A higher incidence of radiation nephropathy is reported in pediatric t
han in adult patients. Preliminary experiments showed that juvenile ra
ts had lower renal tolerance than adult rats. The experiments reported
here were designed to determine the age at which tolerance changes an
d the magnitude of the change. Five-to 25-week-old rats were given bil
ateral kidney irradiation with 15-29 Gy X rays given in five fractions
. Renal function was assessed 4 and 6 months after irradiation. Isoeff
ect doses for renal dysfunction were 15.5-17.5 Gy for rats irradiated
at 5-8 weeks of age and 20.2-25.2 Gy for rats irradiated at 12+ weeks
of age. At 23 Gy, rats irradiated at 5.5 weeks of age developed renal
failure after 16 weeks; this increased to 21 weeks for irradiation at
7.5 weeks of age and to 27+ weeks for irradiation at 12-27 weeks of ag
e. Renal tolerance increased steadily for irradiation at ages between
5-10 weeks, and maximum tolerance was reached by 12-15 weeks of age; a
similar dependence on age at irradiation was found for bone marrow tr
ansplant nephropathy. The decrease in renal radiosensitivity with age
may partially explain the increased incidence of radiation nephropathy
in pediatric populations. (C) 1997 by Radiation Society.