Abstract
Boron neutron capture therapy (BNCT) is a cancer-selective radiotherapy that utilizes the cancer targeting 10B-compound. Cancer cells that take up the compound are substantially damaged by the high liner energy transfer (LET) particles emitted mainly from the 10B(n, α7Li reaction. BNCT can minimize the dose to normal tissues, but it must be performed within the tolerable range of normal tissues. Therefore, it is important to evaluate the response of normal tissues to BNCT. Since BNCT yields a mixture of high and low LET radiations that make it difficult to understand the radiobiological basis of BNCT, it is important to evaluate the relative biological effectiveness (RBE) and compound biological effectiveness (CBE) factors for assessing the responses of normal tissues to BNCT. BSH and BPA are the only 10B-compounds that can be used for clinical BNCT. Their biological behavior and cancer targeting mechanisms are different; therefore, they affect the CBE values differently. In this review, we present the RBE and CBE values of BPA or BSH for normal tissue damage by BNCT irradiation. The skin, brain (spinal cord), mucosa, lung, and liver are included as normal tissues. The CBE values of BPA and BSH for tumor control are also discussed.
Highlights
Boron neutron capture therapy (BNCT) is a cancer-targeting radiotherapy utilizing boron−10 (10 B), which efficiently absorbs thermal neutrons and releases high LET (230 keV/μm)
We present the relative biological effectiveness (RBE) and compound biological effect (CBE) values of BPA or BSH for normal tissue damage by BNCT irradiation
We summarize and discuss the normal tissue damage caused by BNCT
Summary
Boron neutron capture therapy (BNCT) is a cancer-targeting radiotherapy utilizing boron−10 (10 B), which efficiently absorbs thermal neutrons (cross section: 3830 barn) and releases high LET (230 keV/μm)
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