Three-dimensional finite-element analyses for radio-frequency hepatic tumor ablation

Radio-frequency (RF) hepatic ablation, offers an alternative method for the treatment of hepatic malignancies. We employed finite-element method (FEM) analysis to determine tissue temperature distribution during RF hepatic ablation. We constructed three-dimensional (3-D) thermal-electrical FEM models consisting of a four-tine RF probe, hepatic tissue, and a large blood vessel (10-mm diameter) located at different locations. We simulated our FEM analyses under temperature-controlled (90 degrees C) 8-min ablation. We also present a preliminary result from a simplified two-dimensional (2-D) FEM model that includes a bifurcated blood vessel. Lesion shapes created by the four-tine RF probe were mushroom-like, and were limited by the blood vessel. When the distance of the blood vessel was 5 mm from the nearest distal electrode 1) in the 3-D model, the maximum tissue temperature (hot spot) appeared next to electrodes A. The location of the hot spot was adjacent to another electrode 2) on the opposite side when the blood vessel was 1 mm from electrode A. The temperature distribution in the 2-D model was highly nonuniform due to the presence of the bifurcated blood vessel. Underdosed areas might be present next to the blood vessel from which the tumor can regenerate.

[1]  F. Garbagnati,et al.  Percutaneous RF interstitial thermal ablation in the treatment of hepatic cancer. , 1996, AJR. American journal of roentgenology.

[2]  F. Garbagnati,et al.  Percutaneous treatment of small hepatic tumors by an expandable RF needle electrode. , 1998, AJR. American journal of roentgenology.

[3]  C.A. Cain,et al.  A cylindrical-section ultrasound phased-array applicator for hyperthermia cancer therapy , 1988, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[4]  N. Dubrawsky Cancer statistics , 1989, CA: a cancer journal for clinicians.

[5]  W. Dewey,et al.  Thermal dose determination in cancer therapy. , 1984, International journal of radiation oncology, biology, physics.

[6]  L. Ellis,et al.  Radiofrequency Ablation of Unresectable Primary and Metastatic Hepatic Malignancies: Results in 123 Patients , 1999 .

[7]  N. Habib,et al.  Clinical short-term results of radiofrequency ablation in primary and secondary liver tumors. , 1999, American journal of surgery.

[8]  J C Chato,et al.  Heat transfer to blood vessels. , 1980, Journal of biomechanical engineering.

[9]  Jonathan W. Valvano,et al.  Thermal conductivity and diffusivity of biomaterials measured with self-heated thermistors , 1985 .

[10]  J. McGahan,et al.  Hepatic ablation with use of radio-frequency electrocautery in the animal model. , 1992, Journal of vascular and interventional radiology : JVIR.

[11]  G. J. Trezek,et al.  A Probe Technique for Determining the Thermal Conductivity of Tissue , 1972 .

[12]  L Solbiati,et al.  Saline-enhanced radio-frequency tissue ablation in the treatment of liver metastases. , 1997, Radiology.

[13]  L Solbiati,et al.  Ablation of liver tumors using percutaneous RF therapy. , 1998, AJR. American journal of roentgenology.

[14]  R Fiocca,et al.  Percutaneous US-guided radio-frequency tissue ablation of liver metastases: treatment and follow-up in 16 patients. , 1997, Radiology.

[15]  P. S. Hamilton,et al.  Creation of large thermal lesions in liver using saline-enhanced RF ablation , 1997, Proceedings of the 19th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. 'Magnificent Milestones and Emerging Opportunities in Medical Engineering' (Cat. No.97CH36136).

[16]  D. Panescu,et al.  Three-dimensional finite element analysis of current density and temperature distributions during radio-frequency ablation , 1995, IEEE Transactions on Biomedical Engineering.

[17]  Taylor Murray,et al.  Cancer statistics, 1999 , 1999, CA: a cancer journal for clinicians.

[18]  Morton W. Miller,et al.  Biological consequences of hyperthermia. , 1989, Ultrasound in medicine & biology.

[19]  A L Baert,et al.  Ex vivo experiment on radiofrequency liver ablation with saline infusion through a screw-tip cannulated electrode. , 1997, The Journal of surgical research.

[20]  J. McGahan,et al.  Radiofrequency ablation of the liver: current status. , 2001, AJR. American journal of roentgenology.

[21]  Eung Je Woo,et al.  Finite element analyses of uniform current density electrodes for radio-frequency cardiac ablation , 2000, IEEE Transactions on Biomedical Engineering.