Development and Dosimetry of an "Epithermal" Neutron Beam for Possible Use in Neutron Capture Therapy II. Absorbed Dose Measurements in a Phantom Man

Abstract

In order to evaluate the usefulness of an epithermal neutron beam (05 eV to 10 keV) for the neutron capture therapy procedure, a tissue -equivalent chamber was used to determine separately the depth-dose distributions from γ-rays, fast neutrons, and the ¹⁴N(n, p)¹⁴C reaction in a phantom man. Results showed that tumours deeper than 25 cm could not be treated with a thermal beam (assuming 35 μg of ¹⁰B per gramme of tumour, and a ratio of ¹⁰B in tumour to ¹⁰B in tissue of 3 to 1) because the ratio of tumour dose to maximum normal tissue dose (advantage factor) would have been less than unity. With the epithermal beam on the other hand advantage factors of 14 to 19 were obtained at all depths greater than 15 cm in the phantom head, assuming the same conditions as with the thermal beam. Advantage factors were found to be more sensitive to the absolute ¹⁰B concentration than to the ¹⁰B ratio in tumour to normal tissue. Improved depth-dose curves generated by the epithermal beam can solve the problem of rapid neutron attenuation encountered with thermal neutron beams.