Engineering spatial control of multiple differentiation fates within a stem cell population.
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3D Printed Bionic NanodevicesBioprinting for stem cell research.Transcription factor EGR1 directs tendon differentiation and promotes tendon repair.An engineered approach to stem cell culture: automating the decision process for real-time adaptive subculture of stem cells.Development of functional biomaterials with micro- and nanoscale technologies for tissue engineering and drug delivery applications.Spatial pattern dynamics of 3D stem cell loss of pluripotency via rules-based computational modeling.Collagen Scaffolds Incorporating Coincident Gradations of Instructive Structural and Biochemical Cues for Osteotendinous Junction Engineering.Spatial regulation of controlled bioactive factor delivery for bone tissue engineering.Development of mRuby2-Transfected C3H10T1/2 Fibroblasts for Musculoskeletal Tissue Engineering.Engineering approaches toward deconstructing and controlling the stem cell environment.Tissue-Mimicking Geometrical Constraints Stimulate Tissue-Like Constitution and Activity of Mouse Neonatal and Human-Induced Pluripotent Stem Cell-Derived Cardiac Myocytes.Synthesis of and in vitro and in vivo evaluation of a novel TGF-β1-SF-CS three-dimensional scaffold for bone tissue engineering.Signal mingle: Micropatterns of BMP-2 and fibronectin on soft biopolymeric films regulate myoblast shape and SMAD signaling.Strategies to improve regeneration of the soft palate muscles after cleft palate repair.Recent advances in inkjet dispensing technologies: applications in drug discovery.From nano- to macro-scale: nanotechnology approaches for spatially controlled delivery of bioactive factors for bone and cartilage engineering.Review of vascularised bone tissue-engineering strategies with a focus on co-culture systems.Harnessing Hierarchical Nano- and Micro-Fabrication Technologies for Musculoskeletal Tissue Engineering.A morphospace for synthetic organs and organoids: the possible and the actual.Controlled release of rhEGF and rhbFGF from electrospun scaffolds for skin regeneration.Spatial patterning of BMP-2 and BMP-7 on biopolymeric films and the guidance of muscle cell fateGradients of physical and biochemical cues on polyelectrolyte multilayer films generated via microfluidics.3D printing for the design and fabrication of polymer-based gradient scaffolds.Composite growth factor supplementation strategies to enhance tenocyte bioactivity in aligned collagen-GAG scaffolds.Bone and cartilage differentiation of a single stem cell population driven by material interface.Collagen-GAG scaffold biophysical properties bias MSC lineage choice in the presence of mixed soluble signals.3D Bioprinting Human Induced Pluripotent Stem Cell Constructs for In Situ Cell Proliferation and Successive Multilineage Differentiation.Current concepts on tenogenic differentiation and clinical applications.
P2860
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P2860
Engineering spatial control of multiple differentiation fates within a stem cell population.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Engineering spatial control of ...... within a stem cell population.
@en
Engineering spatial control of ...... within a stem cell population.
@nl
type
label
Engineering spatial control of ...... within a stem cell population.
@en
Engineering spatial control of ...... within a stem cell population.
@nl
prefLabel
Engineering spatial control of ...... within a stem cell population.
@en
Engineering spatial control of ...... within a stem cell population.
@nl
P2093
P2860
P1433
P1476
Engineering spatial control of ...... within a stem cell population
@en
P2093
Burhan Gharaibeh
Johnny Huard
Julie A Phillippi
Lee E Weiss
Phil G Campbell
P2860
P304
P356
10.1016/J.BIOMATERIALS.2011.01.036
P577
2011-02-12T00:00:00Z