Annex D. Dose coefficients for the embryo/fetus: Radioisotopes of sodium,magnesium,phosphorus,and potassium

Aarkrog A. , 1963. Cesium-137 from fall-out in human milk. Nature 197, 667–668.

Ahlgren L. Ivarsson S. Johansson L. Mattsson S. Nosslin B. , 1985. Excretion of radionuclides in human breast milk after administration of radiopharmaceuticals. J. Nucl. Med. 26, 1085–1090.

Ahres S. Quero J. Duran S. Presas M.J. Herruzo R. de Escobar G.M. , 1994. Iodine content of infant formulas and iodine intake of premature babies: high risk of iodine deficiency. Arch. Dis. Child. 71, F184–F191.

Alaimo K. McDowell M.A. Briefel R.D. Bischof A.M. Caughman C.R. Loria C.M. Johnson C.L. , 1994. Dietary intake of vitamins, minerals, and fiber of persons aged 2 months and over in the United States: third national health and nutrition examination survey, phase 1, 1988–91, Advance Data 258. US Department of Health and Human Services, National Center for Health Statistics, Hyattsville, MD, USA.

Allen L.H. , 1982. Calcium bioavailability and absorption: a review. Am. J. Clin. Nutr. 35, 783–808.

Anderson R. , 1990. Trace elements in milk of guinea-pigs. J. Dairy Sci. 73, 2327–2332.

Anke M. Groppel B. Krause U. Arnhold W. Langer M. , 1991. Trace element intake (zinc, manganese, copper, molybdenum, iodine and nickel) of humans in Thuringia and Brandenburg of the Federal Republic of Germany. J. Trace Elem. Electrolytes Health Dis. 5, 69–74.

Anke M. Groppel B. Müller M. Glei M. Krämer K. Angelow L. , 1993. Die Versorgung Erwachsener mit Spurenelementen (Zink, Kupfer, Molybdän, Eisen, Mangan, Nickel, Kadmium, Lithium) in Mitteleuropa. In: Ebersdobler H. Wolfram G. (Eds.), Echte und vermeintliche Risiken in der Ernährung. Wissenschaftliche Verlags-Gesellschaft mbH, Stuttgart, pp. 113–125.

Aquilio E. Spagnoli R. Seri S. Bottone G. Spennati G. , 1996. Trace element content in human milk during lactation of preterm newborns. Biol. Trace Elem. Res. 51, 63–70.

Arnaud J. Favier A. , 1995. Copper, iron, manganese and zinc contents in human colostrum and transitory milk of French women. Sci. Total Environ. 159, 9–15.

Azeredo A.M.G.F. Lipsztein J.L. Miekeley N.T. , 2000. Simultaneous determination of Ni, Nb, U and Th in urine and fecal samples using ICR-MS. In: Proceedings of the 10th IRPA International Congress, Hiroshima, Japan.

Bakic P.R. Albert M. , 2002. Mammogram synthesis using a 3D simulation. I. Breast tissue model and image acquisition simulation. Med. Phys. 29, 2131–2139.

Bakic P.R. Albert M. Brzakovic D. Maidment A.D.A. , 2003. Mammogram synthesis using a 3D simulation. II. Modeling and evaluation of the breast ductal network. Med. Phys. 30, 1914–1925.

Becker W. Kumpulainen J. , 1991. Contents of essential and toxic mineral elements in Swedish market-basket diets in 1987. Br. J. Nutr. 66, 151–160.

Bengtsson L.G. Naversten Y. Svensson K.G. , 1964. Maternal and infantile metabolism of caesiumAssessment of Radioactivity in Man, vol. II. IAEA, Vienna, pp. 21–32.

Berkovski V. , 1999a. Radioiodine biokinetics in the mother and fetus. Part 1. Pregnant woman. In: Radiation and Thyroid Cancer. Publication No. EUR 18552 EN. World Scientific Publishing, London, UK, pp. 319–325.

Berkovski V. , 1999b. Radioiodine biokinetics in the mother and fetus. Part 2. Fetus. In: Radiation and Thyroid Cancer. Publication No. EUR 18552 EN. World Scientific Publishing, London, pp. 327–332.

Berkovski V. , 2002. New iodine models family for simulation of short-term biokinetics processes, pregnancy and lactation. Food Nutr. Bull. 23 (Suppl), 87–94.

Bertelli L. Oliveira C.A.N. Lipsztein J.L. Wrenn M.E. , 1992. A case study of the transfer of ¹³⁷Cs to the human fetus and nursing infant. Radiat. Prot. Dosim. 41, 131–136.

Biego G.H. Joyeux M. Hartemann P. Debry G. , 1998. Daily intake of essential minerals and metallic micropollutants from foods in France. Sci. Total Environ. 217, 27–36.

Bland E.P. Crawford J.S. Docker M.F. Farr R.F. , 1969. Radioactive iodine uptake by thyroid of breast-fed infants after maternal blood-volume measurements. Lancet 15, 1039–1041.

Bliznakova K. Bliznakov Z. Bravou V. Kolitsi Z. Pallikarakis N. , 2003. A three-dimensional breast software phantom for mammography simulation. Phys. Med. Biol. 48, 3699–3710.

Bocca B. Alimonti A. Coni E. Di Pasquale M. Giglio L. Piccioli Bocca A. Caroli S. , 2000. Determination of the total content and binding pattern of elements in human milk by high performance liquid chromatography-inductively coupled plasma atomic emission spectrometry. Talanta 53, 295–303.

Brambell F.M.R. , 1970. Transmission of passive immunity from mother to young. Front. Biol. 18.

Bro S. Sandstrom B. Heydorn K. , 1990. Intake of essential and toxic trace elements in a random sample of Danish men as determined by the duplicate portion sampling technique. J. Trace Elem. Electrolytes Health Dis. 4, 147–155.

Bryant F.J. Loutit J.F. , 1961. Human bone metabolism deduced from strontium assays. AERE-R 3718. AERE, Harwell.

Butte N.F. Calloway D.H. , 1981. Evaluation of lactational performance of Navajo women. Am. J. Clin. Nutr. 34, 2210–2215.

Butte N.F. Garza C. , 1985. Energy and protein intakes of exclusively breast-fed infants during the first four months of life. In: Gracey M. Falkner F. (Eds.), Nutritional Needs and Assessment of Normal Growth, Nestle Nutrition Series. Raven Press, New York, pp. 63–83.

Campas Venuti G. Risici S. Rogani A. , 1991. Radioactive caesium contamination in human milk in Italy after the Chernobyl accident. Radiat. Prot. Dosim. 37, 43–49.

Carvalho M.D. Robertson S. Friedman A. Klaus M. , 1983. Effect of frequent breast-feeding on early milk production and infant weight gain. Pediatrics 72, 307–311.

Casey C.E. Neville M.C. , 1987. Studies in human lactation 3: molybdenum and nickel in human milk during the first month of lactation. Am. J. Clin. Nutr. 45, 921–926.

Casey C.E. Hambridge K.M. Neville M.C. , 1985. Studies in human lactation: zinc, copper, manganese and chromium in human milk in the first month of lactation. Am. J. Clin Nutr. 41, 1193–1200.

Caywood K. Ice R. Hertel N. , 1997. Biokinetic model for ¹³⁷Cs in the fetus. Health Phys. 73, 736–746.

Chan G.M. McMurry M. Westover K. Engelbert-Fenton K. Thomas M.R. , 1987. Effects of increased dietary calcium intake upon the calcium and bone mineral status of lactating adolescent and adult women. Am. J. Clin. Nutr. 46, 319–323.

Chandra R.K. , 1981. Breast feeding, growth and morbidity. Nutr. Res. 1, 25–31.

Chiba M. Ichikawa R. , 1968. Secretion rate of dietary iodine in human milk. J. Radiol. Res. 9, 12–18.

Clarke R.M. Hardy R.N. , 1971. Structural changes and the uptake of polyvinyl pyrrolidone in the small intestine. J. Anat. 108, 79–87.

Comar C.L. , 1961. Absorption, excretion, and retention of strontium by breast-fed and bottle-fed babies. Lancet 1, 950–951.

Comar C.L. , 1963. Some overall aspects of strontium-calcium discrimination. In: Wasserman R.H. (Ed.), The Transfer of Calcium and Strontium Across Biological Membranes. Academic Press, New York, pp. 405–416.

Conacher H.B.S. , 2003. Canadian Total Diet Study, 1993–1996. Food Research Division, Bureau of Chemical Safety, Food Directorate, Health Products and Food Branch, Health Canada, Ottawa, Ontario K1A 0L2.

Coni E. Falconieri P. Ferrante E. Semeraro P. Beccaloni E. Stacchini A. Caroli S. , 1990. Reference values for essential and toxic elements in human milk. Ann. 1st. Super. Sanita 26, 119–130.

Coughtrey P.J. Thorne M.C. , 1983a. Radionuclide Distribution and Transport in Terrestrial and Aquatic Ecosystems: a Critical Review of Data, vol. 1. A.A. Balkema, Rotterdam, pp. 280–303.

Coughtrey P.J. Thorne M.C. , 1983b. Radionuclide Distribution and Transport in Terrestrial and Aquatic Ecosystems: a Critical Review of Data, vol. 1. A.A. Balkema, Rotterdam, pp. 455–490.

Coughtrey P.J. Jackson D. Jones C.H. Kane P. Thorne M.C. , 1984a. Radionuclide Distribution and Transport in Terrestrial and Aquatic Ecosystems, vol. 4. Balkema, Rotterdam (Chapter 29, pp. 1–462).

Coughtrey P.J. Jackson D. Jones C.H. Thorne M.C. , 1984b. Americium Radionuclide Distribution and Transport in Terrestrial and Aquatic Ecosystems, vol. 5. A.A. Balkema, Rotterdam, pp. 1–183.

Cowie A.T. , 1974. Overview of the mammary gland. J. Invest. Dermatol. 63, 2–9.

Cristy M. Eckerman K.F. , 1987. Specific Absorbed Fractions of Energy at Various Ages from Internal Photon Sources. ORNL/TM-8381/v1–7. Oak Ridge National Laboratory, Oak Ridge, Tennessee.

Cross N.A. Hillman L.S. Allen S.H. Krause G.F. Vieira N.E. , 1995. Calcium homeostasis and bone metabolism during pregnancy, lactation and postweaning: a longitudinal study. Am. J. Clin. Nutr. 61, 514–523.

Dabeka R.W. McKenzie A.D. , 1995. Survey of lead, cadmium, fluoride, nickel, and cobalt in food composites and estimation of dietary intakes of these elements by Canadians in 1986–1988. J. Assoc. Official Analyt. Chem. Int. 78, 897–909.

Davis O.K. Hawkins D.S. Rubin L.P. Posillico J.T. Brown E.M. Schiff I. , 1988. Serum parathyroid hormone (PTH) in pregnant women determined by an immunoradiometric assay for intact PTH. J. Clin. Endocrinol. Metab. 67, 850–852.

de Bertoli M. Gaglioni P. , 1972. Radium-226 in environmental materials and foods. Health Phys. 22, 43–48.

Dewey K.G. Lonnerdal B. , 1983. Milk and nutrient intake of breast-fed infants from 1 to 6 months: relation to growth and fatness. J. Ped. Gastroenterol. Nutr. 2, 497–506.

Dewey K.G. Finlay D.A. Lonnerdal B. , 1984. Breast milk volume and composition during late lactation (7–20 months). J. Ped. Gastroenterol. Nutr. 3, 713–720.

Dewey K.G. Cohen R.J. Brown K.H. Rivera L.L. , 1999. Age of introduction of complementary foods and growth of term, low-birth-weight, breast-fed infants: a randomized intervention study in Honduras. Am. J. Clin. Nutr. 69, 679–686.

Domellof M. Lonnerdal B. Dewey K.G. Cohen R.J. Hernell O. , 2004. Iron, zinc, and copper concentrations in breast milk are independent of maternal mineral status. Am. J. Clin. Nutr. 79, 111–115.

Donley S.A. Ilagan B.J. Rim H. Linder M.C. , 2002. Copper transport to mammary gland and milk during lactation in rats. Am. J. Physiol. Endocrinol. Metab. 283, E667–E675.

Dorea J.G. , 2000. Iron and copper in human milk. Nutrition 16, 209–220.

Dorea J.G. Miazaki E.S. , 1999. The effects of oral contraceptive use on iron and copper concentrations in breast milk. Fertil. Steril. 72, 297–301.

Dostal L.A. Hopfer S.M. Lin S.M. Sunderman F.W. Jr. , 1989. Effects of nickel chloride on lactating rats and their suckling pups, and the transfer of nickel through rat milk. Toxicol. Appl. Pharmacol. 101, 220–231.

Dydek J.C. Blue P.W. , 1988. Human breast milk excretion of iodine-131 following diagnostic and therapeutic administration to a lactating patient with Graves' disease. J. Nucl. Med. 29, 407–410.

Ekman L. Åberg B. , 1961. Excretion of niobium-95, yttrium-91, cerium-144 and promethium-147 in goats. Res. Vet. Sci. 2, 100–105.

Ellen G. Egmond E. Van Loon J.W. Sahertian E.T. Tolsma K. , 1990. Dietary intakes of some essential and non-essential trace elements, nitrate, nitrite and N-nitrosamines, by Dutch adults: estimated via a 24 hour duplicate portion study. Food Addit. Contamin. 7, 207–221.

Endo A. Yamaguchi Y. Eckerman K.F. , 2003. Development and assessment of a new radioactive decay database use for dosimetry calculation. Radiat. Prot. Dosim. 105, 565–569.

Endo A. Yamaguchi Y. Eckerman K.F. , 2004. Nuclear decay data for dosimetry calculation. Revised data of ICRP Publication 38. To be published as a Japanese Atomic Energy Research Institute (JAERI) report.

Erf L.A. , 1941. Secretion of orally administered radio-iron in the milk of cows. Proc. Soc. Exp. Biol. Med. 46, 284–287.

Feeley R.M. Eitenmiller R.R. Jones J.B. Jr. Barnhart H. , 1983. Copper, iron, and zinc contents of human milk at early stages of lactation. Am. J. Clin. Nutr. 37, 443–448.

Fell T.P. Harrison J.D. Leggett R.W. , 1998. A model for the transfer of calcium and strontium to the fetus. Radiat. Prot. Dosim. 79, 311–316.

Fell T.P. Harrison J.D. Leggett R.W. , 2001. A model for the transfer of alkaline earth elements to the fetus. Radiat. Prot. Dosim. 95, 309–321.

Fill U.A. Zankl M. Petoussi-Henss N. Siebert M. Regulla D. , 2004. Adult female voxel models of different stature and photon conversion coeffcients for radiation protection. Health Phys. 86, 253–272.

Flynn A. , 1992. Minerals and trace elements in milk. Adv. Food Nutr. Res. 36, 209–252.

Fransson G-B. Lonnerdal B. , 1980. Iron in human milk. J. Pediatr. 96, 380–384.

Fransson G.B. Gebre-Medhin M. Hambraeus L. , 1984. The human milk contents of iron, copper, zinc, calcium and magnesium in a population with a habitually high intake of iron. Acta Paediatr. Scand. 73, 471–476.

Friel J.K. Andrews W.L. Jackson S.E. Longerich H.P. Mercer C. McDonald A. Dawson B. Sutradhar B. , 1999. Elemental composition of human milk from mothers of premature and full-term infants during the first 3 months of lactation. Biol. Trace Elem. Res. 67, 225–247.

Fritsch P. Moutairou K. Lataillade G. Beauvallet M. L'Huilier I. Lepage M. Metivier H. Masse R. , 1988. Localisation of plutonium retention in the small intestine of the neonatal rat, guinea pig, baboon and macaca after Pu-citrate ingestion. Int. J. Radiat. Biol. 54, 537–543.

Fung F.B. Ritchie L.D. Woodhouse L.R. Poehl R. King J.C. , 1997. Zinc absorption in women during pregnancy and lactation: a longitudinal study. Am. J. Clin. Nutr. 66, 80–88.

Gall M. Mahler S. Wirth E. , 1991. Transfer of ¹³⁷Cs into mother's milk. J. Environ. Radioact 14, 331–339.

Garner R.J. Jones H.G. Ekam L. , 1960. Fission products and the dairy cow. 1. The fate of orally administered cerium-144. J. Agric. Sci. 55, 107–108.

George D.E. Lebenthal E. , 1981. Human breast milk in comparison to cow's milk. In: Lebenthal E. (Ed.), Textbook of Gastroenterology and Nutrition in Infancy, vol. 1. Raven Press, New York, pp. 295–320.

Gertner J.M. Coustan D.R. Kliger A.S. Mallette L.E. Ravin N. Broadus A.E. , 1986. Pregnancy as a state of physiologic absorptive hypercalciuria. Am. J. Med. 81, 451–456.

Going J.J. Moffat D.F. , 2004. Escaping from flatland: clinical and biological aspects of human mammary duct anatomy in three dimensions. J. Pathol. 203, 538–544.

Gray T.K. , 1983. Vitamin D and human pregnancy. In: Holick M.F. Gray T.K. Anast C.S. (Eds.), Perinatal Calcium and Phosphorus Metabolism. Elsevier Science, New York, pp. 281–290.

Greer F.R. Tsang R.C. Searcy J.E. Levin R.S. Steichen J.J. , 1982. Mineral homeostasis during lactation — relationship to serum 1,25-dihydroxyvitamin D, 25-hydroxyvitamin D, parathyroid hormone and calcitonin. Am. J. Clin. Nutr. 38, 431–437.

Grimanis A.P. Vassilaki-Grimani D. Alexiou D. Papadatos C. , 1979. Determination of seven trace elements in human milk, powdered cow's milk and infant foods by neutron activation analysis. In: Nuclear Activation Techniques in the Life Sciences. Proceedings of the IAEA International Symposium, IAEA-SM-227/26, 1978.

Gulson B.L. Mahaffey K.R. Jameson C.W. Mizon K.J. Korsch M.J. Cameron M.A. Eisman J.A. , 1998. Mobilisation of lead from the skeleton during the postnatal period is larger than during pregnancy. J. Lab. Clin. Med. 131, 324–329.

Gulson B.L. Mizon K.J. Korsch M.J. Mahaffey K.R. Taylor A.J. , 2001. Dietary intakes of selected elements from longitudinal 6-day duplicate diets for pregnant and nonpregnant subjects and elemental concentrations of breast milk and infant formula. Environ. Res. 87, 160–174.

Gushurst C.A. Mueller J.A. Green J.A. Sedor P. , 1984. Breast milk iodide: reassessment in the 1980s. Pediatrics 73, 354–357.

Hadjimarkos D.M. Shearer T.R. , 1973. Selenium in mature human milk. Am. J. Clin. Nutr. 26, 583–585.

Hallberg L. , 1982. Iron absorption and deficiency. Human Nutr. Clin. Nutr. 36, 259–278.

Hallberg L. Hulthen L. Garby L. , 1998. Iron stores in man in relation to diet and iron requirements. Eur. J. Clin. Med. 52, 623–631.

Hallen I.P. Jorhem L. Lagerkvist B.J. Oskarsson A. , 1995. Lead and cadmium levels in human milk and blood. Sci. Total Environ. 166, 149–155.

Hanson S.R. Donley S.A. Linder M.C. , 2001. Transport of silver in virgin and lactating rats and relation to copper. J. Trace Elem. Med. Biol. 15, 243–253.

Harrison G.E. Sutton A. Shepherd H. Widdowson E.M. , 1965. Strontium balance in breast-fed babies. Br. J. Nutr. 19, 111–117.

Harrison J.D. Bomford J.A. David A.J. , 1987. The gastrointestinal absorption of plutonium and americium in neonatal mammals. In: Gerber G.B. Metivier H. Smith H. (Eds.), Age-related Factors in Radionuclide Metabolism. Martinus Nijhoff, Lancaster, pp. 27–34.

Harrison J.D. Smith T.J. Phipps A.W. , 2003. Infant doses from the transfer of radionuclides in mothers' milk. Radiat. Prot. Dosim. 105, 251–256.

Hayslip C.C. Klein T.A. Wray H.L. Duncan W.E. , 1989. The effects of lactation on bone mineral content in healthy postpartum women. Obstet. Gynecol. 73, 588–592.

Heaney R.P. Skillman T.G. , 1971. Calcium metabolism in normal human pregnancy. J. Clin. Endocrinol. 33, 661–669.

Hedrick W.R. Di Simone R.N. Keen R.L. , 1986. Radiation dosimetry from breast milk excretion of radioiodine and pertechnetate. J. Nucl. Med. 27, 1569–1571.

Hillman L. Sateesha S. Haussier M. Slatopolsky E. Haddad J. , 1981. Control of mineral homeostasis during lactation: interrelationships of 25-hydroxyvitamin D, 24,25-dihydroxyvitamin D, 1,25-dihydroxyvitamin D, parathyroid hormone, calcitonin, prolactin and estradiol. Am. J. Obstet. Gynecol. 139, 471–476.

Hofvander Y. Hagman U. Hillervick C. Sjolin S. , 1982. The amount of milk consumed by 1–3 month old breast- or bottle-fed infants. Acta Pediatr. Scand. 71, 953–958.

Hunt C.D. Meacham S.L. , 2001. Aluminum, boron, calcium, copper, iron, magnesium, manganese, molybdenum, phosphorus, potassium, sodium, and zinc: concentrations in common western foods and estimated daily intakes by infants, toddlers, male and female adolescents, adults, and seniors in the United States. J. Am. Diet. Assoc. 101, 1058–1060.

Hunt J.G. Nosske D. dos Santos D.S. , 2005. Estimation of the dose to the nursing infant due to direct irradiation from activity present in maternal organs and tissues. Radiat. Prot. Dosim. 113, 290–299.

Huq N. King J.C. Halloran B.P. Buckendahl P. Cooke D. Costa F.M. , 1988. Calcium metabolism in pregnant and lactating women — a longitudinal study. FASEB J. 2, A465.

ICRP, 1975. Report of the Task Group on Reference Man. ICRP Publication 23. Pergamon Press, Oxford.

ICRP, 1977. Recommendations of the International Commission on Radiological Protection. ICRP Publication 26. Ann. ICRP 1 (3).

ICRP, 1979. Limits for intakes of radionuclides by workers. ICRP Publication 30, Part 1. Ann. ICRP 2(3/4).

ICRP, 1980. Limits for intakes of radionuclides by workers. ICRP Publication 30, Part 2. Ann. ICRP 4(3/4).

ICRP, 1981. Limits for intakes of radionuclides by workers. ICRP Publication 30, Part 3 (including addendum to Parts 1 and 2). Ann. ICRP 6(2/3).

ICRP, 1983a. Radionuclide transformations energy and intensity of emissions. ICRP Publication 38. Ann. ICRP 11–13.

ICRP, 1983b. Radionuclide transformations: energy and intensity of emissions. ICRP Publication 38. Ann. ICRP 32 (3/4).

ICRP, 1988a. Individual monitoring for intakes of radionuclides by workers: design and interpretation. ICRP Publication 54. Ann. ICRP 19(1–3).

ICRP, 1988b. Limits for intakes of radionuclides by workers: an addendum. ICRP Publication 30, Part 4. Ann. ICRP 19(4).

ICRP, 1989. Age-dependent doses to members of the public from intake of radionuclides: Part 1. ICRP Publication 56. Ann. ICRP 20(2).

ICRP, 1991. 1990 Recommendations of the International Commission on Radiological Protection. ICRP Publication 60. Ann. ICRP 21(1–3).

ICRP, 1993. Age-dependent doses to members of the public from intake of radionuclides: Part 2. Ingestion dose coefficients. ICRP Publication 67. Ann. ICRP 23(3/4).

ICRP, 1994a. Human respiratory tract model for radiological protection. ICRP Publication 66. Ann. ICRP 24(1–3).

ICRP, 1994b. Dose coefficients for intake of radionuclides by workers. ICRP Publication 68. Ann. ICRP 24 (4).

ICRP, 1995a. Age-dependent doses to members of the public from intakes of radionuclides: Part 2. Ingestion dose coefficients. ICRP Publication 69. Ann. ICRP 25(1).

ICRP, 1995b. Age-dependent doses to members of the public from intake of radionuclides: Part 3. Ingestion dose coefficients. ICRP Publication 69. Ann. ICRP 25(1).

ICRP, 1995c. Age-dependent doses to members of the public from intake of radionuclides: Part 4. Inhalation dose coefficients. ICRP Publication 71. Ann. ICRP 25(3/4).

ICRP, 1995d. Basic anatomical and physiological data for use in radiological protection. ICRP Publication 70. Ann. ICRP 25(2).

ICRP, 1996. Age-dependent doses to members of the public from intake of radionuclides: Part 5. Compilation of ingestion and inhalation dose coefficients. ICRP Publication 72. Ann. ICRP 26(1).

ICRP, 1997a. General principles for the radiation protection of workers. ICRP Publication 75. Ann. ICRP 27 (1).

ICRP, 1997b. Individual monitoring for internal exposure of workers. Replacement of ICRP Publication 54. ICRP Publication 78. Ann. ICRP 27(3/4).

ICRP, 1999. The ICRP Database of Dose Coefficients: Workers and Members of the Public (CD1). Elsevier Science, Oxford.

ICRP, 2001. Doses to the embryo and fetus from intakes of radionuclides by the mother. ICRP Publication 88. Ann. ICRP 31(1–3).

ICRP, 2002a. The ICRP Database of Dose Coefficients: Embryo and Fetus (CD2). Elsevier Science, Oxford.

ICRP, 2002b. Basic anatomical and physiological data for use in radiological protection: reference values. ICRP Publication 89. Ann. ICRP 32(3/4).

ICRP, 2005. The ICRP Database of Dose Coefficients: Breast Milk (CD3). Elsevier, Oxford.

ICRU, 1992. Phantoms and computational models in therapy, diagnosis and protection. ICRU Publication 48. International Commission on Radiation Units and Measurements, Bethesda, MD.

Institute of Medicine (IOM), 1991. Nutrition during Lactation. National Academy Press, Washington.

Iyengar G.V. , 1987. Reference values for the concentrations of As, Cd, Co, Cr, Cu, Fe, I, Hg, Mn, Mo, Ni, Pb, Se, and Zn in selected human tissues and body fluids. Biol. Trace Elem. Res. 12, 263–295.

Iyengar G.V. Kollmer W.E. Bowen H.J.M. , 1978. The Elemental Composition of Human Tissues and Body Fluids; a Compilation of Values for Adults. Verlag Chemie, New York, NY, USA.

Iyengar G.V. Wolf W.R. Tanner J.T. Morris E.R. , 2000. Content of minor and trace elements, and organic nutrients in representative mixed total diet composites from the USA. Sci. Total Environ. 256, 215–226.

Janas L.M. Picciano M.F. Hatch T. , 1985. Indices of protein metabolism in term infants fed human milk, whey predominant formula, or cow's milk formula. Pediatrics 75, 775–784.

Jarvis A.A. Brown J.R. Tiefenbach B. , 1963. Strontium-89 and strontium-90 levels in breast milk and in mineral-supplement preparations. Can. Med. Assoc. J. 88, 136–139.

Johansson L. Bjoreland A. Agren G. , 1998. Transfer of ¹³⁷Cs to infants via human breast milk. Radiat. Prot. Dosim. 79, 165–167.

Johnston R.E. Mukherji S.K. Perry R.J. Stabin M.G. , 1996. Radiation dose from breastfeeding following administration of thallium-201. J. Nucl. Med. 37, 2079–2082.

Karjalainen P. Penttila I.M. Pystynen P. , 1971. The amount and form of radioactivity in human milk after lung scanning, renography and placental localization by ¹³¹I labelled tracers. Acta Obstet. Scand. 50, 357–361.

Karmarkar M.G. Ramakrishnan C.V. , 1960. Studies on human lactation — relation between the dietary intake of lactating women and the chemical composition of milk with regard to principal and certain inorganic constituents. Acta Paediatr. 49, 599–604.

Kaucher M. Moyer E.Z. Richards A.J. Williams H.H. Wertz A.L. Macy I.G. , 1945. Human milk studies XX. The diet of lactating women and the collection and preparation of food and human milk for analysis. Am. J. Dis. Child. 70, 142–147.

Kent G.N. Price R.I. Gutteridge D.H. Smith M. Allen J.R. Bhagat C.I. Barnes M.P. Hickling C.J. Retallack R.W. Wilson S.G. Devlin R.D. Davies C. St. John A. , 1990. Human lactation: forearm trabecular bone loss, increased bone turnover, and renal conservation of calcium and inorganic phosphate with recovery of bone mass following weaning. J. Bone Min. Res. 5, 361–369.

Kent G.N. Price R.I. Gutteridge D.H. Rosman K.J. Smith M. Allen J.R. Hickling C.J. Blakeman S.L. , 1991. The efficiency of intestinal calcium absorption is increased in late pregnancy but not in established lactation. Calc. Tissue Int. 48, 293–295.

Kettle A.G. O'Doherty Blower P.J. , 1994. Excretion of [¹²³I] iodide in breast milk following administration [¹²³I] meta-iodobenzylguanadine. Eur. J. Nucl. Med. 21, 181–182.

Kiefer J. , 1989. Radium-226 content of beverages. Health Phys. 57, 761–763.

King J.C. Halloran B.P. Huq N. Diamond T. Buckendahl P.E. , 1992. Calcium metabolism during pregnancy and lactation. In: Picciano M.F. Lonnerdol B. (Eds.), Mechanisms Regulating Lactation and Infant Nutrient Utilization. Wiley-Liss, Inc., New York, pp. 129–146.

Krachler M. Shi Li F. Rossipal E. Irgolic K.J. , 1998. Changes in the concentrations of trace elements in human milk during lactation. J. Trace Elem. Med. Biol. 12, 159–176.

Krachler M. Prohaska T. Koellensperger G. Rossipal E. Stingeder G. , 2000. Concentrations of selected trace elements in human milk and in infant formulas determined by magnetic sector field inductively coupled plasma-mass spectrometry. Biol. Trace Elem. Res. 76, 97–112.

Krebs N.F. , 1999. Zinc transfer to the breastfed infant. J. Mammary Gland Biol. Neoplasia 4, 259–268.

Kulski J.K. Hartmann P.E. , 1981. Changes in human milk composition during the initiation of lactation. Aust. J. Exp. Biol. Med. Sci. 59, 101–114.

Leggett R.W. , 1985. A model of the retention, translocation, and excretion of systemic plutonium. Health Phys. 49, 1115–1137.

Leggett R.W. , 1986. Predicting the retention of Cs in individuals. Health Phys. 50, 747–759.

Leggett R.W. , 1992a. A retention-excretion model for americium in humans. Health Phys. 62, 288–310.

Leggett R.W. , 1992b. A generic age-specific biokinetic model for calcium-like elements. Radiat. Prot. Dosim. 41, 183–198.

Leggett R.W. , 2003. Reliability of the ICRP's dose coefficients for member of the public. III. Plutonium as a case study of uncertainties in the systemic biokinetics of radionuclides. Radiat. Prot. Dosim. 106, 103–120.

Leggett R.W. Eckerman K.F. , 1984. A model for the age-dependent skeletal retention of plutonium. In: Kaul A. Neider R. Pensko J. Stieve F.-E. Brunner H. (Eds.), Radiation Risk Protection. Fachverband für Strahlenschutz e. V., Berlin, pp. 454–457.

Leggett R.W. Eckerman K.F. , 2001. A systemic biokinetic model for polonium. Sci. Total Environ. 275, 109–125.

Leggett R.W. Eckerman K.F. Williams L.R. , 1982. Strontium-90 in bone: a case study in age-dependent modelling. Health Phys. 43, 307–322.

Lengemann F.W. , 1963. Overall aspects of calcium and strontium absorption. In: Wasserman R.H. (Ed.), The Transfer of Calcium and Strontium Across Biological Membranes. Academic Press, New York, pp. 85–96.

Levander O.A. Morris V.C. , 1984. Dietary selenium levels needed to maintain balance in North American adults consuming self-selected diets. Am. J. Clin. Nutr. 39, 809–815.

Levander O.A. Moser P.B. Morris V.C. , 1987. Dietary selenium intake and selenium concentrations in plasma, erythrocytes and breast milk in pre- and post-partum lactating and non-lactating women. Am. J. Clin. Nutr. 46, 694–698.

Li P. J. Sheng Y.Z. Wang Q.Y. Gu L.Y. Wang Y.L. , 2000. Transfer of lead via placenta and breast milk in human. Biomed. Environ. Sci. 13, 85–89.

Lombeck I. Kasperek K. Bonnermann B. Feinendegen L.E. Bremer H.J. , 1978. Selenium content of human milk, cow's milk and cow' milk infant formulas. Eur. J. Pediatr. 129, 139–145.

Lonnerdal B. Forsum E. Hambraeus L. , 1976. A longitudinal study of the protein, nitrogen, and lactose contents of human milk from Swedish well-nourished mothers. Am. J. Clin. Nutr. 29, 1127–1133.

Ma J. Betts N.M. , 2000. Zinc and copper intakes and their major food sources for older adults in the 1994–96 continuing survey of food intakes by individuals (CSFII). J. Nutr. 130, 2838–2843.

MAFF, 1997. MAFF UK — 1994 total diet study: metals and other elements. Joint Food Safety and Standards Group, Food Surveillance Information Sheet Number 131. Web publication of the Department of Health, Scottish Executive.

MAFF, 1998. MAFF UK — 1994 Total diet study: metals and other elements. Joint Food Safety and Standards Group, Food Surveillance Information Sheet Number 149. Web publication of the Department of Health, Scottish Executive.

Matsusaka N. , 1978. Whole-body retention of ⁶⁵Zn during pregnancy and lactation, and its secretion into milk in mice. Radiat. Res. 75, 46–53.

Mattson S. Johansson I. Nosslin B. Ahlgren L. , 1981. Excretion of radionuclides in human breast milk following administration of 125-I-fibrinogen, ^99mTc-MAA, and ⁵¹Cr-EDTA. In: Watson E.E. Schlafke-Stelson A.T. Coffey J. Cloutier R.J. (Eds.), Proceedings of the Third International Radiopharmaceutical Dosimetry Symposium, HHS Publications FDA 81–8166. US Department of Health and Human Services, Rockville, pp. 102–110.

McClellan R.O. Casey H.W. Bustad L.K. , 1962. Transfer of some transuranic elements to milk. Health Phys. 8, 689–694.

McClellan R.O. Casey H.W. Bustad L.K. , 1963. Transfer of some radionuclides to milk. USAEC Report HW-76000, pp. 98–108, Washington, DC, USA.

McClellan R.O. Bustad L.K. Keough R.F. , 1965. Metabolism of some SNAP Radionuclides in Miniature Swine. Aerospace Med. 36, 16–20.

McClelland D.B.L. McGrath J. Samson R.R. , 1978. Antimicrobial factors in human milk. Studies of concentration and transfer to the infant during the early stages of lactation. Acta Paediatr. Scand. 271 (Suppl.), 3–20.

McNally M.E. Atkinson S.A. Cole D.E. , 1991. Contribution of sulfate and sulfoesters to total sulfur intake in infants fed human milk. J. Nutr. 121, 1250–1254.

Miller H. Weetch R.S. , 1955. The excretion of radioactive iodine in human milk. Lancet 12, 1013.

Miller J.K. Perry S.C. Chandler P.T. Craig R.G. , 1967. Evaluation of radiocerium as a non-absorbed reference material for determining gastrointestinal nutrient absorption in cattle. J. Dairy Sci. 50, 355.

Minoia C. Sabbioni E. Ronchi A. Gatti A. Pietra R. Nicolotti A. Fortaner S. Balducci C. Fonte A. Roggi C. , 1994. Trace element reference values in tissues from inhabitants of the European Community. IV. Influence of dietary factors. Sci. Total Environ. 141, 181–195.

Montherrat-Carret L. Perrat-Mabilon B. Barbey E. Bouloc R. Boivin G. Michelet A. Magloire H. , 1996. Chemical and X-ray analysis of fluoride, phosphorus, and calcium in human foetal blood and hard tissues. Arch. Oral Biol. 41, 1169–1178.

Moser-Veillon P.B. , 1995. Zinc needs and homeostasis during lactation. Analyst 120, 895–897.

Mountford P. J. Coakley A. J. , 1989a. Secretion of radioactivity in breast milk following administration of ¹²³I hippuran. Br. J. Radiobiol. 62, 388–389.

Mountford P. J. Coakley A. J. , 1989b. A review of the secretion of radioactivity in human breast milk: data, quantitative analysis and recommendations. Nucl. Med. Commun. 10, 15–27.

Mountford P.J. Heap R.B. Hamon M. Fleet I.R. Coakley A.J. , 1987. Suppression of technetium-99m and iodine-123 secretion in milk of lactating goats. J. Nucl. Med. 28, 1187–1191.

Murphy P.H. Beasley C.W. Moore W.H. Stabin M.G. , 1989. Thallium-201 in human milk: observations and radiological consequences. Health Phys. 56, 539–541.

Namihira D. Saldivar L. Pustilnik N. Carreon G.J. Salinas M.E. , 1993. Lead in human blood and milk from nursing women living near a smelter in Mexico City. J. Toxicol. Environ. Health 38, 225–232.

Nappi J. Dean J. Nevalainen O. Toikkanen S. , 2001. Algorithmic 3D simulation of breast calcifications for digital mammography. Comput. Methods Programs Biomed. 66, 115–124.

Nashashibi N. Cardamakis E. Bolbos G. Tzingounis V. , 1999. Investigation of kinetics of lead during pregnancy and lactation. Gynecol. Obstet. Invest. 48, 158–162.

NCRP, 1998. Radionuclide Exposure of the Embryo/Fetus. NCRP Report No. 128. NCRP, Bethesda, MD.

NEA, 1988. Gastrointestinal Absorption of Selected Radionuclides. A Report by an NEA Expert Group. Nuclear Energy Agency, OECD, Paris.

Neville M.C. Keller R. Seacat J. Lutes V. Neifert M. Casey C. Allen J. Archer P. , 1988. Studies in human lactation: milk volumes in lactating women during the onset of lactation and full lactation. Am. J. Clin. Nutr. 48, 1375–1386.

Neville M.C. Allen J. Archer P. Casey C. Seacat J. Keller R.P. Lutes V. Rasbach J. Neifert M. , 1991. Studies in human lactation: milk volume and nutrient composition during weaning and lactogenesis. Am. J. Clin. Nutr. 54, 81–92.

Ng Y.C. Colsher C.S. Quinn D.J. Thompson S.E. , 1977. Transfer coefficients for the prediction of the dose to man via the forage-cow-milk pathway from radionuclides released to the biosphere. UCRL-51939, Lawrence Livermore National Laboratory, CA, USA.

Nielson F.H. , 1986. Other elements: Sb, Ba, B, Br, Cs, Ge, Rb, Ag, Sr, Sn, Ti, Zr, Be, Bi, Ga, Au, In, Nb, Se, Te, Tl, W, 5th ed. In: Mertz W. (Ed.), Trace Elements in Human and Animal Nutrition, Vol. 2 Academic Press, San Diego, pp. 415–463.

Noel L. Leblanc J.C. Guerin T. , 2003. Determination of several elements in duplicate meals from catering establishments using closed vessel microwave digestion with inductively coupled plasma mass spectrometry detection: estimation of daily dietary intake. Food Addit. Contam. 20, 44–56.

NRC, 1999. Risk Assessment of Radon in Drinking Water. National Academy Press, Washington, DC.

Nurnberger C.E. Lipscomb A. , 1952. Transmission of radioiodine (¹³¹I) to infants through human maternal milk. JAMA 150, 1398–1400.

Ong C.N. Phoon W.O. Law H.Y. Tye C.Y. Lim H.H. , 1985. Concentrations of lead in maternal blood, cord blood, and breast milk. Arch. Dis. Child. 60, 756–759.

Palmer K.E. , 1979. Excretion of ¹²⁵I in breast milk following administration of labelled fibrinogen. Br. J. Radiol. 52, 663–674.

Palmer H.E. Nelson I.C. Crook G.H. , 1970. The uptake, distribution and excretion of promethium in humans and the effect of DTPA on these parameters. Health Phys. 18, 53–61.

Pao E.M. Hirnes J.M. Roche A.F. , 1980. Milk intakes and feeding patterns of breast-feeding infants. J. Am. Diet. Assoc. 77, 540–545.

Pennington J.A. Jones J.W. , 1987. Molybdenum, nickel, cobalt, vanadium, and strontium in total diets. J. Am. Diet. Assoc. 87, 1644–1650.

Perrone L. Di Palma L. Di Toro R. Gialanella G. Moro R. , 1993. Trace element content of human milk during lactation. J. Trace Elem. Electrolytes Health Dis. 7, 245–247.

Perrone L. Di Palma L. Di Toro R. Gialanella G. Moro R. , 1994. Interaction of trace elements in a longitudinal study of human milk from full-term and preterm mothers. Biol. Trace Elem. Res. 41, 321–330.

Pitkin R.M. , 1985. Calcium metabolism in pregnancy and the perinatal period: a review. Am. J. Obstet. Gynecol. 151, 99–109.

Prentice A.M. Paul A. Prentce A. Black A. Cole T. Whitehead R.G. , 1986. Cross-cultural differences in lactational performance. In: Hamosh M. Goldman A. (Eds.), Human Lactation 2: Maternal and Environmental Factors. Plenum Press, New York, pp. 13–44.

Risici S. Campas Venuti G. Rogani A. Baronciani D. Petrone M. , 1992. Caesium contamination in human milk and transfer factor from diet. Analyt. Chem. 117, 511–514.

Ritchie L.D. Fung B.E. Halloran B.P. Turnlund J.R. Van Loan M.D. Cann C.E. King J.C. , 1998. A longitudinal study of calcium homeostasis during human pregnancy and lactation and after resumption of menses. Am. J. Clin. Nutr. 67, 693–701.

Robinson P.S. Barker P. Campbell A. Henson P. Surveyor I. Young P.R. , 1994. Iodine-131 in breast milk following therapy for thyroid carcinoma. J. Nucl. Med. 35, 1797–1801.

Rockway S.W. Weber C.W. Lei K.Y. Kemberling S.R. , 1984. Lead concentrations of milk, blood, and hair in lactating women. Int. Arch. Occup. Environ. Health 53, 181–187.

Roderuck C. Coryell M.N. Williams H.H. Macy I.G. , 1946. Metabolism of women during the reproductive cycle. IX The utilisation of riboflavin during lactation. J. Nutr. 32, 267–283.

Rose M.R. Prescott M.C. Herman J. , 1990. Excretion of iodine-123-hippuran, technetium-99m-red blood cells, and technetium-99m-macroaggregated albumin into breast milk. J. Nucl. Med. 31, 978–984.

Rubow S. Klopper J. , 1988. Excretion of radioiodine in human milk following a therapeutic dose of ¹³¹I. Eur. J. Nucl. Med. 14, 632–633.

Rubow S. Klopper J. Wasserman H. Baard B. van Niekerk M. , 1994. The excretion of radiopharmaceuticals in human breast milk: additional data and dosimetry. J. Nucl. Med. 21, 144–153.

Rundo J. Turner F.M. , 1992. On the biological half-life of caesium in pregnant women and infants. Radiat. Prot. Dosim. 41, 211–216.

Russell R.S. , 1966. Radioactivity and Human Diet. Pergamon Press, Oxford.

Saint L. Smith M. Hartmann P.E. , 1984. The yield and nutrient content of colostrum and milk of women from giving birth to month postpartum. Br. J. Nutr. 52, 87–95.

Salmenpera L. Perheentupa J. Siimes M. , 1985. Exclusively breast-fed healthy infants grow slower than reference infants. Pediatr. Res. 19, 307–312.

Sasser L.B. Mahlum D.D. Rommereim R.L. , 1986. Influence of pregnancy and lactation on maternal deposition and perinatal uptake of 241 Am in the rat. Health Phys. 50, 595–604.

Schramel P. Hasse S. Ovcar-Pavlu J. , 1988a. Selenium, cadmium, lead and mercury concentrations in human breast milk, in placenta, maternal blood, and the blood of the newborn. Biol. Trace Elem. Res. 16, 111–124.

Schramel P. Lill G. Hasse S. Klose B.-J. , 1988b. Mineral and trace element concentrations in human breast milk, in placenta, maternal blood, and the blood of the newborn. Biol. Trace Elem. Res. 16, 67–75.

Schroeder H.A. Balassa J.J. , 1966. Abnormal trace metals in man: zirconium. J. Chron. Dis. 19, 573–586.

Schuhmacher M. Domingo J.L. Llobet J.M. Corbella J. , 1993. Dietary intake of copper, chromium and zinc in Tarragona Province. Spain. Sci. Total Environ. 132, 3–10.

Seifert M. Jaritz M. Holzinger S. Seeber O. Anke M. , 2000. Alimentary strontium intake: first results in Germany. Trace Elem. Electrolytes 17, 112–118.

Shiraishi K. Yamamoto M. Yoshimizu K. Igarashi Y. Ueno K. , 1994. Daily intakes of alkaline earth metals in Japanese males. Health Phys. 66, 30–35.

Sikov M.R. , 1961. The distribution of radiophosphorus in relation to prenatal or postnatal age in throat. Phys. Med. Biol. 6, 295–302.

Sill C. Voelz G. Olson D. Anderson J. , 1969. Two studies of acute internal exposure to man involving cerium and tantalum radioisotopes. Health Phys. 16, 325–332.

Silvestre D. Martinez-Costa C. Lagarda M.J. Brines J. Farre R. Clemente G. , 2001. Copper, iron, and zinc contents in human milk during the first three months of lactation: a longitudinal study. Biol. Trace Elem. Res. 80, 1–11.

Simon S.L. Luckyanov N. Bouville A. VanMiddlesworth L. Weinstock R.M. , 2002. Transfer of ¹³¹I into human breast milk and transfer coefficients for radiological dose assessments. Health Phys. 82, 796–806.

Smart G.A. Sherlock J.C. , 1987. Nickel in foods and the diet. Food Addit. Contam. 4, 61–71.

Smith A.M. Picciano M.F. Milner J.A. , 1982. Selenium intakes and status of human milk and formula fed infants. Am. J. Clin. Nutr. 35, 521–526.

Smith T.J. Phipps A.W. Fell T.P. Harrison J.D. , 2003. Transfer of alkaline earth elements in mothers' milk and doses from ⁴⁵Ca, ⁹⁰Sr and ²²⁶Ra. Radiat. Prot. Dosim. 105, 273–277.

Spencer R.P. Spitznagel L.A. Karimeddini M.K. Hosein F. , 1986. Breast milk content of ¹³¹I in a hypothyroid patient. Nucl. Med. Biol. 13, 585.

Spitzweg C. Heufelder A.E. Morris J.C. , 2000. Review: thyroid iodine transport. Thyroid 10, 321–330.

Stabin M.G. Breitz H.B. , 2000. Breast milk excretion of radiopharmaceuticals: mechanisms, findings and radiation dosimetry. J. Nucl. Med. 41, 863–873.

Stabin M.G. Watson E.E. Cristy M. Ryman J.C. Eckerman K.F. Davis J.L. Marshall D. Gehlen M.K. , 1995. Mathematical Models and Specific Absorbed Fractions of Photon Energy in the Nonpregnant Adult Female and at the End of Each Trimester of Pregnancy. ORNL/TM-12907. Oak Ridge National Laboratory, Oak Ridge, Tennessee.

Stanley R.E. Mullen A.A. Bretthauer E.W. , 1971. Transfer to milk of ingested radiolead. Health Phys. 21, 211–215.

Stanley R.E. Bretthauer E.W. Sutton W.W. , 1974. Absorption, distribution and excretion of plutonium by dairy cattle. In: Dunaway P.B. White M.G. (Eds.), The Dynamics of Plutonium in Desert Environments. NEV-142 (NVO-AEIC-74–1) USAEC, Washington, DC, USA, pp. 163–185.

Stather J.W. Phipps A.W. Harrison J.D. Eckerman K.F. Smith T.J. Fell T.P. Nosske D. , 2002. Dose coefficients for the embryo and fetus following intakes by the mother. J. Radiol. Prot. 22, 7–24.

Stather J.W. Phipps A.W. Harrison J.D. Eckerman K.F. Smith T.J. Fell T.P. Nosske D. , 2003. Doses to the embryo and fetus from intakes of radionuclides by the mother. Radiat. Prot. Dosim. 105, 257–264.

Stuff J.E. Garza C. Boutte C. , 1986. Sources of variance in milk and caloric intakes in breast-fed infants: implications for lactation study design and interpretation. Am. J. Clin. Nutr. 43, 361–366.

Sunderman F.W. Jr. Hopfer S.M. Sweeney K.R. Marcus A.H. Most B.M. Creason J. , 1989. Nickel absorption and kinetics in human volunteers. PSEBM 191, 5–11.

Sutton W.W. Patzer R.G. Potter G.D. , 1979. Biotransport of transuranium radionuclides in dairy animals: a data summary. EMSL-LV-0539–35. National Technical Information Service, US Department of Commerce, Springfield, VA 22161.

Suzuki S. Okada Y. Hirai S. , 2003. Determination of multielements in a typical Japanese diet certified reference material by instrumental neutron activation analysis. Anal. Sci. 19, 1215–1217.

Tan C.M. Raman A. Sinnathyray T.A. , 1972. Serum ionic calcium levels during pregnancy. J. Obstet. Gynaecol. 79, 694–697.

Taylor D.M. Bligh P.H. , 1992. The transfer of ⁴⁵Ca, ⁸⁵Sr and ¹⁴⁰Ba from mother to newborn in rats. Radiat. Prot. Dosim. 41, 143–145.

Taylor D.M. Leggett R.W. , 2003. A generic biokinetic model for predicting the behaviour of lanthanide elements in the body. Radiat. Prot. Dosim. 105, 13–18.

Taylor D.M. McCready V.R. Cosgrove D.O. , 1981. The transfer of L-selenomethionine-75Se to human milk and the potential dose to a breast-fed infant. Nucl. Med. Commun. 2, 80–83.

Taylor P. Owens R. Ingram D. , 1998. Simulated mammography using synthetic 3D breasts. In: Karssenmeijer N. Thijssen M. Hendriks J. van Erning L. (Eds.), Digital Mammography Nijmegen 98: Proceedings of the 4th International Workshop on Digital Mammography (Nijmegen, Netherlands). Kluwer Academic Publishers, Dordrecht, pp. 283–290.

Teufel M. Niessen K.-H. , 1991. Rückstände in Muttermilch. Ernährungs-Umschau 38, 142–149.

Thapa S. Short R. Potts M. , 1988. Breast-feeding, birth spacing and their effects on child survival. Nature 335, 679–682.

Thornberg C. Mattsson S. , 2000. Increased ¹³⁷Cs metabolism during pregnancy. Health Phys. 78, 502–506.

Toney M.O. Landry A. Smith T. , 1992. Excretion of ²⁰¹Tl in human breast milk. Health Phys. 63, 234.

Torres M.A. Verdoy J. Alegria A. Barbera R. Farre R. Lagarda M.J. , 1999. Selenium contents of human milk and infant formulas in Spain. Sci. Total Environ. 228, 185–192.

Tortora G.J. Anagnostakos N.P. , 1984. Principles of Anatomy and Physiology, fourth ed. Harper & Row, New York.

Twardock A.R. Comar C.L. , 1961. Calcium and strontium secretion from blood. Amer. J. Physiol. 201, 645–650.

Underwood E.J. , 1971. Trace Elements in Human and Animal Nutrition, 3rd ed. Academic Press, Inc., New York, NY, USA.

USNRC, 1979. Zinc. US National Research Council, NRC Subcommittee on Zinc. University Park Press, Baltimore.

van Dokkum W. de Vos R.H. Muys T. Wesstra J.A. , 1989. Minerals and trace elements in total diets in The Netherlands. Br. J. Nutr. 61, 7–15.

Van Steenbergen W.M. Kusin J.A. Van Rens M.M. , 1981. Lactation performance of Akamba mothers, Kenya. Breast-feeding behaviour, breast milk yield and composition. J. Trop. Pediatr. 27, 155–161.

Vaughan L.A. Weber C.W. Kemberling S.R. , 1979. Longitudinal changes in the mineral content of human milk. Am. J. Clin. Nutr. 32, 2301–2306.

Veien N.K. Andersen M.R. , 1986. Nickel in Danish diets. Acta Derm. Venereol. (Stockh.) 66, 502–509.

Villalpando S. Latulippe M.E. Rosas G. Irurita M.J. Picciano M.F. O'Connor D.L. , 2003. Milk folate but not milk iron concentrations may be inadequate for some infants in a rural farming community in San Mateo, Capulhuac. Mexico. Am. J. Clin. Nutr. 78, 782–789.

Vuori E. Makinen S.M. Kara R. Kuitunen P. , 1980. The effects of the dietary intakes of copper, iron, manganese, and zinc on the trace element content of human milk. Am. J. Clin. Nutr. 33, 227–231.

Wahlgren A. , 1944. Breast-milk consumption of healthy full-term infants. Acta Pediatr. 32, 778–790.

Walser M. Robinson B.H. , 1963. Renal excretion and tubular reabsorption of calcium and strontium. In: Wasserman R.H. (Ed.), The Transfer of Calcium and Strontium Across Biological Membranes. Academic Press, New York, pp. 305–326.

Wappelhorst O. Kuhn I. Heidenreich H. Market B. , 2002. Transfer of selected elements from food into human milk. Nutrition 18, 316–322.

Watters R.L. McInroy J.F. , 1969. The transfer of ²¹⁰Po from cattle feed to milk. Health Phys. 16, 221–225.

Weaver J.C. Kamm M.L. Dobson R.L. , 1960. Excretion of radioiodine in human milk. JAMA 173, 872–875.

Welcsh P.L. Mankoff D.A. , 2000. Taking up iodide in breast tissue. Nature 406, 688–689.

Welsh S.O. Holden J.M. Wolf W.R. Levander O.A. , 1981. Selenium intake of Maryland residents consuming self-selected diets. J. Am. Diet. Assoc. 79, 277–285.

Whitehead R.G. Paul A.A. , 1981. Infant growth and human milk requirements: a fresh approach. Lancet 2, 161–163.

WHO, 1989. Minor and trace elements in breast milk. Report of a Joint WHO/IAEA Collaborative Study. World Health Organisation, Geneva.

Widdowson E.M. , 1968. Growth and composition of the fetus and newborn. In: Assli N.S. (Ed.), Biology of Gestation, Vol. 2. Academic Press, New York, NY, USA.

Wolstenholme G.E.W. Knight J. , 1972. Lactogenic Hormones. A Ciba Foundation Symposium in Memory of Prof. S.J. Folley. Churchill Livingstone, Edinburgh.

Wünschmann S. Fränzle S. Markert B. , 2004. Transfer von Elementen in die Muttermilch. Methoden, Modellierungen, Empfehlungen. Ecomed Verlagsgesellschaft AG & Co. KG, Landsberg, Germany.

Wyburn J.R. , 1973. Human breast milk excretion of radionuclides following administration of radiopharmaceuticals. J. Nucl. Med. 14, 115–117.

Ysart G. Miller P. Crews H. Robb P. Baxter M. De L'Argy C. Lofthouse S. Sargent C. Harrison N. , 1999. Dietary exposure estimates of 30 elements from the UK Total Diet Study. Food Addit. Contamin. 16, 391–403.

Ysart G. Miller P. Croasdale M. Crews H. Robb P. Baxter M. de L'Argy C. Harrison N. , 2000. 1997 UK Total Diet Study — dietary exposures to aluminum, arsenic, cadmium, chromium, copper, lead, mercury, nickel, selenium, tin and zinc. Food Addit. Contam. 17, 775–786.

Zankl M. Petoussi-Henss N. Fill U. Regulla D. , 2003. The application of voxel phantoms to the internal dosimetry of radionuclides. Radiat. Prot. Dosim. 105, 539–548.

Zhang P. Sawicki V. Lewis A. Hanson L. Monks J. Neville M.C. , 2000. The effect of serum iron concentration on iron secretion into mouse milk. J. Physiol. 522, 479–491.

Zubal I.G. Harreil C.R. Smith E.O. , 1994. A computerized three-dimensional segmented human anatomy. Med. Phys. 21, 299–302.

Zundel W.S. Tyler F.W. Mays C.W. Lloyd R.D. Wagner W.W. Pendleton R.C. , 1969. Short half-times of caesium-137 in pregnant women. Nature 221, 89–90.