A new study reports on the effects of tunable hydrogels on the regenerative capacity of MSCs, and how we may exploit this relationship to improve wound healing
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Brief reviews of recently published articles, organized by stem cell type.
The generation of induced pluripotent stem cell employing the lentiviral transduction of Sox2, Klf4, and Myc only generates cells with improved developmental potential
Placental and amniotic fluid stem cells display potent immunomodulatory capabilities and represent an optimal cell type for therapeutic approaches to inflammatory disease
mDia2 retains mesenchymal stem cells in a multipotent state and represents an exciting tool that can be employed to query nuclear actin‐lamin nucleoskeletal structure
A new organoid generation protocol may provide the means to generate powerful in vitro models to study therapeutic approaches to a range of liver diseases and disorders
Researchers track the fate of adipose-derived MSCs to establish that both systemic and local administration routes permitted significantly enhanced wound repair...
New findings highlight a significant role for an EGFR‐ERK-TRIM32 axis as a controlling mechanism behind nerve regeneration after spinal cord injury
Alteration of fibroblast composition and increased inflammatory cytokine secretion during aging drives reprogramming variability in vitro and wound healing rate in vivo
Positive outcomes observed in a large animal model provide evidence for the translational value of amnion membrane-derived treatments...
A detailed evaluation of the expression levels of connexin genes in pluripotent stem cells reveals that connexin levels depend on the stem cell state