Measurement of Lineal Energy Spectra at Different Penetration Depths Along a Radioactive 9C-Ion Beam

LI Qiang

Chinese Physics C> 2005, Vol. 29> Issue(11) : 1041-1046

Measurement of Lineal Energy Spectra at Different Penetration Depths Along a Radioactive 9C-Ion Beam

LI Qiang ^,

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China2 National Institute of Radiological Sciences, Chiba 263-8555, Japan

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Abstract：
It is expected that a radioactive ⁹C-ion beam as a type of double irradiation source can increase the curative effect when applying it to heavy-ion cancer therapy,and it has been proved in our previous radiobiological experiment that the relative biological effectiveness (RBE) at the depths around the Bragg peak of a ⁹C beam was greater than that of a therapeutic ¹²C beam at least by a factor of 2. To characterize the physical basis of a ⁹C ion beam applying to radiotherapy, a spherical tissue-equivalent proportional counter (TEPC) was used to measure the lineal energy (y) spectra at different depths along a radioactive ⁹C-ion beam in this work. Based on the measured spectra, the distribution of dose-averaged lineal energy in depth was derived.Moreover, the measured lineal energy spectra were converted into the distributions of LET in absorbed dose at the different depths. The distribution of dose-averaged LET in depth, therefore, has been obtained for the ⁹C beam. The dose-averaged LETs measured with the TEPC and our preceding parellel-plate proportional counter (PPPC) were compared. It has been found that both the measurements agreed well with each other at the entrance channel of the ⁹C beam while the dose-averaged LETs by the TEPC were larger than those by the PPPC around the Bragg peak, i.e. the stopping region of the incident ⁹C ions. This coincides with the expectation that all of the delayed alpha particles and protons,which are emitted isotropically during the decays of the ⁹C ions, can be included by means of the TEPC measurement. The data sets obtained in this work provide a substantial physical basis for revealing the advantages of ⁹C beams in cancer therapy.

References

[1]

. Castro J R. Radiat. Environ. Biophys., 1995, 34: 45—482. Schulz-Ertner D, Nikoghosyan A, Thilmann C et al. Int. J.Radiat. Oncol. Biol. Phys., 2004, 58: 631—6403. Mizoe J, Tsujii H, Kamada T et al. Int. J. Radiat. Oncol.Biol. Phys., 2004, 60: 358—3644. Koto M, Miyamoto T, Yamamoto N et al. Radiother. On-col., 2004, 71: 147—1565. LI Q, Kanai T, Kitagawa A. Phys. Med. Biol., 2003, 48:2971—29866. LI Q, Kanai T, Kitagawa A. Phys. Med. Biol., 2004, 49:1817—18317. Barendsen G W, Walter M D, Flower J F et al. Radiat.Res., 1963, 18: 106—1198. Belli M, Cera F, Cherubini R et al. Int. J. Radiat. Biol.,1993, 63: 331—3379. Folkard M, Prise K M, Vojnovic B et al. Int. J. Radiat.Biol., 1996, 69: 729—73810. LI Q, Furusawa Y, Kanazawa M et al. Int. J. Radiat. Oncol.Biol. Phys., in press.11. Hirao Y, Ogawa H, Yamada S et al. Nucl. Phys., 1992,A538: 541c—550c12. Kanazawa M, Kitagawa A, Kouda S et al. Nucl. Phys.,2002, A701: 244c—252c13. LI Q, Kitagawa A, Kanai T et al. Nucl. Instrum. Methods,2004, B222: 270—28414. LI Q, Kitagawa A, Kanazawa M et al. Nucl. Phys., 2004,A746: 288c—292c15. Ziegler F J. Nucl. Instrum. Methods, 2004, B219/220:1027—103216. ICRU. Microdosimetry. ICRU Report 36. Bethesda, MD,USA, 198317. Attix F H, Roesch W C. Radiation Dosimetry(Vol.1): Fun-damentals. New York and London: Academic Press, 1968.73—8618. LI Q, Komori M, Kanai T et al. Phys. Med. Biol., 2004,49: 5119—513319. Furukawa T, Noda K, Urakabe E et al. Nucl. Instrum.Methods, 2003, A503: 485—49320. Kase Y, Kanai T, Noda Y et al. Jpn. J. Med. Phys., 2003,23(Suppl.3): 98—10121. Kanai T, Furusawa Y, Fukutsu K et al. Radiat. Res., 1997,147: 78—8522. Matsufuji N, Futami Y, Fukumura A et al. Proceedings ofthe Workshop on Reaction Cross Sections and DetectorsApplied to the HIMAC Beams, Study on the LET Distri-bution of Projectile Fragments Produced from Heavy IonTherapeutic Beams. Chiba: National Institute of Radiolog-ical Sciences, Japan, 2001. 40—4423. Kohno T, Kiyota T, Matsufuji N et al. Nucl. Instrum.Methods, 2000, A450: 456—46624. Sihver L, Schardt D, Kanai T. Jpn. J. Med. Phys., 1998,18: 1—21

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[2]	WANG Qing-Bin , Kazuyoshi Masumoto , Hideo Hirayama , Tokushi Shibata . A Measurement of the Residual Radioactivity with NaI Survey Meter and Its MC Simulation. Chinese Physics C, 2007, 31(11): 1071-1075.
[3]	P.Jardin , C.Canet , J.C.Cornell , M.Dupuis , C.Eleon , J.L.Flambard , G.Gaubert , N.Lecesne , P.Leherissier , F.Lemagnen , R.Leroy , J.Y.Pacquet , M.G.Saint laurent , A.C.C.Villari . ECR Ion Sources for Radioactive Ion Beam Production. Chinese Physics C, 2007, 31(S1): 206-210.
[4]	ZHANG Tian-Jue , LI Zhen-Guo , CHU Cheng-Jie , WANG Xiu-Long , ZHOU Zheng-He . 100 MeV High Intensity Proton Cyclotron as a Driving Accelerator for Radioactive Ion Beam Facility. Chinese Physics C, 2006, 30(S1): 159-161.
[5]	GUO Bing , LIU Wei-Ping , Trinczek M , Lapi S , Ames F , Buckley K , Auria J , Jayamanna K , Ruiz C , Ruth T . Production of Intense Radioactive Beams Using Low Energy Protons. Chinese Physics C, 2006, 30(7): 675-679.
[6]	REN Zhong-Zhou , Xu Chang , Wang Zai-Jun . Cluster Radioactivity of Heavy Nuclei. Chinese Physics C, 2004, 28(12): 1245-1247.
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[11]	SONG Ming-Tao , YANG Xiao-Dong , XIA Jia-Wen , ZHAN Wen-Long . Radioactive Ion Beam Line of CSR. Chinese Physics C, 2001, 25(5): 443-447.
[12]	WANG Quan-Jin , ZHAN Wen-Long , GUO Zhong-Yan , XIAO Guo-Qing , SUN Zhi-Yu , WANG Meng , CHEN Zhi-Qiang , LI Jia-Xing , WANG Jian-Song , NING Zhen-Jiang , WANG Jin-Chuan , WANG Jian-Feng . Measurement of Total Reaction Cross Sections for ⁸B and ⁹C on Silicon Target. Chinese Physics C, 2001, 25(12): 1165-1170.
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[14]	Zhan Wenlong , Guo Zhongyan , Zhou Jianqu , Yin Quanmin , Zhao Youxiong , Wang Jinchuan , Xi Hongfei , Wang Yifang , Luo Yongfeng . Radioactive Ion Beams at HIRFL. Chinese Physics C, 1994, 18(S1): 39-46.
[15]	ZHANG Tian-Bao , WANG Shu-Ying , WANG Hai-Dong , SHEN Zhi-Qi , MENG Bo-Nian . Precise Measurement of Gamma Ray Energies With HPGE Spectrometer by Slithering Comparison Method. Chinese Physics C, 1993, 17(3): 202-207.
[16]	FENG Xi-Zhang , ZHAO Zhen-Lan , GUO Ying-Huan , LUO Shi-Hua , YANG Rui-Ying , HUANG Zhong-Xiang , JIANG Yong . MEASUREMENT OF NUMBER OF RADIOACTIVE ATOMS AND HALF-LIFE (Ⅳ)—Applications and Accuracy of N₀. Chinese Physics C, 1983, 7(1): 114-117.
[17]	ZHAO ZHEN-LAN , XU YUAN-BIAO , GUO YING-HUAN , LO SHI-HUA , HUANG ZHONG-WIANG , YANG RUI-YING . MEASUREMENTS OF NUMBER OF RADIOACTIVE ATOMS AND HALF-LIFE (II). Chinese Physics C, 1982, 6(1): 111-112.
[18]	FENG XI-ZHANG , ZHAO ZHEN-LAN , GUO YING-HUAN , LO SHI-HUA , XU YUAN-BIAO , YANG RUI-YING , HUANG ZHONG-XIANG , JIANG YONG . MEASUREMENTS OF NUMBER OF RADIOACTIVE ATOMS AND HALF-LIFE(Ⅲ). Chinese Physics C, 1982, 6(5): 642-647.
[19]	FENG XI-ZHANG , ZHAO ZHEN-LAN , LO SHI-HUA , ZHANG JING-LIE , GUO YING-HUAN , XU YUAN-BIAO , YANG RUI-YING , HUANG ZHONG-XIANG , ZHANG YUAN-JI , SU ZHI-XIN , LI ZUO-QIAN , MA GUO-HUI . MEASUREMENTS OF NUMBER OF RADIOACTIVE ATOMS AND HALF-LIFE (Ⅰ). Chinese Physics C, 1981, 5(6): 754-760.
[20]	Feng Xi-zhang , Zhao Zhen-lan , Tang Nai-xun . SELECTION OF THE MEASURING TIME IN THE ABSOLUTE COUNTING OF RADIOACTIVITY. Chinese Physics C, 1980, 4(6): 771-773.

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LI Qiang. Measurement of Lineal Energy Spectra at Different Penetration Depths Along a Radioactive 9C-Ion Beam[J]. Chinese Physics C, 2005, 29(11): 1041-1046.

LI Qiang. Measurement of Lineal Energy Spectra at Different Penetration Depths Along a Radioactive 9C-Ion Beam[J]. Chinese Physics C, 2005, 29(11): 1041-1046. shu

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Received: 2005-01-25
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沈阳化工大学材料科学与工程学院沈阳 110142

Measurement of Lineal Energy Spectra at Different Penetration Depths Along a Radioactive 9C-Ion Beam

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Measurement of Lineal Energy Spectra at Different Penetration Depths Along a Radioactive 9C-Ion Beam

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