Mesenchymal stem cells from adipose and bone marrow promote angiogenesis via distinct cytokine and protease expression mechanisms.
about
Stem Cells and Regenerative Medicine: Myth or Reality of the 21th CenturyCombined ultrasound and photoacoustic imaging to noninvasively assess burn injury and selectively monitor a regenerative tissue-engineered constructEvaluation of gold nanotracers to track adipose-derived stem cells in a PEGylated fibrin gel for dermal tissue engineering applications.Adipose-derived stromal cells for osteoarticular repair: trophic function versus stem cell activity.Mesenchymal stem cells and their therapeutic applications in inflammatory bowel disease.Assessing the permeability of engineered capillary networks in a 3D cultureVasculogenesis and Angiogenesis in Modular Collagen-Fibrin Microtissues.Quantification of local matrix deformations and mechanical properties during capillary morphogenesis in 3D.Bone marrow mesenchymal stem cells overexpressing human basic fibroblast growth factor increase vasculogenesis in ischemic ratsProtease-sensitive PEG hydrogels regulate vascularization in vitro and in vivo.Adipose-derived mesenchymal stromal cells from aged patients with coronary artery disease keep mesenchymal stromal cell properties but exhibit characteristics of aging and have impaired angiogenic potentialMesenchymal stem cells as all-round supporters in a normal and neoplastic microenvironment.Spindle shaped human mesenchymal stem/stromal cells from amniotic fluid promote neovascularization.Disturbed angiogenic activity of adipose-derived stromal cells obtained from patients with coronary artery disease and diabetes mellitus type 2Placental mesenchymal stromal cells derived from blood vessels or avascular tissues: what is the better choice to support endothelial cell function?Angiogenic properties of human dental pulp stem cellsSpatial vascular volume fraction imaging for quantitative assessment of angiogenesis.Bone marrow stromal cells stimulate an angiogenic program that requires endothelial MT1-MMP.Amniotic Mesenchymal Stem Cells Can Enhance Angiogenic Capacity via MMPs In Vitro and In Vivo.Recent advances in bone tissue engineering scaffolds.Both immediate and delayed intracavernous injection of autologous adipose-derived stromal vascular fraction enhances recovery of erectile function in a rat model of cavernous nerve injury.Stromal cell identity influences the in vivo functionality of engineered capillary networks formed by co-delivery of endothelial cells and stromal cells.The angiogenic properties of mesenchymal stem/stromal cells and their therapeutic potential.Sculpting the blank slate: how fibrin's support of vascularization can inspire biomaterial designA safe and efficient method to retrieve mesenchymal stem cells from three-dimensional fibrin gels.Mechanisms of action of mesenchymal stem cells in cutaneous wound repair and regeneration.Rationale for the potential use of mesenchymal stromal cells in liver transplantation.Adipose-derived stem cells increase angiogenesis through matrix metalloproteinase-dependent collagen remodeling.Vascularization mediated by mesenchymal stem cells from bone marrow and adipose tissue: a comparison.Using Del-1 to tip the angiogenic balance in endothelial cells in modular constructsReview article: mesenchymal stromal cell therapy for inflammatory bowel diseases.Bone marrow-derived stem/stromal cells and adipose tissue-derived stem/stromal cells: Their comparative efficacies and synergistic effects.Stem Cells and Tissue Engineering: Regeneration of the Skin and Its Contents.The angiogenic variation of skeletal site-specific human BMSCs from same alveolar cleft patients: a comparative study.Generation of Multi-Scale Vascular Network System within 3D Hydrogel using 3D Bio-Printing Technology.Laminin promotes vascular network formation in 3D in vitro collagen scaffolds by regulating VEGF uptake.Adipose-derived stem cells induce vascular tube formation of outgrowth endothelial cells in a fibrin matrix.Activin receptor-like kinase 5 inhibition reverses impairment of endothelial cell viability by endogenous islet mesenchymal stromal cells.Quantitative assessment of angiogenesis and pericyte coverage in human cell-derived vascular sprouts.Angiogenesis in a 3D model containing adipose tissue stem cells and endothelial cells is mediated by canonical Wnt signaling.
P2860
Q26795447-3EDF4131-2B26-43C4-80B6-C7C774389F09Q30382599-DD4C91F5-911C-4915-AD5D-88F4E90DB4A6Q30458940-EF9E9891-4AF8-40A8-B493-067FBB75FF5CQ33597986-94886833-9E86-4E6C-82F8-5723C017D218Q33914228-EE451611-E4A3-410A-B575-DBEC2318D12CQ33961746-64043C61-6C7D-4806-A821-F60097490459Q34091964-91F7EA84-2403-4869-B3E1-EC6F08997456Q34142617-E0D5AD0E-7E4F-4292-A481-7F0452259ACBQ34272428-C010B047-6260-4A57-B299-A98C3CBCA1C3Q34345109-0DA85673-9EDE-47C0-9AE9-4F2888733F68Q34393020-4DB5C898-4DD9-4418-A09F-D24F6F3CA973Q34402072-82BECA4B-AA95-4A50-86E8-73E9AC89798DQ34566545-006813F0-F23A-45DF-9960-87825156F730Q34720685-36E57461-A50E-461A-BC74-6B83C1AE4674Q34751358-A90032EB-75D6-4D5B-82C4-132B02E106C8Q34948750-EB85DD17-2089-480C-9E55-229B70881DA6Q35026058-721DD0BB-BDA1-4CDA-A150-F89EBE4976CBQ35918685-491BBF3F-AA2E-414C-AD6E-42EC3717CCD7Q36145009-64C4AFB0-C356-42F6-BA09-7DBAF9D82A93Q36252678-BF19B769-ECCE-411A-BDE8-5D87F8D2315CQ36526208-05EAC25E-FCD0-49BA-B8A4-5F89361ADF35Q36720770-C06DD952-C73A-4921-88E6-60F17A0CA039Q37348530-AAAA57C5-D891-4A95-919B-6A3B4CD370DAQ37394744-B62F093E-4599-4C99-9F81-48C6CA7922E8Q37606474-E4AAE720-0B0C-4080-BEC5-B29AA2EAA074Q37996884-EB4FEE76-8A85-4A99-AF7A-471A49415CF2Q38282065-0D2818E1-E2C1-409C-B1A9-581080973A4FQ38512954-599B3B11-8924-46EC-BD7D-7F8C1F8D1678Q38616300-FD97148C-9728-4AC8-82DB-9DF78F1CC0F1Q38846610-610B5C1C-B2AA-4192-BE48-FE217EB346C7Q39017821-23CAD73D-A7DB-4B54-8372-3424D18FFF8AQ39248693-40C9A2C1-7216-4173-8FD6-D4A8C62E35B5Q39347029-926F5599-166C-4BEE-A0AB-673D820199D6Q40022803-653ABBEF-1B39-478B-A242-B3221C10A8DAQ41967498-7DB5C5C7-1873-4863-A9A1-4F7EF182026BQ42864387-C44D4E55-C0FD-4ED1-B84D-4F5AC94ABAC9Q45193574-F1C41F59-73B6-4A2C-B2DB-CA216D213A14Q45781827-85C8DF2B-5183-438C-A4E2-4069B659E922Q47161291-695B5C03-7C87-44FE-9078-EC58E76ECF8CQ47261919-4582BCD4-D9E7-456A-8D54-52416B103689
P2860
Mesenchymal stem cells from adipose and bone marrow promote angiogenesis via distinct cytokine and protease expression mechanisms.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh
2010年學術文章
@zh-hant
name
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@ast
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@en
type
label
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@ast
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@en
prefLabel
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@ast
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@en
P2860
P1433
P1476
Mesenchymal stem cells from ad ...... rotease expression mechanisms.
@en
P2093
Andrew J Putnam
Suraj Kachgal
P2860
P2888
P356
10.1007/S10456-010-9194-9
P577
2010-11-21T00:00:00Z