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KMID : 1137820070280040512
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ÀÇ°øÇÐȸÁö
2007 Volume.28 No. 4 p.512 ~ p.519
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Investigation of Nanofiber and Thermosensitive Scaffold for Intervertebral Disc through Organ Culture
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Lee Yong-Jae
Shin Ji-Won
Shin Jeong-Uk
Shin Ho-Jun
Kim Chan-Hwan
Park Ki-Dong
Seo Hyoung-Yeon
Kim Young-Jick
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Abstract
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The purpose of this study is to investigate the potential of a novel tissue engineering approach to regenerate intervertebral disc. In this study, thermosensitive scaffold (chitosan-Pluronic hydrogel) and nanofiber were used to replace the nucleus pulposus (NP) and annulus fibrosus of a degenerated intervertebral disc, leading to an eventual regeneration of the disc using the minimally invasive surgical procedure and organ culture. In preliminary study, disc cells were seeded into the scaffolds and cellular responses were assessed by MTT assay and scanning electron microscopy (SEM). Based on these results, we could know that tissue engineered scaffolds might provide favorable environments for the regeneration of tissues. Organ culture was performed in fresh porcine spinal motion segments with endplates on both sides. These spinal motion segments were classified into three groups: control (Intact), injured NP (Defect), and inserting tissue engineered scaffolds (Insert). The specimens were cultivated for 7 days, subsequently structural stability, cell proliferation and morphological changes were evaluated by the relaxation time, quantity of DNA, GAG and histological examination. In these results, inserting group showed higher relaxation time, reduced decrement of DNA contents, and accumulated GAG amount. Consequently, the tissue engineered scaffolds used in this study seen to be a promising base scaffolds for regenerative intervertebral disc due to its capacity to absorb external dynamic loading and the possible ideal environment provided for disc cell growing.
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KEYWORD
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intervertebral disc, regeneration, chitosan-Pluronic hydrogel, nanofiber, organ culture
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