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Revista Cubana de Investigaciones Biomédicas

Print version ISSN 0864-0300On-line version ISSN 1561-3011

Rev Cubana Invest Bioméd vol.38 no.1 Ciudad de la Habana Jan.-Mar. 2019  Epub Aug 30, 2019

 

Short communication

Serum copper, zinc, calcium and magnesium levels in mothers with offspring affected by neural tube defects: a case-control study

Noel Taboada Lugo1  * 
http://orcid.org/0000-0002-1254-8087

Ángel Mollineda Trujillo2 

Manuela Herrera Martínez1 

1Universidad de Ciencias Médicas Villa Clara, Cuba.

2Universidad Central Marta Abreu de Las Villas, Villa Clara, Cuba

ABSTRACT

Background:

Neural tube defects (NTDs) are important causes of infant mortality, which result from a complex interaction between genetics and environmental factors such as trace elements, which play and crucial role in the epigenetic regulation in the embryo fetal developmental program.

Objectives:

To measure the maternal serum levels of copper, zinc, calcium and magnesium in mothers with offspring affected by NTDs, and to examine a possible relationship between the serum concentrations of these micronutrients and occurrence of NTDs.

Design:

Case-controls study.

Subjects and Methods:

Maternal serum blood samples were obtained from 72 healthy pregnant women and 36 mothers who had NTDs affected offspring, including those alive, stillbirths and elective pregnancy' termination at Centro Provincial de Genetica in Villa Clara. Copper, zinc, calcium and magnesium levels in serum were measured by flame atomic absorption spectrometry and were compared between the two groups of mothers.

Results:

Serum zinc levels were determined to be significantly lower in the study group compared with the control group, while copper levels were significant elevated in the study group (all p values < .05). There was a negative correlation between serum zinc levels and serum copper levels. However, no association between calcium and magnesium serum levels and increased risk for the development of NTDs was observed.

Conclusions:

High maternal serum levels of copper and lower level of zinc during pregnancy were associated with NTDs in offspring. If folic acid supplementation is given, additional zinc supplementation should be considered for the further decrease in the recurrence risk of NTDs.

Keywords: Birth defects; Neural tube defects; Copper; Zinc; Micronutrients; Trace elements

INTRODUCTION

Neural tube defects (NTDs) are one of the most common forms of human congenital defect (CD). NTDs occur in 1-6.5 per 1,000 births, with marked geographic and ethnic variations.1,2)

The etiology of NTDs is multifactorial involving nutritional deficiencies, genetic predisposition and others environmental factors. Nutritional factors appear to be an important contributor to the etiology of NTDs. Although it is known that folic acid deficiency has a definite place in the etiology, supplementation and fortification with folic acid have not eliminated all NTDs.

Trace elements, so called micronutrients, because are needed in minute quantities, encompass minerals essential for normal human development and functioning of the body. These are known to be limiting in the diets, particularly of the socio-economically weaker and physiologically vulnerable sections of the population in developing countries. The World Health Organization (WHO) estimates that more than 2 billion people are deficient in key vitamins and minerals all over the world.2, 3,4

It has been shown that concentrations of various trace elements are altered during pregnancy by many researches in different countries.2,5,6 A study of one specific major CD on a wide range of micronutrients has not been reported previously in Cuba. In this case-control study, we investigated the level on serum blood concentrations of four selected trace elements of mother with affected offspring by NTDs and normal pregnant woman in a central province of Cuba.

 

METHODS

A case control study supported in a dynamic cohort was conducted at Centro Provincial de Genetica in Villa Clara province, Cuba; during January 2014 to December 2018. Three NTDs subtypes, i.e., anencephaly, spina bifida and encephalocele where included, according the (ICD-10) codes. When a woman with an NTDs-affected pregnancy (including live birth, still birth, or pregnancy termination) was confirmed as a case, two healthy pregnant women were selected to serve as control, and were matched to the case by the same municipality of residence, and same gestational age.

Maternal serum blood samples were obtained from 72 healthy pregnant women and 36 mothers who had NTDs affected offspring diagnosed at Centro Provincial de Genetica in Villa Clara. Five milliliters of fasting venous blood of antecubital vein were collected, during 08.00-10.00 hours, from the all participating pregnant women prior they signing an informed consent form. The collected blood was poured into metal-free plain tubes and was allowed to clot at room temperature. Plain tubes were centrifuged for 15 min at 3 000 rpm and the serum was separated and kept in trace elements-free tubes and stored at -200C until analysis. Finally samples were kept in dried ice and were translated to the Laboratory of Spectroscopy of the Universidad Central Marta Abreu de Las Villas for biochemical analysis. Cu, Zn, Ca and Mg levels in serum were measured by flame atomic absorption spectrometry and were compared between the two groups of mothers. All trace elements values were expressed in μmol per liter.

All other data obtained were subjected to suitable statistical analysis. Mean, standard deviation (Mean ± SD) were calculated wherever necessary and suitable figures were prepared. The statistical differences among the groups were analyzed by chi-square test. Statistical analyses were conducted using SPSS 22. A two-tail p value of < 0.05 was taken as the statistical significance level.

The Ethics and Research Committee of the "Mariana Grajales" Gynecobstetrics Teaching Hospital, in Santa Clara city, approved the protocol for this study. After the purpose of the study was described to all the participating women, written consent was obtained from each one of them. In order to maintain confidentiality of any information provided by study subjects, the data collection procedure was anonymous.

 

RESULTS

Of the total cases of NTDs, 52.8% were cases of anencephaly; 30.5%, spina bifida; and 16.7%, encephalocele. The mean (± SD) Zn level of the mothers who had affected offspring with NTDs was significantly lower when compared to the control group (10.30 ±2.16 vs. 12.15± 1.11; p < 0.05.). However, the mean maternal serum Cu levels in the NTDs group were significantly higher when compared to the control group (23.69±6.81 vs. 16.81 ± 4.83, p < 0.05). On the other hand there was no significant difference among Ca and Mg levels between cases and controls. Mean concentrations of the four essential elements determined in maternal serum are presented in Fig. 1.

Fig. 1 Mean concentrations of trace elements in cases and control group. Villa Clara 2014 - 2018. 

In comparison with the control group, the ratio of Cu/Zn in the mothers with offspring affected with NTDs was found to be significantly higher (2.3±2.1 vs. 1.4±1.2, p=0.001).

For the serum Zn level the value of Levene statistical test for equality of variances was 9.690 (p= 0.002) and the t value in the T test for equality of means was -5.873 (p= 0.000), whereas that Cu serum level the value of Levene statistical test for equality of variances was 6.841 (p= 0.010) and the t value in the T test for equality of means was 6.063 (p= 0.000) as it's shown in table 1. For the remainder trace elements there was a not significant difference between cases and controls.

Table 1 Statistical tests designed for independent samples for Zn and Cu serum concentrations. Villa Clara 2014 - 2018 

DISCUSSION

Anencephaly (from Greek: an: without and enkephalos: encephalon) is the most used medical terminology all over the world, nevertheless, the term meroencephaly is more appropriated, because in these cases really exist a vestige of the encephalon. This kind of congenital defects (CD) was the most prevalent in the present study, this result is agree with many other researchers for whom this is the most frequent NTDs and it´s the CD affecting the central nervous system with the highest mortality.1,2 However, other researchers had been identified spina bifida as the most frequent NTDs.5)

The mean Zn concentrations found in controls serum (10.30 μmol/L) fall below accepted adult levels reported in the literature (10.80-22.90 μmol/L. It is known that pregnant women are at risk of acquired Zn deficiency because of its requirements by the developing fetus.3,5,6)

Zn is an essential nutrient for normal cellular growth and differentiation in all species and may be especially necessary for closure of the human neural tube. Also, Cu is an important component of proteins essential for neural function. The role of copper in the development of NTD is plausible because of its participation in oxidative stress.4,5,6

Zn deficiency has long been considered a common but overlooked problem in developing countries. It is widely believed that Zn deficiency is as widespread as iron deficiency, affecting nearly half of the world's population. Studies carried out in developing countries documented that Zn deficiency in pregnant women is mainly because of the low intake of dietary Zn, for instance, in a study done to know the micronutrient status and dietary intake in women of reproductive age and pregnant woman, African researchers reported a Zn deficiency ranged from 46% to 70% in pregnant woman in Ethiopia, Kenya, Nigeria and Egypt.7,8

In a study conducted in two provinces of China both located in northern with the highest NTDs prevalence in this country, investigators found that lower maternal concentrations of Zn and other trace elements during the early period of pregnancy were associated with an elevated risk of NTDs in offspring.5

Most Cuban population consumed a daily diet composed mainly of rice and beans; the first of them is a cereal which high concentration of phytates and beans are an important source of dietetic fibers. The bioavailability of Zn is considerably influenced by the composition of the diet in the content of inositol phosphates (phytates), the total Zn content of the meal and the amount and source of protein. Animal protein is a rich source of Zn and, in addition, exerts a possible enhancing effect on the overall absorption of Zn from the diet. It is well known that fibers and phytic acid are strong inhibitors of Zn absorption and a concomitant intake of protein seems to counteract the negative effects on absorption induced by high intakes of phytic acid.4

The results of the present study showed that in comparison with the control group, the mothers who had offspring affected with NTDs had high levels of serum Cu and low levels of Zn. This difference between the two groups might be related to the levels of these trace elements in the environment and their nutrition. It is known that serum levels of Cu and Zn could be high in mothers from an area where the soil has high levels of these elements, however all women include in the present study (cases and controls) were matched by the same municipality of residence. Furthermore, the role played in the development of NTDs by the level of Cu in the water supply is controversial. Cu and Zn levels are closely related to nutrition.8

In addition, there are important interactions between trace elements at the level of intestinal absorption. When there is a decrease in Zn, the increase in Cu absorption is the reason for the increased level of serum Cu. Zn-Cu interaction during intestinal absorption may be the answer for the relative increase in Cu in patients with NTDs in the present study. Furthermore, Zn also removes Cu from its binding site, where it may cause free radical formation. Zn may also play a role by influencing Cu metabolism in the development of NTDs.4,6,8

There might also be a relationship between genetic and metabolic processes involving the pathology of the serum Cu and Zn levels of the mothers with offspring affected by NTDs. Vietnamese researchers established a negative correlation between the high level of serum Cu and the level of serum folic acid in the mothers of infants with NTD. It is plausible that a high level of Cu plays a role in etiology of NTD by having a negative effect on the folic acid nutriture.8

Concluding remarks

The etiology of NTDs cannot be explained with one strict etiologic mechanism, on the contrary, an interaction among environmental, genetic, and nutritional factors such as trace elements and vitamins would explain these anomalies. The results of the present study indicate that high maternal serum levels of Cu and lower level of Zn during pregnancy were associated with NTDs in offspring. If folic acid supplementation is given, additional Zn supplementation should be considered for the further decrease in the recurrence and occurrence of NTDs.

REFERENCES

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6. Rajwinder H, Mieke F, Folake S, Judith K, Afework M, Ans E. Micronutrient status and dietary intake of Iron, Vitamin A, Iodine, Folate and Zinc in women of reproductive age and pregnant women in Ethiopia, Kenya, Nigeria and South Africa: A systematic review of data from 2005 to 2015. Nutrients. 2017; 9: 1096-1119. Available online: https://www.mdpi.com/2072-6643/9/10/1096/htm [accessed on 3 March 2019]. [ Links ]

7. Naem NE, El-Sayed NM, Nossier SA, Abu Zeid AA. Zinc status and dietary intake of pregnant women, Alexandria, Egypt. J Egyp Pub Health Ass. 2014; 89: 35-41. Available online: https://journals.lww.com/ephaj/Fulltext/2014/04000/Zinc_status_and_dietary_intake_of_pregnant_women,.6.aspx?bid=AMCampaignWKHJ#pdf-link [accessed on 3 March 2019]. [ Links ]

8. Cong LN, Dong VH, D , Phung THG, Anh VVH, Tan KC, Ngoc MP, et al. Low dietary intakes of essential nutrients during pregnancy in Vietnam. Nutrients. [En línea]. 2018; 10:1025-1038. Available online: https://www.mdpi.com/2072-6643/10/8/1025/htm [accessed on 3 March 2019]. [ Links ]

*Autor para la correspondencia: noeltl@infomed.sld.cu

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