Bioactive starch-based scaffolds and human adipose stem cells are a good combination for bone tissue engineering.
about
Design and characterization of a biodegradable double-layer scaffold aimed at periodontal tissue-engineering applications.Isolation and characterization of a spontaneously immortalized multipotent mesenchymal cell line derived from mouse subcutaneous adipose tissueUndifferentiated human adipose-derived stromal/stem cells loaded onto wet-spun starch-polycaprolactone scaffolds enhance bone regeneration: nude mice calvarial defect in vivo study.Human adipose-derived stem cells and three-dimensional scaffold constructs: a review of the biomaterials and models currently used for bone regeneration.Exploring the Potential of Starch/Polycaprolactone Aligned Magnetic Responsive Scaffolds for Tendon Regeneration.Carbohydrates-chitosan composite carrier for Vero cell culture.Biomimetic mineralization on a macroporous cellulose-based matrix for bone regeneration.A tissue engineering approach for periodontal regeneration based on a biodegradable double-layer scaffold and adipose-derived stem cells.Fabrication of chitosan/gallic acid 3D microporous scaffold for tissue engineering applications.Unveiling the effect of three-dimensional bioactive fibre mesh scaffolds functionalized with silanol groups on bacteria growth.Polycaprolactone/starch composite: Fabrication, structure, properties, and applications.Evaluation of a starch-based double layer scaffold for bone regeneration in a rat modelChallenges and Opportunities of Natural Biomaterials for Advanced Devices and TherapiesStarch-Based Blends in Tissue EngineeringThe Experimental Study on Promoting the Ilizarov Distraction Osteogenesis by the Injection of Liquid Alg/nHAC Biocomposites
P2860
Q30353292-B5F2E06E-7381-4190-B77D-9A362EAD9AB9Q37247601-F075E06A-EC86-4004-82CB-FE321B9D486BQ37685926-C699A5D7-8918-44CC-BF4C-4B3CE103C684Q38045273-AB396F71-18F0-4C08-9CDF-BB427F80C5E6Q38816800-A8B25D73-D8AD-48FF-ACAC-5D448AE530A8Q40552415-33230CC3-DF56-4367-A626-909E73F64AEEQ41905789-2BF781FB-0185-424A-B63F-88CD758D11F6Q42546134-B824876D-90C9-4825-942D-766C71FD5C61Q42816177-B74775BC-767B-4071-BB80-7456561172F4Q51357742-457DFAF6-E87C-40D9-B903-C6ABB6FBE656Q53389628-C922ABAA-5CB3-4F9C-AC87-B04294619F69Q57170498-E77B914F-365F-4BA2-970E-7D7ECF7BEFC5Q57170748-78F6ED96-4926-46B6-A1A4-F2CE7CA2F3E8Q57170887-F8A62660-0117-48D0-AD35-714E4F827119Q59045431-B53DC4A2-8B9E-44B6-9662-94EEAC341903
P2860
Bioactive starch-based scaffolds and human adipose stem cells are a good combination for bone tissue engineering.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@en
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@nl
type
label
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@en
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@nl
prefLabel
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@en
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@nl
P1433
P1476
Bioactive starch-based scaffol ...... n for bone tissue engineering.
@en
P2093
A I Rodrigues
I B Leonor
P304
P356
10.1016/J.ACTBIO.2012.05.025
P577
2012-05-29T00:00:00Z