References
- Permpongkosol S, Link RE, Kavoussi LR, Solomon SB. Temperature measurements of the low-attenuation radiographic ice ball during CT-guided renal cryoablation. Cardiovasc Intervent Radiol 2008;31:116–21
- Yoon J, Cho J, Kim N, Kim DD, Lee E, Cheon C, et al. High frequency microwave ablation method for enhanced cancer treatment with minimized collateral damage. Int J Cancer 2010;129:1970–8
- Rossi S, Di Stasi M, Buscarini E, Quaretti P, Garbagnati F, Squassante L, et al. Percutaneous RF interstitial thermal ablation in the treatment of hepatic cancer. Am J Roentgenol 1996;167:759–68
- Lubner MG, Brace CL, Hinshaw JL, Lee FT Jr. Microwave tumor ablation: Mechanism of action, clinical results, and devices. J Vasc Interv Radiol 2010;21(8):S192–203
- Hinshaw JL, Laeseke PF, Winter TC III, Kliewer MA, Fine JP, Lee FT Jr. Radiofrequency ablation of peripheral liver tumors: Intraperitoneal 5% dextrose in water decreases postprocedural pain. Am J Roentgenol 2006;186(Suppl 5):S306
- Brace CL, Laeseke PF, Prasad V, Lee FT Jr, editors. Electrical isolation during radiofrequency ablation: 5% dextrose in water provides better protection than saline. Conf Proc IEEE Eng Med Biol Soc, 2006;1:5021–4
- Paganini AM, Rotundo A, Barchetti L, Lezoche E. Cryosurgical ablation of hepatic colorectal metastases. Surg Oncol 2007;16:137–40
- Callstrom MR, Kurup AN. Percutaneous ablation for bone and soft tissue metastases – why cryoablation? Skeletal Radiol 2009;38:835–9
- Dodd GD, Soulen MC, Kane RA, Livraghi T, Lees WR, Yamashita Y, et al. Minimally Invasive treatment of malignant hepatic tumors: At the threshold of a major breakthrough. Radiographics 2000;20:9
- Kuang M, Lu MD, Xie XY, Xu HX, Mo LQ, Liu GJ, et al. Liver cancer: Increased microwave delivery to ablation zone with cooled-shaft antenna – experimental and clinical studies 1. Radiology 2007;242:914–24
- Laeseke PF, Sampson LA, Brace CL, Winter TC III, Fine JP, Lee FT Jr. Unintended thermal injuries from radiofrequency ablation: Protection with 5% dextrose in water. Am J Roentgenol 2006;186(Suppl 5):S249
- Gervais DA, McGovern FJ, Arellano RS, McDougal WS, Mueller PR. Renal cell carcinoma: Clinical experience and technical success with radio-frequency ablation of 42 tumors 1. Radiology. 2003;226:417–24
- Lee SJ, Choyke LT, Locklin JK, Wood BJ. Use of hydrodissection to prevent nerve and muscular damage during radiofrequency ablation of kidney tumors. J Vasc Interv Radiol 2006;17:1967–9
- Buy X, Tok C-H, Szwarc D, Bierry G, Gangi A. Thermal protection during percutaneous thermal ablation procedures: Interest of carbon dioxide dissection and temperature monitoring. Cardiovasc Intervent Radiol 2009;32:529–34
- Kitchin D, Lubner M, Ziemlewicz T, Hinshaw JL, Alexander M, Brace CL, et al. Microwave ablation of malignant hepatic tumours: Intraperitoneal fluid instillation prevents collateral damage and allows more aggressive case selection. Int J Hyperthermia 2014;30:299–305
- Wu C-C, Chen W-S, Ho M-C, Huang K-W, Chen C-N, Yen J-Y, et al. Minimizing abdominal wall damage during high-intensity focused ultrasound ablation by inducing artificial ascites. J Acoust Soc Am 2008;124:674–9
- Rhim H, Lim HK, Kim Y-S, Choi D. Percutaneous radiofrequency ablation with artificial ascites for hepatocellular carcinoma in the hepatic dome: Initial experience. Am J Roentgenol 2008;190:91–8
- Lu DS, Raman SS, Vodopich DJ, Wang M, Sayre J, Lassman C. Effect of vessel size on creation of hepatic radiofrequency lesions in pigs: Assessment of the ‘heat sink’ effect. Am J Roentgenol 2002;178:47–51
- Chiang J, Wang P, Brace CL. Computational modelling of microwave tumour ablations. Int J Hyperthermia 2013;29:308–17
- Johnson A, Sprangers A, Cassidy P, Heyrman S, Hinshaw JL, Lubner M, et al. Design and validation of a thermoreversible material for percutaneous tissue hydrodissection. J Biomed Mater Res B: Appl Biomater 2013;101:1400–9
- Yu L, Ding J. Injectable hydrogels as unique biomedical materials. Chem Soc Rev 2008;37:1473–81
- Pec E, Wout Z, Johnston T. Biological activity of urease formulated in poloxamer 407 after intraperitoneal injection in the rat. J Pharm Sci 1992;81:626–30
- Zhang D, Xie D, Wei X, Zhang D, Chen M, Yu X, et al. Microwave ablation of the liver abutting the stomach: Insulating effect of a chitosan-based thermosensitive hydrogel. Int J Hyperthermia 2014;30:126–33
- Schmolka I. Artificial skin I. Preparation and properties of pluronic F-127 gels for treatment of burns. J Biomed Mat Res 1972;6:571–82
- Bird S. Transport Phenomena, revised 2nd ed. Chichester: Wiley, 2007
- Johnson A. Evaluation of Poloxamer 407’s Efficacy as a Hydrodissection Fluid. University of Wisconsin thesis, Madison, WI, 2013
- Shubert D, Leyba J. Chemistry and Physics for Nurse Anesthesia: A Student-centered Approach. New York: Springer, 2013
- Blumm J, Lindemann A. Characterization of the thermophyscial properties of molten polymers and liquids using the flash technique. High Temp High Press 2003;35:627–32
- De la Cruz G, Gurevich Y. Thermal diffusion of a two-layer system. Phys Rev B 1995;51:2188
- Wanka G, Hoffman H, Ulbricht W. Phase diagrams and aggregation behavior of poly (oxyethylene)- poly (oxypropylene)- poly (oxyethylene) triblock copolymers in aqueous solutions. Macromolecules 1994;27:4145–59
- Kim Y-S, Rhim H, Choi D, Lim HK. Does artificial ascites induce the heat-sink phenomenon during percutaneous radiofrequency ablation of the hepatic subcapsular area? an in vivo experimental study using a rabbit model. Korean J Radiol 2009;10:43–50
- Dewhirst M, Viglianti B, Lora-Michiels M, Hanson M, Hoopes P. Basic principles of thermal dosimetry and thermal thresholds for tissue damage from hyperthermia. Int J Hyperthermia 2003;19:267–94
- Nikfarjam M, Muralidharan V, Christophi C. Mechanisms of focal heat destruction of liver tumors. J Surg Res 2005;127:208–23
- Dumortier G, Grossiord JL, Agnely F, Chaumeil JC. A review of poloxamer 407 pharmaceutical and pharmacological characteristics. Pharm Res 2006;23:2709–28
- Jeong B, Kim SW, Bae YH. Thermosensitive sol-gel reversible hydrogels. Adv Drug Deliv Rev 2002;54:37–51
- Ruel-Gariépy E, Leroux J-C. In situ-forming hydrogels – review of temperature-sensitive systems. Euro J Pharm Biopharm 2004;58:409–26
- Sarkar N. Thermal gelation properties of methyl and hydroxypropyl methylcellulose. J Applied Polymer Sci 1979;24:1073–87
- Ruel-Gariepy E, Chenite A, Chaput C, Guirguis S, Leroux J-C. Characterization of thermosensitive chitosan gels for the sustained delivery of drugs. Int J Pharm 2000;203:89–98
- Moreland AJ, Lubner MG, Ziemlewicz TJ, Kitchin DR, Hinshaw JL, Johnson AD, et al. Evaluation of a thermoprotective gel for hydrodissection during percutaneous microwave ablation: In vivo results. Cardiovasc Intervent Radiol 2014;1–9. In press