参考文献
[1]Baust JG, Gage AA, Ma H, Zhang C. Minimally invasive cryosurgery: technological advances.Cryobiology, 1997,34 :373~384
[2]Popken F, Serfert JK, Dutkowski P, el al. Comparison of iceball diameter and temperature distribution achieved with 3-mm accuprobe cryoprobes in porcine and human liver tissue and human colorectal liver metastases in Vitro. Cryobiology, 2000,40:302~310
[3]Mala T, Samset E, Aurdal L, et al. Magnetic resonance imaging estimated three dimensional temperature distribution in liver cryolesion. A study of cryolesion characteristics assumed necessary for tumor ablation. Cryobiology, 2001,43:268~275
[4]Seifert JK, Gerharz CD, Mattes F, et al A Pig model of hepatic cryotherapy. In Vivo temperature distribution during freezing and histopathological changes.Cryobiology, 2003,47:214~226
[5]Kollmar O,Richter S, Schilling MK, et al. Advanced hepatic tissue destruction in ablative cryosurgery: potentials of intermittent freezing and selective vascular inflow occlusion. Cryobiology, 2004,48:263~272
[6]Chua KJ, Chou SK, Ho JC. An analytical study on the thermal effects of
cryosurgery on selective cell destruction. J Biomechanics, 2005
[7]Yang WH, Peng HH, Chang HC, et al. An in vitro monitoring system for simulated thermal process in cryosurgery. Cryobiology,200040:159~170
[8]Yang WH, Liao ST, Shen SY,et al. The speed of ice growth as an important indicator in cryosurgery. J Urology, 2004,172:345~348
[9]Zhang A, Xu LX, Sandison GA,and Zhang J. microscale model for prediction of breast cancer cell damage during cryosurgery. Cryobiology 2003,47:143~154
[10]Keanini, R. G., and Rubinsky, B. Optimization of multiprobe
cryosurgery. ASME J Heat Transfer,1992,114:796~801
[11]Zacarian SA. The observation of freeze–thaw cycles upon cancer cell suspensions. J Dermatol Surg Oncol,1977,3:173~174
[12]Tatsutani, K., Rubinsky, B., Onik, G., and Dahiya, R. The effect of thermal variables on frozen human prostatic adenocarcinoma cells. Urology, 1996,48:441~447
[13]Robinson D,Halperin,N and Nevo Z.Two Freezing Cycles Ensure Interface Sterilization by Cryosurgery during Bone Tumor Resection. Cryobiology 2001,43: 4~10
[14]Zhang Y, Liu J. Numerical study on three-region thawing problem during cryosurgical re-warming. Med Engin Phys,2002,24:265~277
[15]Popkin F,Seifert JK,Engelmann R,et al.Comparison of iceball diameter and temperature distribution achieved with 3-mm AccuProbe cryoprobes in porcine and human liver tissue and human colorectal liver metastases in vitro.Cryobiology, 2000,40:302~310
[16]Lung DC,Stahovich TF,Rabin Y.Computerized planning for multiprobe cryosurgery using
a force-field analogy.Comp Methods Biomech Biomed Engin 2004,7:101~110
[17]Pham L, Dahiya R, Rubinsky B. An, in vivo study of antifreeze protein adjuvant cryosurgery. Cryobiology, 1999,38:169~175
[18]Muldrew.K, Rewcastle J, Donnelly BJ, et al. Flounder antifreeze peptide increase the efficacy of cryosurgery. Cryobiology, 2001,42:182~189
[19]Dallley AV, Dy DY, Warlters A, et al. Laboratory and animal model evaluation of the Cryotech LCS 2000 in hepatic cryotherapy. Cryobiology, 1993,30:74~85
[20]Mala T, Frich L, Aurdal L, et al. Hepatic vascular inflow occlusion enhances tissue destruction during cryoablation of porcine liver J Surg Research,2003,115:265~271
[21]Chao BH,He X,Bischof JC. Pre-treatment inflammation induced by TNF-α augments
cryosurgical injury on human prostate cancer. Cryobiology, 2004,49:10~27
[22]Hoffmann NE, Bischof JC. Cryosurgery of normal and tumor tissue in dorsal skin flap
chamber:Part Ⅱ-injury response. ASME J Biomech Eng 2001,123:310~316
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