Signal transduction and heavy ion radiation therapy: Biological mechanisms, biological quality assurance, and new multimodality approach

Takeo Takahashi; Yukari Yoshida; Koichi Ando; Hidemasa Kawamura; Masahiko Okamoto; Jun Ichi Saitoh; Hitoshi Ishikawa; Takeshi Ebara; Yoshiyuki Suzuki; Tatsuya Ohno; Takashi Nakano

doi:10.2174/157436210791920238

Signal transduction and heavy ion radiation therapy: Biological mechanisms, biological quality assurance, and new multimodality approach

Takeo Takahashi^*, Yukari Yoshida, Koichi Ando, Hidemasa Kawamura, Masahiko Okamoto, Jun Ichi Saitoh, Hitoshi Ishikawa, Takeshi Ebara, Yoshiyuki Suzuki, Tatsuya Ohno, Takashi Nakano

^*Corresponding author for this work

Diagnostic and Therapeutic Radiology

Research output: Contribution to journal › Article › peer-review

Abstract

High linear energy transfer (LET) radiotherapy has an excellent dose distribution and relative biological effectiveness (RBE). As the RBE of particle beams for therapy is important in terms of determining the dose prescription, we have to evaluate an accurate and reliable assessment method. Recently, several particle therapy facilities will open; however, the dose estimation is still not uniform. We have to confirm the quality assurance procedures among several facilities. Excellent local effect has been already achieved by treatment of monotherapy of carbon ion radiotherapy. The efficacy of carbon ion radiotherapy has been confirmed by taking advantage of the physical and biological properties. In addition, we have to gain the higher survival rate for locally advanced tumor with potentially metastasis. This paper reviews briefly background of carbon ion radiotherapy, biophysical characters, biological characters, and several radiobiological factors. The potential benefit of multimodality treatment will be also discussed to further improve therapeutic outcomes.

Original language	English
Pages (from-to)	237-243
Number of pages	7
Journal	Current Signal Transduction Therapy
Volume	5
Issue number	3
DOIs	https://doi.org/10.2174/157436210791920238
State	Published - 2010/09

Keywords

Biological quality assurance
Carbonion radiotherapy
High LET
Multimodality therapy
Radiation biology

ASJC Scopus subject areas

Endocrinology
Pharmacology (medical)

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10.2174/157436210791920238

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Takahashi, T., Yoshida, Y., Ando, K., Kawamura, H., Okamoto, M., Saitoh, J. I., Ishikawa, H., Ebara, T., Suzuki, Y., Ohno, T., & Nakano, T. (2010). Signal transduction and heavy ion radiation therapy: Biological mechanisms, biological quality assurance, and new multimodality approach. Current Signal Transduction Therapy, 5(3), 237-243. https://doi.org/10.2174/157436210791920238

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title = "Signal transduction and heavy ion radiation therapy: Biological mechanisms, biological quality assurance, and new multimodality approach",

abstract = "High linear energy transfer (LET) radiotherapy has an excellent dose distribution and relative biological effectiveness (RBE). As the RBE of particle beams for therapy is important in terms of determining the dose prescription, we have to evaluate an accurate and reliable assessment method. Recently, several particle therapy facilities will open; however, the dose estimation is still not uniform. We have to confirm the quality assurance procedures among several facilities. Excellent local effect has been already achieved by treatment of monotherapy of carbon ion radiotherapy. The efficacy of carbon ion radiotherapy has been confirmed by taking advantage of the physical and biological properties. In addition, we have to gain the higher survival rate for locally advanced tumor with potentially metastasis. This paper reviews briefly background of carbon ion radiotherapy, biophysical characters, biological characters, and several radiobiological factors. The potential benefit of multimodality treatment will be also discussed to further improve therapeutic outcomes.",

keywords = "Biological quality assurance, Carbonion radiotherapy, High LET, Multimodality therapy, Radiation biology",

author = "Takeo Takahashi and Yukari Yoshida and Koichi Ando and Hidemasa Kawamura and Masahiko Okamoto and Saitoh, {Jun Ichi} and Hitoshi Ishikawa and Takeshi Ebara and Yoshiyuki Suzuki and Tatsuya Ohno and Takashi Nakano",

year = "2010",

month = sep,

doi = "10.2174/157436210791920238",

language = "英語",

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journal = "Current Signal Transduction Therapy",

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Takahashi, T, Yoshida, Y, Ando, K, Kawamura, H, Okamoto, M, Saitoh, JI, Ishikawa, H, Ebara, T, Suzuki, Y, Ohno, T & Nakano, T 2010, 'Signal transduction and heavy ion radiation therapy: Biological mechanisms, biological quality assurance, and new multimodality approach', Current Signal Transduction Therapy, vol. 5, no. 3, pp. 237-243. https://doi.org/10.2174/157436210791920238

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AU - Takahashi, Takeo

AU - Yoshida, Yukari

AU - Ando, Koichi

AU - Kawamura, Hidemasa

AU - Okamoto, Masahiko

AU - Saitoh, Jun Ichi

AU - Ishikawa, Hitoshi

AU - Ebara, Takeshi

AU - Suzuki, Yoshiyuki

AU - Ohno, Tatsuya

AU - Nakano, Takashi

PY - 2010/9

Y1 - 2010/9

N2 - High linear energy transfer (LET) radiotherapy has an excellent dose distribution and relative biological effectiveness (RBE). As the RBE of particle beams for therapy is important in terms of determining the dose prescription, we have to evaluate an accurate and reliable assessment method. Recently, several particle therapy facilities will open; however, the dose estimation is still not uniform. We have to confirm the quality assurance procedures among several facilities. Excellent local effect has been already achieved by treatment of monotherapy of carbon ion radiotherapy. The efficacy of carbon ion radiotherapy has been confirmed by taking advantage of the physical and biological properties. In addition, we have to gain the higher survival rate for locally advanced tumor with potentially metastasis. This paper reviews briefly background of carbon ion radiotherapy, biophysical characters, biological characters, and several radiobiological factors. The potential benefit of multimodality treatment will be also discussed to further improve therapeutic outcomes.

AB - High linear energy transfer (LET) radiotherapy has an excellent dose distribution and relative biological effectiveness (RBE). As the RBE of particle beams for therapy is important in terms of determining the dose prescription, we have to evaluate an accurate and reliable assessment method. Recently, several particle therapy facilities will open; however, the dose estimation is still not uniform. We have to confirm the quality assurance procedures among several facilities. Excellent local effect has been already achieved by treatment of monotherapy of carbon ion radiotherapy. The efficacy of carbon ion radiotherapy has been confirmed by taking advantage of the physical and biological properties. In addition, we have to gain the higher survival rate for locally advanced tumor with potentially metastasis. This paper reviews briefly background of carbon ion radiotherapy, biophysical characters, biological characters, and several radiobiological factors. The potential benefit of multimodality treatment will be also discussed to further improve therapeutic outcomes.

KW - Biological quality assurance

KW - Carbonion radiotherapy

KW - High LET

KW - Multimodality therapy

KW - Radiation biology

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Signal transduction and heavy ion radiation therapy: Biological mechanisms, biological quality assurance, and new multimodality approach

Abstract

Keywords

ASJC Scopus subject areas

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