Dermis isolated adult stem (DIAS) cells, a subpopulation of dermis cells capable of chondrogenic differentiation in the presence of cartilage extracellular matrix, are a promising source of autologous cells for tissue engineering. Hypoxia, through known mechanisms, has profound effects on in vitro chondrogenesis of mesenchymal stem cells and could be used to improve the expansion and differentiation processes for DIAS cells. The objective of this study was to build upon the mechanistic knowledge of hypoxia and translate it to tissue engineering applications to enhance chondrogenic differentiation of DIAS cells through exposure to hypoxic conditions (5% O2) during expansion and/or differentiation. DIAS cells were isolated and expanded in hyp...
Purpose: Multipotent stromal cell (MSC)-based regenerative strategy has shown promise for the repair...
Purpose: The aim of this study was to evaluate the effects exerted over chondrogenic commitment of h...
Dermis-isolated adult stem (DIAS) cells, abundantly available, are attractive for regenerative medic...
Dermis isolated adult stem (DIAS) cells, a subpopulation of dermis cells capable of chondrogenic dif...
SummaryBackgroundEngineering musculoskeletal cartilages with stem cells remains a challenge because ...
Human adult mesenchymal stromal cells (MSCs) from a variety of sources may be used to repair defects...
Background The chondrogenic differentiation of mesenchymal stem cells (MSCs) is reg...
Abstract Background and aims: Poor self-repairing is a characteristic of articular cartilage damage...
Umbilical cord blood (UCB) is an attractive alternative to bone marrow for isolation of mesenchymal ...
International audienceRegarding cartilage repair, tissue engineering is currently focusing on the us...
Adult articular cartilage is a hypoxic tissue, with oxygen tension ranging from <10% at the carti...
Human adipose tissue-derived stem cells (hATSC) have been contemplated as reparative cells for carti...
Objective: To determine the optimal environmental conditions for chondrogenic differentiation of hum...
Chondrogenesis of mesenchymal stem cells (MSCs) is typically induced when they are condensed into a ...
Articular cartilage lacks an intrinsic repair capacity and due to the ability of mesenchymal stem ce...
Purpose: Multipotent stromal cell (MSC)-based regenerative strategy has shown promise for the repair...
Purpose: The aim of this study was to evaluate the effects exerted over chondrogenic commitment of h...
Dermis-isolated adult stem (DIAS) cells, abundantly available, are attractive for regenerative medic...
Dermis isolated adult stem (DIAS) cells, a subpopulation of dermis cells capable of chondrogenic dif...
SummaryBackgroundEngineering musculoskeletal cartilages with stem cells remains a challenge because ...
Human adult mesenchymal stromal cells (MSCs) from a variety of sources may be used to repair defects...
Background The chondrogenic differentiation of mesenchymal stem cells (MSCs) is reg...
Abstract Background and aims: Poor self-repairing is a characteristic of articular cartilage damage...
Umbilical cord blood (UCB) is an attractive alternative to bone marrow for isolation of mesenchymal ...
International audienceRegarding cartilage repair, tissue engineering is currently focusing on the us...
Adult articular cartilage is a hypoxic tissue, with oxygen tension ranging from <10% at the carti...
Human adipose tissue-derived stem cells (hATSC) have been contemplated as reparative cells for carti...
Objective: To determine the optimal environmental conditions for chondrogenic differentiation of hum...
Chondrogenesis of mesenchymal stem cells (MSCs) is typically induced when they are condensed into a ...
Articular cartilage lacks an intrinsic repair capacity and due to the ability of mesenchymal stem ce...
Purpose: Multipotent stromal cell (MSC)-based regenerative strategy has shown promise for the repair...
Purpose: The aim of this study was to evaluate the effects exerted over chondrogenic commitment of h...
Dermis-isolated adult stem (DIAS) cells, abundantly available, are attractive for regenerative medic...