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| Q49521706 | Anisotropic Porous Biodegradable Scaffolds for Musculoskeletal Tissue Engineering. |
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| Q51211668 | Autologous tendon-derived cell-seeded nanofibrous scaffolds improve rotator cuff repair in an age-dependent fashion. |
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| Q37033016 | Current Status of Tissue-Engineered Scaffolds for Rotator Cuff Repair |
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| Q37038858 | Electrospun nanostructured scaffolds for tissue engineering applications |
| Q53329728 | Electrospun polycaprolactone matrices with tensile properties suitable for soft tissue engineering. |
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| Q44586714 | Fabrication of three-dimensional porous scaffolds with controlled filament orientation and large pore size via an improved E-jetting technique. |
| Q35566891 | Fiber angle and aspect ratio influence the shear mechanics of oriented electrospun nanofibrous scaffolds |
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| Q36555578 | Form Follows Function: Advances in Trilayered Structure Replication for Aortic Heart Valve Tissue Engineering |
| Q35236212 | From repair to regeneration: biomaterials to reprogram the meniscus wound microenvironment. |
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| Q57811350 | Functional regeneration of tendons using scaffolds with physical anisotropy engineered via microarchitectural manipulation |
| Q36875630 | Harnessing cell–biomaterial interactions for osteochondral tissue regeneration |
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| Q82043608 | Microscale Versus Nanoscale Scaffold Architecture for Mesenchymal Stem Cell Chondrogenesis |
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| Q42026203 | Optimization strategies for electrospun silk fibroin tissue engineering scaffolds |
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| Q36212976 | Sacrificial nanofibrous composites provide instruction without impediment and enable functional tissue formation |
| Q37499971 | Scaffold stiffness influences cell behavior: opportunities for skeletal tissue engineering |
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| Q91533155 | Synthetic scaffolds for musculoskeletal tissue engineering: cellular responses to fiber parameters |
| Q37627563 | The bladder extracellular matrix. Part II: regenerative applications |
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