AI Article Synopsis
- The paper discusses alternative methods for probing deep organs using electrical impedance, suggesting Tetrapolar Impedance Measurement (TPIM) and Focused Impedance Method (FIM) as cost-effective solutions compared to the more expensive Electrical Impedance Tomography (EIT).
- A study using finite element simulations demonstrated that TPIM and FIM could effectively measure the stomach's contribution to total impedance, achieving around 20% and even up to 38% with adjusted conductivity assumptions.
- The findings indicate that these simpler techniques have significant potential to enhance the understanding of deeper organs, particularly in low-income regions where traditional methods may be financially unfeasible.
Article Abstract
For probing deep organs of the body using electrical impedance, the conventional method is to use Electrical Impedance Tomography (EIT). However, this would be a sophisticated machine and will be very expensive when a full 3D EIT is developed in the future. Furthermore, for most low income countries such expensive devices may not deliver the benefits to a large number of people. Therefore, this paper suggests the use of simpler techniques like Tetrapolar Impedance Measurement (TPIM) or Focused Impedance Method (FIM) in probing deeper organs. Following a method suggested earlier by one of the authors, this paper studies the possibility of using TPIM and FIM for the stomach. Using a simplified model of the human trunk with an embedded stomach, a finite element simulation package, COMSOL, was used to obtain transfer impedance values and percentage contribution of the stomach region in the total impedance. For this work, judicious placement of electrodes through qualitative visualizations based on point sensitivity equations and equipotential concepts were made, which showed that reasonable contribution of the stomach region is possible through the use of TPIM and FIM. The contributions were a little over 20% which is of similar order of the cross-sectional area percentage of the stomach with respect to that of the trunk. For the case where the conductivity of the stomach region was assumed about 4 times higher, the contributions increased to about 38%. Through further studies this proposed methods may contribute greatly in the study of deeper organs of the body.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7531208 | PMC |
| http://dx.doi.org/10.2478/joeb-2019-0011 | DOI Listing |
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