References
- Seki T, Wakabayashi M, Nakagawa T, Itho T, Shiro T, Kunieda K, Sato M, Uchiyama S, Inoue K. Ultrasonically guided percutaneous microwave coagulation therapy for small hepatocellular carcinoma. Cancer 1994; 74: 817–825
- Dong BW, Liang P, Yu XL, Zeng XQ, Wang PJ, Su L, Wang XD, Xin H, Li S. Sonographically guided microwave coagulation treatment of liver cancer: An experimental and clinical study. Am J Roentgenol 1998; 171: 449–454
- Mudit KJ, Patrick DW. In vitro temperature map of cardiac ablation demonstrates the effect of flow on lesion development. Ann Biomed Eng 2000; 28: 1066–1074
- Kolios MC, Sherar MD, Hunt JW. Large blood vessel cooling in heated tissues: A numerical study. Phys Med Biol 1995; 40: 477–494
- Tzu CS, Hong SK, Win LL. The impact of thermally significant blood vessels in perfused tumor tissue on thermal does distributions during thermal therapies. Int Com Heat Mass Trans 2003; 30: 975–985
- Tzu CS, Hao LL, Allen TH. Cooling effect of thermally significant blood vessels in perfused tumor tissue during thermal therapy. Int Com Heat Mass Trans 2006; 33: 135–141
- Mudit KJ, Patrick DW. A three-dimensional finite element model of radiofrequency ablation with blood flow and its experimental validation. Ann Biomed Eng 2000; 28(9)1075–1084
- Panescu D, Whayne JG, Fleischman SD, Mirotznik MS, Swanson DK, Webster JG. Three-dimensional finite element analysis of current density and temperature distributions during radio-frequency ablation. IEEE Trans Biomed Eng 1995; 42: 879–890
- Brace CL, Laeseke PF, Sampson LA, Frey TM, vander Weide DW, Lee FT, Jr. Microwave ablation with a single small-gauge triaxial antenna: In vivo porcine liver model. Radiology 2007; 242: 435–440
- Yu NC, Raman SS, Kim YJ, Lassman C, Chang X, Lu DS. Microwave liver ablation: Influence of hepatic vein size on heat-sink effect in a porcine model. J Vasc Intervent Radiol 2008; 19: 1087–1092
- Pennes HH. Analysis of tissue and arterial blood temperature in the resting human forearm. Appl Physiol 1948; 1: 93–122
- Valvano JW, Cochran JR, Diller KR. Thermal conductivity and diffusivity of biomaterials measured with self-heated thermistors. Int J Thermophys 1985; 6: 301–311
- Tungjitkusolmun S, Woo EJ, Cao H, Tsai JZ, Vorperian VR, Webster JG. Finite element analysis of uniform current density electrodes for radio-frequency cardiac ablation. IEEE Trans Biomed Eng 2000; 47: 32–39
- Koliost MC, Sherarf MD, Huntt JW. Large blood vessel cooling in heated tissues: A numerical study. Phys Med Bid 1995; 40: 477–494
- Consiglieri L, dos Santos I, Haemmerich D. Theoretical analysis of the heat convection coefficient in large vessels and the significance for thermal ablative therapies. Phys Med Biol 2003; 48: 4125–4134
- Shrivastava D, Roemer RB. An analytical study of ‘Poisson conduction shape factors’ for two thermally significant vessels in a finite, heated tissue. Phys Med Biol 2005; 50: 3627–3641
- Huang HW, Chen ZP, Roemer RB. A countercurrent vascular network model of heat transfer in tissues. J Biomech Eng 1996; 118: 120–129
- Kou HS, Shih TC, Lin WL. Effect of the directional blood flow on thermal dose distribution during thermal therapy: An application of a Green's function based on the porous model. Phys Med Biol 2003; 48: 1577–1589
- Craciunescu, OI, Samulski TV, MacFall JR, Clegg ST. Perturbations in hyperthermia temperature distributions associated with counter-current flow numerical simulations and empirical verification. IEEE Trans Biomed Eng 2000; 47: 435–443
- Liang P, Dong B, Yu XL, Yu D, Cheng Z, Su L, Peng J, Nan Q, Wang H. Computer-aided dynamic simulation of microwave-induced thermal distribution in coagulation of liver cancer. IEEE Trans Biomed Eng 2001; 48: 821–829
- Haemmerich D, Wright AW, Mahvi DM, Lee FT, Jr, Webster JG. Hepatic bipolar radiofrequency ablation creates lesions close to blood vessels–A finite element study. Med Biol Eng Comput 2003; 41: 17–23
- Tungjitkusolmun S, Woo EJ, Cao H, Tsai JZ, Vorperian VR, Webster JG. Thermal-electrical finite-element modelling for radio-frequency cardiac ablation: Effects of changes in myocardial properties. Med Biol Eng Comput 2000; 38: 562–568