The role of macrophage phenotype in vascularization of tissue engineering scaffolds.
about
The Effect of Biomaterials Used for Tissue Regeneration Purposes on Polarization of MacrophagesMMP-12 deficiency attenuates angiotensin II-induced vascular injury, M2 macrophage accumulation, and skin and heart fibrosisBoon and Bane of Inflammation in Bone Tissue Regeneration and Its Link with AngiogenesisNon-classical monocytes are biased progenitors of wound healing macrophages during soft tissue injury.Macrophages: An Inflammatory Link Between Angiogenesis and Lymphangiogenesis.Microvasculature remodeling in the mouse lower gut during inflammaging.A comparative multi-parametric in vitro model identifies the power of test conditions to predict the fibrotic tendency of a biomaterial.Induced migration of endothelial cells into 3D scaffolds by chemoattractants secreted by pro-inflammatory macrophages in situ.Aspirin-Triggered Resolvin D1-modified materials promote the accumulation of pro-regenerative immune cell subsets and enhance vascular remodeling.Sequential delivery of immunomodulatory cytokines to facilitate the M1-to-M2 transition of macrophages and enhance vascularization of bone scaffolds.Hydrogen peroxide generation and biocompatibility of hydrogel-bound mussel adhesive moiety.Biomaterial-mediated modification of the local inflammatory environment.To cross-link or not to cross-link? Cross-linking associated foreign body response of collagen-based devices.Biomimetic Concealing of PLGA Microspheres in a 3D Scaffold to Prevent Macrophage Uptake.Immune modulation as a therapeutic strategy in bone regeneration.Estrogen accelerates the resolution of inflammation in macrophagic cells.Self-assembling multidomain peptides tailor biological responses through biphasic release.Challenges in engineering osteochondral tissue grafts with hierarchical structuresEffect of M1-M2 Polarization on the Motility and Traction Stresses of Primary Human MacrophagesA hydrogel-endothelial cell implant mimics infantile hemangioma: modulation by survivin and the Hippo pathway.Inflammation, fracture and bone repair.Modulation of Inflammatory Response and Induction of Bone Formation Based on Combinatorial Effects of Resveratrol.The significance of macrophage phenotype in cancer and biomaterials.Monocytes and macrophages in tissue repair: Implications for immunoregenerative biomaterial designExtracted Triterpenes from Antrodia cinnamomea Reduce the Inflammation to Promote the Wound Healing via the STZ Inducing Hyperglycemia-Diabetes Mice Model.Transformation of Breast Reconstruction via Additive BiomanufacturingPleiotropic action of CpG-ODN on endothelium and macrophages attenuates angiogenesis through distinct pathways.Ovarian low and high grade serous carcinomas: hidden divergent features in the tumor microenvironment.In vivo remodelling of vascularizing engineered tissues.Manipulating the intersection of angiogenesis and inflammationIn vivo association of immunophenotyped macrophages expressing CD163 with PDGF-B in gingival overgrowth-induced by three different categories of medicationsStem cell-derived vasculature: A potent and multidimensional technology for basic research, disease modeling, and tissue engineering.Inflammation in tissue engineering: The Janus between engraftment and rejection.The contribution of tumor-associated macrophages in glioma neo-angiogenesis and implications for anti-angiogenic strategies.Macrophage phenotype in response to ECM bioscaffolds.Delivery strategies to control inflammatory response: Modulating M1-M2 polarization in tissue engineering applications.Identification of different macrophage subpopulations with distinct activities in a mouse model of oxygen-induced retinopathy.Asynchronous inflammation and myogenic cell migration limit muscle tissue regeneration mediated by a cellular scaffolds.The effects of immunomodulation by macrophage subsets on osteogenesis in vitro.Interleukin-17A neutralization alleviated ocular neovascularization by promoting M2 and mitigating M1 macrophage polarization.
P2860
Q26767055-5E8FD2AC-30F9-42EF-A45B-071559507AD5Q27339129-61071DA7-0CF8-4E4F-815D-549860288654Q28611365-5CE33E4A-552F-4351-9CEF-A0A649C32DE2Q30252830-26436F23-2995-4644-9599-B44A1A5DC8B0Q30278005-FA55A5A1-20B0-47AD-B7CB-04A3AC8ACF7CQ30833559-7BC9D972-A139-4655-B781-52B8D2A69EB6Q33687188-7CB7F190-87E7-42B3-A018-1960F1A9222AQ33762899-674E119C-8765-47AA-8228-37F442218BFFQ33907380-172E0115-699B-494E-AF63-A2FF7D004345Q35032538-E27E2D15-A778-4158-ADE6-09C19F0CED8AQ35235691-B75FA59B-D914-4D3B-8669-1FCC8694D045Q35609496-C022F7A0-71D6-48D6-88EF-1897F269B728Q35641614-7A3C34B1-2847-4CCF-A7F8-6191B2081F7BQ35900798-43FEFD25-218F-462D-A99C-6DDED91883DBQ35985907-FC518FDF-1F41-4F76-9DF8-7BFEAFE8FF7AQ36174720-D4EBCA7D-0460-455C-A631-F152962E2375Q36185537-B45E2F82-150E-415F-AC98-CB69E2C14DCBQ36235901-50EB0168-3DE9-4734-8DC8-836D725FC673Q36359383-091A5050-C090-45ED-9958-68A1B5A7E861Q36790748-D5320FB2-7E0C-4077-8A12-4074FE4B95C7Q36803719-9035B5C1-EED0-4BDD-A211-648AD1E740E2Q36888248-FBAE1BA3-C09D-4C3C-B32E-C45AD9F67699Q36944484-4D99C13B-9890-4E0D-A21C-5817C37891FDQ36981636-20A3C294-1A00-4EE9-AD73-3C12E4376165Q36995699-6EAB2948-FDAE-480F-8040-98840CE4233BQ37005589-EB8F87AF-4C2B-402C-A3C4-5A89A7A0D06CQ37202398-3AA287A3-CA30-4E57-900B-A74BA8B549A9Q37708746-7B4ECAA2-8A78-4F35-B108-A812E14F7FDDQ38258291-19189638-8C40-4202-B116-037C9455D853Q38260351-9210E05A-13C9-49EF-961E-1732FDD6DCFFQ38518088-B96231FF-BA0B-48B9-AFF4-AA4237A653A8Q38597068-6553A5DF-B1AC-45B6-A82C-6F32DDAF67B8Q38630482-A02BE716-7F70-4DAC-8F62-FF85CAA76DE7Q38675589-77167CAB-8C0C-4D76-BB64-51CBD9AC4540Q38696554-EC406FA3-251B-44D7-A5B1-B548FBE34B6AQ38700498-F2CF9033-42FC-4890-AA26-C739D3B47EBCQ38719578-604DC7C7-7201-4F55-9DE0-D1D524291846Q38747730-7F1BBD53-4562-4E40-BB15-BAF9E3A855A1Q38800358-243F3194-32AD-41CC-91E0-CB9AAE27266BQ38809713-B2AA0E0A-728D-48ED-97FE-FF0319ECBE2B
P2860
The role of macrophage phenotype in vascularization of tissue engineering scaffolds.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
The role of macrophage phenotype in vascularization of tissue engineering scaffolds.
@en
type
label
The role of macrophage phenotype in vascularization of tissue engineering scaffolds.
@en
prefLabel
The role of macrophage phenotype in vascularization of tissue engineering scaffolds.
@en
P2093
P2860
P50
P1433
P1476
The role of macrophage phenotype in vascularization of tissue engineering scaffolds.
@en
P2093
Johnathan Ng
Kara L Spiller
Kenneth R Nakazawa
Rachel R Anfang
P2860
P304
P356
10.1016/J.BIOMATERIALS.2014.02.012
P577
2014-02-28T00:00:00Z