potential as BTE scaffolds were explored. The PCL/BP/Col nanofiber matrices were fabricated successfully by electrospinning, showing that they were suitable for supporting cell growth. The PCL/BP/Col nanofiber matrices could promote not only initial attachment and proliferation, but also osteodifferentiation of preosteoblasts. In conclusion, PCL/BP/Col nanofiber matrices possess excellent biocompatibility and improve osteogenic differentiation. Therefore, the PCL/BP/Col nanofiber matrices can be a promising candidate as a scaffold for BTE.
Author Song, Su-Jin
Jung, Seo-Hyun
Kwon, Il Keun
Jung, Yu Jin
Lim, Dohyung
Lee, Hyun Uk
Hyon, Suong-Hyu
Kang, Moon Sung
Han, Dong-Wook
Kim, Bongju
Lee, Yu Bin
Shin, Yong Cheol
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  organization: Department of Cogno-Mechatronics Engineering, College of Nanoscience & Nanotechnology, Pusan National University, Busan 46241, South Korea
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Keywords Nanofiber matrices
Bone tissue engineering
Polycaprolactone
Collagen
Black phosphorus
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한국공업화학회
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Snippet [Display omitted] •Black phosphorus (BP)-incorporated PCL and collagen nanofiber matrix is designed.•PCL/BP/Col nanofiber matrix favorably supports cell...
Recently, considerable research has been made on the development of bone tissue engineering (BTE)scaffolds to support cellular behaviors. Here, black...
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SubjectTerms Black phosphorus
Bone tissue engineering
Collagen
Nanofiber matrices
Polycaprolactone
화학공학
Title Ternary nanofiber matrices composed of PCL/black phosphorus/collagen to enhance osteodifferentiation
URI https://dx.doi.org/10.1016/j.jiec.2019.06.055
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