Add to ORKGPerfusion culture of mesenchymal stem cells (MSCs) seeded in biomaterial scaffolds provides nutrients for cell survival, enhances extracellular matrix deposition, and increases osteogenic cell differentiation. However, there is no consensus on the appropriate perfusion duration of cellular constructs in vitro to boost their bone forming capacity in vivo. We investigated this phenomenon by culturing human MSCs in macroporous composite scaffolds in a direct perfusion bioreactor and compared their response to scaffolds in continuous dynamic culture conditions on an XYZ shaker. Cell seeding in continuous perfusion bioreactors resulted in more uniform MSC distribution than static seeding. We observed similar calcium deposition in all c...
<div><p>We had previously demonstrated the feasibility of preparing a centimeter-sized bone tissue c...
Flow perfusion bioreactors have been shown to enhance fluid transport and improve cell viability thr...
AbstractHuman mesenchymal stem cells (hMSCs) are multipotent cells, and have been expanded and diffe...
In tissue engineering bioreactors can be used to aid in the in vitro development of new tissue by pr...
Bone cells in vivo reside in a dynamic environment exposed to constant chemical and mechanical stimu...
Better understanding of the factors that affect marrow stromal cell differentiation will allow resea...
Dynamic-based systems are bio-designed in order to mimic the micro-environments of the bone tissue. ...
Dynamic culture protocols have recently emerged as part of (bone) tissue engineering strategies due ...
The use of bioreactors for the in vitro culture of constructs for bone tissue engineering has become...
Critical size bone defects and non-union fractions are still challenging to treat. Cell-loaded bone ...
There is a current significant clinical need for bone replacement. Although some therapies and bone ...
In this study, we cultured marrow stromal cells on titanium fiber meshes in a flow perfusion bioreac...
In an effort to produce clinically relevant volumes of tissue-engineered bone products, we report a ...
The aim of this study was to evaluate a semi-automated perfusion bioreactor system for the productio...
Item does not contain fulltextIn summary, many factors can influence the osteoblastic differentiatio...
<div><p>We had previously demonstrated the feasibility of preparing a centimeter-sized bone tissue c...
Flow perfusion bioreactors have been shown to enhance fluid transport and improve cell viability thr...
AbstractHuman mesenchymal stem cells (hMSCs) are multipotent cells, and have been expanded and diffe...
In tissue engineering bioreactors can be used to aid in the in vitro development of new tissue by pr...
Bone cells in vivo reside in a dynamic environment exposed to constant chemical and mechanical stimu...
Better understanding of the factors that affect marrow stromal cell differentiation will allow resea...
Dynamic-based systems are bio-designed in order to mimic the micro-environments of the bone tissue. ...
Dynamic culture protocols have recently emerged as part of (bone) tissue engineering strategies due ...
The use of bioreactors for the in vitro culture of constructs for bone tissue engineering has become...
Critical size bone defects and non-union fractions are still challenging to treat. Cell-loaded bone ...
There is a current significant clinical need for bone replacement. Although some therapies and bone ...
In this study, we cultured marrow stromal cells on titanium fiber meshes in a flow perfusion bioreac...
In an effort to produce clinically relevant volumes of tissue-engineered bone products, we report a ...
The aim of this study was to evaluate a semi-automated perfusion bioreactor system for the productio...
Item does not contain fulltextIn summary, many factors can influence the osteoblastic differentiatio...
<div><p>We had previously demonstrated the feasibility of preparing a centimeter-sized bone tissue c...
Flow perfusion bioreactors have been shown to enhance fluid transport and improve cell viability thr...
AbstractHuman mesenchymal stem cells (hMSCs) are multipotent cells, and have been expanded and diffe...
