Title :
Cryosurgical monitoring using bioimpedance measurements-a feasibility study for electrical impedance tomography
Author :
Otten, David M. ; Rubinsky, Boris
Author_Institution :
Dept. of Mech. Eng., California Univ., Berkeley, CA, USA
Abstract :
The effectiveness of cryosurgery in treating tumors is highly dependent on knowledge of freezing extent, and therefore relies heavily on real-time imaging techniques for monitoring. Electrical impedance tomography (EIT), which utilizes tissue impedance variation to construct an image, is very well suited to cryosurgery since frozen tissue impedance is much higher than that of unfrozen tissue. In this study, the authors explore cryosurgical monitoring as a previously uninvestigated application for EIT. The feasibility of bio-impedance measurements to detect ice front propagation is demonstrated by freezing planar tissue samples one-dimensionally while measuring impedance along a linear array. The experimental results compare favorably to a simple finite element model designed to provide an electrical field visualization tool.
Keywords :
biological tissues; biothermics; electric impedance imaging; freezing; low-temperature techniques; patient monitoring; surgery; tumours; bioimpedance measurements; cryosurgical monitoring; electrical field visualization tool; electrical impedance tomography; feasibility study; frozen tissue; ice front propagation detection; linear array; planar tissue samples; real-time imaging techniques; simple finite element model; tumors treatment; unfrozen tissue; Bioimpedance; Electric variables measurement; Ice; Impedance measurement; Magnetic field measurement; Magnetic resonance imaging; Monitoring; Optical imaging; Tomography; Ultrasonic imaging; Animals; Chickens; Cryosurgery; Electric Impedance; Equipment Design; Feasibility Studies; Finite Element Analysis; Humans; Reproducibility of Results; Temperature; Tomography;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
