Bioactive collagen-grafted poly-L-lactic acid nanofibrous membrane for cartilage tissue engineering

Biodegradable nanofibrous membrane was prepared from poly-L-lactic acid by electrospinning and used as a scaffold for cartilage tissue engineering. Operating parameters during the electrospinning process were studied in terms of their influences on fiber diameter, membrane porosity and pore size. In...

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Published in	Journal of nanoscience and nanotechnology Vol. 10; no. 8; p. 5393
Main Authors	Chen, Jyh-Ping, Li, Sheng-Feng, Chiang, Yi-Ping
Format	Journal Article
Language	English
Published	United States 01.08.2010
Subjects	Animals Cartilage - cytology Cartilage - growth & development Cell Differentiation Cells, Cultured Chondrocytes - metabolism Collagen - chemistry Lactic Acid - chemistry Microscopy, Confocal Microscopy, Electron, Scanning Nanofibers - chemistry Polyesters Polymers - chemistry Rabbits Tissue Engineering - methods Tissue Scaffolds - chemistry
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Abstract	Biodegradable nanofibrous membrane was prepared from poly-L-lactic acid by electrospinning and used as a scaffold for cartilage tissue engineering. Operating parameters during the electrospinning process were studied in terms of their influences on fiber diameter, membrane porosity and pore size. In order to improve cell attachment and growth, nanofibrous membrane was subject to DC-pulsed oxygen plasma treatment, followed by acrylic acid grafting and collagen coating by covalent binding of collagen to carboxylic moieties of the polyacrylic acid. The membrane was fully characterized for its physical and chemical properties. Primary chondrocyte cells seeded into the membrane proliferated well and maintain high viability within the membrane from Confocal Laser Scanning Microscopy. Cell differentiation was confirmed by secretion of glycoaminoglycan and collagen during the cultivation period. Scanning electron microscope observation of the cell-scaffold construct confirms the tight attachment of cells to nanofibers and in-growth of cells into the interior of the membrane with proper maintenance of morphology and structure of chondrocytes.
AbstractList	Biodegradable nanofibrous membrane was prepared from poly-L-lactic acid by electrospinning and used as a scaffold for cartilage tissue engineering. Operating parameters during the electrospinning process were studied in terms of their influences on fiber diameter, membrane porosity and pore size. In order to improve cell attachment and growth, nanofibrous membrane was subject to DC-pulsed oxygen plasma treatment, followed by acrylic acid grafting and collagen coating by covalent binding of collagen to carboxylic moieties of the polyacrylic acid. The membrane was fully characterized for its physical and chemical properties. Primary chondrocyte cells seeded into the membrane proliferated well and maintain high viability within the membrane from Confocal Laser Scanning Microscopy. Cell differentiation was confirmed by secretion of glycoaminoglycan and collagen during the cultivation period. Scanning electron microscope observation of the cell-scaffold construct confirms the tight attachment of cells to nanofibers and in-growth of cells into the interior of the membrane with proper maintenance of morphology and structure of chondrocytes.
Author	Chiang, Yi-Ping Li, Sheng-Feng Chen, Jyh-Ping
Author_xml	– sequence: 1 givenname: Jyh-Ping surname: Chen fullname: Chen, Jyh-Ping organization: Department of Chemical and Materials Engineering, Chang Gung University, Taoyuan 333, Taiwan, Republic of China – sequence: 2 givenname: Sheng-Feng surname: Li fullname: Li, Sheng-Feng – sequence: 3 givenname: Yi-Ping surname: Chiang fullname: Chiang, Yi-Ping
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SubjectTerms	Animals Cartilage - cytology Cartilage - growth & development Cell Differentiation Cells, Cultured Chondrocytes - metabolism Collagen - chemistry Lactic Acid - chemistry Microscopy, Confocal Microscopy, Electron, Scanning Nanofibers - chemistry Polyesters Polymers - chemistry Rabbits Tissue Engineering - methods Tissue Scaffolds - chemistry
Title	Bioactive collagen-grafted poly-L-lactic acid nanofibrous membrane for cartilage tissue engineering
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