| scholarly article | Q13442814 |
| P2093 | author name string | David J Mooney | |
| Cristina Borselli | |||
| Christine A Cezar | |||
| Herman H Vandenburgh | |||
| Dymitri Shvartsman | |||
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| P433 | issue | 34 | |
| P921 | main subject | myoblast | Q1956694 |
| P1104 | number of pages | 10 | |
| P304 | page(s) | 8905-8914 | |
| P577 | publication date | 2011-09-10 | |
| P1433 | published in | Biomaterials | Q15751139 |
| P1476 | title | The role of multifunctional delivery scaffold in the ability of cultured myoblasts to promote muscle regeneration | |
| P478 | volume | 32 |
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| Q45968308 | Alginate and DNA Gels Are Suitable Delivery Systems for Diabetic Wound Healing. |
| Q36598990 | Biologic-free mechanically induced muscle regeneration |
| Q57021990 | Biological scaffold-mediated delivery of myostatin inhibitor promotes a regenerative immune response in an animal model of Duchenne muscular dystrophy |
| Q26996479 | Biomaterial delivery of morphogens to mimic the natural healing cascade in bone |
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| Q89835988 | Effects of SW033291 on the myogenesis of muscle-derived stem cells and muscle regeneration |
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| Q46443054 | Engineering an Injectable Muscle-Specific Microenvironment for Improved Cell Delivery Using a Nanofibrous Extracellular Matrix Hydrogel. |
| Q28084505 | Engineering muscle tissue for the fetus: getting ready for a strong life |
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| Q37262654 | Enhancing microvascular formation and vessel maturation through temporal control over multiple pro-angiogenic and pro-maturation factors. |
| Q57062050 | Functional muscle recovery with nanoparticle-directed M2 macrophage polarization in mice |
| Q57483576 | Genetically engineered human muscle transplant enhances murine host neovascularization and myogenesis |
| Q48223753 | Hydrogel biomaterials and their therapeutic potential for muscle injuries and muscular dystrophies |
| Q42071936 | Injectable biomimetic liquid crystalline scaffolds enhance muscle stem cell transplantation |
| Q34688374 | Injectable thermosensitive chitosan/β-glycerophosphate/collagen hydrogel maintains the plasticity of skeletal muscle satellite cells and supports their in vivo viability. |
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| Q36936260 | Muscle Tissue Engineering Using Gingival Mesenchymal Stem Cells Encapsulated in Alginate Hydrogels Containing Multiple Growth Factors. |
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| Q34959739 | Opportunities for multicomponent hybrid hydrogels in biomedical applications |
| Q89552936 | Processing of (Co)Poly(2-oxazoline)s by Electrospinning and Extrusion from Melt and the Postprocessing Properties of the (Co)Polymers |
| Q58734749 | Satellite cells delivered in their niche efficiently generate functional myotubes in three-dimensional cell culture |
| Q38858127 | Skeletal Myoblast-Seeded Vascularized Tissue Scaffolds in the Treatment of a Large Volumetric Muscle Defect in the Rat Biceps Femoris Muscle |
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| Q58719281 | The Importance of Biophysical and Biochemical Stimuli in Dynamic Skeletal Muscle Models |
| Q47729696 | The Process of Engraftment of Myogenic Cells in Skeletal Muscles of Primates: Understanding Clinical Observations and Setting Directions in Cell Transplantation Research |
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| Q92488357 | Treating ischemia via recruitment of antigen-specific T cells |
| Q89135157 | Two Methods for Decellularization of Plant Tissues for Tissue Engineering Applications |
| Q41364120 | VEGF improves skeletal muscle regeneration after acute trauma and reconstruction of the limb in a rabbit model |
| Q90179551 | Wet-Spun Trojan Horse Cell Constructs for Engineering Muscle |
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