Nominal Volume [cc]
60  [Gy]
70 [Gy]
80 [Gy]
A B A B A B
3000
-1.05
-0.13
-1.23
-0.15
-1.32
-0.18
4000
-0.94
-0.12
-1.16
-0.13
-1.21
-0.15
5000
-0.44
-0.17
-0.70
-0.18
-1.08
-0.14
6000
-0.32
-0.16
-0.69
-0.14
-0.84
-0.16
Table 1: Power law coefficients A and B used in establishing analytic fits to the curves presented in Figure 5. The relative volumes, corresponding to different radii, cane be derived from the power law coefficients by the equation Relative Volume =10(A+B×rangeo of motion).