This new code of practice for the determination of absorbed dose for x-rays below 300 kV has recently been approved by the IPEMB and introduces the following changes to the previous codes: (i) The determination of absorbed dose is based on the air kerma determination (exposure measurement) method. (ii) An air kerma calibration factor for the ionization chamber is used. (iii) The use of the F (rad/röentgen) conversion factor is abandoned and replaced by the ratio of the mass – energy absorption coefficients of water and air for converting absorbed dose to air to absorbed dose to water. New values for ratios of these coefficients are recommended. Perturbation and other correction factors are incorporated in the equations. (iv) New backscatter factors are recommended. (v) Three separate energy ranges are defined, with specific procedures for each range. These ranges are: (a) 0.5 to 4 mm Cu HVL; for this range calibration at 2 cm depth in water with a thimble ion chamber is recommended. (b) 1.0 to 8.0 mm Al HVL; for this range calibration in air with a cylindrical ion chamber and the use of tabulated values of the backscatter factor are recommended. (c) 0.035 to 1.0 mm Al HVL; for this range calibration on the surface of a phantom with a parallel-plate ionization chamber is recommended.
S C Klevenhagen, R J Aukett, R M Harrison, C Moretti, A E Nahum and K E Rosser
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Xstrahl to Highlight Superficial and Orthovoltage Radiotherapy Solutions for Skin Cancer and Selective Benign Conditions at ACRO Summit 2025 in Las Vegas
Xstrahl, a global leader in the delivery of superficial radiation therapy devices and preclinical radiation research systems, will demonstrate Xstrahl 200, a modern orthovoltage radiotherapy solution for treating superficial lesions, skin cancers, and selective benign conditions. Visit Xstrahl at booth 220 at the ACRO Summit 2025 – The Radiation Oncology Summit located at Planet Hollywood, Las Vegas, NV from March 12-15, 2025.
