We think a non-surgical invasive way for cardiac myocytes experiencing arrhythmia may be achievable with an enhanced magnetic field across the cardiac myocyte depolarization pacemaker action potential electrophysics. The attached charted graph--see mA/mmsquared vs. Magnetic Field Tesla (L)--illustrates the critical current with the enhanced magnetic field @77degK in rare-earth REBCO superconductor. The critical current runs in 5 microns layer of the REBCO, while the substrate lamina can be used at the liquid oxygen temperature 77degK--available at stored oxygen. We think a caudal and anterior assembly of a pulse generator, small external O2 with circulation, and REBCO material plates could be hung, accessible, and carried, on a left-shoulder strap.
Finally, a 3-D laser printer could add circulating O2 channels in the REBCO plate substrates. BY being accessible incidents of reduced cardiac neuroses, adjustments, replacements of power source battery, or repair of insulation component failures become non-invasive. Readily available amounts of liquid O2 could be kept on hand as required. A parameters control requirement by printed circuit would keep the critical current and Tesla value within this metrical relationship. Arrhythmias, AF, CHF, SA/VA blockage, sick sinus, tachy and bradycardia, wpm syndrome, and torsades de pointes may benefit in much less invasive remedy.
ABOUT THE ENTRANT
Name: Oliver Gebhart
Type of entry: team
M. Doug Meng
O. Conrad Gebhart
Number of times previously entering contest:3
Oliver's favorite design and analysis
Electronics, applied spectrophotometrics, fluoroscopy, IR, X-ray diffraction, X-ray absorption, neutron spectrometry.
Oliver's hobbies and activities:
Horticulture, genomic elucidation (GMO), music,
Oliver belongs to these online communities:
iials Incubator, LinkedIn
Oliver is inspired by:
Medical international technology of sustainability in expeditionary entrepreneurship missions. Activities for disabled, paraplegia, and TBI survivors.
Patent status: pending