EANM expert opinion: How can lessons from radiobiology be applied to the design of clinical trials? Part I: back to the basics of absorbed dose–response and threshold absorbed doses
Jean-Pierre Pouget, Pablo Minguez Gabina, Ken Herrmann, Desirée Deandreis, Mark Konijnenberg, David Taieb, Fijs W. B. van Leeuwen, Jens Kurth, Uta Eberlein, Michael Lassmann, Katharina Lückerath
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Abstract
Purpose
This study by the EANM radiobiology working group aims to analyze the efficacy and toxicity of targeted radionuclide therapy (TRT) using radiopharmaceuticals approved by the EMA and FDA for neuroendocrine tumors and prostate cancer. It seeks to understand the correlation between physical parameters such as absorbed dose and TRT outcomes, alongside other biological factors.
Methods
We reviewed clinical studies on TRT, focusing on the relationship between physical parameters and treatment outcomes, and applying basic radiobiological principles to radiopharmaceutical therapy to identify key factors affecting therapeutic success.
Results
The analysis revealed that mean absorbed dose alone is insufficient to predict treatment response or toxicity. For absorbed doses below a certain threshold, outcomes are unpredictable, while doses above this threshold improve the likelihood of biological responses. However, even at higher absorbed doses, response plateaus indicate the need for additional parameters to explain outcome variability, including heterogeneity in target expression, anatomical disease location, (epi)genetics, DNA repair capacity, and the tumor microenvironment, aspects that will be discussed in Part II of this analysis.
Conclusion
Understanding radiobiology is crucial for optimizing TRT. More dosimetric data is needed to refine treatment protocols. While absorbed dose is critical, it alone does not determine TRT outcomes. Future research should integrate biological parameters with physical dosimetry to enhance efficacy and minimize toxicity.
目的 EANM放射生物学工作组的这项研究旨在分析放射性核素靶向治疗(TRT)的疗效和毒性,该疗法使用的放射性药物已获得欧洲医学管理局(EMA)和美国食品药品管理局(FDA)批准,用于治疗神经内分泌肿瘤和前列腺癌。方法我们回顾了有关靶向放射性核素治疗的临床研究,重点研究了物理参数与治疗结果之间的关系,并将放射生物学基本原理应用于放射性药物治疗,以确定影响治疗成功的关键因素。结果分析表明,仅凭平均吸收剂量不足以预测治疗反应或毒性。吸收剂量低于某一阈值时,治疗结果难以预测,而吸收剂量高于该阈值时,生物反应的可能性会增加。然而,即使吸收剂量较高,高原反应也表明需要更多参数来解释结果的可变性,包括靶点表达的异质性、解剖学疾病位置、(外)遗传学、DNA 修复能力和肿瘤微环境,这些方面将在本分析的第二部分进行讨论。需要更多剂量学数据来完善治疗方案。虽然吸收剂量至关重要,但它本身并不能决定 TRT 的结果。未来的研究应将生物参数与物理剂量测定结合起来,以提高疗效并将毒性降至最低。
期刊介绍:
The European Journal of Nuclear Medicine and Molecular Imaging serves as a platform for the exchange of clinical and scientific information within nuclear medicine and related professions. It welcomes international submissions from professionals involved in the functional, metabolic, and molecular investigation of diseases. The journal's coverage spans physics, dosimetry, radiation biology, radiochemistry, and pharmacy, providing high-quality peer review by experts in the field. Known for highly cited and downloaded articles, it ensures global visibility for research work and is part of the EJNMMI journal family.
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