Cattle Thyroids Research Articles

The effect of exposure on cattle thyroid after the Fukushima Daiichi nuclear power plant accident

Nuclear plant accidents can be a risk for thyroid cancer due to iodine radioisotopes. Near the Fukushima Daiichi nuclear power plant, cattle were exposed to radiation after the accident occurred in May 2011. Here we estimated the total radiation exposure to cattle thyroid and its effects on thyroid function. Until October 2016, the estimated external exposure dose in Farm A was 1416 mGy, while internal exposure dose of 131I, 134Cs, and 137Cs were 85, 8.8, and 9.7 mGy in Farm A and 34, 0.2, and 0.3 mGy in Farm B, respectively. The exposed cattle had thyroid with relatively lower weight and lower level of stable iodine, which did not exhibit any pathological findings. Compared with the control, the plasma level of thyroid-stimulating hormone (TSH) was higher in Farm A cattle born before the accident, while the plasma thyroxine (T4) was higher in Farm A cattle born after the accident, suggesting that exposed cattle showed slight hyperactivation of the thyroid gland. In addition, Farm A cattle have higher level of cortisol, one of the anterior pituitary gland-derived hormones. However, we did not observe a causal relationship between the radiation exposure and cattle thyroid.

Оценка дозы в щитовидной железе крупного рогатого скота с помощью камерной модели метаболизма йода и расчёта транспорта излучений методом Монте-Карло

Purpose: This work aims first to improve the reliability of absorbed dose calculation in critical organs of cattle during internal irradiation immediately after radiation accidents by a) improving the compartmental model of radionuclide metabolism in animal body; b) the use of precision computing technologies for modeling as the domain, and the actual radiation transport. In addition, the aim of the work is to determine the agreed values of the 131I critical dose in the cattle thyroid, leading to serious gland dysfunction and its follow-up destruction.
 Material and methods: To achieve aforecited goals, comprehensive studies were carried out to specify the parameters of the compartmental model, based on reliable experimental and theoretical data. Voxel technologies were applied for modeling the subject domain (thyroid gland and its environment). Finally, to solve the 131I radiation transport equation, the Monte Carlo code was applied, which takes into account the contribution of gamma and beta radiation source, and the contribution of the entire chain of secondary radiations in the dose calculation, up to the total energy dissipation.
 Results: As the main theoretical result, it is necessary to emphasize the conversion factor from the 131I activity, distributed uniformly in volume of the thyroid gland, to the average dose rate in the gland (Bq × Gy/s). This factor was calculated for both cows and calves in the selected domain configuration and thyroid morphology. The main practical result is a reliable estimation the lower bound of the absorbed dose in the thyroid, which in a short time leads to its destruction under internal 131I irradiation: ~300 Gy.
 Conclusion: Usage a compartmental model of the 131I metabolism with biokinetic parameters, received on the basis of reliable experimental data, and precise models of both the subject area and radiation transport for evaluation the dose in the cattle thyroid after the radiation accident allowed to obtain reliable values of the thyroid dose, adducting to its destruction at short notice.

Long-Lived Radioiodine in Japanese Environment

The amount of long-lived radioiodine, 129I (half-life 1.57·107 y) in the Japanese environment has been studied by measuring thyroids of humans and animals. The collected samples were thyroids of (1) humans in Ibaraki Prefecture, in Kanto district, the central part of Japan, (2) cattle in Aomori Prefecture, north part of Japan, and (3) wild deer in Chiba Prefecture, in Kanto district. The measured mean isotopic ratio 129I/127I for thyroids of cattle in Aomori Prefecture is 3.5±1.8·10-9. A higher value of 14±5·10-9 has been obtained for thyroids of wild deer in Kanto district. On the other hand, the measured ratio for human thyroids in Kanto district is 1±0.2·10-9. This value is significantly lower than that of cattle thyroids in Aomori and also those reported for human thyroids in Europe and USA. The higher mean ratio for cattle thyroid in Kanto district is possibly explained by the influence of nuclear reprocessing plant. Lower mean ratio for human thyroid might be due to higher dietary intake of algae.

Iodine deficiency in cattle: compensatory changes in thyroidal selenoenzymes

The trace elements selenium and iodine are both essential for normal thyroid hormone metabolism. To investigate the relationships between these functions, heifers were maintained on iodine-deficient or iodine-sufficient diets from mid pregnancy to term. In these heifers and their offspring the interrelationship between iodine and selenium was apparent with the preferential 10- to 12-fold induction of the selenoenzyme, thyroidal type I, selenium-containing iodothyronine deiodinase activity by iodine deficiency. This was accompanied by two- to four-fold increases in cytosolic glutathione peroxidase activity, probably reflecting increased oxidative activity and metabolism in the thyroid gland in response to iodine deficiency. The above selenoenzyme activities were not affected in liver, kidney, pituitary and brain by iodine deficiency. The results are consistent with a critical role for selenium in both the normal function of cattle thyroid and key enzymes to compensate for the effects of iodine deficiency.

Isotopic ratios of129I/127I in mammalian thyroid glands in Japan

The isotopic ratios of129I/127I in cattle thyroid glands collected from various areas of Japan were measured by neutron activation analysis with combustion pre-treatment. Pig and human thyroid glands were also analyzed by the same method. The iodine isotopic ratio in cattle thyroid glands in Japan is comparable with that observed in Europe. The isotopic ratio in human thyroid glands in Japan is remarkably lower than that in Europe, which has been reported to be comparable to that of cattle. The isotopic ratio in pig thyroid glands is also lower than that in cattle.

Fallout131I in western Nevada cattle thyroid glands: 1962-Early 1969

There has been continuing interest in historical fallout data. The authors have previously published data concerning the concentrations of fallout radioactive {sup 131}I in the thyroid glands of cattle from the Nevada Test Site and from commercial slaughter cattle. These data showed that bovine thyroid {sup 131}I was an effective monitor of both local and worldwide fresh nuclear fallout. This paper extends the data on commercial slaughter cattle from western Nevada through early 1969.

Detection of radioactive pollution by measuring 131iodine content in cattle thyroids – a follow up since 1974

Detection of radioactive pollution by measuring 131iodine content in cattle thyroids – a follow up since 1974

Natural 226Ra and 228Th in thyroids of cattle from Nigeria, W. Africa

Natural 226Ra and 228Th are concentrated in occasional cattle thyroids until the concentration has exceeded 10 times that found in bones of the same animals. These alpha emitters with their radioactive daughters have been found by gamma spectroscopy in less than 1 per cent of cattle from the U.S.A. and 10 per cent of cattle from the endemic goitre area of Colombia, South America. Recently, we have found that more than 80 per cent of thyroids from 103 cattle from Nigeria contained easily detectable quantities of 228Th, possibly mixed with 226Ra. Radioautographs of these thyroids revealed highly concentrated sources of alpha particles distributed throughout the thyroid. Measurements of the alpha tracks suggest that each 6·5-MeV alpha particle produces 9000 rad along its track and many of these tracks transverse thyroid cells. Therefore, the normal bovine thyroid can concentrate natural radium and this may constitute a source of some “naturally occurring” thyroid disease.

Concentrated sources of alpha particles within thyroid glands.

One to ten percent of normal bovine thyroids have been shown to contain radioactivity compatible with Ra and/or Th and their radioactive daughters. Radioautographs from thin slices of these thyroids showed concentrated, irregular, anisotropic bodies, 10-60 M* in longest dimension, intensely bombarding thyroidal cells with alpha particles. We have not proven thyroid disease to be caused by radium or thorium in thyroid glands but it is suggested that the natural incidence of some thyroid diseases may be caused by Ra and/or 22STh concentrated within the thyroid. {Endocrinology 91: 1534, 1972) R and thorium have been shown to concentrate in the thyroids of occasional cattle and the concentration in such thyroid glands was 10-20 times greater than in the teeth of the same animals (1). During the past 2 yr we have prepared radioautographs of 13 bovine thyroids which were found to contain gamma spectra of radium and/or thorium. Six of these glands had been preserved by immersion in paraformaldehyde powder in sealed containers for 6 yr before radioautographs were prepared. Materials and Methods Thyroids of cattle slaughtered in Tennessee, Colorado, Japan, Taiwan, New Zealand and Colombia were routinely monitored for I using a 2-inch Nal scintillation crystal. In Colombia, goiter is endemic (2) and 90% of the glands from Colombia were abnormally large; approximately 10% of them contained measurable radioactivity with a long halflife and gamma spectra of radium daughters. Five thyroids with gamma spectra of Ra and Th were previously studied by coincidence spectroscopy (1) and they were proven to contain from 0.8-4.0 pCi of Ra and Th per g of thyroid. The glands with long-lived radioactivity were preserved in 10% formalin, imbedded in paraffin, and sectioned at 510 n in thickness and placed upon microscope slides. They were coated with Kodak NTB2 emulsion (Eastman Kodak Co.), dried and exposed in sealed boxes Received June 13, 1972. in a refrigerator for 3, 8 and 13 months. They were developed in Dektol or D-76 developer (Eastman Kodak Co.), fixed and stained with hematoxylin. The radioautographs were examined by phase contrast, and light microscopy with and without crossed polaroids. Results and Discussion All thyroids with long-lived radioactivity contained numerous anisotropic bodies 10-60 \i in longest dimension, and radioautographs showed these bodies to be surrounded by alpha tracks which extended 20-50 jx into the emulsion (Figs. 1 and 2). Many of the radioactive bodies were located within the colloid, against the follicular cells. Alpha, beta and gamma radiation from the radioactive bodies bombarded surrounding cells and in some areas there was proliferation of cells near the radioactive bodies but the preparations were not adequate to prove the cells to be normal or abnormal. The radioactive bodies in these bovine thyroids may be the major sources of measurable daughters of radium and thorium in the glands. Most of the radioactive bodies were as in Fig. 1, within the colloid but many of the bodies were as in Fig. 2, fixed in position and surrounded by cells. It is possible that in vivo the gaseous intermediate daughters, Rn and Rn, might partially diffuse away from the radioactive bodies and deposit their daughters elsewhere. Ten glands from human beings and 12 from cattle, all with no measurable radioactivity in NOTES AND COMMENTS 1535 FIGS. 1 and 2. Photomicrographs of radioautographs made from the thyroid of a cow slaughtered in Memphis, Tennessee. Photographic emulsion exposed 225 days, alpha tracks are shown as straight dotted lines eminating from radioactive bodies. Length indicator represents SO \i. FIG. 1. Radioactive bodies are within a follicle where a fraction of the alpha radiation is absorbed by follicular cells and the remainder by colloid. the 2-inch scintillation crystal, were processed as controls to eliminate the possibility of artifacts. No alpha tracks were found in the specimens from human subjects after 6-11 months of exposure of the radioautographs. Slides from three of the 12 cattle had 1-3 radium bodies as shown in Fig. 1 except that only 3-6 alpha tracks appeared after 6 months' exposure. It was concluded that radioautographic detection was more sensitive than gamma radiation measurement. Radium is ubiquitous in nature but normally FIG. 2. Radioactive bodies outside of follicles where most of the alpha radiation is absorbed by cells.

I131 content in milk, grass, and cattle thyroids in Czechoslovakia after the atmospheric nuclear explosions of 1964?1966

I131 content in milk, grass, and cattle thyroids in Czechoslovakia after the atmospheric nuclear explosions of 1964?1966

LONG-LIFE RADIOACIVITY IN OCCASIONAL THYROIDS.

IN January and February 1964 radioiodine-131 in cattle and sheep thyroids of the northern hemisphere reached the lowest concentrations (< 0.5 µµc./g) and for the longest time in the past 10 years (see ref. 1 for previous results). The lack of interference by iodine-131 and improved instrumentation have permitted γ-spectroscopy of small amounts of long-life radioactive substances in thyroids and some of these could mistakenly be considered iodine-131. In the first two months of 1964, 1–10 per cent of 520 cattle thyroids were detectably radioactive; the glands were received, unselected, from slaughterhouses in several countries, and the sources reported here were (number radioactive/number not detectably radioactive): Cali, Colombia (10/95); Tokyo, Japan (6/94); South Central United States (2/250).

THE RELATIONSHIP BETWEEN I-131 CONCENTRATIONS IN VARIOUS ENVIRONMENTAL SAMPLES.

A study was made of the relationship between I/sup 131/ concentrations in air, vegetation, milk, and cattle thyroids in the vicinity of Hanford during the period January 1961, through April, 1963. Some insight into mechanisms of I/ sup 131/ passage down the food chain to man is provided and the rate at which I/ sup 131/ concentrations decrease following relatively acute depositions of fallout materials is illustrated. The major source of the I/sup 131/ was fallout of debris from nuclear weapons tests. Concentrations noted during periods of testing were 10--100 times those found when no testing was in progress. Fresh milk constituted the principal mode of intake of I/sup 131/for persons residing in the Hanford environs. Concentrations in milk sample collected from 10cal dairy farms averaged about 50 pC I/sup 131//1 during 1961, and 40 pC/1 during 1962. The potential radiation dose received by a small child (with a 2 g thyroid) via milk consumption was estimated to be about 400 times that received via inhalation during the period under study. For an adult (with a 20 g thyroid) the ratio of thyroid exposure via milk to that via inhalation was estimated to be about 40 to 1. (auth)

Comparative study of endemic goitre in man and cattle in Israel.

ABSTRACT A parallelism in the incidence of human and bovine goitre in the northern part of Israel is described. Among 1475 children and adolescents from 8–18 years of age of both sexes and examined from Upper Galilee an average incidence of goitre of more than 10% was found. A three years follow up study showed an increase in percentage of goitre to 30% among girls. No cretins or deaf or dumb subjects were found. Thyroid weights of 385 heads of cattle slaughtered at the slaughter-houses or on the farms were determined. While the mean weight of thyroids of cattle from a non-endemic control area was 17.7 g the mean weight for the goitrous area attained 23.4 g. The mean relative thyroid weights for the control and goitrous areas were 3.75 and 6.98 g/100 kg respectively. The histopathological examination of several excised non selected thyroids from Upper Galilee showed pathological findings: hyperplasia, fibrosis, nodular goitre. These data are the first evidence of the incidence of endemic goitre of cattle in Israel and suggest most strongly that here the unfavourable environment plays a decisive role among the factors which influence the weight of bovine thyroids.

Bovine thyroid iodine-131 concentrations subsequent to Soviet nuclear weapon tests.

The iodine-131 concentration in thyroids of cattle slaughtered in Reno, Nevada, was measured during and following recent atmospheric nuclear weapon tests by the U.S.S.R. The iodine-131 concentration rose rapidly to a maximum and then declined with an apparent half-life of 7 days after conclusion of the test series. The average dose to bovine thyroids from this test series was estimated to be 17 rads.

Radioactive content of some cattle thyroids following the recent Russian nuclear tests.

Activity measurements were carried out on thyroid glands from heifers which were removed from pasture 1 to 2 days previously and killed 3 days after the date of maximum fall-out (Nov. 1961, Northern Ireland). The activity ranged from 5.6 to 31 mu c/kg and was identified as I131 Geiger counter and scintillation scans of the neck of a young Person handling the thyroids did not reveal any activity ascribable to the cattle thyroids.

Thyroid radioactivity after nuclear weapons tests.

In 1954 it was shown that nuclear weapons tests had produced radioactive materials (primarily iodine-131) that were accumulated and detectable in the thyroid glands of livestock in the United States (I). Further survey values for both man and animals have been presented in U.S. Atomic Energy Commission reports and in the open literature (2-4). The magnitude and pattern with time of radioactivity levels in the thyroids are of interest because (i) there is provided an alert to any build-up of potentially hazardous levels; (ii) as relationships are developed, radioiodinc measurements could serve as a sensitive monitoring system for other fallout nuelides less easili detected in the hiosphere; (iii) information may be obtained on the movement of radioiodine particularly in the biological system; and (iv) there could be an interference with medical diagnostic tests that employ low levels of radioiodine. This paper (5) summarizes the information that has been obtained on the levels of iodine-13 1 in human and cattle thyroids and presents an estimate of milk levels in the United States during the period from January 1955 to December 1956. Correlation with known bomb tests is noted, and some inferences are drawn about routes of exponire.

A Study of the Secretion of Iodine in Milk of Dairy Cows, Using Daily Oral Doses of I1311,2

The authors have traced the secretion of iodine to the fat and nonfat fractions of milk, through the normal pathways of excretion and to its retention in the blood and thyroid. They have also demonstrated the usefulness of the isotope dilution method for studying trace mineral metabolism. Editor. The metabolism of iodine by the dairy cow has been of interest for many years. However, owing to the lack of reliable techniques adaptable to routine analyses, the secretion of iodine into milk has not been studied in detail. The advent of nuclear fission markedly increased the amount of research concerning iodine metabolism by providing radioactive nuclides which, though chemically indistinguishable from the nonradioactive iodine, are readily detected by their reactions. Also, the observation of Van Middlesworth (16) that radioactive iodine with a half-life of 8 days could be detected in the thyroids of cattle in many parts of the country in the summer of 1954, made it of more than academic interest to learn more about the secretion of iodine into milk. The secretion of I TM in milk has been studied by Honour et al. (7) in hmnans, in a rabbit and goats by Wright et al. (19), and in a dairy cow by Glascoek (3). All of these studies charted the fate of a single administration of I TM. Since exposure of grazing animals to radioactive fall-out is likely to be for a period of several days, it is desirable to know how continuous administration affects the secretion of I TM in milk. The daily administration of a radioactive isotope has been used by Van Middlesworth (17) to study iodine metabolism in the rat, by Visek et al. (18) using Ca 45 in dairy cattle, and by Comar et al. (2) with Sr 9° in rats. The experiments reported in this paper show a comparison of the results of single administrations of I TM with the results of daily dosing experiments. An

Radioactivity in Animal Thyroid Glands

Iodine-131 activity was readily found in thyroid glands from grazing animals in Arizona, Pennsylvania, Ohio, and Oregon within 2 weeks following the start of the 1956 US Pacific atomic weapons tests. A progressive increase was noted in the proportion of samples which were active from mid-May to mid-October, at which time the study was terminated. Based on the Arizona and Ohio data, the average weekly dosages from mid-May to mid-October to cattle and sheep were 35 and 120 milli-roentgen equivalent physical, respectively, apparently harmless to the health of animals. It is suggested that the average cattle /sup 131/I level found in this study is approximately the average continuously existing in US cattle during the past 2 or 3 years. Theoretical considerations indicate that with the levels of /sup 131/I found in cattle thyroids, detectable amounts of /sup 131/I would have been secreted with the fresh milk produced in these areas.

Metabolism of radioiodine by the near-term bovine fetus.

THE development of the thyroid gland in a placental organism presents certain highly interesting problems which invite investigation. More complete understanding of the interrelationship of the maternal thyroid-pituitary balance and that of the corresponding endocrine organs of the fetus seems especially worth while. That this interrelationship may be important appears to be indicated by the frequency of goiters during and after human pregnancy (Hiilesmaa, 1948). In studies of this problem the fetal bovine thyroid presents certain advantages because of its relatively large size. Indeed, recent analytical work by Wolff et al. (1949) and Koneff et al. (1949) has served to demonstrate that measurable amounts of organic iodine begin to accumulate in the thyroids of cattle as early as the sixtieth day of gestation (total gestation period of about 285 days). Furthermore, they have made the interesting observation that thyroxine is already present at this early stage, and that subsequently it increases in propor...