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  • Title: Dose-survival curves, alpha/beta ratios, RBE values, and equal effect per fraction for neutron irradiation of jejunal crypt cells.
    Author: Withers HR, Mason KA, Taylor JM, Kim DK, Smathers JB.
    Journal: Radiat Res; 1993 Jun; 134(3):295-300. PubMed ID: 8316621.
    Abstract:
    Jejunal crypt cell survival after regimens of one, two, three and five fractions was used to reconstruct composite single-dose survival curves for neutrons of five different energies. There is no obvious shoulder, but there is a gradual divergence from linearity that is most evident at low levels of cell survival (high doses). The effect of dose fractionation is relatively small, especially at the low doses characteristic of each treatment session in neutron radiotherapy. The alpha/beta values for the linear-quadratic survival curves range from 27 to 40 Gy. The curves for neutrons are different from the curves for gamma rays mainly in their alpha coefficients, as predicted by Kellerer and Rossi's theory of dual radiation action, but both alpha and beta values are higher the lower the mean neutron energy, which is not consistent with the theory. The ratio of alpha coefficients reported here for various neutron beams to those for gamma rays reported elsewhere ranges between 3.2 and 4.6. This range of values represents the maximum limits for RBEn/gamma values (at very low doses), and is sometimes referred to as RBEm. These values increase with decreasing neutron energy. The ratios of beta coefficients for neutron and gamma-ray survival curves were lower than the alpha ratios, ranging between 0.9 and 1.9, although not reliably distinguished from 1.0. Each of a series of equal dose fractions given at 3-h intervals produced a constant (logarithmic) decrease in cell survival as evidenced by the consistency of the estimate of cell survival from a certain single dose fraction, regardless of the level of cell survival (number of dose fractions) from which the estimate was made. Even more significant than the overlap of individual data points is the excellent fit of all the data to survival curves reconstructed on the assumption of an equal effect per fraction. An implication of these results is that, with neutrons, too little unrepaired injury persists at 3 h to influence the response to a subsequent exposure measurably.
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