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Full-Text Articles in Medicine and Health Sciences
Developing An Artificial Fallopian Tube: Successful In Vitro Trials In Mice., Stephen Hunter, J. Neeld, J. Scott, D. Olsen, R. Urry, T. Cichocki
Developing An Artificial Fallopian Tube: Successful In Vitro Trials In Mice., Stephen Hunter, J. Neeld, J. Scott, D. Olsen, R. Urry, T. Cichocki
Stephen K. Hunter
This report describes the design and testing of an artificial fallopian tube for the treatment of tubal infertility. Within the device, mouse eggs incubated with sperm were fertilized and a microinfusion pump was used to transport the fertilized ova through the tube. Normal offspring resulted from transfer of the developing embryos into pseudopregnant recipients. These results provide encouraging evidence that an artificial fallopian tube warrants further investigation as a potential alternative to in vitro fertilization.
Promotion Of Neovascularization Around Hollow Fiber Bioartificial Organs Using Biologically Active Substances, Stephen Hunter, J. Kao, Y. Wang, J. Benda, V. Rodgers
Promotion Of Neovascularization Around Hollow Fiber Bioartificial Organs Using Biologically Active Substances, Stephen Hunter, J. Kao, Y. Wang, J. Benda, V. Rodgers
Stephen K. Hunter
A limiting factor of the long-term function of bioartificial organs is oxygen delivery to the encapsulated tissue. This study determined whether incorporation of endothelial cell growth factor (ECGF) into the alginate core of a hollow fiber bioartificial organ will induce neovascularization around the hollow fiber. Polyethersulfone (PES) and polyvinylidine difluoride (PVDF) hollow fibers were examined. Endothelial cell growth factor was incorporated into sodium alginate, extruded into the lumen of hollow fibers, and cured in calcium chloride. Samples without ECGF were fabricated and used as controls. Hollow fibers were implanted into 16 rats. For each rat, two implants were placed subcutaneously …