Creation, evolution, and future challenges of ion beam therapy from a medical physicist's viewpoint (Part 3): Chapter 3. Clinical research, Chapter 4. Future challenges, Chapter 5. Discussion, and Conclusion.

IF 1.7 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Radiological Physics and Technology Pub Date : 2023-12-01 Epub Date: 2023-10-26 DOI:10.1007/s12194-023-00748-9
Masahiro Endo
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Abstract

Clinical studies of ion beam therapy have been performed at the Lawrence Berkeley Laboratory (LBL), National Institute of Radiological Sciences (NIRS), Gesellschaft für Schwerionenforschung (GSI), and Deutsches Krebsforschungszentrum (DKFZ), in addition to the development of equipment, biophysical models, and treatment planning systems. Although cancers, including brain tumors and pancreatic cancer, have been treated with the Bevalac's neon-ion beam at the LBL (where the first clinical research was conducted), insufficient results were obtained owing to the limited availability of neon-ion beams and immaturity of related technologies. However, the 184-Inch Cyclotron's helium-ion beam yielded promising results for chordomas and chondrosarcomas at the base of the skull. Using carbon-ion beams, NIRS has conducted clinical trials for the treatment of common cancers for which radiotherapy is indicated. Because better results than X-ray therapy results have been obtained for lung, liver, pancreas, and prostate cancers, as well as pelvic recurrences of rectal cancer, the Japanese government recently approved the use of public medical insurance for carbon-ion radiotherapy, except for lung cancer. GSI obtained better results than LBL for bone and soft tissue tumors, owing to dose enhancement enabled by scanning irradiation. In addition, DKFZ compared treatment results of proton and carbon-ion radiotherapy for these tumors. This article summarizes a series of articles (Parts 1-3) and describes future issues of immune ion beam therapy and linear energy transfer optimization.

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从医学物理学家的角度看离子束疗法的产生、进化和未来挑战(第3部分):第3章。临床研究,第4章。未来的挑战,第5章。讨论和结论。
除了设备、生物物理模型和治疗计划系统的开发外,劳伦斯伯克利实验室(LBL)、国家放射科学研究所(NIRS)、德国科学院(GSI)和德国医学院(DKFZ)也进行了离子束治疗的临床研究。尽管包括脑肿瘤和癌症在内的癌症已经在LBL(首次进行临床研究的地方)用Bevalac的新离子束进行了治疗,但由于新离子束的可用性有限和相关技术的不成熟,结果不足。然而,184英寸回旋加速器的氦离子束对颅底脊索瘤和软骨肉瘤产生了有希望的结果。NIRS利用碳离子束进行了治疗需要放疗的常见癌症的临床试验。由于肺癌、肝癌、胰腺癌和前列腺癌以及直肠癌症盆腔复发的治疗效果优于X射线治疗,日本政府最近批准使用公共医疗保险进行碳离子放射治疗,但癌症除外。GSI在骨和软组织肿瘤中获得了比LBL更好的结果,这是由于扫描辐射能够增强剂量。此外,DKFZ比较了质子和碳离子放射治疗这些肿瘤的结果。本文总结了一系列文章(第1-3部分),并描述了免疫离子束治疗和线性能量转移优化的未来问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Radiological Physics and Technology
Radiological Physics and Technology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
3.00
自引率
12.50%
发文量
40
期刊介绍: The purpose of the journal Radiological Physics and Technology is to provide a forum for sharing new knowledge related to research and development in radiological science and technology, including medical physics and radiological technology in diagnostic radiology, nuclear medicine, and radiation therapy among many other radiological disciplines, as well as to contribute to progress and improvement in medical practice and patient health care.
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Acknowledgment. Evaluation of calculation accuracy and computation time in a commercial treatment planning system for accelerator-based boron neutron capture therapy. Development of deep learning-based novel auto-segmentation for the prostatic urethra on planning CT images for prostate cancer radiotherapy. Effect of deep learning reconstruction on the assessment of pancreatic cystic lesions using computed tomography. Assessment of accuracy and repeatability of quantitative parameter mapping in MRI.
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