Add to ORKGAn improved internal gelation approach is developed to encapsulate single mammalian cells in monodisperse alginate microbeads as small as 26μm in diameter and at rates of up to 1kHz with high cell viability. The cell damage resulting from contact with calcium carbonate nanoparticles as gelation reagents is eliminated by employing a co-flow microfluidic device, and the cell exposure to low pH is minimized by a chemically balanced off-chip gelation step. These modifications significantly improve the viability of cells encapsulated in gelled alginate particles. Two different mammalian cell types are encapsulated with viability of over 84%. The cells are functional and continue to grow inside the microparticles
A leading cause of disease and death for all age groups are syndromes characterized by widespread un...
Encapsulated beta cell replacement therapies can restore blood glucose control and reduce the need f...
Lentivectors are widely used for gene delivery and have been increasingly tested in clinical trials....
Monodisperse alginate microgels (10–50 μm) are created via droplet‐based microfluidics by a novel cr...
Cell encapsulation has been widely employed in cell therapy, characterization, and analysis, as well...
Microencapsulation of cells within microfluidic devices enables explicit control of the membrane thi...
Alginate is used extensively in microfluidic devices to produce discrete beads or fibres at the micr...
A microfluidic technique is described to encapsulate living cells in alginate hydrogel microparticle...
Novel calcium alginate poly(ethylene glycol) hybrid microspheres (Ca-alg-PEG) were developed and eva...
Controlling alginate gel formation by diffusion of Ca2+ ions through a filter barrier, a layer-by-la...
For their adaptability to tissue defect and the minimally invasive procedure, injectable hydrogels a...
Traditionally, cell culture has been done in culture flasks or well plates where the volumes and len...
An alternative approach to somatic gene therapy is to deliver the therapeutic protein by implanting ...
Alginate particles, crosslinked by calcium ions, have a number of potential biopharmaceutical indust...
Microfluidic devices can be used for many applications, including the formation of well-controlled e...
A leading cause of disease and death for all age groups are syndromes characterized by widespread un...
Encapsulated beta cell replacement therapies can restore blood glucose control and reduce the need f...
Lentivectors are widely used for gene delivery and have been increasingly tested in clinical trials....
Monodisperse alginate microgels (10–50 μm) are created via droplet‐based microfluidics by a novel cr...
Cell encapsulation has been widely employed in cell therapy, characterization, and analysis, as well...
Microencapsulation of cells within microfluidic devices enables explicit control of the membrane thi...
Alginate is used extensively in microfluidic devices to produce discrete beads or fibres at the micr...
A microfluidic technique is described to encapsulate living cells in alginate hydrogel microparticle...
Novel calcium alginate poly(ethylene glycol) hybrid microspheres (Ca-alg-PEG) were developed and eva...
Controlling alginate gel formation by diffusion of Ca2+ ions through a filter barrier, a layer-by-la...
For their adaptability to tissue defect and the minimally invasive procedure, injectable hydrogels a...
Traditionally, cell culture has been done in culture flasks or well plates where the volumes and len...
An alternative approach to somatic gene therapy is to deliver the therapeutic protein by implanting ...
Alginate particles, crosslinked by calcium ions, have a number of potential biopharmaceutical indust...
Microfluidic devices can be used for many applications, including the formation of well-controlled e...
A leading cause of disease and death for all age groups are syndromes characterized by widespread un...
Encapsulated beta cell replacement therapies can restore blood glucose control and reduce the need f...
Lentivectors are widely used for gene delivery and have been increasingly tested in clinical trials....