Stem Cell and Regenerative Medicine Laboratory
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Isolation of mesenchymal stem cells from human vermiform appendix.
The Journal of surgical research Sep, 2006 | Pubmed ID: 16650433
Amniotic fluid and bone marrow derived mesenchymal stem cells can be converted to smooth muscle cells in the cryo-injured rat bladder and prevent compensatory hypertrophy of surviving smooth muscle cells.
The Journal of urology Jan, 2007 | Pubmed ID: 17162093
Human amniotic fluid-derived stem cells are rejected after transplantation in the myocardium of normal, ischemic, immuno-suppressed or immuno-deficient rat.
Journal of molecular and cellular cardiology Apr, 2007 | Pubmed ID: 17300799
Satellite cells delivered by micro-patterned scaffolds: a new strategy for cell transplantation in muscle diseases.
Tissue engineering Feb, 2007 | Pubmed ID: 17504060
High transduction efficiency of human amniotic fluid stem cells mediated by adenovirus vectors.
Stem cells and development Oct, 2008 | Pubmed ID: 18564037
Mesenchymal stromal cells can be derived from bone marrow CD133+ cells: implications for therapy.
Stem cells and development Apr, 2009 | Pubmed ID: 18598159
Efficient delivery of human single fiber-derived muscle precursor cells via biocompatible scaffold.
Cell transplantation , 2008 | Pubmed ID: 18714677
Different cardiovascular potential of adult- and fetal-type mesenchymal stem cells in a rat model of heart cryoinjury.
Cell transplantation , 2008 | Pubmed ID: 18819256
Muscle differentiation and myotubes alignment is influenced by micropatterned surfaces and exogenous electrical stimulation.
Tissue engineering. Part A Sep, 2009 | Pubmed ID: 19292666
The influence of heart valve leaflet matrix characteristics on the interaction between human mesenchymal stem cells and decellularized scaffolds.
Biomaterials Sep, 2009 | Pubmed ID: 19481252
In vitro and in vivo cardiomyogenic differentiation of amniotic fluid stem cells.
Stem cell reviews Jun, 2011 | Pubmed ID: 21120638
Design of a stirred multiwell bioreactor for expansion of CD34+ umbilical cord blood cells in hypoxic conditions.
Biotechnology progress Jul, 2011 | Pubmed ID: 21674817
Human amniotic fluid stem cell preconditioning improves their regenerative potential.
Stem cells and development Jul, 2012 | Pubmed ID: 22066606
Amniotic fluid stem cells restore the muscle cell niche in a HSA-Cre, Smn(F7/F7) mouse model.
Stem cells (Dayton, Ohio) Aug, 2012 | Pubmed ID: 22644669
Sources of Mesenchymal Stem Cells: Current and Future Clinical Use.
Advances in biochemical engineering/biotechnology Nov, 2012 | Pubmed ID: 23117644
Hypoxia increases mouse satellite cell clone proliferation maintaining both in vitro and in vivo heterogeneity and myogenic potential.
PloS one , 2012 | Pubmed ID: 23166781
Amniotic fluid stem cells improve survival and enhance repair of damaged intestine in necrotising enterocolitis via a COX-2 dependent mechanism.
Gut Mar, 2013 | Pubmed ID: 23525603
Isolation of c-Kit+ Human Amniotic Fluid Stem Cells from Second Trimester.
Methods in molecular biology (Clifton, N.J.) , 2013 | Pubmed ID: 23959992
Single cell PCR analysis of murine embryonic stem cells cultured on different substrates highlights heterogeneous expression of stem cell markers.
Biology of the cell / under the auspices of the European Cell Biology Organization Sep, 2013 | Pubmed ID: 24024612
Stem cells from fetal membranes and amniotic fluid: markers for cell isolation and therapy.
Cell and tissue banking Jun, 2014 | Pubmed ID: 24554400
Fetal stem cells and skeletal muscle regeneration: a therapeutic approach.
Frontiers in aging neuroscience , 2014 | Pubmed ID: 25221507
Endothelial properties of third-trimester amniotic fluid stem cells cultured in hypoxia.
Stem cell research & therapy Oct, 2015 | Pubmed ID: 26519360
Isolation and Expansion of Muscle Precursor Cells from Human Skeletal Muscle Biopsies.
Methods in molecular biology (Clifton, N.J.) , 2016 | Pubmed ID: 27032940
Extracellular Matrix and Colorectal Cancer: How Surrounding Microenvironment Affects Cancer Cell Behavior?
Journal of cellular physiology May, 2017 | Pubmed ID: 27775168
Enrica Bertin1,
Martina Piccoli1,
Chiara Franzin1,
Andras Nagy2,
Maria Mileikovsky2,
Paolo De Coppi3,
Michela Pozzobon1
1Stem Cell and Regenerative Medicine Laboratory, Fondazione Istituto di Ricerca Pediatrica Citta della Speranza,
2Lunenfeld-Tanenbaum Research Institute, Mount Sinai Hospital,
3Stem Cells and Regenerative Medicine Section, Developmental Biology and Cancer Programme, UCL Institute of Child Health and Great Ormond Street Hospital
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