Developing a pro-regenerative biomaterial scaffold microenvironment requires T helper 2 cells.
about
Muscle injuries and strategies for improving their repairThe shape and size of hydroxyapatite particles dictate inflammatory responses following implantation.Bioengineered constructs combined with exercise enhance stem cell-mediated treatment of volumetric muscle lossAutologous minced muscle grafts improve endogenous fracture healing and muscle strength after musculoskeletal traumaUsing biomaterials to rewire the process of wound repair.Immunity by equilibrium.Rejuvenating Strategies for Stem Cell-Based Therapies in Aging.Electrospun poly(hydroxybutyrate) scaffolds promote engraftment of human skin equivalents via macrophage M2 polarization and angiogenesis.Mimicking biological functionality with polymers for biomedical applications.Biomaterial strategies for generating therapeutic immune responses.Dendritic cells in the host response to implanted materials.Macrophage-based therapeutic strategies in regenerative medicine.Effects of age-related shifts in cellular function and local microenvironment upon the innate immune response to implants.Biomaterials for skeletal muscle tissue engineering.Differential regulation of macrophage inflammatory activation by fibrin and fibrinogen.Phenotypic Screening Identifies Synergistically Acting Natural Product Enhancing the Performance of Biomaterial Based Wound Healing.Contribution of minced muscle graft progenitor cells to muscle fiber formation after volumetric muscle loss injury in wild-type and immune deficient miceUnwavering Pathobiology of Volumetric Muscle Loss Injury.Establishment of NF-κB sensing and interleukin-4 secreting mesenchymal stromal cells as an "on-demand" drug delivery system to modulate inflammation.Co-delivery of micronized urinary bladder matrix damps regenerative capacity of minced muscle grafts in the treatment of volumetric muscle loss injuries.Evaluation of Epigallocatechin-3-gallate Modified Collagen Membrane and Concerns on Schwann Cells.Expanded 3D Nanofiber Scaffolds: Cell Penetration, Neovascularization, and Host Response.Humanized mouse model for assessing the human immune response to xenogeneic and allogeneic decellularized biomaterials.Evaluation of Epigallocatechin-3-gallate Modified Collagen Membrane and Concerns on Schwann Cells.Tacrolimus as an adjunct to autologous minced muscle grafts for the repair of a volumetric muscle loss injury.Immune tuning scaffold for the local induction of a pro-regenerative environment.Extracellular Matrix Bioscaffolds for Building Gastrointestinal Tissue.Nanotopography-based strategy for the precise manipulation of osteoimmunomodulation in bone regeneration.A nonimmune function of T cells in promoting lung tumor progression.Pro-Regenerative Hydrogel Restores Scarless Skin during Cutaneous Wound Healing.Inflammatory and Physiological Consequences of Debridement of Fibrous Tissue after Volumetric Muscle Loss Injury.Quantitative analysis of immune cell subset infiltration of supraspinatus muscle after severe rotator cuff injury.Curcumin-mediated bone marrow mesenchymal stem cell sheets create a favorable immune microenvironment for adult full-thickness cutaneous wound healing.Engineering precision biomaterials for personalized medicine.Co-delivery of a laminin-111 supplemented hyaluronic acid based hydrogel with minced muscle graft in the treatment of volumetric muscle loss injury.An evolutionary perspective on the systems of adaptive immunity.Engineering Stem and Stromal Cell Therapies for Musculoskeletal Tissue Repair.Regenerative Medicine: lessons from Mother Nature.Extracellular Matrix Bioscaffolds as Immunomodulatory Biomaterials.Matrix-Bound Nanovesicles Recapitulate Extracellular Matrix Effects on Macrophage Phenotype.
P2860
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P2860
Developing a pro-regenerative biomaterial scaffold microenvironment requires T helper 2 cells.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
2016年论文
@zh
2016年论文
@zh-cn
name
Developing a pro-regenerative ...... ent requires T helper 2 cells.
@en
type
label
Developing a pro-regenerative ...... ent requires T helper 2 cells.
@en
prefLabel
Developing a pro-regenerative ...... ent requires T helper 2 cells.
@en
P2093
P2860
P356
P1433
P1476
Developing a pro-regenerative ...... ent requires T helper 2 cells.
@en
P2093
Brandon S Luber
Brian W Allen
Chirag H Patel
Drew M Pardoll
Franck Housseau
Hongni Fan
Jennifer H Elisseeff
Jonathan D Powell
P2860
P304
P356
10.1126/SCIENCE.AAD9272
P407
P577
2016-04-01T00:00:00Z