The true absorption of 131I, and its transfer to milk in cows given different stable iodine diets

The influence of the stableiodine content in the diet on the absorption of radioiodine and its transfer to cow's milk was investigated for cows at different stages of lactation. Three different rates of stableiodine: a low intake rate of 4 mg d−1, a moderate intake of 35 mg d−1 and a high rate of 75 mg d−1 were fed to two groups of three lactating cows in mid- and late-lactation. The transfer to milk of a single oral administration of radioiodine was measured for the three different intake rates. The lactation phase had no significant effect on iodinetransfer to milk; therefore, the data from the two lactation groups were pooled for further statistical analyses. The mean transfer coefficient values for oral radioiodine to milk increased from 0.020 d l−1 for the low treatment to 0.024 d l−1 for the moderate stableiodine rate. There was a statistically significant decrease in the transfer to milk for the high stable dietary iodine intake rate (mean transfer coefficient=0.018 d l−1) compared with the moderate treatment. These differences were not due to effects on absorption since trueabsorption was complete for all three stableiodine treatments, but rather to differential affinities and saturation levels of the thyroid and milk pathways competing for the available iodine. The same behaviour and comparable values of transfer coefficients (range 0.015–0.020 d l−1) were observed for stableiodine.

[1]  H. Paretzke,et al.  Thyroid doses resulting from the Ukraine Chernobyl accident--Part I: Dose estimates for the population of Kiev. , 1994, Health physics.

[2]  J. Miller,et al.  Metabolism of ethylenediaminedihydriodide and sodium or potassium iodide by dairy cows. , 1973, Journal of dairy science.

[3]  G M Ward,et al.  Assessment of milk transfer coefficients for use in prediction models of radioactivity transport. , 1989, The Science of the total environment.

[4]  G. Schlapper Radionuclide Distribution and Transport in Terrestrial and Aquatic Ecosystems , 1986 .

[5]  N. Beresford,et al.  The effectiveness of oral administration of potassium iodide to lactating goats in reducing the transfer of radioiodine to milk , 1997 .

[6]  Gabriele Voigt,et al.  Influence of stable iodine on the transfer of131I into cows' milk , 1994, Radiation and environmental biophysics.

[7]  G. Semenza,et al.  The electrogenic, Na+-dependent I- transport system in plasma membrane vesicles from thyroid glands. , 1987, Biochimica et biophysica acta.

[8]  J. Miller,et al.  EFFECTS OF FEEDING POTASSIUM IODIDE, 3,5-DIIODOSALICYLIC ACID, OR L-THYROXINE ON IODINE METABOLISM OF LACTATING DAIRY COWS. , 1965, Journal of dairy science.

[9]  N A Beresford,et al.  Use of the true absorption coefficient as a measure of bioavailability of radiocaesium in ruminants , 1996, Radiation and environmental biophysics.

[10]  F. Owen Hoffman,et al.  The comparison of generic model predictions with chernobyl fallout data on the transfer of radioiodine over the air-pasture-cow-milk pathway , 1988 .

[11]  L. V. Middlesworth,et al.  FACTORS INFLUENCING THE THYROID UPTAKE OF IODINE ISOTOPES FROM NUCLEAR FISSION--A REVIEW. , 1963 .

[12]  G Voigt,et al.  Modeling the dynamics of radioiodine in dairy cows. , 1996, Journal of dairy science.

[13]  Lengemann Fw,et al.  METABOLISM OF I-131 BY DAIRY COWS DURING LONG TERM DAILY ADMINISTRATION OF THE RADIOISOTOPE. , 1964 .

[14]  E. W. Swanson,et al.  A Study of the Secretion of Iodine in Milk of Dairy Cows, Using Daily Oral Doses of I131, , 1957 .

[15]  B. Howard,et al.  A review of countermeasures to reduce radioiodine in milk of dairy animals. , 1996, Health physics.

[16]  F. Owen Hoffman,et al.  A Statistical Analysis Of Selected Parameters For Predicting Food Chain Transport And Internal Dose Of Radionuclides , 1979 .

[17]  J. Thompson,et al.  PROPHYLACTIC AND THERAPEUTIC MEASURES FOR RADIOIODINE CONTAMINATION. A REVIEW , 1963 .

[18]  P. Schramel,et al.  Iodine determination in biological materials by ICP-MS , 1994 .

[19]  G. Pröhl,et al.  Thyroid dose assessment for the Chernigov region (Ukraine): Estimation based on131I thyroid measurements and extrapolation of the results to districts without monitoring , 1994, Radiation and environmental biophysics.