Genetic engineering of human stem cells for enhanced angiogenesis using biodegradable polymeric nanoparticles.
about
Nanotechnology-mediated targeting of tumor angiogenesisThe Regenerative Role of the Fetal and Adult Stem Cell SecretomeHippocampal neurogenesis as a target for the treatment of mental illness: a critical evaluation.Biomaterials and Nanotherapeutics for Enhancing Skin Wound HealingEngineering muscle tissue for the fetus: getting ready for a strong lifeTurning erythrocytes into functional micromotors.Systems biology of pro-angiogenic therapies targeting the VEGF systemTargeting of embryonic stem cells by peptide-conjugated quantum dots.Nanoscale strategies: treatment for peripheral vascular disease and critical limb ischemia.Effects of base polymer hydrophobicity and end-group modification on polymeric gene deliveryNiemann-Pick C1 affects the gene delivery efficacy of degradable polymeric nanoparticles.Nanotechnology in drug delivery and tissue engineering: from discovery to applicationsBiomimetic poly(ethylene glycol)-based hydrogels as scaffolds for inducing endothelial adhesion and capillary-like network formation.2011 Rita Schaffer lecture: nanoparticles for intracellular nucleic acid delivery.Genetic engineering of mesenchymal stem cells and its application in human disease therapy.Safe genetic modification of cardiac stem cells using a site-specific integration technique.Liposomes in tissue engineering and regenerative medicineMesenchymal stem cells at the intersection of cell and gene therapy.Simple generation of human induced pluripotent stem cells using poly-beta-amino esters as the non-viral gene delivery system.Spatial vascular volume fraction imaging for quantitative assessment of angiogenesis.Controlled release of chitosan/heparin nanoparticle-delivered VEGF enhances regeneration of decellularized tissue-engineered scaffolds.How does the pathophysiological context influence delivery of bone growth factors?Enhanced Non-Viral Gene Delivery to Human Embryonic Stem Cells via Small Molecule-Mediated Transient Alteration of Cell Structure.Addition of ascorbic acid to the extracellular environment activates lipoplexes of a ferrocenyl lipid and promotes cell transfectionHarnessing the mesenchymal stem cell secretome for the treatment of cardiovascular diseaseInduction of Angiogenesis by Matrigel Coating of VEGF-Loaded PEG/PCL-Based Hydrogel Scaffolds for hBMSC Transplantation.Effect of molecular weight of amine end-modified poly(β-amino ester)s on gene delivery efficiency and toxicityTherapeutic angiogenesis using genetically engineered human endothelial cells.Incorporation of DOPE into Lipoplexes formed from a Ferrocenyl Lipid leads to Inverse Hexagonal Nanostructures that allow Redox-Based Control of Transfection in High Serum.Paracrine release from nonviral engineered adipose-derived stem cells promotes endothelial cell survival and migration in vitroAdipose-derived stromal cells overexpressing vascular endothelial growth factor accelerate mouse excisional wound healingRupture force of cell adhesion ligand tethers modulates biological activities of a cell-laden hydrogel.Enabling stem cell therapies for tissue repair: current and future challenges.Pluripotent Stem Cell Therapy in Ischemic Cardiovascular Disease.The emerging role of epigenetics in stroke: III. Neural stem cell biology and regenerative medicine.Polymer-DNA Nanoparticle-Induced CXCR4 Overexpression Improves Stem Cell Engraftment and Tissue Regeneration in a Mouse Hindlimb Ischemia Model.Ex vivo acidic preconditioning enhances bone marrow ckit+ cell therapeutic potential via increased CXCR4 expression.Drug-loaded nanoparticle systems and adult stem cells: a potential marriage for the treatment of malignant glioma?Reiterated Targeting Peptides on the Nanoparticle Surface Significantly Promote Targeted Vascular Endothelial Growth Factor Gene Delivery to Stem Cells.Enhancing in vivo survival of adipose-derived stromal cells through Bcl-2 overexpression using a minicircle vector
P2860
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P2860
Genetic engineering of human stem cells for enhanced angiogenesis using biodegradable polymeric nanoparticles.
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Genetic engineering of human s ...... dable polymeric nanoparticles.
@ast
Genetic engineering of human s ...... dable polymeric nanoparticles.
@en
type
label
Genetic engineering of human s ...... dable polymeric nanoparticles.
@ast
Genetic engineering of human s ...... dable polymeric nanoparticles.
@en
prefLabel
Genetic engineering of human s ...... dable polymeric nanoparticles.
@ast
Genetic engineering of human s ...... dable polymeric nanoparticles.
@en
P2093
P2860
P356
P1476
Genetic engineering of human s ...... dable polymeric nanoparticles.
@en
P2093
Byung-Soo Kim
Daniel G Anderson
Deepika Singh
Said R Bogatyrev
Seung-Woo Cho
Sohyun Park
Suk Ho Bhang
Sun Mi Son
P2860
P304
P356
10.1073/PNAS.0905432106
P407
P577
2009-10-05T00:00:00Z