36 W 4.2 #lB ImlA’rm FACIKRSTO CXNVBW’“INITTALIMILY IM’AKE QCi/d)” “UKiUKIDY’’C R’TISS!Wm(rmI)KR .—— Radimuclide & paid mlllf-137 initial -- .. — TO D~Pl!fUCXXCFDA3LY-’l .- .- —--—Liver Red C.E.D.E.b/ Slufaes 1.0 E-$/ 9.9 E-6 1.1 E+’ 9.4 E-6 1.0 E-5 2.2 E-4 2.0 E-5 2.2 E-4 2.0 E-4 2.2 E-4 smumnm-90 initial year 7.7 E-5 4.2 E-4 4.6 E-+ 9.2 E-4 3.1 H 0-30 year 1.6 E-3 8.7 E-3 9.5 E-5 1.9 E-2 6.4 E-5 1.5 E-1 2.3 E-1 2.3 E-2 2.8 E* 5. E-1 0-30 year 4.5 E+) 6.9 EiI 6.9 E-1 8.4 E-1 1.5 E-1 3&70 year 6.0 E-O 9.2 E-O 9.2 E-1 1.12 E-2 2.0 E-1 year *3O ysar 30-70 year 3&70 year FWKNIW239.-24O & MWKIUH-241 initial year ●fItisasmd thattbe daily diet remairs ccnstant, but that the mdicmdides in it Wle - X* e fin -pi_*/~. It iS ~ CJXW SW@J@U@. W m lE@8 (1987) which provides factors in 8v/Bq (= 3.8 x remdpiamrie), and is cmsistent tith UXP mamendatims (IW 1986, 1987). Itese factors allow for the fractim of radhudide akmrhed fran tbe gut, its distributica and residence time in the bdy, w abSOrPtiUI ad effectiveness of its raiiatim in the My, ad its rate of p@ical decay. bt -tted effective equivaled (uble-kdy -). Otk &ses are caunitted dose ES@valents (tissue &%e) . h C.E.D.E. is tbe m of the be equivakts to 11 _ of tbelxxty ofastdazd mhezd tighted by~risk result~f rmauoitdcse ti that tisswas ~totbexisk~ aunit &3etotiwbole body. CJ E-5 @ies: x 1(F3.