RESEaRCH
Nanovesicles (NV) derived from HUVECs
Nanovesicles were extruded from Human Umbilical Vein Endothelial Cells (HUVECs) by passing through a micropore membrane.
Nanovesicles were encapsulated in hydrogel to regenerate vasculature bone tissue.
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Microchannel network hydrogel perfusion system
Desirable biological function is applied to physically engineer three-dimensional channel networks in implant sites, without any therapeutic treatment.
Microchannel networks are generated in a gelatin hydrogel to overcome the diffusion limit of nutrients and oxygen three-dimensionally.
Fallopian tube-on-a-chip
The study of human fallopian tube using microfluidics and organ-on-a-chip models.
Fallopian tube-on-a-chip is being developed to apply to studies of the cause of the endometriosis, suggesting a promising alternative to animal models.
Tissue engineering for regenerative medicine
This study is for fabricating artificial tissues with stem cells using 3D printing and
a perfusion system.
The current goal is the development of implantable artificial arteries.