Hostname: page-component-5c6d5d7d68-tdptf Total loading time: 0 Render date: 2024-08-19T03:01:49.800Z Has data issue: false hasContentIssue false
  • English
  • Français

The Egg-Laying Bird: Major Physiological Changes in Calcium Associated With Oestrogen Control

Published online by Cambridge University Press:  18 September 2007

Deborah A. Thaeler
Deborah A. Thaeler
Affiliation:
Biomechanics Laboratory, Orthopaedic Research, Cleveland Clinic Foundation, Cleveland, Ohio 44106
Get access

Abstract

An abstract is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Research Article
Information
World's Poultry Science Journal , Volume 35 , Issue 1 , February 1979 , pp. 32 - 44
Copyright
Copyright © Cambridge University Press 1979

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bar, A. and Hurwitz, S. (1972). Relationship of Duodenal Calcium-Binding Protein to Calcium Absorption in Laying Fowl. Comp. Biochem. Physiol. 41B: 735.Google Scholar
Bloom, M. A., Bloom, W., Domm, L. V. and McLean, F. C. (1940) Changes in Avian Bone Due to Injected to Estrogen and During the Reproductive Cycle Anat. Rec. 78(Suppl.): 143.Google Scholar
Bloom, W., Bloom, M. A., and McLean, F. C. (1941a). Calcification and Ossification: Medultary Bone Changes in the Reproductive Cycle of Female Pigeons. Anat. Rec. 81: 443.CrossRefGoogle Scholar
Bloom, W., Bloom, M. A., and McLean, F. C. (1941b). The Role of Androgen in the Production of Medullary Bone in Pigeons By Administration of Sex Hormones. Amer. J. Physiol. 133: 216.Google Scholar
Bloom, W. and Domm, L. V. (1941). Cyclic Chhanges in the Medullary Bone of Laying Hens Anat. Rec., 81(Suppl.): 91.Google Scholar
Bloom, M. A., Domm, L. V., Nalvander, A. V. and Bloom, W. (1958). Medullary Bone of Laying Chickens. Amer. J. Anat., 102: 411.CrossRefGoogle ScholarPubMed
Clegg, R. E., Ericson, A. T., Hein, R. E., McFarland, R. H. and Leonard, G. W. (1956) Calcium Binding in Chick Blood Sera. J. Biol. Chem., 219: 447.CrossRefGoogle Scholar
Comar, C. B. and Driggers, J. C. (1949). Secretion of Radio-active Calcium in the Hen's Egg. Science, 107: 282.CrossRefGoogle Scholar
Common, F. H., Rutledge, W. A. and Hale, R. W. (1948). Observations on the Mineral Metabolism of Pullets VII: The Influence of Gonadal Hormones on the Retention of Calcium and Phosphorus. J. Agric. Asci. 38: 64.Google Scholar
Correll, J. T. and Hughes, J. S. (1933). The Relation of Filterable to Non-Filterable Calcium in Chicken Blood. J. Biol. Chem., 103: 511.CrossRefGoogle Scholar
Gardner, W. W. and Peeiffer, C. A. (1943). Influence of Estrogens and Andorgens on the Skeletal System. Physiol. Rev., 23: 139.CrossRefGoogle Scholar
Hertelendy, F. and Taylor, T. G. (1961). Changes in Blood Calcium Association with Egg shell Calcification in the Domestic Fowl: I. Changes in the Total Calcium. Poult. Sci., 40: 108.CrossRefGoogle Scholar
Hunsaker, W. G. and Sturkie, P. D. (1958). A Survey of Recent Advances in Poultry Physiology. Poult. Sci. 37: 495.Google Scholar
Hurwitz, S. (1964). Bone Composition and Caé5 Retention in Fowl as Influenced by Egg Formation. Amer. J. Physiol., 206: 198.CrossRefGoogle ScholarPubMed
Hurwitz, S. (1964). Calcium Turnover in Different Bone Segments of Laying Fowl Amer. J. Physiol., 208: 203.Google Scholar
Hurwitz, S. and Bar, A. (1966). Calcium Depletion and Repletion in Laying Hens. 2. Effect on Radiocalcium and Radio-Strontium Retantion in Bone and Deposition in the Eggshell. Poul. Sci. 45: 352.CrossRefGoogle Scholar
Jukes, T. H. and Kay, H. D. (1932). Egg York Proteins. J. Nutr., 5: 81.CrossRefGoogle Scholar
Keyes, P. and Potter, T. S. (1934). Physiological Marrow Ossification i Female Pigeons. Anat. Rec. 60: 377.CrossRefGoogle Scholar
Landauer, W. and Zondek, B. (1944). Observations on the Structure of Bone in Estrogen Treated Cocks and Drakes. Amer. J. Path. 20: 179.Google ScholarPubMed
McDonald, M. R. and Riddle, O. (1945). Effect of Reproduction and Estrogen Administration on the Partution of Calcium, Phosphorus and Nitrogen in Pigeon Plasma. J. Biol. Chem., 159: 445.CrossRefGoogle Scholar
Mueller, W. J. (1964). Calcium Metabolism and Skeletal Dynamics of Laying Pullets. J. Nutr., 84: 20.CrossRefGoogle ScholarPubMed
Navarro, M. B. and Murillo, A. (1976). Calcium Balance in the Quail: Influence of Sex and Diethylstilbesterol. Poult. Sci., 55: 2001.Google Scholar
Pfeifer, C. A. and Gardner, W. V. (1938). Skeletal Changes and Blood Serum Calcium Level in Pigeons Receiving Estrogens. Endocrin., 23: 485.CrossRefGoogle Scholar
Polin, D. and Sturkie, P. D. (1958). Parathyroid and Gonad-Relationship in Regulating Blood Calcium Fractions in Chickens. Endocrin., 63: 177.CrossRefGoogle ScholarPubMed
Riddle, O. (1942). Cyclic Changes in Blood Calcium, Phosphorus and Fat in Relation to Egg Laying and Estrogen Production. Endocrin., 31: 498.CrossRefGoogle Scholar
Riddle, O. and Dotti, L. B. (1936). Blood Calcium in Relation to the Anterior Pituitary of Sex Hormones. Science, 85: 557.CrossRefGoogle Scholar
Riddle, O., Rauch, V. M., and Smith, G. C. (1944). Action of Estrogen on Plasma Calcium and Endosteal Bone Formation in Parathyroidectomized Pigeons. Endocrin., 36: 41.CrossRefGoogle Scholar
Riddle, O., and Reinhart, W. H. (1926). Studies on the Physiological Reproduction in birds. XXI. Blood Calcium Changes in the Reproductive Cycle. Amer. J. Physiol., 76: 660.CrossRefGoogle Scholar
Schjeide, O. A., and Urist, M. R. (1956). Proteins and Calcium in Serums of Estrogen Treated Roosters. Science, 1241242.Google Scholar
Schjeide, O. A. and Urist, M. R. (1960). Proteins Induced in Plasma by Estrogens. Nature, 188: 291.CrossRefGoogle Scholar
Simkiss, (1961). Calcium Metabolism and Avian Reproduction. Biol. Rev., 36: 321.CrossRefGoogle Scholar
Stringer, S. A. and Taylor, T. G. (1961). The Calcification Mechanisms as Exemplified by a Histochemical Study of Avian Medullary Bone. Biochem. J., 78: 19.Google Scholar
Sturkie, P. D. and Paul, D. (1951). Effects of Estrogen and Thyroxine Upon Plasma Proteins and Blood Volume in the Fowl. Endocrin., 49: 565.CrossRefGoogle ScholarPubMed
Taylor, T. G. and Hertelendy, F. (1961). Changes in the Blood Calcium Associated with Eggshell Calcification in Domestic Fowl. 2. Changes in the Diffusible Calcium. Poul. Sci., 40: 115.CrossRefGoogle Scholar
Taylor, T. G. and Moore, J. H. (1953). Avian Medullary Bone. Nature. 172: 504.CrossRefGoogle Scholar
Taylor, T. G. and Moore, J. H. (1954). Skeletal Depletion in Hen's Laying on a Low Calcium Diet. Br. J. Nutr., 8: 112.CrossRefGoogle Scholar
Taylor, T. G. and Moore, J. H. (1956). The Effects of Calcium Depletion on the Chemical Composition of Bone Mineral on Laying Hens. Br. J. Nutr., 10: 225.CrossRefGoogle Scholar
Tyler, J. J. (1954). Studies on Eggshells. IV. The Side of Deposition of Radioactive Calcium and Phosphorus. J. Sci. Agric., 5: 225. 335.CrossRefGoogle Scholar
Urist, M. R. (1959). The Effects of Calcium Deprivation Upon the Adrenal Cortex, Ovary and Skeleton in Domestic Fowl. Rec. Prog. in Horm. Res., 15: 455.Google Scholar
Urist, M. R. (1967). Avian Parathyroid Physiology: Including a Special Comment on Calcitonin. Amer. Zool., 7: 883.CrossRefGoogle ScholarPubMed
Urist, M. R., Deutsch, W. M., Pomerantz, G. and McLean, F. (1960). Interaction Between Action of Parathyroid Hormone and Estrogens on Bone and Blood in Avian Species. Amer. J. Physiol., 199: 851.CrossRefGoogle Scholar
Vanstone, Q. E., Dale, S. O., Oliver, W. F. and Common, R. H. (1957). Site of Formation of Phosphoprotein. Physiol., 35: 659.Google Scholar
Winget, C. M. and Smith, A. H. (1959). The Dissociation of Calcium Protein Complex in Laying Hen's Blood. Amer. J. Physiol., 196: 371.CrossRefGoogle Scholar
Winget, C. M., Smithe, A. H. and Hoover, G. H. (1958). Anterio-Venous Differences in Plasma Calcium Contrations in the Shell Gland of the Laying Hen During Shell Formation. Poult. Sci., 37: 1325.CrossRefGoogle Scholar
Zahnd, J. M. (1954). Medullary Bone Variations. Poult. Sci., 34: 623.Google Scholar