Carbon-ion Radiotherapy for Urological Cancers

Overview

Journal Int J Urol

Specialty Urology

Date 2022 Jun 13

PMID 35692124

Authors

Hitoshi Ishikawa

Yuichi Hiroshima

Nobuyuki Kanematsu

Taku Inaniwa

Toshiyuki Shirai

Reiko Imai

Hiroyoshi Suzuki

Koichiro Akakura

Masaru Wakatsuki

Tomohiko Ichikawa

Hiroshi Tsuji

Affiliations

Soon will be listed here.

Abstract

Carbon-ions are charged particles with a high linear energy transfer, and therefore, they make a better dose distribution with greater biological effects on the tumors compared with photons and protons. Since prostate cancer, renal cell carcinoma, and retroperitoneal sarcomas such as liposarcoma and leiomyosarcoma are known to be radioresistant tumors, carbon-ion radiotherapy, which provides the advantageous radiobiological properties such as an increasing relative biological effectiveness toward the Bragg peak, a reduced oxygen enhancement ratio, and a reduced dependence on fractionation and cell-cycle stage, has been tested for these urological tumors at the National Institute for Radiological Sciences since 1994. To promote carbon-ion radiotherapy as a standard cancer therapy, the Japan Carbon-ion Radiation Oncology Study Group was established in 2015 to create a registry of all treated patients and conduct multi-institutional prospective studies in cooperation with all the Japanese institutes. Based on accumulating evidence of the efficacy and feasibility of carbon-ion therapy for prostate cancer and retroperitoneal sarcoma, it is now covered by the Japanese health insurance system. On the other hand, carbon-ion radiotherapy for renal cell cancer is not still covered by the insurance system, although the two previous studies showed the efficacy. In this review, we introduce the characteristics, clinical outcomes, and perspectives of carbon-ion radiotherapy and our efforts to disseminate the use of this new technology worldwide.

Citing Articles

A Phase I/II Study of Ultra-Hypofractionated Carbon-ion Radiation therapy for Low- and Intermediate-Risk Localized Prostate Cancer.

Okonogi N, Tsuji H, Kobayashi K, Nakajima M, Aoki S, Utsumi T Adv Radiat Oncol. 2025; 10(3):101705.

PMID: 39991117 PMC: 11847242. DOI: 10.1016/j.adro.2024.101705.

Rectal Gas-Induced Dose Changes in Carbon Ion Radiation Therapy for Prostate Cancer: An In Silico Study.

Ishizawa M, Miyasaka Y, Souda H, Ono T, Chai H, Sato H Int J Part Ther. 2025; 15:100637.

PMID: 39760119 PMC: 11697597. DOI: 10.1016/j.ijpt.2024.100637.

Rectal toxicity of 3-dimensional conformal radiation therapy following hydrogel spacer (Space OAR) injection for men with prostate cancer.

Kawaguchi G, Ishida K, Nishiyama H, Ikeda Y, Hara N, Nishiyama T SAGE Open Med. 2024; 12:20503121241287086.

PMID: 39483622 PMC: 11526268. DOI: 10.1177/20503121241287086.

Assessing the robustness of dose distributions in carbon ion prostate radiotherapy using a fast dose evaluation system.

Tsubouchi T, Shiomi H, Suzuki O, Hamatani N, Takashina M, Yagi M J Appl Clin Med Phys. 2024; 26(1):e14528.

PMID: 39436775 PMC: 11713419. DOI: 10.1002/acm2.14528.

Value of Carbon-Ion Radiation Therapy for Breast Cancer.

Yu B, Li K, Fan Y, Pei X Int J Part Ther. 2024; 14:100629.

PMID: 39309411 PMC: 11415881. DOI: 10.1016/j.ijpt.2024.100629.

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