Straipsniai su viešo pasiekiamumo įpareigojimais - Stelios AndreadisSužinokite daugiau
Niekur nepasiekiama: 7
Serum‐free spheroid suspension culture maintains mesenchymal stem cell proliferation and differentiation potential
S Alimperti, P Lei, Y Wen, J Tian, AM Campbell, ST Andreadis
Biotechnology progress 30 (4), 974-983, 2014
Įpareigojimai: US National Institutes of Health
Vascular aging: molecular mechanisms and potential treatments for vascular rejuvenation
P Mistriotis, ST Andreadis
Ageing Research Reviews 37, 94-116, 2017
Įpareigojimai: US National Institutes of Health
Engineering fibrinogen-binding VSV-G envelope for spatially-and cell-controlled lentivirus delivery through fibrin hydrogels
RM Padmashali, ST Andreadis
Biomaterials 32 (12), 3330-3339, 2011
Įpareigojimai: US National Institutes of Health
Lentiviral microarrays for real-time monitoring of gene expression dynamics
J Tian, S Alimperti, P Lei, ST Andreadis
Lab on a chip 10 (15), 1967-1975, 2010
Įpareigojimai: US National Institutes of Health
Multifunctional polyurethane networks combining strength, toughness, and fast autonomous self-healing via the synergy of multiple dynamic bonds
MA Mohamed, CL Rumsey, M Trebbin, ST Andreadis
Chemistry of Materials 35 (16), 6332-6345, 2023
Įpareigojimai: US National Institutes of Health
Well-defined pH-responsive self-assembled block copolymers for the effective codelivery of doxorubicin and antisense oligonucleotide to breast cancer cells
MA Mohamed, L Yan, A Shahini, N Rajabian, A Jafari, ST Andreadis, ...
ACS Applied Bio Materials 5 (10), 4779-4792, 2022
Įpareigojimai: US National Science Foundation
Hair follicle: a novel source of stem cells for cell and gene therapy
P Mistriotis, ST Andreadis
Emerging Trends in Cell and Gene Therapy, 97-118, 2013
Įpareigojimai: US National Institutes of Health
Kur nors pasiekiama: 88
CDH2 and CDH11 act as regulators of stem cell fate decisions
S Alimperti, ST Andreadis
Stem cell research 14 (3), 270-282, 2015
Įpareigojimai: US National Institutes of Health
Successful endothelialization and remodeling of a cell-free small-diameter arterial graft in a large animal model
MT Koobatian, S Row, RJ Smith Jr, C Koenigsknecht, ST Andreadis, ...
Biomaterials 76, 344-358, 2016
Įpareigojimai: US National Institutes of Health
Stimuli-responsive hydrogels for manipulation of cell microenvironment: From chemistry to biofabrication technology
MA Mohamed, A Fallahi, AMA El-Sokkary, S Salehi, MA Akl, A Jafari, ...
Progress in polymer science 98, 101147, 2019
Įpareigojimai: US National Institutes of Health
Animal models for vascular tissue-engineering
DD Swartz, ST Andreadis
Current opinion in biotechnology 24 (5), 916-925, 2013
Įpareigojimai: US National Institutes of Health
JNK phosphorylates β-catenin and regulates adherens junctions
MH Lee, P Koria, J Qu, ST Andreadis
The FASEB Journal 23 (11), 3874, 2009
Įpareigojimai: US National Institutes of Health
Alternative splicing of MBD2 supports self-renewal in human pluripotent stem cells
Y Lu, YH Loh, H Li, M Cesana, SB Ficarro, JR Parikh, N Salomonis, ...
Cell stem cell 15 (1), 92-101, 2014
Įpareigojimai: US National Institutes of Health, Howard Hughes Medical Institute, A*Star …
Cell-controlled and spatially arrayed gene delivery from fibrin hydrogels
P Lei, RM Padmashali, ST Andreadis
Biomaterials 30 (22), 3790-3799, 2009
Įpareigojimai: US National Institutes of Health
Stem cell sources for vascular tissue engineering and regeneration
VK Bajpai, ST Andreadis
Tissue Engineering Part B: Reviews 18 (5), 405-425, 2012
Įpareigojimai: US National Institutes of Health
Nanog reverses the effects of organismal aging on mesenchymal stem cell proliferation and myogenic differentiation potential
J Han, P Mistriotis, P Lei, D Wang, S Liu, ST Andreadis
Stem Cells 30 (12), 2746-2759, 2012
Įpareigojimai: US National Institutes of Health
BMP2 genetically engineered MSCs and EPCs promote vascularized bone regeneration in rat critical-sized calvarial bone defects
X He, R Dziak, X Yuan, K Mao, R Genco, M Swihart, D Sarkar, C Li, ...
PloS one 8 (4), e60473, 2013
Įpareigojimai: US National Institutes of Health
Cadherin-11 regulates both mesenchymal stem cell differentiation into smooth muscle cells and the development of contractile function in vivo
S Alimperti, H You, T George, SK Agarwal, ST Andreadis
Journal of cell science 127 (12), 2627-2638, 2014
Įpareigojimai: US National Institutes of Health
Efficient and high yield isolation of myoblasts from skeletal muscle
A Shahini, K Vydiam, D Choudhury, N Rajabian, T Nguyen, P Lei, ...
Stem cell research 30, 122-129, 2018
Įpareigojimai: US National Institutes of Health
Contractile smooth muscle cells derived from hair-follicle stem cells
JY Liu, HF Peng, ST Andreadis
Cardiovascular research 79 (1), 24-33, 2008
Įpareigojimai: US National Institutes of Health
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