  | |||||||||||||||||||
|
|||||||||||||||||||
|
|||||||||||||||||||
|
|||||||||||||||||||
|
|||||||||||||||||||
| Journal Home | |
| Current Issue | |
| AOP | |
| Archive | |
| |
| |
THIS ARTICLE  | |
| |
| Download PDF | |
| References | |
| |
| |
| |
| Export citation | |
| Export references | |
| |
| |
| |
| Send to a friend | |
| |
| |
| |
| More articles like this | |
| |
| |
| |
| Table of Contents | |
| < Previous | Next > | |
| |
 |
 |
| Nature 244, 515 - 517 (24 August 1973); doi:10.1038/244515a0 |
|
Natural and Synthetic Sources of Circulating 25-Hydroxyvitamin D in Man
JOHN G. HADDAD JUN. & THEODORE J. HAHN
Washington University School of Medicine, Department of Medicine, The Jewish Hospital of St Louis, St Louis, Missouri 63110
THE antiricketic sterols are both assimilated from the diet and endogenously produced by ultraviolet irradiation of cutaneous 7-dehydrocholesterol1−3. Before the modern practice of supplementing foods with irradiated ergosterol (ergocalciferol, vitamin D2), deficiency states were frequently observed in subjects whose dark skin colour and/or minimal exposure to sunlight minimized the natural endogenous production of cholecalciferol (vitamin D3)4. It has been generally accepted that casual exposure to sunlight and average diets provide enough antiricketic sterol to prevent osteomalacia in the adult (American Academy of Pediatrics, 1963). Infants, however, are recognized to require vitamin D supplementation, for their maternally derived stores wane at a time when their natural foods are a poor source and their exposure to ultraviolet radiation unreliable. Supplementation of foods with vitamin D2 has thus become a widespread and successful practice which has subsequently undergone quantitative revisions in several countries.
| 1. | Huldschinsky, K., Dt. med. Wschr., 45, 712 (1919). |
| 2. | Steenbock, H., and Black, A., J. biol. Chem., 61, 405 (1924). |
| 3. | Hess, A. F., and Weinstock, M., J. biol. Chem., 62, 301 (1924). |
| 4. | Loomis, W. F., Science, N. Y., 157, 501 (1967). |
| 5. | Dent, C. E., and Smith, R., Q. Jl Med., 38, 195 (1969). |
| 6. | Smith, R. W., Rizek, J., and Frame, B., Am. J. clin. Nutr., 14, 98 (1964). |
| 7. | Warkany, J., Am. J. Dis. Child., 52, 831 (1936). |
| 8. | Neer, R., Davis, T., Walcott, E., and Thorington, L., Nature, 299, 255 (1971). |
| 9. | Bills, C. E., Physiol. Rev., 15, 1 (1935). |
| 10. | Ponchon, G., and DeLuca, H. F., J. clin. Invest., 48, 1273 (1969). |
| 11. | Blunt, J. W., Tanaka, Y., and DeLuca, H. F., Proc. natn. Acad. Sci. U.S.A., 61, 1503 (1968). |
| 12. | Suda, T., DeLuca, H. F., and Tanaka, Y., J. Nutr., 100, 1049 (1970). |
| 13. | Fraser, D. R., and Kodicek, E., Nature, 228, 764 (1970). |
| 14. | Holick, M., DeLuca, H. F., and Avioli, L. V., Arch. intern. Med., 129, 56 (1972). |
| 15. | Haddad, J. G., and Chyu, K., J. clin. Endocr. Metab., 33, 992 (1971). |
| 16. | Kermack, K. A., and Haldane, J. B. S., Biometrika, 37, 30 (1950). |
| 17. | Mawer, E. B., Lumb, G. A., Schaefer, K., and Stanbury, S. W., Clin. Sci., 40, 39 (1971). |
| 18. | Haddad, J. G., Chyu, K., Hahn, T. J., and Stamp, T. C. B., J. Lab. clin. Med., 81, 22 (1973). |
| 19. | Ponchon, G., and DeLuca, H. F., J. Nut., 99, 147 (1969). |
| 20. | Holick, M. F., and DeLuca, H. F., J. Lipid Res., 12, 460 (1971). |
| 21. | Lund, J., and DeLuca, H. F., J. Lipid Res., 7, 739 (1966). |
| 22. | Food Values of Portions Commonly Used, eleventh ed. (edit. by Church, C., and Church, H.) (J. B. Lippincott, Philadelphia, 1970). |
| 23. | Rosenstreich, S. J., Rich, C., and Volwiler, W., J. clin. Invest., 50, 679 (1971). |
| 24. | Mawer, E. B., Backhouse, J., Holman, C. A., Lumb, G. A., and Stanbury, S. W., Clin. Sci., 43, 413 (1972). |
© 1973 Nature Publishing Group
Privacy Policy