Abstract
A cross-sectional study of serum zinc (Zn) and copper (Cu) levels in 31 healthy pregnant women and 51 healthy, nonpregnant controls living in the Mediterranean area of Granada, Spain, was performed. The subjects were divided into two groups: Group A, consisted of pregnant women in three categories according to the trimester of pregnancy, and Group B consisted of nonpregnant women acting as controls.
In pregnant women, serum Zn levels were found from 0.300-1.340 mg/L and serum Cu from 0.936-2.304 mg/L, whereas in the nonpregnant women group, the mean serum levels were 0.947 ±0.265 mg/L for Zn and 1.092 ±0.365 mg/L for Cu. Serum Zn progressively decreased with gestation. Mean Zn levels were 0.829 ±0.253, 0.846 ±0.329, and 0.620 ±0.142 mg/L, corresponding to the first, second, and third trimesters of pregnancy, respectively.
Serum Zn concentrations were significantly lower in pregnant women as compared to controls: 0.712 ±0.236 mg/L vs 0.947 ±0.265 mg/L, respectively (p < 0.05).
In contrast, Cu levels increased with period of gestation from 1.053 ±0.498 mg/L in the first trimester to 1.616 ±0.304 mg/L in the second and 1.689 ±0.344 mg/L in the third. Serum Cu levels in the second and third trimesters of pregnancy were significantly higher (p < 0.05) than those determined during the first trimester and for nonpregnant controls. Both Zn and Cu during pregnancy did not appear to be dependent on the subject’s age (p > 0.05).
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P. E. Johnson, D. B. Milne, and G. L. Lykken, Effects of age and sex on copper absorption, biological half-life and status in humans,Am. J. Clin. Nutr.,56, 917–925 (1992).
R. A. Disilvestro and G. P. Carlson, Effects of moderate copper deficiency on carbon tetrachloride-induced hepatotoxicity in rats,Proc. Soc. Exp. Biol. Med.,197, 32–35 (1991).
J. R. Turnlund, Copper, inModern Nutrinon in Health and Disease, vol. 1, 8th ed., M. E. Shils, J. A. Olson and M. Shike, eds., Lea and Febiger, Philadelphia, pp. 231–241 (1994).
J. C. King and C. L. Keen, Zinc, inModern Nutrition in Health and Disease, vol. 1, 8th ed., M. E. Shils, J. A. Olson, and M. Shike eds., Lea and Febiger, Philadelphia, pp. 214–230 (1994).
G. Jia, Analysis of serum levels of selenium, zinc, and copper in 132 patients with malignant tumors,Chung. Hua. Yu. Fang. I. Hsueh. Tsa. Chich. 25, 205–207 (1991).
E. L. Ma and Z.M. Jiang, Ion-exchange chromatography in simultaneous determination of serum, copper and zinc levels in patients with cancer of digestive tract,Chim. Med. J. Engl.,106, 118–121 (1993).
D. J. Malvy, B. Burtschy, J. Arnaud, D. Sommelet, G. Leverger, L. Dostalova, and J. Drucker, Serum beta-carotene and antioxidant micronutrients in children with cancer, “Cancer in children and antioxidant micronutrients,” The French Study Group,Inst. J. Epidemiol. 22, 761–771 (1993).
K. Overvad, D. Y. Wang, J. Olsen, D. S. Allen, E. B. Thorling, R. D. Bulbrook, and J. L. Hayward, Copper in human mammary carcinogenesis: a case-cohort study,Am. J. Epidemiol. 137, 409–414 (1993).
D. Yoshida, Y. Ikeda, and S. Nakazawa, Quantitative analysis of copper, zinc, and copper/zinc ratio in selected human brain tumors,J. Neurol. Oncol. 16, 109–115 (1993).
I. Yücel, F. Arpaci, A. özet, B. Döner, T. Karayilanoglu, A. Sayar, and ö. Berk, Serum copper and zinc levels and copper/zinc ratio in patients with breast cancer,Biol. Trace Element Res. 40, 31–38 (1994).
G. V. Vahouny, Trace elements and cardiovascular disease,Nutr. Toxicol. 1, 135–161 (1982).
I. I. Dementera, M. lu. Andrianova, S. L. Dzemeshkevich, A. G. Iavarovskii, and L. S. Lokslin, Changes in the content of microelements: copper, zinc and iron in the blood of patients following cardiopulmonary bypass,Anesteziol. Reanimatol. 4, 50–53 (1993).
V. Govindaraju, N. Prabhudev, M. Gurappa, V. S. Jawali, P. M. Chandrasekhara, and C. N. Manjunath, Zinc in rheumatic heart valves,J. Assoc. Phys. India 41, 653–654 (1993).
T. Magalova, A. Brtkova, A. Bederova, I. Kajaba, and I. Puchonova, Serum copper and zinc in industrial centers in Slovakia,Biol. Trace Element Res. 40, 225–235 (1994).
O. Oster, Trace element concentrations (Cu, Zn, Fe) in serum from patients with dilater cardiomyopathy,Clin. Chimica Acta 214, 209–218 (1993).
O. Oster, M. Dahm, and H. Oelert, Element concentrations (selenium, copper, zinc, iron, magnesium, potassium, phosphorous) in heart tissue of patients with coronary heart disease correlated with physiological parameters of the heart.Eur. Heart. J. 14, 770–774 (1993).
W. J. Macganity, E. B. Dawson, and A. Fogelman, Nutrition in pregnancy and lactation, inModern Nutrition in Health and Disease, vol. 1, 8th ed., M. E. Shils, J. A. Olson, and M. Shike, eds., Lea and Febiger, Philadelphia, pp. 705–726 (1994).
C. A. Swanson and J. C. King, Zinc and pregnancy outcome,Am. J. Clin Nutr. 4, 763–771 (1987).
C. L. Keen and L. S. Hurley, Zinc and reproduction: effects of deficiency on fetal and postnatal development, inZinc in Human Biology, C. F. Mills, ed., International Life Sciences Institute, London, pp. 173–182 (1989).
J. Apgar and G. A. Everet, Low zinc intake affects maintenance of pregnancy in guinea pigs,J. Nutr. 121, 192–200 (1991).
S. C. Cunnane and J. Yang, Zinc deficiency impairs whole-body accumulation of plyunsaturates and increases the utilization of [1-14] linoleaate for the novo lipid syntesis in pregnant rats,Can. J. Physiol. Pharmacol. 73, 1246–1252 (1995).
R. S. Bedwal and A. Bahuguma, Zinc, copper and selenium in reproduction,Experientia 50, 626–640 (1994).
R. L. Goldenberg, T. Tamura, Y. Neggers, R. L. Copper, K. E. Johnston, M. B. Dubard, and J. C. Hanth, The effect of zinc supplementation on pregnancy outcome,JAMA 274, 463–468 (1995).
A. J. McMichael, I. E. Dreosti, G. T. Gibsson, Y. M. Hartshorne, R. A. Buckley, and D. P. Colley, A prospective study of serial maternal serum zinc levels and pregnancy outcome,Early Human Dev. 7, 59–69 (1982).
A. S. Prasad, Zinc deficiency in women, infants and childrenJ. Am. Coll. Nutr. 15, 113–120 (1996).
R. M. Jeswani and S. N. Vani, A study of serum zinc levels in cord blood of neonates and their mothers,Indian J. Pediatr. 58, 683–686 (1991).
W. Wasowicz, P. Wolkamin, M. Bednarski, J. Gromadzinska, M. Sklodowska, and K. Grzybowska, Plasma trace element (Se, Zn, Cu) concentration in maternal and umbilical cord blood in Poland. Relation with birth weight gestational age, and parity,Biol. Trace Element Res. 38, 205–215 (1993).
S. A. Wolfe, R. S. Gibson, S. L. Gadowsszky, and D.L. O’Connor, Zinc status of a group of pregnant adolescents at 36 weeks gestation living in southern Ontario,J. Am. Coll. Nutr. 13, 154–164 (1994).
E. Russanov, V. Banskalieva, and S. Lyutakova, Influence of sex hormones on the subcellular distribution of copper in sheep liver,Res. Vet. Sci. 30, 233–235 (1981).
W. W. Saylor and J.V. Downer, Copper and zinc distribution in the liver and oviduct of estrogen and testosterone treated,Nutr. Res. 6, 181–190 (1986).
I. E. Dreosti, A. J. McMichael, G. T. Gibson, R. A. Buckley, J. M. Hasttone, and D. P. Colley,Nutr. Res. 2, 591–594 (1982).
M. G. Crews, L. J. Taper, and S.J. Ritchey, Effect of oral contraceptive agents on copper and zinc balance in young women,Am. J. Clin. Nutr. 33, 1940–1944 (1980).
S. C. Vir and A. H. G. Love, Zinc and copper nutriture of women taking oral contraceptive agents,Am. J. Clin. Nutr. 34, 1479–1483 (1981).
M. A. Jankowski, J. Y. Urin-Hare, R. B. Rucker, J. M. Rogers, and C. L. Keen, Maternal zinc deficiency, but not copper deficiency or diabetes, results in increased embryogenic cell death in the rat: implications for mechanisms underlying abnormal development,Teratology 51, 85–93 (1995).
C. Terres-Martos, M. Navarro-Alarcon, E Martin-Lagos, H. Lopez-García de la Serrana, and M. C. Lopez-Martinez, Determination of copper level in serum of healthy subjects by atomic absorption spectormetry,Sci. Total Environ. 198, 97–103 (1997).
R. B. Williams, N. T. Davies, and L. Mcdonald, The effects of pregnancy and lactation in copper and zinc retention in rat,Br. J. Nutr. 38, 407–416 (1977).
F. Martin-Lagos, M. Navarro-Alarcón, C. Terrés-Martos, H. López-García de la Serrana, and M. C. López-Martónez, Serum zinc levels in healthy subjects from southeastern Spain,Biol. Trace Element Res., this issue.
P. J. Agget and J.T. Harries, Current status of zinc in health and disease states,Arch. Dis. Child. 54, 909–917 (1979).
K. M. Hambidge, J. F. Krebs, M. A. Jacobs, A. Favier, L. Guyette, and D. N. Ikle, Zinc nutritional status during pregnancy: a longitudinal study,Am. J. Clin. Nutr. 37, 429–442 (1983).
R. Veena, A. P. Narang, A. W. Banday, and U. K. Bhan, Copper and zinc levels in maternal and fetal cord blood,Int. J. Obstet. 35, 47–49 (1991).
H. K. Garg, K. C. Singhal, and Z. Arshad, A study of oral zinc supplementation during pregnancy on pregnancy outcome,Indian J. Physiol. 37, 276–284 (1993).
E. B. Dawson, J. Albers, and W. J. McGanity, Serum zinc changes due to iron supplementation in teen-age pregnancy,Am. J. Clin. Nutr. 50, 848–852 (1989).
J. Metcoff, J. B. Costiloe, W. M. Crosby, L. Bentle, D. Seshachalam, S. S. Sandstead, E. Bodwell, F. Weaver, and P. E. McClain, Maternal nutrition and fetal outcome,Am. J. Clin. Nutr. 34, 708–721 (1981).
Y. H. Neggers, G. R. Cutter, J. O. Alvarez, R. L. Goldenberg, R. Acton, R. C. Go, and J. M. Reseman, The relationship between maternal serum zinc levels during pregnancy and birthweight,Early Hum. Dev. 25, 75–85 (1991).
J. Arnaud, A. Prual, P. Preziosi, F. Cherouvrier, A. Favier, P. Galan, and S. Herberg, Effect of iron supplementation during pregnancy on trace element (Cu. Se, Zn) concentrations in serum and breast milk from Nigerian women,Ann. Nutr. Metab. 37, 262–271 (1993).
H. K. Garg, K. C. Singhal, and Z. Arshad, Effect of oral zinc supplementation on copper and hemoglobin levels in pregnant women,Indian J. Physiol. Pharmacol. 38, 272–276 (1994).
M. Casanova Bellido, A. M. Moreno Vázquez, B. Ferriz Mas, M. Casanova Roman, S. Rico de Cos, and J. M. Tapia Barros, Copper in the neonatal period. Maternal-fetal relations,An. Esp. Pediatr. 44, 145–148 (1996).
J. Petros, O. Kosut, and D. Pomyjova, The effect of zinc on pregnancy in women working in heavy industry,Cesk. Gynekol. 56, 11–14 (1991).
J. Arnaud, P. Preziosi, L. Mashako, P. Galan, C. Nisbn, A. Favier, C. Kapongo, and S. Herberg, Serum trace elements in Zairian mothers and their newborns,Eur. J. Clin. Nutr. 48, 341–348 (1994).
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Martín-Lagos, F., Navarro-Alarcón, M., Terrés-Martos, C. et al. Zinc and copper concentrations in serum from Spanish women during pregnancy. Biol Trace Elem Res 61, 61–70 (1998). https://doi.org/10.1007/BF02784041
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DOI: https://doi.org/10.1007/BF02784041