Spinal Implants: Bioengineering a Multicomponent Spinal Motion Segment Construct-A 3D Model for Complex Tissue Engineering (Adv. Healthcare Mater. 1/2015)

The first realization of a bioengineered quadri‐phasic spinal motion segment (SMS) is reported by B. P. Chan and co‐workers on page 99 using mesenchymal stem cells (MSC) and collagen as starting materials. The construct consists of two vertebrae‐endplate‐like subunits, sandwiching a multi‐lamellae a...

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Veröffentlicht in:	Advanced healthcare materials 2015-01, Vol.4 (1), p.98-98
Hauptverfasser:	Chik, Tsz Kit, Chooi, Wai Hon, Li, Yuk Yin, Ho, Fu Chak, Cheng, Hiu Wa, Choy, Tsz Hang, Sze, Kam Yim, Luk, Keith Kei Dip, Cheung, Kenneth Man Chi, Chan, Barbara Pui
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Sprache:	eng
Schlagworte:	Bioengineering collagen complex tissue engineering mesenchymal stem cell microencapsulation spinal motion segment
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container_title	Advanced healthcare materials
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description	The first realization of a bioengineered quadri‐phasic spinal motion segment (SMS) is reported by B. P. Chan and co‐workers on page 99 using mesenchymal stem cells (MSC) and collagen as starting materials. The construct consists of two vertebrae‐endplate‐like subunits, sandwiching a multi‐lamellae annulus fibrosus‐like component, which entraps a soft nucleus pulposus‐like core. The complex hierarchical organization ranges from nano‐fibrous collagen meshwork to micrometer‐sized MSC‐collagen beads, and from millimeter‐sized individual tissue components to centimeter‐sized SMS construct.
doi_str_mv	10.1002/adhm.201570004
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subjects	Bioengineering collagen complex tissue engineering mesenchymal stem cell microencapsulation spinal motion segment
title	Spinal Implants: Bioengineering a Multicomponent Spinal Motion Segment Construct-A 3D Model for Complex Tissue Engineering (Adv. Healthcare Mater. 1/2015)
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