Nelson Applied Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 aol.com Craig E. Nelson - Consultant Engineer Study of.

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Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Craig E. Nelson - Consultant Engineer Study of Impedance Variation Across the Lower Abdomen in the Dorsal - Ventral Direction as a function of Fullness of the Urinary Bladder in the Adult Human A Finite Element Model (FEA) using flexPDE

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Goal for the Numerical Study A steady state finite element model is to be developed that aids understanding of the variation of electrical impedance across the lower abdomen in the Dorsal-Ventral direction as a function of fullness of the urinary bladder. The model is “electrostatic” in the sense that any time variation of electric current is considered to be slow compared with the propagation time of local electromagnetic waves that may be generated by the electric current generating source. Also, induced magnetic fields are considered to have negligible effect. “Snap shot” plots show the bladder and related parameters at empty, medium and full levels of physical distension. In this way, the percent change in electrical impedance can be roughly estimated over the full range of bladder fullness. The results show that the impedance variation is small but, with care, measurable.

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Solution Domain Geometry

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Ventral Electrode Pubis Empty Bladder Sacrum Dorsal Electrode Cross Section of the Lower Abdomen

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Numerical Experiment Results -- Potential --

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Potential – Half Full Bladder

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Potential – Half Full Bladder – Log10 Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Numerical Experiment Results -- Electric Field --

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Electric Field – Empty Bladder – Log10 Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Electric Field – Half Full Bladder – Log10 Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Electric Field – Full Bladder – Log10 Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Numerical Experiment Results -- Current Density --

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Current Density – Empty Bladder – Vector Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Current Density – Half Full Bladder – Vector Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Current Density – Full Bladder – Vector Plot

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Current Density – Empty Bladder – Contour Plot Note “Refraction” of the Current Density

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Current Density – Half Full Bladder – Contour Plot Note “Refraction” of the Current Density

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Current Density – Full Bladder – Contour Plot Note “Refraction” of the Current Density

Nelson Applied Research, Inc – N. 88 th St. Seattle, WA USA aol.com Summary A finite element model has been developed that aids understanding of the variation of electrical impedance across the lower abdomen in the Dorsal-Ventral direction as a function of fullness of the urinary bladder. The model shows that as the bladder fills from empty to full, the impedance changes by about 3.4 percent. This is a small, but measurable variation, in a practical scenario.