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Nanovesicles (NV) derived from HUVECs
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.
미디어2.mp4Microchannel network hydrogel perfusion system
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.
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