Identification of common pathways mediating differentiation of bone marrow - and adipose tissue -
derived human mesenchymal stem cells into three mesenchymal lineages.
Differential osteogenicity of multiple donor -
derived human mesenchymal stem cells and osteoblasts in monolayer, scaffold - based 3D culture and in vivo.
Not exact matches
Tufts University biomedical engineers recently published the first report of a promising new way to induce
human mesenchymal stem cells (or hMSCs, which are
derived from bone marrow) to differentiate into neuron - like
cells: treating them with exosomes.
Won Soon Park, MD, PhD, and colleagues from Samsung Medical Center and Biomedical Research Institute, Seoul, Republic of Korea, conducted a phase I, single - center trial of intratracheal transplantation of
human umbilical cord blood -
derived mesenchymal stem cells to nine very preterm infants (24 - 26 weeks gestational age) who were at high risk of developing BPD.
Functional
mesenchymal stem cells derived from
human induced pluripotent
stem cells attenuate limb ischemia in mice.
Phenotypic and proteomic characteristics of
human dental pulp
derived mesenchymal stem cells from a natal, an exfoliated deciduous, and an impacted third molar tooth.
Exosome
Derived From
Human Umbilical Cord
Mesenchymal Stem Cell Mediates MiR - 181c Attenuating Burn - induced Excessive Inflammation.
Human adipose tissue -
derived mesenchymal stem cells induce explosive T -
cell proliferation.
Mesenchymal stem cells derived from
human gingiva are capable of immunomodulatory functions and ameliorate inflammation - related tissue destruction in experimental colitis.
Initial imaging analysis of fluorescently labelled
human iPSC -
derived hepatic endoderm
cells, umbilical cord -
derived endothelial
cells (HUVECs), and
mesenchymal stem cells (MSCs) co-cultured in a solidified matrix gel to promote 3D growth found that the different
cells collectively and automatically «condensed» into a multicellular central unit.
Autocrine fibroblast growth factor 2 increases the multipotentiality of
human adipose -
derived mesenchymal stem cells.
[2] S. Zeitouni et al., «
Human mesenchymal stem cell -
derived matrices for enhanced osteoregeneration,» Sci Transl Med, 4:132 ra55, 2012.
Human adipose -
derived mesenchymal stem cells reduce inflammatory and T
cell responses and induce regulatory T
cells in vitro in rheumatoid arthritis.
Donor -
derived mesenchymal stem cells remain present and functional in the transplanted
human heart.
Effects of
mesenchymal stem cells on differentiation, maturation, and function of
human monocyte -
derived dendritic
cells.
Treatment of experimental arthritis by inducing immune tolerance with
human adipose -
derived mesenchymal stem cells.
[3] H. Lin et al., «Influence of decellularized matrix
derived from
human mesenchymal stem cells on their proliferation, migration and multi-lineage differentiation potential,» Biomaterials, 33:4480 − 9, 2012.
Human mesenchymal stem cells inhibit differentiation and function of monocyte -
derived dendritic
cells.
Mesenchymal stem cell - like
cells derived from
human placenta can improve heart function in a mouse model of myocardial infarction
The UC06 (HSF6)
human ES
cell line (P62) was obtained from the National Stem Cell Bank (NSCB), and the adipose derived mesenchymal stem cell (AD - MSC) line was generously obtained from Dr. Jeffrey Gimble from the Penington Biomedical Research Instit
cell line (P62) was obtained from the National
Stem Cell Bank (NSCB), and the adipose derived mesenchymal stem cell (AD - MSC) line was generously obtained from Dr. Jeffrey Gimble from the Penington Biomedical Research Instit
Stem Cell Bank (NSCB), and the adipose derived mesenchymal stem cell (AD - MSC) line was generously obtained from Dr. Jeffrey Gimble from the Penington Biomedical Research Instit
Cell Bank (NSCB), and the adipose
derived mesenchymal stem cell (AD - MSC) line was generously obtained from Dr. Jeffrey Gimble from the Penington Biomedical Research Instit
stem cell (AD - MSC) line was generously obtained from Dr. Jeffrey Gimble from the Penington Biomedical Research Instit
cell (AD - MSC) line was generously obtained from Dr. Jeffrey Gimble from the Penington Biomedical Research Institute.
Treatment of Experimental Arthritis by Inducing Immune Tolerance With
Human Adipose -
Derived Mesenchymal Stem Cells (April 2009) in Arthritis and Rheumatism.
Treatment of perianal fistulas with
human embryonic
stem cell -
derived mesenchymal cells: a canine model of
human fistualizing Crohn's disease.
Treatment of canine perianal fistulas with an intralesional injection of
human mesenchymal, embryonic -
derived stem cells (hE - MSCS), Annual Congress of the European Society of Veterinary Dermatology and European College of Veterinary Dermatology.
Treatment of canine perianal fistulas with an intralesional injection of
human mesenchymal, embryonic -
derived stem cells (hE - MSCs).