Magnetic-mediated hyperthermia for cancer treatment：Research progress and clinical trials

doi:10.1088/1674-1056/22/10/108104

Abstract Research progress and frontiers of magnetic-mediated hyperthermia (MMH) are presented, along with clinical trials in Germany, the US, Japan, and China. Special attention is focused on MMH mediated by magnetic nanoparticles, and multifunctional magnetic devices for cancer multimodality treatment are also introduced.

Keywords: magnetic-mediated hyperthermia magnetic nanoparticles alternative magnetic field magnetic nanoparticle hyperthermia thermochemotherapy

Received: 09 August 2013
Accepted manuscript online:

PACS:	81.07.-b	(Nanoscale materials and structures: fabrication and characterization)
	75.75.-c	(Magnetic properties of nanostructures)
	87.50.ct	(Therapeutic applications)

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos. 81172182, 81172120, and 81041040), the 7th Singapore-China Cooperative Research Project Call between Agency of Science, Technology and Research (A*STAR), Singapore and the Ministry of Science and Technology (MOST), China (Grant No. 20113010006), and the National Key Technology Support Program (Grant No. 2012857818).

Corresponding Authors: Zhao Ling-Yun, Tang Jin-Tian
E-mail: lyzhao@tsinghua.edu.cn;tangjt@tsinghua.edu.cn

Cite this article:

Zhao Ling-Yun (赵凌云), Liu Jia-Yi (刘嘉毅), Ouyang Wei-Wei (欧阳伟炜), Li Dan-Ye (李丹叶), Li Li (李立), Li Li-Ya(李利亚), Tang Jin-Tian (唐劲天) Magnetic-mediated hyperthermia for cancer treatment：Research progress and clinical trials 2013 Chin. Phys. B 22 108104

[1]	Siegel R, Naishadham D and Jemal A 2013 CA Cancer J. Clin. 63 11
[2]	Streffer C 1987 Hyperthermia and the Therapy of Malignant Tumors (Berlin: Springer-Verlag Press)
[3]	WolfgangWR I 1987 Application of Hyperthermia in the Treatment of Cancer (Berlin: Springer-Verlag)
[4]	Hildebrandt B, Wust P and Ahlers O 2002 Crit. Rev. Oncol. Hematol. 43 33
[5]	Ahmed K and Zaidi S F 2013 J. Pakistan Med. Assoc. 63 504
[6]	Baronzio G F and Hager E D 2006 Hyperthermia in Cancer Treatment: A Primer (Berlin: Springer)
[7]	Gilchrist R K, Medal R, Shorey W D, Hanselman R C, Parrott J C and Taylor C B 1957 Annals Surg. 146 596
[8]	Kida Y, Mori Y, Hattori T and Kobayashi T 1990 Neurological Surg. 18 1007
[9]	Kobayashi T, Kida Y, Tanaka T, Hattori K, Matsui M and Amemiya Y 1991 J. Neuro-Oncology 10 153
[10]	Stea B, Kittelson J, Cassady, J R, Hamilton A, Guthkelch N, Lulu B, Obbens E, Rossman K, Shapiro W, Shetter A and Cetas T 1992 Int J. Radiation Oncol. Bio. Phys. 24 657
[11]	Mack C F, Stea B, Kittelson J M, Shimm D S, Sneed P K, Phillips T L, Swift P S, Luk K, Vora N, Stauffer P R, Chan KW, Steeves R, Cassady J R and Cetas T C 1993 Int. J. Radiation Oncol. Bio. Phys. 27 109
[12]	Tucker B D, Huidobro C, Larson T and Platz C E 2000 J. Endourology 14 511
[13]	Tucker B D 2003 J. Endourology 17 601
[14]	Tucker B D, Huidobro C and Larson T 2005 J. Endourology 19 865
[15]	Tucker B D, Platz C E, Huibobro C and Larson T 2002 Urology 60 166
[16]	Deger S, Taymoorian K, Boehmer D, Schink T, Roigas J, Wille A H, Budach V, Wernecke K D and Loening S A 2004 Eur. Urology 45 574
[17]	Deger S, Boehmer D, Turk I, Roigas J, Budach V and Loening S A 2002 Eur. Urology 42 147
[18]	Master V J, Shinohara K and Carroll P R 2004 The J. Urology 172 2179
[19]	Akiyama S, Kawasaki S, Kodera Y, Hibi K, Kato S, Ito K and Nakao A 2006 Surg. Today 36 19
[20]	Gazeau F, Levy M and Wilhelm C 2008 Nanomedicine 3 831
[21]	Hiroaki M and Balachandran J 2011 J. Magn. Magn. Mater. 323 1417
[22]	Zhao L Y, Tang J T and Feng S S 2010 Nanomedicine 5 1305
[23]	Etheridge M L and Bischof J C 2013 Annals Biomed. Engr. 41 78
[24]	Jordan A, Scholz R, Wust P, Schirra H, Schiestel T, Schmidt H and Felix R 1999 J. Magn. Magn. Mater. 194 185
[25]	Muller S 2009 Nanomedicine 5 387
[26]	Moroz P, Jones S K and Bray B N 2002 Int. J. Hyperthermia 18 267
[27]	Lilly M B, Brezovich I A and Atkins W J 1985 Radiology 154 243
[28]	Rehman J, Landman, J, Tucker B D, Bostwick D G, Sundaram C P and Clayman R V 2002 Endourology 16 523
[29]	Ferguson S D, Paulus J A, Tucker R D, Loening S A and Park J B 1993 J. Appl. Biomaterials 4 55
[30]	Shoi H, Ozu Y, Sato F, Matsuk H, Satomi S, Nihei Y, Kurokaw Y and Sato T 2005 IEEE Trans. Magn. 41 4167
[31]	Zhou J M, Li N, Xia Q S, Du L H, Wang X W, Zhao L Y, Wang X F and Tang J T 2009 Prog. Nat. Sci. 19 1713
[32]	Liu J Y, Zhao L Y,Wang Y Y, Li D Y, Tao D, Li L Y and Tang J T 2010 Oncol. Rep. 27 791
[33]	Liu J Y, Li D Y, Chen H H, Li L, Wang Y Y, Ouyang W W, Zhao L Y, Tang J T and Li L Y 2012 IFMBE Proceed. 39 1632
[34]	Liu J Y, Li N, Li L, Li D Y, Liu K, Tang J T and Li L Y 2013 Oncol. Lett. In Press
[35]	Moroz P, Pardoe H, Jones S K, St Pierre T G, Song S and Gray B N 2002 Phys. Med. Biol. 47 1591
[36]	Stribley K V, Gray B N, Chimel R Heggie J C and Bennett R C 1982 J Surg. Res. 33 25
[37]	Moroz P, Jones S K and Gray B N 2002 J. Surg. Oncol. 80 149
[38]	Moroz P, Jones S K and Gray B N 2002 J. Surg. Res. 105 209
[39]	Moroz P, Jones S K and Gray B N 2002 Int. J. Hyperthermia 18 267
[40]	Moroz P, Metcalf C and Gray B N 2003 Biometals 16 455
[41]	Moroz P, Jones S K and Gray G N 2002 Int. J. Hyperthermia 18 129
[42]	Pardoe H, Clark P R, St Pierre T G, Morez P and Jones S K 2003 Magn. Res. Imaging 21 483
[43]	Li Z X, Kawashita M, Araki N, Mitsumori M, Hiraoka M and Doi M 2010 Biomed. Mater. 065010
[44]	Miyazaki T, Miyaoka A, Ishida E, Li Z X, Kawashita M and Hiraoka M 2012 Mater. Sci. Eng. C 32 692
[45]	Zhao L Y, Jiang W, Jin Y J, Wang X W, Zhang X D, Wang X F and Tang J T 2009 World Congress on Medical Physics and Bioengineering, September 9–12, 2009, Munich, Germany
[46]	Li D Y, Wang K, Wang X, Li L, Zhao L Y and Tang J T 2013 IFMBE Proceed. 39 1624
[47]	Takamatsu S, Matsui O, Gabata T, Kobayash S, Okud M, Ougi T, Ikehata Y, Nagano I and Nagae H 2008 Rad. Med. 26 179
[48]	Yu H, Zhu G Y, Ru R Z, Niu H Z, Lu Q, Li G Z, Wang Z Y, Zhang D S, Gu N and Teng G J 2011 PLoS One 6 e17926
[49]	Reddy L H, Arias J L, Nicolas J and Couverur P 2012 Chem. Rev. 112 5818
[50]	Laurent S, Forge D, Port M, Roch A, Robic C, Elst L V and Muller R N 2008 Chem. Rev. 108 2064
[51]	Pankhurst Q A, Thanh N T K, Jones S K and Dobson J 2009 J. Phys. D: Appl. Phys. 42 224001
[52]	Yousaf M Z, Yu J, Hou Y L and Gao S 2013 Chin. Phys. B 22 058702
[53]	Figuerola A, Corato R D, Manna L and Pellegrino T 2010 Pharm. Res. 62 126
[54]	Colombo M, Carregal-Romero S, Casula M F, Gutierrez L, Morales M P, Bohm I B, Heverhagen J T, Prosperi D and Parak W J 2010 Chem. Soc. Rev. 41 4306
[55]	Li D S and Hyeon T 2013 Small 9 1450
[56]	Ojea-Jimenez I, Comenge J, Garcia-Fernandz L, Megson Z A, Casals E and Puntes V F 2013 Curr. Drug Metabolism 14 518
[57]	Liu G, Gao J H, Ai H and Chen X Y 2013 Small 9 1533
[58]	Qi H, Zhu Y H, Xu H B and Yang X L 2013 Prog. Chem. 25 611
[59]	Jiang S, Win K Y, Liu S H, Teng C P, Zheng, Y G and Han M Y 2013 Nanoscale 5 3127
[60]	Elingarami S, Liu M, Li Z Y and He N Y 2013 J. Nanosci. Nanotech. 13 3204
[61]	Gupta A K and Gupta M 2005 Biomaterials 26 3995
[62]	Sun C, Lee J S H and Zhang M Q 2008 Adv. Drug Delivery Rev. 60 1252
[63]	Sun S H 2006 Adv. Mater. 18 383
[64]	Mornet S, Vasseur S, Grasset F and Buguet E 2004 J. Mater. Chem. 14 2161
[65]	Hao R, Xing R J, Xu Z C, Hou Y L, Gao S and Sun S H 2010 Adv. Mater. 22 2729
[66]	Zhang C, Wangler B, Morgenstern B, Zentgraf H, Eisenhut M, Untenecker H, Kruger R, Huss R, Seliger C, Semmler W and Kiessling F 2007 Langmuir 23 1427
[67]	Ge S G, Liu W Y, Ge L, Yan M, Yan J X, Huang J D and Yu J H 2012 Biosensors & Bioelectronics 49 111
[68]	Mohammad H, Nasrin S and Eskandar O 2013 Colloids Surf B: Biointerface 108 52
[69]	Leung K C F, Xuan S H, Zhu X M, Wang D W, Chak C P, Lee S F, Ho S K W and Chung B C T 2012 Chem. Soc. Rev. 41 1911
[70]	Karimi Z, Karimi L and Sholrollahi H 2013 Mater. Sci. Engr. C 33 2465
[71]	Yang D, Ma J Z, Peng M L, Zhang, Q L, Luo Y L, Hu W L, Jin T B and Cui Y L 2013 J. Nanosci. Nanotech. 13 2013
[72]	Song X X, Liu Z J and Tang Q 2013 J. Nanosci. Nanotech. 13 5233
[73]	Cheng C Y, Ou K L, Huang W T, Chen J K, Chang J Y and Yang C H 2013 ACS Appl. Mater. Interf. 5 4389
[74]	Masoudi A, Hosseini H R M, Shokrgozar M A, Ahmadi R and Oghabian M A 2012 Int. J. Pharm. 433 129
[75]	Thammawong C, Sreearunothai P, Petchsuk A, Tangboriboonrat P, Pimpha N and Opa rakasit P 2012 J. Nanoparticle Res. 14 1046
[76]	Figuerola A, Corato R D, Mamma L and Pellegrino T 2010 Pharmocol. Res. 62 126
[77]	Kango S, Kalia S, Celli A, Njuguna J, Habibi Y and Kumar 2013 Prog. Polym. Sci. 38 1232
[78]	Kievit F and Zhang MQ 2011 Acc. Chem. Res. 44 853
[79]	Veiseh O, Gunn J W and Zhang M Q 2010 Adv. Drug Delivery Rev. 62 284
[80]	Fang C and Zhang M Q 2009 J. Mater. Chem. 19 6258
[81]	Rong M Z, Zhang M Q, Wang H B and Zeng H M 2003 J. Polym. Sci. B 41 1070
[82]	Gass J, Poddar P, Almand J, Scrinath S and Srikanth H 2006 Adv. Funct. Mater. 16 71
[83]	Zhong W, Lin P and Wang A Q 2012 Mater. Lett. 85 11
[84]	Sun Y, Ding X, Zheng Z, Cheng X, Hu X and Peng Y 2007 Eur. Polym. J. 43 762
[85]	Lü Y and Li Y P 2013 Chem. Paper 67 1404
[86]	Peng E, Shi E, Choo G, Tan C S H, Tang X S, Sheng Y and Xue J M 2013 Nanoscale 5 5994
[87]	Sun C R, Du K, Feng C, Chattarai N, Veiseh O, Kievit F, Stephen Z, Lee D H, Ellenbogen R G, Ratner B and Zhang M Q 2010 ACS Nano 4 2402
[88]	Sangeetha J, Thoma S, Arutchelvi J, Doble M and Philip J 2013 J. Biomed. Nanotech. 9 751
[89]	Chang Y C and Chen D H 2005 J. Collid & Interf. Sci. 283 446
[90]	Sun Z Z, Yathindranath V, Worden M, Thliveris J A, Chu S, Parkinson F E, Hegmann T and Miller D W 2013 Int. J. Nanoparticle 8 961
[91]	Shubayev V I, Pisanic T R and Jin S H 2009 Adv. Drug. Delivery 61 467
[92]	Cherukuri P, Glazer E S and Curley S A 2010 Adv. Drug Delivery Rev. 62 339
[93]	Campbell R B 2007 Nanomedicine 2 649
[94]	Wilhelm C and Gazeau F 2009 J. Magn. Magn. Mater. 321 671
[95]	Li Z X, Kawashita M, Araki N, Mitsumori M, Hiraoka M and Doi M 2010 Mater. Sci. Eng. C 30 990
[96]	Kumar S C S S R and Mohammad F 2011 Adv. Drug Delivery Rev. 63 789
[97]	Laurent S, Dutz S, Hafeli U O and Mahmoudi M 2011 Adv. Colloid Interf. Sci. 166 8
[98]	Miaskowski A and Sawick B 2013 IEEE Trans. Biomed. Eng. 60 1806
[99]	Jeun M H, Lee S H, Kin Y J, Jo H Y, Park K H, Paek S H, Takmur Y and Bae S 2013 IEEE Trans. Nanotech. 12 314
[100]	Jordan A, Wust P, Fahling H, John W, Hinz A and Felix R 1993 Int. J. Hyperthermia 9 51
[101]	Lage H, Jordan A, Scholz R and Dietel M 2000 Int. J. Hyperthermia 16 291
[102]	Jordan A, Scholz R, Maier-Hauff K, Johannsen M, Wust P, Nadobny J, Schirra H, Schmidt H, Deger S, Loening S, LankschWand Felix R 2001 J. Magn. Magn. Mater. 225 118
[103]	Jordan A, Scholz R, Wust P, Fanling H and Felix R 1999 J. Magn. Magn. Mater. 201 413
[104]	Jordan A, Scholz R, Maier-Hauff K, Landeghem F K H, Waldoefner N, Teichgraeber U, Pinkernelle J, Bruhn H, Neumann F, Thiesen B, Deimling A and Felix R 2006 J. Neuro-Oncology 78 7
[105]	Wada S, Yue L, Tazawa K, Nagae I F H, Takemori S and Minamimur T 2001 Oral Disease 7 192
[106]	Meenach S A, Shapiro J M, Hilt J Z and Anderson K W 2013 J. Biomater. Sci: Polym. Ed. 24 1112
[107]	Lin T C, Lin F H and Lin J C 2013 J. Biomater. Sci. 24 1152
[108]	Silva V A T, Andrade P L, Silva M P C, Bustanante A, Valladares L D and Aguiar J A 2013 J. Magn. Magn. Mater. 343 138
[109]	Jadhav N V, Prasad A I, Kumar A, Misshra K, Dhara S, Baba K R, Prajapat C L, Misra N L, Ningthoujam R S, Pandev B N and Vatsa R K 2013 J. Colloid Surf. B 108 158
[110]	Jaber J and Mohsen E 2013 Colloids Surf. B 102 265
[111]	Mohammad F, Balaji G,Weber A, Uppa RMand Kumar C S S R 2010 J. Phys. Chem. C 114 19194
[112]	Sharma M, Mantri S and Bahadur D 2010 J. Magn. Magn. Mater. 324 3975
[113]	Zhao L Y, Yang B, Dai X C,Wang XW, Gao F P, Zhang X D and Tang J T 2010 J. Nanosci. Nanotech. 10 7117
[114]	Zhao L Y, Yang B, Wang Y Y, Yao Z, Wang X W, Feng S S and Tang J T 2012 J. Nanosci. Nanotech. 12 1024
[115]	Zhao L Y, Huo M J, Liu J Y, Yao Z, Li D Y, Zhao Z W and Tang J T 2013 J. Nanosci. Nanotech. 13 741
[116]	Jin H K, Xie X X, Hu B Q, Gao F P, Zhou J M, Zhang Y Y, Du L H, Wang X W, Zhao L Y, Zhang X D and Tang J T 2013 Oncol. Rep. 29 725
[117]	Gao F P, Yan Z X, Zhou J, Cai Y Y and Tang J T 2012 J. Nanoparticle Res. 14 1160
[118]	Wang L F, Dong J, OuyangWW,Wang XWand Tang J T 2012 Oncol. Rep. 27 719
[119]	Hu R L, Zhang X D, Liu X, Xu B, Yang H S, Xia Q S, Li L Y, Chen C L and Tang J T 2012 Thoracic Can. 3 34
[120]	Gao F P, Cai Y Y, Zhou J, Xie X X, Ouyang W W, Zhang Y H, Wang X F, Zhang X D,Wang XW, Zhao L Y and Tang J T 2010 Nano Res. 3 23
[121]	Du L H, Zhou J M, Wang X W, Sheng L, Wang G H, Xie X X, Xu G Q, Zhao L Y, Liao Y P and Tang J T 2009 Prog. Nat. Sci: Mater. Int. 19 1705
[122]	Hergt R, Hiergeist R, Hilger I, Kaiser W A, Lapatnikov Y, Margel S and Richeter U 2004 J. Magn. Magn. Mater. 270 345
[123]	Michael L, Claire W, Jean-Michel S, Olivier H, Jean-Claude B and Florene G 2008 J. Phys: Condens. Matter. 20 204133
[124]	Hilger I, Dietmar E, Linß W, Streck S and Kaise W A 2006 J. Phys: Condens. Matter 18 2951
[125]	Ito A, Kuga Y, Honda H, Kikkawa H, Horiuchi A, Watanabe Y and Kobayashi T 2004 Cancer Lett. 212 167
[126]	Zhang J P, Dewilde A H, Chinn P, Foreman A, Barry S, Kanne D and Braunhut S J 2011 Int. J. Hyperthermia 27 682
[127]	Kikumori T, Kobayashi T, Sawaki M and Imai T 2009 Breast Cancer Res. Treatment 113 435
[128]	Creixell M, Bohorquez A C, Torres-Lugo M and Rinaldi C 2011 ACS Nano 5 7124
[129]	Domenech M, Marrero Berrios I, Torres-Lugo M and Rinaldi C 2013 ACS Nano 7 5091
[130]	DeNardo S J, DeNardo G L, Natarajan A, Miers L A F, Foreman A R, Gruettner C, Adamson G N and Ivkov R 2007 J. Nuclear Med. 48 437
[131]	Sonvico F, Mornet S, Vasseur S, Dubernet C, Jaillard D, Degrouand J, Hoebeke J, Duguet E, Colombo P and Couvreur P 2005 Bioconj. Chem. 16 1181
[132]	Sivakumar B, Aswathy R G, Nagaoka Y, Suzuki M, Fukuda T, Yoshida Y, Maekawa T and Sakthikumar D N 2013 Langmuir 29 3453
[133]	Lee J H, Jang J T, Choi J S, Moon S H, Noh S H, Kim J W, Kim J G, Kim I S, Park K I and Cheon J W 2011 Nature Nanotech. 6 418
[134]	Guardia P, Corato R D, Lartigue L, Wihelm C, Espinosa A, Garcia- Hernandez M, Gazeau F, Manna L and Pellegrino T 2012 ACS Nano 6 3080
[135]	Johannsen M, Gneveckow U, Thiesen B, Taymoorian K, Cho C H, Waldofner N, Scholz R, Jordan A, Loening S A and Wust P 2007 Eur. Urol. 52 1653
[136]	Johannsen M, Gneveckow U, Taymoorian K, Thiesen B, Waldofner N, Scholz R, Jung K, Jordan A,Wust P and Loening A 2007 Int. J. Hyperthermia 23 315
[137]	Wust P, Gneveckow U, Johannsen M, Johannsen M, Bohmer D, Henkel T, Kahmann F, Sehouli J, Felix R, Riche J and Jordan A 2006 Int. J. Hyperthermia 22 673
[138]	Maier-Hauff K, Ulrich F, Nestler D, Niehoff H, Wust P, Thiesen B, Orawa H, Budach V and Jordan A 2011 J. Neuro-Oncology 103 317
[139]	Dudeck O, Bogusiewicz K, Pinkernelle J, Gaffke G, Pech M, Wieners G, Bruhn H, Jordan A and Ricke J 2006 Invest. Radiol. 41 527
[140]	Horseman M R and Overgaard L 2007 Clin. Oncol. 19 418
[141]	Iliakis G, Wu W Q and Wang M L 2008 Int. J. Hyperthermia 24 17
[142]	Kamponga H H and Dikomey E 2001 Int. J. Rad. Biol. 77 399
[143]	Kampinga H H, Dynlacht J R and Dikomey E 2004 Int. J. Hyperthermia 20 131
[144]	Pawlik A, Nowak J M, Grzanka D, Gackowska L, Michalkiewicz J and Grzanka A 2013 Acta Histochem. 115 8
[145]	Gautam B, Parsai E I, Shvydka D and Feldmeier J 2012 Med. Phys. 39 1980
[146]	Zee J 2002 Ann. Oncol. 13 1173
[147]	Wust P, Hildebrandt B, Screenivasa G, Rau B, Gellermann J, Riess H, Felix and Schlag P M 2002 Lancet Oncol. 3 487
[148]	Falk M H and Issels R D 2001 Int. J. Hyperthermia 17 1
[149]	Rao W, Deng Z S and Liu J 2010 Crit. Rev. Biomed. Eng. 380 101
[150]	Issels R D 2008 Eur. J. Cancer 44 2546
[151]	Zhao L Y, Wang Y Y, Yang B, Xu X Y, Yan Y, Huo M J, Wang X W and Tang J T 2011 Advances in Nanocomposites-Synthesis, Characterization and Industrial Applications, ed. Boreddy S R R (Croatia: Intech)
[152]	Zhao L Y, Xu X Y,Wang XW, Zhang X D, Gao F P and Tang J T 2009 Proc. SPIE 7493 1
[153]	Babincova M, Altanerova V, Altaner C, Bergenamm C and Babinec P 2008 IEEE Trans. Nanobiosci. 7 15
[154]	Feng S S, Zhao L Y, Zhang Z P, Bhakta G, Win K Y, Dong Y C and Chien S 2007 Chem. Eng. Sci. 62 6641
[155]	Ranganath S H and Wang C H 2008 Biomaterials 29 2996
[156]	Pradhan P, Giri J, Rieken F, Koch C, Mykhaylyk O, Doblinge M, Banerjee R, Bahadur D and Plank C 2010 J. Controlled Release 142 108
[157]	Hu S H, Liu T Y, Huang H Y, Liu D M and Chen S Y 2008 Langmuir 24 239
[158]	Ito A, Fujioka M, Yoshida T, Wakamatsu K, Ito S, Yamashita T, Jimbow K and Honda A 2007 Cancer Sci. 98 424
[159]	Mi Y, Liu X L, Zhao J, Ding J and Feng S S 2012 Biomaterials 33 7519
[160]	Sanson C, Diou O, Thevenot J, Ibarboure E, Soum A, Brulet A, Miraux S, Thiaudiere E, Tan Sisareuth, Brisson A, Dupuis V, Sandre O and Lecommandoux S 2011 ACS Nano 5 1122
[161]	Hergt R and Dutz S 2007 J. Magn. Magn. Mater. 311 187
[162]	Rabin Y 2002 Int. J. Hyperthermia 18 194
[163]	Ito A and Kobayashi T 2008 Thermal Med. 24 113
[164]	Alvarez-Berrios M P, Castillo A, Mendez J, Soto O, Rinaldi C and Torres-Lugo M 2013 Int. J. Nanomedicine 8 1003
[165]	Medal R, Shorey W D, Gilchrist R K, Barker W and Hanselman R 1959 Arch. Surg. 79 427
[166]	Rand RW, Snyder M, Elliot D and Anow H 1976 Bull. LA Neurol. Soc. 41 154
[167]	Gondon R T, Hines J R and Gordon D 1979 Med. Hypothesis 5 83
[168]	Gazeau F, Levy M and Wilhelm C 2008 Nanomedicine 3 831
[169]	Landeghem F K H, Maier-Hauff K, Jordan A, Karl-Titus H, Gmeveckow U, Scholz R, Thiesen B, Bruck W and Deimling A 2009 Biomaterials 30 52
[170]	http://www.magforce.de/en/presse-investoren/news-events

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[13]	Composite magnetic nanoparticles：Synthesis and cancer-related applications Cai Ping (蔡苹), Chen Hong-Min (陈洪敏), Xie Jin (谢晋). Chin. Phys. B, 2014, 23(11): 117504.
[14]	Using magnetic nanoparticles to manipulate biological objects Liu Yi (刘毅), Gao Yu (高宇), Xu Chenjie (徐臣杰). Chin. Phys. B, 2013, 22(9): 097503.
[15]	Magnetic nanoparticle-based cancer therapy Yu Jing (余靓), Huang Dong-Yan (黄冬雁), Muhammad Zubair Yousaf, Hou Yang-Long (侯仰龙), Gao Song (高松). Chin. Phys. B, 2013, 22(2): 027506.

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