Low vitamin C intake increases risk of pre-eclampsia 128 *Department of Nutrition, Faculty of Medicine, Diponegoro University, Semarang **Department of Environmental Health, Faculty of Public Health Diponegoro University, Semarang ***Department of Public Health Nutrition, Faculty of Public Health Diponegoro University, Semarang Correspondence: Rifatul Masrikhiyah Department of Nutrition, Faculty of Medicine, Diponegoro University, Semarang Email: rifatul.masrikhiyah@yahoo.com Univ Med 2016;35:128-34 DOI: 10.18051/UnivMed.2016.v35.128-134 pISSN: 1907-3062 / eISSN: 2407-2230 This open access article is distributed under a Creative Commons Attribution-Non Commercial-Share Alike 4.0 International License ABSTRACT UNIVERSA MEDICINA May-August, 2016May-August, 2016May-August, 2016May-August, 2016May-August, 2016 Vol.35 - No.2 Vol.35 - No.2 Vol.35 - No.2 Vol.35 - No.2 Vol.35 - No.2 Low vitamin C intake increases risk of pre-eclampsia in high pesticide exposure area Rifatul Masrikhiyah*, Suhartono**, and Martha Irene Kartasurya*** BACKGROUND Pre-eclampsia is the largest direct cause (42%) of maternal mortality death in Brebes district in 2013. The cause of pre-eclampsia is not known with certainty, oxidative stress being one of its causes. The aim of this study was to determine macro- and micronutrient intakes that do not correspond to the needs, as pre-eclampsia risk factors in post-partum women. METHODS The research was an observational study of case control design. Study subjects were 20-35 year-old post partum women consisting of 55 cases (pre-eclampsia) and 55 controls (non-pre-eclampsia). Nutrient intakes were measured using semi-quantitative food frequency questionnaires and data on levels of pesticide exposure, body mass index (BMI), mid- upper arm circumference (MUAC) and education were collected from structured interviews. Data was analyzed by chi-square tests and multiple logistic regression. RESULTS There was no difference in age and MUAC between the cases and controls. Low vitamin C intake (OR: 20.93; 95% CI: 2.72 – 161.36), high polyunsaturated fatty acid intake (OR: 10.50; 95% CI: 2.47 – 44.57), and low vitamin E intake (OR: 8.57; 95% CI: 2.07 – 35.46) were pre-eclampsia risk factors after controled for pesticide exposure, BMI and education. Low vitamin C intake played the most important role in the incidence of preeclampsia. CONCLUSION Low vitamin C intake played the most important role toward pre- eclampsia. Greater caution is needed when issuing recommendations regarding the consumption of vitamin supplements in pregnancy, as high doses of some vitamins may be deleterious. Keywords: Pre-eclampsia, vitamin C, vitamin E, polyunsturated fatty acids, pesticide exposure DOI: http://dx.doi.org/10.18051/UnivMed.2016.v35.128-134 129 Univ Med Vol. 35 No.2 INTRODUCTION Pre-eclampsia still constitutes a pubic health problem in developed and developing countries, contributing toward global maternal and perinatal morbidity and mortality.(1) Pre-eclampsia affects 5-10% of all global pregnancies. The prevalence of pre-eclampsia in developing countries reaches 16.7% and around 40-60% is estimated to contribute toward maternal mortality in developing countries.(2) The World Health Organization estimates that the incidence of pre- eclampsia is seven-fold higher in developing countries (2.8% of live births) than in developed countries (0.4%).(3) According to the Health Service of Brebes district, in 2012 the direct causes of the maternal mortality rate (MMR) in this district were hemorrhage 22%, pre-eclampsia 42%, infection 8%, heart failure 14%, dyspnea 4%, ruptured ectopic pregnancy 2%, ectopic pregnancy 2%, post curettage 2% and others 4%.(4) Oxidative stress results from an imbalance between free radical production and the antioxidant defense system (5) and is one of the causes of pre- eclampsia. Nutrients may influence oxidative stress by increasing free radicals/decreasing antioxidants/providing substrates for the formation of free radicals. A case-control study on 453 pregnant women (151 cases and 302 controls) showed that women with mid-upper arm circumference (MUAC) of >25.6 cm had two and a half times greater risk for pre-eclampsia than pregnant women with MUAC of <25.6 cm.(6) According to a study conducted by Kartasurya (7) on 200 pregnant/post partum women (50 pre-eclampsia cases and 150 controls), in women with pre-pregnancy body mass index (BMI) scores of >23 kg/m2, the risk of pre-eclampsia was four and a half times greater than in women with pre-pregnancy BMI scores of <23 kg/m2. Lipids are involved in the generation of free radicals and polyunsaturated fatty acids (PUFA) tend to be oxidized by free radicals and reactive oxygen species (ROS). A high PUFA intake may render the organism more susceptible to lipid peroxidation, which is strongly suspected to play a important role in the causation of maternal endothelial dysfunction and the appearance of clinical symptoms of pre-eclampsia. (8-10) According to the study by Clausen et al.(11) an increased intake of PUFA in pregnant women increases the risk of pre-eclampsia. Antioxidants may decrease the level of lipid peroxides by limiting or inactivating their formation. Free radicals may be treated by administration of antioxidants such as vitamins A, C and E. Low intakes of vitamins A, C and E may cause an imbalance between free radicals and antioxidants in the body. A previous study found that low intakes of vitamins A, C and E may increase the risk of pre-eclampsia.(12) Since protein status affects glutathione concentrations, a low protein intake contributes toward oxidative stress, as a result of low glutathione concentrations. Low glutathione concentrations affect the antioxidant effects of glutathione itself, causing free radicals to become uncontrolled, thus resulting in oxidative stress. The results of a study in pregnant women with pre-eclampsia showed that the glutathione concentrations in their blood were lower than in normal pregnant women.(13) A total of 104 pregnant women with pre- eclampsia and of 206 pregnant women at high risk of, but not suffering from, pre-eclampsia, were studied in second trimester pregnancies. This study showed that there was no relationship between nutritional intake and the development of pre-eclampsia (or other effects) when evaluated for 7 days.(14) A review and bivariate meta-analysis of 36 studies involving 1,699,073 pregnant women showed BMI to be a weak predictor of pre- eclampsia.(15) Brebes district in Central Java is one of the largest producers of shallots (bawang merah) in Indonesia, and has a high pesticide utilization. Pesticide exposure may cause health disorders in pregnant women. The study conducted by Saldana 130 et al.(16) found that pesticide exposure is a risk factor of pre-eclampsia. Based on these facts the present study aimed to determine the macro- and micronutrient intakes that do not correspond to needs, as risk factors of pre-eclampsia in post- partum women residing in areas of high pesticide exposure. The present study differs from previous studies in the location/site of the study, since it was conducted in Brebes district in an area of high pesticide exposure, where no previous studies had been conducted on the intakes of lipids, proteins and antioxidants (vitamins A, C and E) in relation to pre-eclampsia. METHODS Research design This study was of observational case control design and was conducted from February – March 2016 at 3 puskesmas (public health centers) in Brebes district, Central Java, i.e. puskesmas Brebes, Wanasari and Bulakamba. Research subjects The subjects in this study were women of productive age (20-35 years) who were up to 3 months post partum. The number of subjects in this study was 110, consisting of 55 cases and 55 controls. This number was obtained based on total sampling in the three puskesmas (Brebes, Wanasari and Bulakamba), where 55 subjects were found for the group of cases and 55 subjects for the group of controls. The inclusion criteria were women of productive age (20-35 years), agreeing to participate in the study, being 3 months post partum and diagnosed as having had pre- eclampsia in pregnancy (as cases), normal pregnant women (as controls), and residing in the catchment area of Bulakamba, Wanasari and Brebes subdistricts, Brebes district. The exclusion criteria for the subjects in this study were women with twin pregnancies and with diabetes mellitus. Pre-eclampsia was diagnosed by health personnel by the criteria of a blood pressure of >140/90 mmHg after 20 weeks of pregnancy and of proteinuria. Anthropometric measurements Measurement of BMI and MUAC of the women before pregnancy was performed by health personnel. The BMI of women before pregnancy was obtained from pre-pregnancy body weight divided by height, while MUAC was measured at the start of pregnancy. Nutrient intake measurements Nutrient intakes were obtained from interviews conducted by the investigators using the semi-quantitative food frequency questionnaire. The assessed nutrient intakes comprised total lipids, PUFA, and vitamins A, C and E. The nutrient adequacy level was calculated using the Nutrisurvey 2007 program and based on the Indonesian Recommended Dietary Allowances (IRDA) of 2013. The cut-off point for low protein intake was categorized at <80% of IRDA and for adequate protein intake at >80% of IRDA.(17) Low intake of vitamins A, C and E was categorized at <77% of IRDA and adequate intake at >77% of IRDA.(18) The intakes of PUFA and total lipids were categorized as high at >110% of IRDA and adequate at <110% of IRDA.(17) Exposure to pesticides The level of pesticide exposure was obtained through structured interviews, using a list of questions for the interviews and forms for willingness to participate in the study. The level of pesticide exposure was divided into two categories, i.e. mild and severe, with total scores of 1-11 and 12-22, respectively. Statistical analysis Chi square and independent t tests were used to determine differences between cases and controls. Simple logistic regression and multiple logistic regression were used to examine the risk factors of pre-eclampsia. The level of significance used was 0.05. Ethical clearance This study was conducted after obtaining approval of the ethics commission under no. 051/ EC/FK-RSDK/2016. Masrikhiyah, Suhartono, Kartasurya Vitamin C intake and pre-eclampsia 131 Univ Med Vol. 35 No.2 RESULTS Table 1 shows that with regard to age and level of education of the study subjects, there were no significant differences between cases and controls (p=0.245 and p=0.096). Table 2 shows the results of the analysis of pre-eclampsia risk factors. The results of simple logistic regression showed that there was a relationship between intakes of nutrients (protein, PUFA, and vitamins A, C and E), BMI, and level of pesticide exposure with the incidence of pre- eclampsia. Low intake of protein (OR: 5.37; 95% CI: 1.43 – 20.08), high intake of PUFA (>110% of IRDA) (OR: 6.55; 95% CI: 2.62 – 16.41), low intake of vitamin A (OR: 4.84; 95% CI: 1.28 – 18.26), low intake of vitamin C (OR: 4.35; 95% CI: 1.33 – 14.24), low intake of vitamin E (OR: 12; 95% CI: 4.15 – 34.69), BMI >23 kg/m2 (OR: 2.50; 95% CI: 1.10 – 5.67), severe pesticide exposure (OR: 3.34; 95% CI: 1.26 – 8.82) are risk factors of the incidence of pre-eclampsia. The variables that were used as candidates in the multiple logistic regression analysis were those that were significant in the simple logistic regression analysis. These comprised the intakes of protein, PUFA, vitamin A, vitamin C, vitamin E, pesticide exposure, and BMI. Table 1. Characteristics of study subjects, by cases (n=55) and controls (n=55) *independent T-test; ** Chi-square test Table 2. Simple logistic regression analysis of risk factors of pre-eclampsia IRDA: Indonesian Recommended Dietary Allowances 132 A low vitamin C intake was the risk factor with the most important role on the incidence of pre-eclampsia (OR: 20.93; 95% CI: 2.72- 161.36). Other risk factors that also played a role on the incidence of pre-eclampsia were high intake of PUFA(OR: 10.50; 95% CI: 2.47- 44.57), low vitamin E intake (OR: 8.57; 95% CI: 2.07 –35.46), and severe pesticide exposure (OR: 5.83; 95% CI: 1.31 – 25.94) (Table 3). DISCUSSION Low protein intake was a risk factor for the incidence of pre-eclampsia, but was statistically not significant. The results of this study are in agreement with a case control study conducted on 113 women with gestational hypertension and 150 healthy pregnant women in Tehran, that did not show any significant differences in protein intake between the two groups.(19) However, the results of our study differed from those of one study on pregnant or post partum women in Semarang and another study on pregnant women in Makassar, with and without pre-eclampsia, where it was found that low protein intake was a risk factor of pre- eclampsia in pregnancy.(7,20) Similarly, a study that was conducted in one Indian hospital found that low protein intake was a risk factor of pre- eclampsia.(21) Low protein intake contributes toward oxidative stress that subseaquently causes pre- eclampsia. Protein status affects glutathione concentration, where low protein intake leads to low glutathione concentrations. Glutathione is the substrate for the enzyme catalyzing the reduction of ROS and free radicals. Glutathione has an important antioxidant capacity and plays an essential role in the detoxification of endogeneous metabolic products, including lipid peroxides, and of xenobiotic compounds.(22) Low glutathione concentrations increase oxidative stress that causes pre-eclampsia. High intake of PUFA (>110% of IRDA) is a risk factor of the incidence of pre-eclampsia. This is in line with the study by Clausen et al.(11) who found that high intake of PUFA in pregnant women increased the risk of pre-eclampsia. Lipids are involved in the generation of free radicals. PUFA in lipid membranes are the main targets of lipid peroxidation by ROS. PUFA are degraded by free radicals, thus producing end products termed malondialdehydes (MDA), which may be used for determining the level of oxidative damage caused by lipid peroxidation. Therefore, high PUFA intake may render the organism more susceptible to lipid peroxidation. Lipid peroxidation is strongly suspected to play an important role in causing endothelial dysfunction and the development of clinical symptoms of pre-eclampsia.(8-10) The results of our study showed that low intakes of vitamin A, vitamin E and vitamin C are risk factors for the incidence of pre- eclampsia. The results of this study agree with those of a study conducted in Yogyakarta, where it was found that pregnant women with a low consumption of vitamins A, C, and E, and beta carotene were at risk for pre-eclampsia.(12) Vitamins A, C and E act as antioxidants by donating electrons to free radicals for binding to single (unpaired) electrons of free radicals without becoming new free radicals. Free radicals may be treated with the administration Table 3. Multiple logistic regression for risk factors of pre-eclampsia Masrikhiyah, Suhartono, Kartasurya Vitamin C intake and pre-eclampsia 133 Univ Med Vol. 35 No.2 of antioxidants. An imbalance between free radicals and antioxidants causes oxidative stress.(5) Oxidative stress is considered an important element in the pathogenesis of pre- eclampsia resulting in endothelial dysfunction and ultimately inducing the syndrome of pre- eclampsia.(23) The results of our study show that low vitamin C intake increases the risk of pre- clampsia. These results are consistent with those of a cohort study conducted on Danish pregnant women, showing that the risk of severe pre- e c l a m p s i a / e c l a m p s i a m a y d e c r e a s e w i t h increasing vitamin C intake.(25) However, a review of twenty-nine trials involving 24,300 women who took vitamin C supplements during pregnancy concluded that vitamin C supplements do not prevent pregnancy problems, including stillbirth, neonatal mortality, preterm birth, pre- eclampsia or low birthweight babies.(26) There is no agreement on the optimal gestational time for measurement of vitamin C intake. However, the second half of pregnancy may reflect vitamin C i n t a k e i n p l a c e n t a l d e v e l o p m e n t , s i n c e trophoblast invasion is completed by this time. The time of complete placentation is not generally considered to be the most probable gestational time point associated with oxidative stress.(25) In the present study, severe level of pesticide exposure is a risk factor for the incidence of pre- eclampsia, which agrees with the results of a study in the USA where it was found that women who were exposed to pesticides during pregnancy had a greater risk of pre-eclampsia than did pregnant women who were not exposed to pesticides.(16) Pesticides are one of the sources of free radicals. When free radical production increases and exceeds the capacity of the antioxidant defense system in the body, a condition occurs called oxidative stress.(5) Oxidative stress is c o n s i d e r e d a n i m p o r t a n t e l e m e n t i n t h e pathogenesis of pre-eclampsia that results in endothelial dysfunction and ultimately causes the syndrome of pre-eclampsia, although its role has not yet been completely analyzed.(23) A limitation of this study was that only nutrient intakes, pesticide exposure and BMI were measured, whereas there are still many other uncontrollable or unavoidable factors that affect pre-eclampsia in pregnant women of productive age, such as immunity, cardiovascular adaptation, and genetic factors. For assessment of nutrient intakes, this study used the semi- quantitaive FFQ, which may still contain information bias or recall bias. In this study we d i d n o t m e a s u r e s e r u m N O o r M D A concentrations to determine the level of oxidative s t r e s s i n t h e w o m e n . T h e p u b l i c h e a l t h implications of our findings are that they confirm the current dietary recommendations for intakes of vitamin A, C, E in pregnancy. CONCLUSIONS L o w v i t a m i n C i n t a k e p l a y s a m o s t important role toward pre-eclampsia. However, greater caution is also needed in recommending the consumption of vitamin supplements in pregnancy, as high doses of some vitamins may be deleterious. CONFLICT OF INTERESTS There are no conflicts of interest (financial, personal, political, intellectual or religious). ACKNOWLEDGEMENT We thank Kabupaten Brebes Health office staff and heads of Puskesmas Wanasari, Brebes and Bulakamba for facilitating and the research process providing secondary data and the study subjects for their participation. REFERENCES 1. 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