[en] Purpose: To determine the oxygen enhancement ratio (OER) and shape of the oxygen sensitization curve of mouse foot skin, the extent to which glutathione (GSH) depletion radiosensitized skin, and the dependence of such sensitization on the ambient oxygen tension. Methods and Materials: The feet of WHT mice were irradiated with single doses of 240 kVp x-rays while mice were exposed to carbogen or gases with oxygen/nitrogen mixtures containing 8-100% O₂. The anoxic response was obtained by occluding the blood supply to the leg of anesthetized mice with a tourniquet, surrounding the foot with nitrogen, and allowing the mice to breathe 10% O₂. Further experiments were performed to assess the efficacy of this method to obtain an anoxic response. Radiosensitivity of skin was assessed using the acute skin-reaction assay. Glutathione levels were modified using two schedules of dl-buthionine sulphoximine (BSO) and diethylmaleate (DEM), which were considered to produce extensive and intermediate levels of GSH depletion in the skin of the foot during irradiation. Results: Carbogen caused the greatest radiosensitization of skin, with a reproducible enhancement of 2.2 relative to the anoxic response. The OER of 2.2 is lower than other reports for mouse skin. This may indicate that the extremes of oxygenation were not produced, although there was no direct evidence for this. When skin radiosensitivity was plotted against the logarithm of the oxygen tension in the ambient gas, a sigmoid curve with a K value of 17-21% O₂ in the ambient gas was obtained. Depletion of GSH caused minimal radiosensitization when skin was irradiated under anoxic or well-oxygenated conditions. Radiosensitization by GSH depletion was maximal at intermediate oxygen tensions of 10-21% O₂ in the ambient gas. Increasing the extent of GSH depletion led to increasing radiosensitization, with sensitization enhancement ratios of 1.2 and 1.1, respectively, for extensive and intermediate levels of GSH depletion. In mice exposed to 100% O₂, a significant component of skin radiosensitivity was due to diffusion of oxygen directly through the skin. Pentobarbitone anesthesia radiosensitized skin in mice exposed to 100% O₂ by a factor of 1.2, but did not further sensitize skin in mice exposed to carbogen. Conclusions: Glutathione levels and the local oxygen tension at the time of irradiation were important determinants of mouse foot skin radiosensitivity. The extent to which GSH levels altered the radiosensitivity of skin was critically dependent on the local oxygen tension. These results have significant implications for potential clinical application of GSH depletion

[en] The rate and early pain pattern of development of radiation-induced renal damage has been determined in the mouse by measuring reductions in both haematocrit and excretion of ⁵¹Cr-EDTA, and increases in both urination frequency and in urine volume. Kidneys of CBA mice were irradiated bilaterally with 2 fractions of X-rays, one week apart. Renal function was determined immediately prior to irradiation and at 3-4 weekly intervals to 22 weeks post-irradiation. Onset of damage was detected as early as 3-6 weeks using the urination frequency assay. This was confirmed by estimating the volume of urine excreted. A significant fall in haematocrit was not detected until 6-9 weeks post-treatment and a fall in isotope clearance was not detected significantly until 12 weeks. This early detection of damage was consistent with reports using both mouse and other species. The time at which damage was detected first was independent of radiation dose for the frequency and haematocrit assays. For ⁵¹Cr-EDTA clearance, there was the suggestion of earlier functional loss for the higher doses. Following the onset of damage, a steady, dose-dependent decline in renal function was measured by all assays. The latency period is defined as the time required to reach a given level of functional damage. This time decreased with increasing radiation dose, to a minimum value set by the time of onset of damage, which varied from 3-12 weeks, depending on the assay used. The differences in response measured prior to 12 weeks post-irradiation represent the first occasion on which a dissociation between these 3 assays has been detected. The radiation-induced anaemia was characterised as normocytic with no evidence of haemolysis. (author). 21 refs.; 5 figs.; 1 tab