The following publications are possibly variants of this publication:
- Characterization of Conductivity Changes During High-Frequency Irreversible Electroporation for Treatment PlanningYajun Zhao, Suyashree Bhonsle, Shoulong Dong, Yanpeng Lv, Hongmei Liu 0003, Ahmad Safaai-Jazi, Rafael V. Davalos, Chenguo Yao. tbe, 65(8):1810-1819, 2018. [doi]
- Electrical conductivity changes during irreversible electroporation treatment of brain cancerPaulo A. Garcia, John H. Rossmeisl, Rafael V. Davalos. embc 2011: 739-742 [doi]
- Electrical Characterization of Human Biological Tissue for Irreversible Electroporation TreatmentsNatalie Beitel-White, Suyashree Bhonsle, R. C. G. Martin, Rafael V. Davalos. embc 2018: 4170-4173 [doi]
- Experimental characterization of intrapulse tissue conductivity changes for electroporationRobert E. Neal II, Paulo A. Garcia, John L. Robertson, Rafael V. Davalos. embc 2011: 5581-5584 [doi]
- In Vivo Irreversible Electroporation Kidney Ablation: Experimentally Correlated Numerical ModelsRobert E. Neal II, Paulo A. Garcia, Helen Kavnoudias, Franklin Rosenfeldt, Catriona A. Mclean, Victoria Earl, Joanne Bergman, Rafael V. Davalos, Kenneth R. Thomson. tbe, 62(2):561-569, 2015. [doi]
- Comparison of analysis methods for determination of dynamic tissue conductivity during microseconds-long pulsed electric fieldsNatalie Beitel-White, Melvin F. Lorenzo, Yajun Zhao, Kenneth N. Aycock, Navid M. Manuchehrabadi, Rebecca M. Brock, Sheryl Coutermarsh-Ott, Khan Mohammad Imran, Irving C. Allen, Rafael V. Davalos. bspc, 72(Part):103305, 2022. [doi]