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Erschienen in:

2018 | OriginalPaper | Buchkapitel

15. Liquid Alkali Alloy for Chemothermal Therapy of Tumor

verfasst von : Jing Liu, Liting Yi

Erschienen in: Liquid Metal Biomaterials

Verlag: Springer Singapore

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Abstract

This chapter illustrated the role of alkali liquid metal in developing new generation tumor hyperthermia-chemothermal therapy. The unique merits as offered by the method were outlined. It can be found that the chemothermal therapy based on liquid alkali alloy materials owns a clinical potential to contribute to low cost, safe and effective ablation of tumors, as it can provide truly localized heating through exothermic chemical reactions, possibly even on an outpatient basis.

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Vorheriges Kapitel Liquid Metal Enabled Wearable Electronics

Deng ZS, Liu J (2013) Chemothermal therapy for localized heating and ablation of tumor. J Healthc Eng 4(3):409–425CrossRef

Liu J, Deng ZS (2008) Physics of tumor hyperthermia (in Chinese). Science Press, Beijing

Falk MH, Issels RD (2001) Hyperthermia in oncology. Int J Hyperth 17:1–18CrossRef

Samaras GM, Cheung AY (1981) Microwave hyperthermia for cancer therapy. CRC Criti Rev Bioeng 5:123–184

Dong BW, Zhang J, Liang P et al (2003) Sequential pathological and immunologic analysis of percutaneous microwave coagulation therapy of hepatocellular carcinoma. Int J Hyperth 19:119–133CrossRef

Madersbacher S, Pedevilla M, Vingers L, Susani M, Marberger M (1995) Effect of high-intensity focused ultrasound on human prostate cancer in vivo. Can Res 55:3346–3351

Cordeiro ER, Cathelineau X, Thüroff S, Marberger M, Crouzet S, Rosette J (2012) High-intensity focused ultrasound (HIFU) for definitive treatment of prostate cancer. BJU Int. https://doi.org/10.1111/j.1464-410X.2012.11262.xCrossRef

Wood BJ, Ramkaransingh JR, Fojo T, Walther MM, Libutti SK (2002) Percutaneous tumor ablation with radio frequency. Cancer 94:443–451CrossRef

Rossi S, Garbagnati F, Lencioni R et al (2000) Percutaneous radio-frequency thermal ablation of nonresectable hepatocellular carcinoma after occlusion of tumor blood supply. Radiology 217:119–126CrossRef

10.

Jordan A, Wust P, Fahling H, John W, Hinz A, Felix R (1993) Inductive heating of ferrimagnetic particles and magnetic fluids-physical evaluation of their potential for hyperthermia. Int J Hyperth 9:51–68CrossRef

11.

Jordan A, Scholz R, Maier-Hauff K et al (2006) The effect of thermotherapy using magnetic nanoparticles on rat malignant glioma. J Neurooncol 78:7–14CrossRef

12.

Moroz P, Jones SK, Gray BN (2002) The effect of tumour size on ferromagnetic embolization hyperthermia in a rabbit liver tumour model. Int J Hyperth 18:129–140CrossRef

13.

Haase C, Nowak U (2012) Role of dipole-dipole interactions for hyperthermia heating of magnetic nanoparticle ensembles. Phys Rev B 85:045435CrossRef

14.

Dai LJ, Hua GR, Qian AP, Qian ZY (2012) Investigation on local optical parameters of liver tumors in laser-induced thermotherapy. Appl Mech Mater 121–126:3998–4002

15.

Vogl TJ, Straub R, Zangos S, Mack MG, Eichler K (2004) MR-guided laser-induced thermotherapy (LITT) of liver tumours: experimental and clinical data. Int J Hyperth 20:713–724CrossRef

16.

Lindner U, Trachtenberg J, Lawrentschuk N (2010) Focal therapy in prostate cancer: modalities, findings and future considerations. Nat Rev Urol 7:562–571CrossRef

17.

Honda N, Guo Q, Uchida H, Ohishi H, Hiasa Y (1994) Percutaneous hot saline injection therapy for hepatic tumors: an alternative to percutaneous ethanol injection therapy. Radiology 190:53–57CrossRef

18.

Roemer RB (1999) Engineering aspects of hyperthermia therapy. Annu Rev Biomed Eng 1:347–376CrossRef

19.

Soares PI, Ferreira IM, Igreja RA, Novo CM, Borges JP (2012) Application of hyperthermia for cancer treatment: recent patents review. Recent Pat Anti-Cancer Drug Discov 7:64–73CrossRef

20.

Liu J, Deng ZS, Rao W (2008) Way to ultra low cost tumor hyperthermia treatment: targeted high intensity thermochemical ablation therapy (in Chinese). Sci Technol Rev 26(2):78–84

21.

Deng ZS, Liu J, Zhou YX (2006) Tumor hyperthermia method based on exothermic chemical reaction. China Patent No. 200610083646.6

22.

Deng ZS, Liu J (2007) Minimally invasive thermotherapy method for tumor treatment based on an exothermic chemical reaction. Minim Invasive Ther Allied Technol 16:341–346CrossRef

23.

Rao W, Liu J (2008) Tumor thermal ablation therapy using alkali metals as powerful self heating seeds. Minim Invasive Ther Allied Technol 17(1):43–49CrossRef

24.

Rao W, Liu J, Zhou YX, Yang Y, Zhang H (2008) Anti-tumor effect of sodium-induced thermochemical ablation therapy. Int J Hyperth 24:675–681CrossRef

25.

Misselt AJ, Edelman TL, Choi JH, Bischof JC, Cressman EN (2009) A hydrophobic gel phantom for study of thermochemical ablation: initial results using a weak acid and weak base. J Vasc Interv Radiol 20:1352–1358CrossRef

26.

Cressman EN, Tseng HJ, Talaie R, Henderson BM (2010) A new heat source for thermochemical ablation based on redox chemistry: initial studies using permanganate. Int J Hyperth 26:327–337CrossRef

27.

Freeman LA, Anwer B, Brady RP, Smith BC, Edelman TL, Misselt AJ, Cressman EN (2010) In vitro thermal profile suitability assessment of acids and bases for thermochemical ablation: underlying principles. J Vasc Interv Radiol 21:381–385CrossRef

28.

Farnam JL, Smith BC, Johnson BR, Estrada R, Edelman TL, Farah R, Cressman EN (2010) Thermochemical ablation in an ex-vivo porcine liver model using acetic acid and sodium hydroxide: proof of concept. J Vasc Interv Radiol 21:1573–1578CrossRef

29.

Acikel C, Ulkur E, Guler MM (2001) Prolonged intermittent hydrotherapy and early tangential excision in the treatment of an extensive strong alkali burn. Burns 27:293–296CrossRef

30.

Mozingo DW, Smith AA, McManus WF, Pruitt BA, Mason AD (1988) Chemical burns. J Trauma 28:642–647CrossRef

31.

Rao W, Liu J (2008) Tumor thermal ablation therapy using alkali metals as powerful self heating seeds, unpublished reportCrossRef

32.

Carlsson G, Gullberg B, Hafström L (1983) Estimation of liver tumor volume using different formulas—an experimental study in rats. J Cancer Res Clin Oncol 105:20–23CrossRef

33.

Rao W, Liu J (2009) Injectable liquid alkali alloy based tumor thermal ablation therapy. Minim Invasive Ther Allied Technol 18:30–35CrossRef

34.

Haaga JR, Exner AA, Wang YD, Stowe NT, Tarcha PJ (2006) Combined tumor therapy by using radiofrequency ablation and 5-FU-laden polymer implants: evaluation in rats and rabbits. Radiology 238:911–918CrossRef

35.

He X (2011) Thermostability of biological systems: fundamentals, challenges, and quantification. Open Biomed Eng J 5:47–73CrossRef

Titel: Liquid Alkali Alloy for Chemothermal Therapy of Tumor
verfasst von: Jing Liu
Liting Yi
Verlag: Springer Singapore
Buch: Liquid Metal Biomaterials
Print ISBN: 978-981-10-5606-2

Electronic ISBN: 978-981-10-5607-9

Copyright-Jahr: 2018
DOI: https://doi.org/10.1007/978-981-10-5607-9_15

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