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Minimally Invasive Therapy & Allied Technologies Volume 13, 2004 - Issue 1
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Article

Minimally invasive probe system capable of performing both cryosurgery and hyperthermia treatment on target tumor in deep tissues

J. Liu Cryogenics Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. ChinaCorrespondence[email protected]
,
Y. Zhou Cryogenics Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. China
,
T. Yu Cryogenics Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. China
,
L. Gui Cryogenics Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. China
,
Z. Deng Cryogenics Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. China
&
Y. Lv Cryogenics Lab, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, P. R. China
Pages 47-57 | Published online: 10 Jul 2009

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Zhanghao Cai, Mingyang Song, Aili Zhang, Jianqi Sun & Lisa Xuemin Xu. (2013) Numerical Simulation of a New Probe for the Alternate Cooling and Heating of a Subcutaneous Mouse Tumor Model. Numerical Heat Transfer, Part A: Applications 63:7, pages 534-548.
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Jing‐Fu Yan, Hong‐Wu Wang, Jing Liu, Zhong‐Shan Deng, Wei Rao & Shi‐Hai Xiang. (2007) Feasibility study on using an infrared thermometer for evaluation and administration of cryosurgery. Minimally Invasive Therapy & Allied Technologies 16:3, pages 173-180.
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Tian-Hua Yu, Jing Liu & Yi-Xin Zhou. (2004) EVIDENCES OF THERMAL STRESS WAVE INDUCED IN DEEPLY FROZEN BIOMATERIALS BY A STRONG AND INSTANTANEOUS HEATING. Journal of Thermal Stresses 27:12, pages 1089-1100.
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Zhong-Shan Deng & Jing Liu. (2004) NUMERICAL SIMULATION OF 3-D FREEZING AND HEATING PROBLEMS FOR COMBINED CRYOSURGERY AND HYPERTHERMIA THERAPY. Numerical Heat Transfer, Part A: Applications 46:6, pages 587-611.
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Articles from other publishers (27)

G. Sai Krishna & Anup Paul. (2023) Thermo‐mechanical analysis of tumor‐tissue during cryosurgery: A numerical study. Heat Transfer 52:6, pages 4317-4336.
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Anish Gunjal, Gulshan Kumar Sinha, Surya Narayan, Atul Srivastava & M.D. Atrey. (2022) Simultaneous tracking of freezing front and associated temperature-distribution using lensless Fourier transform digital holographic interferometry with potential application in cryosurgery. Experimental Thermal and Fluid Science 139, pages 110730.
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Anish Gunjal, Atul Srivastava & M.D. Atrey. (2022) Multiple cryoprobe placement strategy for a single freeze cryosurgery planning. Case Studies in Thermal Engineering 34, pages 101992.
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Wuwei Yang, Yonghui An, Quanwang Li, Chuanbo Liu, Baorang Zhu, Qianfu Huang, Mengfei Zhao, Fei Yang, Huasong Feng & Kaiwen Hu. (2020) Co‐ablation versus cryoablation for the treatment of stage III–IV non‐small cell lung cancer: A prospective, noninferiority, randomized, controlled trial ( RCT ) . Thoracic Cancer 12:4, pages 475-483.
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Ramin Khademi, Davod Mohebbi-Kalhori & Abolhassan Razminia. (2019) Thermal analysis of a tumorous vascular tissue during pulsed-cryosurgery and nano-hyperthermia therapy: Finite element approach. International Journal of Heat and Mass Transfer 137, pages 1001-1013.
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S.M. Chapal Hossain, Xin Zhang, Zeeshan Haider, Peng Hu & Gang Zhao. (2018) Optimization of prostatic cryosurgery with multi-cryoprobe based on refrigerant flow. Journal of Thermal Biology 76, pages 58-67.
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Gang Zhao, Fazil Panhwar & Zhongrong Chen. 2018. Theory and Applications of Heat Transfer in Humans. Theory and Applications of Heat Transfer in Humans 669 685 .
Y.L. Shao, H.L. Leo & K.J. Chua. (2018) Studying of the thermal performance of a hybrid cryo-RFA treatment of a solid tumor. International Journal of Heat and Mass Transfer 122, pages 410-420.
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Xin Zhang, S.M. Chapal Hossain, Gang Zhao, Beisheng Qiu & Xiaoming He. (2017) Two-phase heat transfer model for multiprobe cryosurgery. Applied Thermal Engineering 113, pages 47-57.
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Zhen Wang, Gang Zhao, Tao Wang, Qianfeng Yu, Minying Su & Xiaoming He. (2015) Three-dimensional numerical simulation of the effects of fractal vascular trees on tissue temperature and intracelluar ice formation during combined cancer therapy of cryosurgery and hyperthermia. Applied Thermal Engineering 90, pages 296-304.
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Cong Wei, E. Shen, Di Sun, Aili Zhang, Jianqi Sun & Bing Hu. (2014) Assessment of alternated cooling and heating treatment by US combined CEUS in the VX2 rabbit liver tumor model. Chinese Science Bulletin 59:9, pages 865-873.
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Zhi Zhu He, Xu Xue, Jian Xiao & Jing Liu. (2013) Anatomical model-based finite element analysis of the combined cryosurgical and hyperthermic ablation for knee bone tumor. Computer Methods and Programs in Biomedicine 112:3, pages 356-366.
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Zi-Qiao Sun, Yang Yang & Jing Liu. (2013) Alternative cooling and heating as a novel minimally invasive approach for treating obesity. International Journal of Thermal Sciences 64, pages 29-39.
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F. Sun, L. Martínez-Suástegui, G.-X. Wang, K.M. Kelly & G. Aguilar. (2012) Numerical Prediction of the Intracellular ICE Formation Zone during Cryosurgery on a Nodular Basal Cell Carcinoma Using Liquid Nitrogen Spray. International Journal of Spray and Combustion Dynamics 4:4, pages 341-379.
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Z. F. LIU, G. ZHAO, Y. H. CHENG & D. Y. GAO. (2012) HEATING EFFECT OF THERMALLY SIGNIFICANT BLOOD VESSELS IN PERFUSED TUMOR TISSUE DURING CRYOSURGERY. Journal of Mechanics in Medicine and Biology 12:01, pages 1250019.
Crossref
Yonggang Lv, Yang Zou & Li Yang. (2011) Feasibility study for thermal protection by microencapsulated phase change micro/nanoparticles during cryosurgery. Chemical Engineering Science 66:17, pages 3941-3953.
Crossref
Zhanghao Cai, Mingyang Song, Jianqi Sun, Aili Zhang & L. X. Xu. (2011) Design of a new probe for tumor treatment in the alternate thermal system based on numerical simulation. Design of a new probe for tumor treatment in the alternate thermal system based on numerical simulation.
M Fan, J Peng, A Wang, L Zhang, B Liu, Z Ren, W Xu, J Sun, LX Xu, D Xiao, L Qin, S Lu, Y Wang & QY Guo. (2011) Emu Model of Full-Range Femoral Head Osteonecrosis Induced Focally by an Alternating Freezing and Heating Insult. Journal of International Medical Research 39:1, pages 187-198.
Crossref
Raghav Goel, Kyle Anderson, Joel Slaton, Franz Schmidlin, Greg Vercellotti, John Belcher & John C. Bischof. (2009) Adjuvant Approaches to Enhance Cryosurgery. Journal of Biomechanical Engineering 131:7.
Crossref
Jianqi Sun, Aili Zhang & Lisa X. Xu. (2008) Evaluation of alternate cooling and heating for tumor treatment. International Journal of Heat and Mass Transfer 51:23-24, pages 5478-5485.
Crossref
Lisa Xu, Aili Zhang, Ping Liu, Chao Chen, Jianqi Sun & D. Sabados. (2008) Energy-Based Diagnostic and Treatment Techniques. IEEE Engineering in Medicine and Biology Magazine 27:5, pages 72-77.
Crossref
Yuanyuan Shen, Ping Liu, Aili Zhang & Lisa X. Xu. (2008) Study on Tumor Microvasculature Damage Induced by Alternate Cooling and Heating. Annals of Biomedical Engineering 36:8, pages 1409-1419.
Crossref
Zhong-Shan Deng, Jing Liu & Hong-Wu Wang. (2008) Disclosure of the significant thermal effects of large blood vessels during cryosurgery through infrared temperature mapping. International Journal of Thermal Sciences 47:5, pages 530-545.
Crossref
Shigenao MARUYAMA, Kazuto NAKAGAWA, Hiroki TAKEDA, Setsuya AIBA & Atsuki KOMIYA. (2008) The Flexible Cryoprobe Using Peltier Effect for Heat Transfer Control. Journal of Biomechanical Science and Engineering 3:2, pages 138-150.
Crossref
Jing-Fu YanZhong-Shan DengJing LiuYi-Xin Zhou. (2007) New Modality for Maximizing Cryosurgical Killing Scope While Minimizing Mechanical Incision Trauma Using Combined Freezing-Heating System. Journal of Medical Devices 1:4, pages 264-271.
Crossref
Raghav Goel, David Swanlund, James Coad, Guilio F. Paciotti & John C. Bischof. (2007) TNF-α–based accentuation in cryoinjury—dose, delivery, and response. Molecular Cancer Therapeutics 6:7, pages 2039-2047.
Crossref
Tian-Hua Yu, Jing Liu & Yi-Xin Zhou. (2005) Selective freezing of target biological tissues after injection of solutions with specific thermal properties. Cryobiology 50:2, pages 174-182.
Crossref

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