Radiation dose-fractionation effects in spinal cord: comparison of animal and human data

Purpose Recognizing spinal cord dose limits in various fractionations is essential to ensure adequate dose for tumor control while minimizing the chance of radiationinduced myelopathy ( RIM). This study aimed to determine the alpha/beta ratio of the spinal cord and the cord dose limit in terms of BED50, the biological equivalent dose (BED) that induces 50 % chance of RIM, by fitting data collected from published animal and patient studies. Methods RIM data from five rat studies; three large animal studies on monkeys, dogs, and pigs; and 18 patient studies were included for the investigation. The alpha/beta ratios were derived, respectively, for rat (group A), large animal (group B), patient (group C), and combined data (group D). Results The alpha/beta ratio (and its 95 % confidental interval) was 4.1 (3.2, 5.0) or 3.6 (2.6, 4.6) Gy for group A, depending on fitting algorithms. It was 3.9 (3.0, 4.8), 3.7 (2.2, 8.2) and 3.9 (3.0, 4.9) for groups B, C, and D, respectively. BED50 was 111 Gy for the combined data. It corresponds to a D50 of 73.4 Gy in 2 Gy/FX, or 19.0 Gy in single fraction. BED5, which is the BED to induce 5 % of RIM, was calculated to be 83.9 Gy. It corresponds to D5 of 55.4 Gy in 2 Gy/FX, or 16.2 Gy in single fraction. Conclusion The study showed that all four groups had similar alpha/beta ratios close to 3.9 Gy, suggesting that the spinal cord has a similar fractionation effect for different species, including human beings.