| scholarly article | Q13442814 |
| P50 | author | Clark T Hung | Q91816992 |
| Gerard A Ateshian | Q98113494 | ||
| P2093 | author name string | Jie Jiang | |
| Helen H Lu | |||
| X Edward Guo | |||
| Amy Tang | |||
| P2860 | cites work | Osteochondral repair in the rabbit model utilizing bilayered, degradable oligo(poly(ethylene glycol) fumarate) hydrogel scaffolds | Q46625175 |
| Engineered osteochondral grafts using biphasic composite solid free-form fabricated scaffolds. | Q51569440 | ||
| Human mesenchymal progenitor cell-based tissue engineering of a single-unit osteochondral construct. | Q51617055 | ||
| P433 | issue | 6 | |
| P921 | main subject | hydrogel | Q898925 |
| P304 | page(s) | 2183-2196 | |
| P577 | publication date | 2010-04-22 | |
| P1433 | published in | Annals of Biomedical Engineering | Q15760783 |
| P1476 | title | Bioactive stratified polymer ceramic-hydrogel scaffold for integrative osteochondral repair | |
| P478 | volume | 38 |
| Q50943888 | * Harnessing External Cues: Development and Evaluation of an In Vitro Culture System for Osteochondral Tissue Engineering. |
| Q38882872 | A Hydrogel Model Incorporating 3D-Plotted Hydroxyapatite for Osteochondral Tissue Engineering |
| Q50856700 | A Silk Fibroin and Peptide Amphiphile-Based Co-Culture Model for Osteochondral Tissue Engineering. |
| Q35828120 | A biphasic scaffold based on silk and bioactive ceramic with stratified properties for osteochondral tissue regeneration |
| Q37207263 | A functional agarose-hydroxyapatite scaffold for osteochondral interface regeneration |
| Q53394102 | A pilot study of conically graded chitosan-gelatin hydrogel/PLGA scaffold with dual-delivery of TGF-β1 and BMP-2 for regeneration of cartilage-bone interface. |
| Q98205102 | Aspiration-assisted bioprinting of the osteochondral interface |
| Q57345079 | Bioactive composites fabricated by freezing-thawing method for bone regeneration applications |
| Q58759096 | Bioactive nanoparticles stimulate bone tissue formation in bioprinted three-dimensional scaffold and human mesenchymal stem cells |
| Q26825429 | Biomaterials for tissue engineering |
| Q42836408 | Cartilage repair and subchondral bone migration using 3D printing osteochondral composites: a one-year-period study in rabbit trochlea. |
| Q39088959 | Cell-laden hydrogels for osteochondral and cartilage tissue engineering |
| Q57214642 | Chitosan-Based Nanofibrous Membrane Unit with Gradient Compositional and Structural Features for Mimicking Calcified Layer in Osteochondral Matrix |
| Q49885975 | Cobalt-containing bioactive glasses reduce human mesenchymal stem cell chondrogenic differentiation despite HIF-1α stabilisation |
| Q48169266 | Collagen density gradient on three-dimensional printed poly(ε-caprolactone) scaffolds for interface tissue engineering. |
| Q38069892 | Controlled release strategies for bone, cartilage, and osteochondral engineering--Part I: recapitulation of native tissue healing and variables for the design of delivery systems |
| Q38068244 | Controlled release strategies for bone, cartilage, and osteochondral engineering--Part II: challenges on the evolution from single to multiple bioactive factor delivery |
| Q38823950 | Current strategies for integrative cartilage repair |
| Q38262783 | Current strategies in multiphasic scaffold design for osteochondral tissue engineering: A review |
| Q39187494 | Development of 3D hydrogel culture systems with on-demand cell separation. |
| Q50862173 | Effect of ceramic calcium-phosphorus ratio on chondrocyte-mediated biosynthesis and mineralization. |
| Q44363315 | Effects of chitosan and bioactive glass modifications of knitted and rolled polylactide-based 96/4 L/D scaffolds on chondrogenic differentiation of adipose stem cells. |
| Q30389468 | Engineering complex orthopaedic tissues via strategic biomimicry |
| Q92581171 | Fabrication and mechanical characterization of 3D printed vertical uniform and gradient scaffolds for bone and osteochondral tissue engineering |
| Q51655016 | Hard-Soft Tissue Interface Engineering. |
| Q35208544 | Hydrogels for the repair of articular cartilage defects |
| Q38281463 | Multilayer scaffolds in orthopaedic tissue engineering |
| Q47295300 | Multilineage Constructs for Scaffold-Based Tissue Engineering: A Review of Tissue-Specific Challenges |
| Q61816857 | Osteochondral Tissue Regeneration Using a Tyramine-Modified Bilayered PLGA Scaffold Combined with Articular Chondrocytes in a Porcine Model |
| Q37930522 | Osteochondral tissue engineering approaches for articular cartilage and subchondral bone regeneration. |
| Q27009721 | Osteochondral tissue engineering: scaffolds, stem cells and applications |
| Q50999000 | Osteogenesis and chondrogenesis of biomimetic integrated porous PVA/gel/V-n-HA/pa6 scaffolds and BMSCs construct in repair of articular osteochondral defect. |
| Q38874759 | Polymers, scaffolds and bioactive molecules with therapeutic properties in osteochondral pathologies: what's new? |
| Q92723575 | Scaffolding Strategies for Tissue Engineering and Regenerative Medicine Applications |
| Q34389568 | Strategies for osteochondral repair: Focus on scaffolds. |
| Q39342850 | The Use of Finite Element Analyses to Design and Fabricate Three-Dimensional Scaffolds for Skeletal Tissue Engineering |
| Q51312170 | The effect of hypoxia on thermosensitive poly(N-vinylcaprolactam) hydrogels with tunable mechanical integrity for cartilage tissue engineering. |
| Q38380293 | The osteochondral interface as a gradient tissue: from development to the fabrication of gradient scaffolds for regenerative medicine |
| Q93201537 | Three-dimensional Printing of Multilayered Tissue Engineering Scaffolds |
| Q34497979 | Three-dimensional bioprinting in tissue engineering and regenerative medicine |
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