About the Authors:
Laura M. Reyes
Affiliation: Department of Research, Fundación Cardiovascular de Colombia, Floridablanca, Santander, Colombia
Ronald G. García
Affiliation: Department of Research, Fundación Cardiovascular de Colombia, Floridablanca, Santander, Colombia
Silvia L. Ruiz
Affiliation: Department of Research, Fundación Cardiovascular de Colombia, Floridablanca, Santander, Colombia
Paul A. Camacho
Affiliation: Department of Research, Fundación Cardiovascular de Colombia, Floridablanca, Santander, Colombia
Maria B. Ospina
Affiliation: School of Public Health, University of Alberta, Edmonton, Alberta, Canada
Gustavo Aroca
Affiliation: Clínica de la Costa, Barranquilla, Atlántico, Colombia
Jose L. Accini
Affiliation: Hospital Universitario de Barranquilla, Barranquilla, Atlántico, Colombia
Patricio López-Jaramillo
* E-mail: [email protected]
Affiliations Department of Research, Faculty of Medicine, Universidad de Santander (UDES), Bucaramanga, Santander, Colombia, Department of Research, Fundación Oftalmológica de Santander-Clínica Carlos Ardila Lulle (FOSCAL), Floridablanca, Santander, Colombia
Introduction
Preeclampsia (PE) is a pregnancy-related hypertensive disorder occurring after 20 weeks of gestation. It constitutes a significant public health problem in both industrialized and developing countries, contributing to maternal and perinatal morbidity and mortality worldwide. PE affects between five to ten percent of pregnancies [1], [2]. The impact of the condition, however, is thought to be more severe in developing countries. The prevalence of PE in developing countries has been estimated between 1.8% and 16.7% [3] with at least 16% of maternal deaths resulting from PE [4].
In spite of the detrimental effects of PE on maternal and neonatal outcomes, understanding the etiology and mechanisms of the disease remains a major challenge. Evidence compiled from controlled studies has shown that potential risk factors for PE include a family or personal history of PE, the presence of antiphospholipid antibodies, pre-existing diabetes, multiple pregnancies, nulliparity, hypertension or raised blood pressure at antenatal visits, increased body mass index (BMI) before or during pregnancy and advanced maternal age (greater than 40 years of age) [5], [6]. Similarly, there is evidence that the risk of PE increases with an interval of 10 years or more between pregnancies, autoimmune disease, renal disease, and chronic hypertension [5].
The relative importance of risk factors leading to the occurrence of PE depends on the level of socioeconomic development reached by a given society [7]. In developing countries, the fast socioeconomic transition and the adoption of a Westernized lifestyle have increased the exposure to a high-saturated fat diet, sedentary lifestyles, smoking and psychosocial stress. These factors result in the development of obesity, hypertension and changes in carbohydrate metabolism that may be associated with the epidemic of cardio-metabolic diseases in these countries from an early age [7]–[9]. The factors mentioned above put women of childbearing age at a higher risk for the development of a spectrum of multiple diseases from anovulation [10] to gestational diabetes [11] and PE [12]. Little research has been conducted to specifically identify risk factors for the occurrence of PE among pregnant women in developing countries. Understanding which factors can be prevented or controlled within a population under rapid social, economic and structural changes is of crucial importance from a public health perspective [13]. The aim of this study was to identify which risk factors are associated with the development of PE among Colombian women.
Methods
Ethics statement
The Fundación Cardiovascular de Colombia Institutional Ethics Review Board approved the study protocol and written informed consent was obtained from all study participants before interviews, clinical assessments and biochemical analysis were conducted.
Study population
A multi-centre case–control study was conducted among women who delivered singleton infants in seven hospitals from six Colombian cities (Bucaramanga, Medellín, Envigado, Cúcuta, Barranquilla and Santa Marta) between September 2006 and July 2009. Sub-analyses from this study have been published elsewhere [14], [15]. Briefly, cases were identified by monitoring of all admissions to obstetric services of participating centres. A total of 201 women with a confirmed diagnosis of PE [blood pressure of ≥140/90 mmHg after the 20th week of gestation in addition to the presence of proteinuria (urinary protein ≥300 mg in a 24-hour period or ≥1+ on dipstick in at least two random urine samples taken at least 4–6 hours apart)] [16], [17] were recruited.
The control group was a consecutive convenience sample of healthy pregnant women (n = 201) without evidence of PE or any cardiovascular or endocrine disease before or during pregnancy. They were selected and recruited from the same hospital of delivery as PE cases. Cases and controls were frequency matched by age (± three years), centre and ethnicity. The following conditions were considered as exclusion criteria for both groups: history of chronic hypertension or cardiovascular diseases, endocrine diseases, autoimmune diseases, renal diseases, mental illness, human immunodeficiency virus (HIV) and cancer.
Clinical assessment
A complete chart including obstetric, family and socio-economical history was recorded using a standardized format prior to delivery. The investigator classified each participant's ethnicity in order to assess whether the factors associated to the development of PE were related to their ethnicity. Psychological stress was assessed with two questions related to the presence of permanent stress at work and at home in the previous 12 months. Standard measurements were performed in duplicate by the same examiner on each woman. All physical measurements were taken before the delivery, with women wearing light clothes and without shoes.
Biochemical determinations
Blood samples from the antecubital vein were withdrawn in fasting conditions (6 hours) before delivery. Plasma was separated by centrifugation at 3000 rpm for 15 minutes and then frozen at −70°C until analysis. An aliquot of whole blood was collected to determine hematocrit, hemoglobin, leukocyte count, and glucose concentration (Baker System 9120 AX, Biochem Immunosystem, Allentown, PA). The lipid profile (high density lipoprotein [HDL], low density lipoprotein [LDL], very low density lipoprotein [VLDL], triglycerides [TG]) was determined by enzyme colorimetric test (Biosystems BTS-303 Photometric, Barcelona, Spain). C reactive protein (CRP) was determined by chemiluminescent immunometric assay (IMMULITE, Automatic Analyzer, Diagnostic Products Corporation, L.A., USA). Standard microscopic examinations were performed after centrifugation of all urine samples. Urocultures were performed to disregard suspected urinary tract infections.
Statistical analysis
Descriptive analyses were reported as proportions and percentages for categorical data, and means with standard deviations (SD) or median and interquartile range for continuous data. The Shapiro-Wilk test was used to assess the normality of continuous data. Univariate analysis of continuous data was conducted using two-sample t tests or Mann-Whitney test (for non-normally distributed data). Categorical variables were analyzed using x2 test or Fisher's exact test. Statistical significance was defined as p<0.05. Multivariable logistic regression procedures were employed to calculate odd ratios (OR) of potential risk factors for PE.
This research is part of an international, multi-centre case-control study aimed at evaluating the presence of risk factors associated with the development of PE among pregnant women in developing countries. An overall sample size calculation was made for the original 20 participating countries. Assuming an exposure rate of 4% per risk factor in the control group, a total sample of 6,957 pregnant women (348 per country, approximately) would provide 80% power at the α = 0.05 level to detect a clinically relevant OR of 1.4 for each factor. Adjustments for a missing data rate of 10% were made for a total sample size of 7,709 study participants (385 per country). To guarantee enough statistical power, it was decided to include a total of at least 4000 women with PE and 4000 healthy pregnant women (i.e., 200 cases and 200 controls per country), for a case-control ratio of 1∶1.
A forward logistic regression model was conducted to explore whether familial history of cardiovascular diseases in first degree, familial history of PE or eclampsia, being primigravidae, permanent work or home-related stress, condom use, vitamin or folic acid supplementation during pregnancy, leukocyte count >10×109/L, CRP>28.57 nmol/L and the multiple components of the MS cluster (glycemia, TG, HDL, BMI) were factors associated with the development of PE. Cut-off points proposed by Dane et al. [18], to determine metabolic syndrome (MS) in pregnant women were used to dichotomize the following variables for the logistic regression model: glycemia >4.9 mmol/L, TG>3.24 mmol/L, HDL <1.24 mmol/L, body mass index (BMI)>31 kg/m2.
Variables were tested for collinearity before entering the model. A p value less than 0.2 was chosen in the univariate analysis as a criteria to enter the multivariate model. The Hosmer-Lemeshow chi-square test (p = 0.728) was used to assess the goodness of fit of the model. Data imputation was carried out for missing values for the variables BMI and glycemia. For BMI, data imputation was based on the mean age and mean gestational age of all study participants; data imputation for glycemia was based on the mean glycemia and mean BMI. Confidence intervals at the 95% level (95% CI) were reported for the adjusted ORs. All analyses were completed using STATA software, version 10.0 (Stata Corp., 2007, College Station, TX).
Results
Socio-demographic, behavioral, clinical and biochemical characteristics of women with PE and healthy pregnant women are presented in Table 1. Overall, there were no statistically significant differences between cases and controls in the mean age, ethnicity, and household income.
[Figure omitted. See PDF.]
Table 1. Socio-demographic, clinical and biochemical characteristics of women with preeclampsia and healthy pregnant women.
https://doi.org/10.1371/journal.pone.0041622.t001
Regarding their clinical characteristics, the proportion of primigravidae (36.8% versus 25.8; p = 0.019), and mean systolic blood pressure (151 versus 112 mm Hg; p<0.001), diastolic blood pressure (95 versus 68 mm Hg; p<0.001), heart rate (84 versus 79 bpm; p<0.001) weight (71.1 versus 68 kg) and BMI (27.9 versus 26.6 kg/m2) were significantly greater among PE women. Alternatively, the average gestational age was statistically significantly higher among healthy pregnant women compared to women with PE (34 versus 37.6 weeks; p<0.001).
Compared to healthy pregnant women, women with PE were more likely to use condoms as a contraceptive method with the father of the unborn baby. Of all study participants, 96.4% reported attending prenatal care, with a mean of 6 visits per woman. No significant differences were found in the attendance at prenatal clinics. There were no significant differences in the proportion of oral supplementation with calcium, iron and folic acid prescribed during prenatal care visits. Compared to healthy pregnant women, women with PE were less likely to have received vitamin supplementation during prenatal care (43.5% versus 55.1%; p = 0.025). Alcohol consumption and smoking were not statistically different between the groups.
There were no statistical differences between cases and controls in the proportion of work-related stress. Nonetheless, women with PE had a higher rate of home-related stress during the previous 12 months compared to healthy pregnant women (8.08% versus 2.54%; p = 0.045). The proportion of hypertension, dyslipidemia, diabetes, coronary heart disease and stroke among first-degree family members was significantly higher among cases. There were no significant differences between the groups regarding family history of PE, eclampsia or HELLP (hemolysis, elevated liver enzymes) syndrome.
Women with PE had a significantly lower platelet count and higher white blood cell count compared to controls. There were significant differences between CRP levels, which were higher among the cases. Only 13.7% of all participants had a positive urine analysis. Women with PE had a higher proportion of positive urine cultures compared to healthy pregnant women (44 versus 4.5%; p = 0.002). The most commonly isolated germ was Escherichia coli, followed by Enterobacter and Klebsiella.
Women with PE had higher fasting blood glucose values compared to healthy pregnant women (p<0.0001). With regard to lipid profile, it was found that women with PE had lower HDL cholesterol levels and higher triglyceride levels compared to healthy pregnant women.
Results from the logistic regression analysis are summarized in Table 2. The presence of multiple components of the MS cluster (glucose >4.9 mmol/L [OR: 2.66; 95% CI: 1.47–4.81], TG>3.24 mmol/L [OR: 1.60; 95% CI: 1.04, 2.48], HDL <1.24 mmol/L [OR: 2.42; 95% CI: 1.53–3.84], BMI>31 kg/m2 [OR: 2.18; 95% CI: 1.14–4.14]) and being primigravidae [OR: 1.71; 95% CI: 1.07–2.73] remained as factors associated with the development of PE after adjusting for familial history of cardiovascular diseases in first degree; familial history of PE or eclampsia, vitamin supplementation during pregnancy, condom use, leukocyte count, CRP and home related-stress.
[Figure omitted. See PDF.]
Table 2. Multivariate analysis of the risk factors associated with the development of preeclampsia.
https://doi.org/10.1371/journal.pone.0041622.t002
Discussion
Results of this case-control study of a large sample of pregnant women from a developing country showed that the presence of the multiple components of the MS cluster and being primigravidae are factors that are significantly associated with the development of PE.
PE has a large impact on public health in developing countries. Variations in the prevalence of PE among world regions have been attributed to low adherence to antenatal care or women that tend to show up late in pregnancy for antenatal care as a result of restricted access to maternity services, poor transportation systems and certain cultural practices [19]. Studies conducted in pregnant Colombian women, however, have demonstrated that chronic sub-clinical inflammation [20] and metabolic alterations [21] affect vascular endothelial function and increase the risk of PE. These findings are also supported by other studies in which pregnant women (<30 weeks) who subsequently developed PE, had higher CRP concentrations [22] when compared to healthy pregnant controls. Moreover, women who developed PE presented a higher degree of insulin resistance prior to the onset of clinical manifestations of the disease [21]. Furthermore, previous findings regarding the nutritional status of women from the present study [14] demonstrated that there was an association between increased carbohydrate and sodium consumption and the development of PE in this population. Hence, according to these results and results from the present study, adopting a Westernized lifestyle in developing countries has an enormous impact on maternal health that may be comparable or even higher than that of having restricted access to health services.
The pandemic of obesity has reached considerable proportions in developing countries, where the proportion of people who are overweight is as high as 40% [23]. There is evidence that being overweight leads to insulin resistance [24] and increases both inflammatory markers [25], [26] and the risk of developing cardiovascular diseases [27]–[29].
The association between obesity, lipid profile alterations, carbohydrate intolerance and PE development is well established. Driul et al. [30] conducted a retrospective cohort study of 916 consecutive singleton gestations to evaluate the association between pre-pregnancy BMI and adverse maternal and neonatal outcomes. The study demonstrated that obese women were five times more likely to develop PE. The excessive weight gain during pregnancy in women with normal pre-pregnancy BMI has been associated with increased rates of gestational hypertension [31]. Moreover, it has been determined that carbohydrate intolerance in pregnant women is associated with an increased risk of developing PE [32]–[34]. Along with obesity and carbohydrate intolerance, hypertriglyceridemia [35] and low HDL [36] have been associated with PE development. There is also a growing interest in studying the association between MS and PE because some of the risk factors associated with the development of MS, such as insulin resistance and dyslipidemia, are considered physiological adaptations of pregnancy [37], [38]. Dane et al. [18] evaluated the presence of MS in 41 women who developed pregnancy-induced hypertension compared to 97 healthy pregnant women and designed a metabolic scoring system to analyze the risk of hypertensive disorders of pregnancy. The cut-off values for metabolic scores were created using standard deviations in the normotensive group. The authors found that the presence of multiple components of MS is a risk factor for the development of pregnancy-induced hypertension. The results of the present study clearly demonstrate that the presence of the cluster of factors that comprise MS is an important risk factor associated with the development of PE after adjusting for other clinical and biochemical factors.
Regarding familial cardiovascular risk, previous studies have demonstrated that pre-existing cardiovascular risk factors, and particularly hypertension, increases a woman's susceptibility to developing hypertension in pregnancy [39], [40]. Bivariate analyses in our study revealed a significant association between a family history of cardiovascular diseases and the development of PE. After adjusting for other variables, however, results were not significant.
The importance of the results from the present study is that they suggest that most of the risk factors associated with PE are modifiable; they can be prevented, thus reducing the burden of PE in developing countries. To reach this goal, the health system must guarantee adequate nutrition and promote healthy lifestyles in pregnant women [41]. In addition, prenatal care must emphasize the control of factors responsible for the MS cluster.
The impact of controlling MS during pregnancy to reduce both the incidence of PE and the risk of developing cardio-metabolic diseases in the future remains to be determined. A recent meta-analysis by Bellami et al. [42] however, demonstrated that the risk of hypertension, ischemic heart disease, stroke and venous thromboembolism in women increases after a PE episode. The authors also found an increase in overall mortality after PE. These results, together with ours, suggest that the control of the multiple components of the MS cluster during pregnancy can have a positive effect for both the prevention of PE and the prevention of cardio-vascular diseases.
The effect that PE has on fetal programming and the risk of developing cardiovascular diseases later in life in children born following a pregnancy complicated by PE remains to be established. It has been proposed, however, that PE may have an important role in the epidemic of cardiovascular diseases and type-2 diabetes experienced in developing countries [43].
Recall bias, missing data and imputation of data were potential limitations in our study. Data imputation was conducted according to previously validated methods [44]. It is unlikely that data imputation overestimated our study results as the number of data that was imputed in each of the two variables with missing data was less than 15%.
Conclusion
The presence of multiple components of the MS cluster and being primigravidae are risk factors associated with the development of PE among pregnant women from a developing country. This finding can help to guide maternal health policies aimed at preventing the development of a disease with a considerable economic and social impact such as PE.
PE prevention interventions should start before pregnancy and target women of childbearing age by reinforcing the adoption of healthy life style practices (i.e., dietary changes and exercise). Timely prenatal care during pregnancy will allow for early detection and treatment of unfavourable nutritional practices that lead to excessive weight gain and biochemical alterations of the lipid profile and carbohydrates.
Acknowledgments
The authors acknowledge the following institutions for their support: Clínica Materno Infantil San Luis, Bucaramanga, Colombia; Hospital Niño Jesús, Barranquilla, Colombia; Clínica de la Costa, Barranquilla, Colombia; Instituto del Corazón de Santa Marta, Santa Marta, Colombia; ESE Hospital Universitario Erasmo Meoz, Cúcuta, Colombia; ESE Hospital Manuel Uribe Ángel, Envigado, Colombia; ESE Hospital San Juan de Dios, Floridablanca, Colombia.
Author Contributions
Conceived and designed the experiments: PLJ. Analyzed the data: LMR RGG PAC MBO. Participated in the recruitment: LMR RGG SLR GA JLA. Revised the manuscript critically and gave the final approval of the published version: PLJ LMR RGG SLR MBO PAC GA JLA.
Citation: Reyes LM, García RG, Ruiz SL, Camacho PA, Ospina MB, Aroca G, et al. (2012) Risk Factors for Preeclampsia in Women from Colombia: A Case-Control Study. PLoS ONE 7(7): e41622. https://doi.org/10.1371/journal.pone.0041622
1. Walker JJ (2000) Pre-eclampsia. Lancet 356(9237): 1260–1265.JJ Walker2000Pre-eclampsia.Lancet356(9237)12601265
2. Christiansen LR, Collins KA (2006) Pregnancy-associated deaths: A 15-year retrospective study and overall review of maternal pathophysiology. Am J Forensic Med Pathol 27(1): 11–19.LR ChristiansenKA Collins2006Pregnancy-associated deaths: A 15-year retrospective study and overall review of maternal pathophysiology.Am J Forensic Med Pathol27(1)1119
3. Osungbade KO, Ige OK (2011) Public health perspectives of preeclampsia in developing countries: Implication for health system strengthening. J Pregnancy 2011: 481095.KO OsungbadeOK Ige2011Public health perspectives of preeclampsia in developing countries: Implication for health system strengthening.J Pregnancy2011481095
4. Khan KS, Wojdyla D, Say L, Gulmezoglu AM, Van Look PF (2006) WHO analysis of causes of maternal death: A systematic review. Lancet 367(9516): 1066–1074.KS KhanD. WojdylaL. SayAM GulmezogluPF Van Look2006WHO analysis of causes of maternal death: A systematic review.Lancet367(9516)10661074
5. Duckitt K, Harrington D (2005) Risk factors for pre-eclampsia at antenatal booking: Systematic review of controlled studies. BMJ 330(7491): 565.K. DuckittD. Harrington2005Risk factors for pre-eclampsia at antenatal booking: Systematic review of controlled studies.BMJ330(7491)565
6. Kaaja R (2008) Predictors and risk factors of pre-eclampsia. Minerva Ginecol 60(5): 421–429.R. Kaaja2008Predictors and risk factors of pre-eclampsia.Minerva Ginecol60(5)421429
7. Lopez-Jaramillo P, Pradilla LP, Castillo VR, Lahera V (2007) Socioeconomic pathology as a cause of regional differences in the prevalence of metabolic syndrome and pregnancy-induced hypertension. Rev Esp Cardiol 60(2): 168–178.P. Lopez-JaramilloLP PradillaVR CastilloV. Lahera2007Socioeconomic pathology as a cause of regional differences in the prevalence of metabolic syndrome and pregnancy-induced hypertension.Rev Esp Cardiol60(2)168178
8. Lopez-Jaramillo P, Garcia RG, Lopez M (2005) Preventing pregnancy-induced hypertension: Are there regional differences for this global problem? J Hypertens 23(6): 1121–1129.P. Lopez-JaramilloRG GarciaM. Lopez2005Preventing pregnancy-induced hypertension: Are there regional differences for this global problem?J Hypertens23(6)11211129
9. López-Jaramillo P, Herrera E, Garcia RG, Camacho PA, Castillo VR (2008) Inter-relationships between body mass index, C-reactive protein and blood pressure in a hispanic pediatric population. Am J Hypertens 21: 527–32.P. López-JaramilloE. HerreraRG GarciaPA CamachoVR Castillo2008Inter-relationships between body mass index, C-reactive protein and blood pressure in a hispanic pediatric population.Am J Hypertens2152732
10. Chavarro JE, Rich-Edwards JW, Rosner BA, Willett WC (2009) A prospective study of dietary carbohydrate quantity and quality in relation to risk of ovulatory infertility. Eur J Clin Nutr 63: 78–86.JE ChavarroJW Rich-EdwardsBA RosnerWC Willett2009A prospective study of dietary carbohydrate quantity and quality in relation to risk of ovulatory infertility.Eur J Clin Nutr637886
11. Saldana TM, Siega-Riz AM, Adair LS (2004) Effect of macronutrient intake on the development of glucose intolerance during pregnancy. Am J Clin Nutr 79(3): 479–486.TM SaldanaAM Siega-RizLS Adair2004Effect of macronutrient intake on the development of glucose intolerance during pregnancy.Am J Clin Nutr79(3)479486
12. Vambergue A, Nuttens MC, Goeusse P, Biausque S, Lepeut M, et al. (2002) Pregnancy induced hypertension in women with gestational carbohydrate intolerance: The diagest study. Eur J Obstet Gynecol Reprod Biol 102(1): 31–35.A. VambergueMC NuttensP. GoeusseS. BiausqueM. Lepeut2002Pregnancy induced hypertension in women with gestational carbohydrate intolerance: The diagest study.Eur J Obstet Gynecol Reprod Biol102(1)3135
13. Lopez-Jaramillo P (2008) Defining the research priorities to fight the burden of cardiovascular diseases in latin america. J Hypertens 26(9): 1886–1889.P. Lopez-Jaramillo2008Defining the research priorities to fight the burden of cardiovascular diseases in latin america.J Hypertens26(9)18861889
14. Reyes L, Garcia R, Ruiz S, Dehghan M, Lopez-Jaramillo P (2012) Nutritional status among women with pre-eclampsia and healthy pregnant and non-pregnant women in a latin american country. J Obstet Gynaecol Res 38(3): 498–504.L. ReyesR. GarciaS. RuizM. DehghanP. Lopez-Jaramillo2012Nutritional status among women with pre-eclampsia and healthy pregnant and non-pregnant women in a latin american country.J Obstet Gynaecol Res38(3)498504
15. Reyes LM, García RG, Ruíz SL, Broadhurst D, Aroca G, et al. (2012) Angiogenic imbalance and plasma lipid alterations in women with preeclampsia from a developing country. Growth Factors [Epub]. LM ReyesRG GarcíaSL RuízD. BroadhurstG. Aroca2012Angiogenic imbalance and plasma lipid alterations in women with preeclampsia from a developing country.Growth Factors [Epub]
16. Report of the National High Blood Pressure Education Program (2000) Working group report on high blood pressure in pregnancy. Am J Obstet Gynecol 183: S1–S22.Report of the National High Blood Pressure Education Program2000Working group report on high blood pressure in pregnancy.Am J Obstet Gynecol183S1S22
17. Sibai BM (2003) Diagnosis and management of gestational hypertension and preeclampsia. Obstet Gynecol 102(1): 181–192.BM Sibai2003Diagnosis and management of gestational hypertension and preeclampsia.Obstet Gynecol102(1)181192
18. Dane B, Dane C, Kiray M, Koldas M, Cetin A (2009) A new metabolic scoring system for analyzing the risk of hypertensive disorders of pregnancy. Arch Gynecol Obstet 280(6): 921–924.B. DaneC. DaneM. KirayM. KoldasA. Cetin2009A new metabolic scoring system for analyzing the risk of hypertensive disorders of pregnancy.Arch Gynecol Obstet280(6)921924
19. Druzin ML, Charles B, Johnson AL (2008) Editorial summary of symposium on hypertensive disorders of pregnancy. Curr Opin Obstet Gynecol 20(2): 91.ML DruzinB. CharlesAL Johnson2008Editorial summary of symposium on hypertensive disorders of pregnancy.Curr Opin Obstet Gynecol20(2)91
20. Herrera JA, Chaudhuri G, López-Jaramillo P (2001) Is infection a major risk for preeclampsia? Med Hypotheses 57: 393–7.JA HerreraG. ChaudhuriP. López-Jaramillo2001Is infection a major risk for preeclampsia?Med Hypotheses573937
21. Sierra-Laguado J, García RG, Celedón J, Arenas-Mantilla M, Pradilla LP, et al. (2007) Determination of insulin resistance using the homeostatic model assessment (HOMA) and its relation with the risk of developing pregnancy-induced hypertension. Am J Hypertens 20: 437–42.J. Sierra-LaguadoRG GarcíaJ. CeledónM. Arenas-MantillaLP Pradilla2007Determination of insulin resistance using the homeostatic model assessment (HOMA) and its relation with the risk of developing pregnancy-induced hypertension.Am J Hypertens2043742
22. Garcia RG, Celedon J, Sierra-Laguado J, Alarcon MA, Luengas C, et al. (2007) Raised C-reactive protein and impaired flow-mediated vasodilation precede the development of preeclampsia. Am J Hypertens 20(1): 98–103.RG GarciaJ. CeledonJ. Sierra-LaguadoMA AlarconC. Luengas2007Raised C-reactive protein and impaired flow-mediated vasodilation precede the development of preeclampsia.Am J Hypertens20(1)98103
23. Rueda-Clausen CF, Silva FA, Lopez-Jaramillo P (2008) Epidemic of overweight and obesity in latin america and the caribbean. Int J Cardiol 125(1): 111–112.CF Rueda-ClausenFA SilvaP. Lopez-Jaramillo2008Epidemic of overweight and obesity in latin america and the caribbean.Int J Cardiol125(1)111112
24. Belfort R, Mandarino L, Kashyap S, Wirfel K, Pratipanawatr T, et al. (2005) Dose-response effect of elevated plasma free fatty acid on insulin signaling. Diabetes 54(6): 1640–1648.R. BelfortL. MandarinoS. KashyapK. WirfelT. Pratipanawatr2005Dose-response effect of elevated plasma free fatty acid on insulin signaling.Diabetes54(6)16401648
25. Wellen KE, Hotamisligil GS (2003) Obesity-induced inflammatory changes in adipose tissue. J Clin Invest 112(12): 1785–1788.KE WellenGS Hotamisligil2003Obesity-induced inflammatory changes in adipose tissue.J Clin Invest112(12)17851788
26. Bhagat K, Vallance P (1997) Inflammatory cytokines impair endothelium-dependent dilatation in human veins in vivo. Circulation 96(9): 3042–3047.K. BhagatP. Vallance1997Inflammatory cytokines impair endothelium-dependent dilatation in human veins in vivo.Circulation96(9)30423047
27. Bautista LE, Lopez-Jaramillo P, Vera LM, Casas JP, Otero AP, et al. (2001) Is C-reactive protein an independent risk factor for essential hypertension? J Hypertens 19(5): 857–861.LE BautistaP. Lopez-JaramilloLM VeraJP CasasAP Otero2001Is C-reactive protein an independent risk factor for essential hypertension?J Hypertens19(5)857861
28. Danesh J, Wheeler JG, Hirschfield GM, Eda S, Eiriksdottir G, et al. (2004) C-reactive protein and other circulating markers of inflammation in the prediction of coronary heart disease. N Engl J Med 350(14): 1387–1397.J. DaneshJG WheelerGM HirschfieldS. EdaG. Eiriksdottir2004C-reactive protein and other circulating markers of inflammation in the prediction of coronary heart disease.N Engl J Med350(14)13871397
29. Rost NS, Wolf PA, Kase CS, Kelly-Hayes M, Silbershatz H, et al. (2001) Plasma concentration of C-reactive protein and risk of ischemic stroke and transient ischemic attack: The framingham study. Stroke 32(11): 2575–2579.NS RostPA WolfCS KaseM. Kelly-HayesH. Silbershatz2001Plasma concentration of C-reactive protein and risk of ischemic stroke and transient ischemic attack: The framingham study.Stroke32(11)25752579
30. Driul L, Cacciaguerra G, Citossi A, Martina MD, Peressini L, et al. (2008) Prepregnancy body mass index and adverse pregnancy outcomes. Arch Gynecol Obstet 278(1): 23–26.L. DriulG. CacciaguerraA. CitossiMD MartinaL. Peressini2008Prepregnancy body mass index and adverse pregnancy outcomes.Arch Gynecol Obstet278(1)2326
31. Crane JM, White J, Murphy P, Burrage L, Hutchens D (2009) The effect of gestational weight gain by body mass index on maternal and neonatal outcomes. J Obstet Gynaecol can 31(1): 28–35.JM CraneJ. WhiteP. MurphyL. BurrageD. Hutchens2009The effect of gestational weight gain by body mass index on maternal and neonatal outcomes.J Obstet Gynaecol can31(1)2835
32. Nordin NM, Wei JW, Naing NN, Symonds EM (2006) Comparison of maternal-fetal outcomes in gestational diabetes and lesser degrees of glucose intolerance. J Obstet Gynaecol Res 32(1): 107–114.NM NordinJW WeiNN NaingEM Symonds2006Comparison of maternal-fetal outcomes in gestational diabetes and lesser degrees of glucose intolerance.J Obstet Gynaecol Res32(1)107114
33. Sermer M, Naylor CD, Gare DJ, Kenshole AB, Ritchie JW, et al. (1995) Impact of increasing carbohydrate intolerance on maternal-fetal outcomes in 3637 women without gestational diabetes. the toronto tri-hospital gestational diabetes project. Am J Obstet Gynecol 173(1): 146–156.M. SermerCD NaylorDJ GareAB KensholeJW Ritchie1995Impact of increasing carbohydrate intolerance on maternal-fetal outcomes in 3637 women without gestational diabetes. the toronto tri-hospital gestational diabetes project.Am J Obstet Gynecol173(1)146156
34. Joffe GM, Esterlitz JR, Levine RJ, Clemens JD, Ewell MG, et al. (1998) The relationship between abnormal glucose tolerance and hypertensive disorders of pregnancy in healthy nulliparous women. Calcium for preeclampsia prevention (CPEP) study group. Am J Obstet Gynecol 179(4): 1032–1037.GM JoffeJR EsterlitzRJ LevineJD ClemensMG Ewell1998The relationship between abnormal glucose tolerance and hypertensive disorders of pregnancy in healthy nulliparous women. Calcium for preeclampsia prevention (CPEP) study group.Am J Obstet Gynecol179(4)10321037
35. Ray JG, Diamond P, Singh G, Bell CM (2006) Brief overview of maternal triglycerides as a risk factor for pre-eclampsia. BJOG 113(4): 379–386.JG RayP. DiamondG. SinghCM Bell2006Brief overview of maternal triglycerides as a risk factor for pre-eclampsia.BJOG113(4)379386
36. Cekmen MB, Erbagci AB, Balat A, Duman C, Maral H, et al. (2003) Plasma lipid and lipoprotein concentrations in pregnancy induced hypertension. Clin Biochem 36(7): 575–578.MB CekmenAB ErbagciA. BalatC. DumanH. Maral2003Plasma lipid and lipoprotein concentrations in pregnancy induced hypertension.Clin Biochem36(7)575578
37. Martin U, Davies C, Hayavi S, Hartland A, Dunne F (1999) Is normal pregnancy atherogenic? Clin Sci (Lond) 96(4): 421–425.U. MartinC. DaviesS. HayaviA. HartlandF. Dunne1999Is normal pregnancy atherogenic?Clin Sci (Lond)96(4)421425
38. Kuhl C (1991) Insulin secretion and insulin resistance in pregnancy and GDM. Implications for diagnosis and management. Diabetes 40: 18–24.C. Kuhl1991Insulin secretion and insulin resistance in pregnancy and GDM. Implications for diagnosis and management.Diabetes401824
39. Ness RB, Markovic N, Bass D, Harger G, Roberts JM (2003) Family history of hypertension, heart disease, and stroke among women who develop hypertension in pregnancy. Obstet Gynecol 102(6): 1366–1371.RB NessN. MarkovicD. BassG. HargerJM Roberts2003Family history of hypertension, heart disease, and stroke among women who develop hypertension in pregnancy.Obstet Gynecol102(6)13661371
40. Qiu C, Williams MA, Leisenring WM, Sorensen TK, Frederick IO, et al. (2003) Family history of hypertension and type 2 diabetes in relation to preeclampsia risk. Hypertension 41(3): 408–413.C. QiuMA WilliamsWM LeisenringTK SorensenIO Frederick2003Family history of hypertension and type 2 diabetes in relation to preeclampsia risk.Hypertension41(3)408413
41. López-Jaramillo P, Garcia R, Reyes LM, Ruiz S (2009) Appropriate prenatal care system: The best way to prevent preeclampsia. Colomb Med 40: 226–30.P. López-JaramilloR. GarciaLM ReyesS. Ruiz2009Appropriate prenatal care system: The best way to prevent preeclampsia.Colomb Med4022630
42. Bellamy L, Casas JP, Hingorani AD, Williams DJ (2007) Pre-eclampsia and risk of cardiovascular disease and cancer in later life: Systematic review and meta-analysis. BMJ 335(7627): 974.L. BellamyJP CasasAD HingoraniDJ Williams2007Pre-eclampsia and risk of cardiovascular disease and cancer in later life: Systematic review and meta-analysis.BMJ335(7627)974
43. Lopez-Jaramillo P (2009) Cardiometabolic disease in latin america: The role of fetal programming in response to maternal malnutrition. Rev Esp Cardiol 62(6): 670–676.P. Lopez-Jaramillo2009Cardiometabolic disease in latin america: The role of fetal programming in response to maternal malnutrition.Rev Esp Cardiol62(6)670676
44. Miettinen OS (1985) Theoretical epidemiology: Principles of occurrence research in medicine. New York (NY): Wiley. OS Miettinen1985Theoretical epidemiology: Principles of occurrence research in medicine.New York (NY): Wiley
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer
© 2012 Reyes et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: https://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
Abstract
Background
Preeclampsia (PE) is a multi-causal disease characterized by the development of hypertension and proteinuria in the second half of pregnancy. Multiple risk factors have been associated with the development of PE. Moreover, it is known that these risk factors vary between populations from developed and developing countries. The aim of this study is to identify which risk factors are associated with the development of preeclampsia (PE) among Colombian women.
Methods
A multi-centre case-control study was conducted between September 2006 and July 2009 in six Colombian cities. Cases included women with PE (n = 201); controls were aged-matched pregnant women (n = 201) without cardiovascular or endocrine diseases for a case-control ratio of 1∶1. A complete medical chart, physical examination and biochemical analysis were completed before delivery. Multivariable logistic regression was used to calculate odds ratios (OR) and 95% confidence intervals (CI) of potential risk factors associated with PE.
Results
The presence of factors present in the metabolic syndrome cluster such as body mass index >31 Kg/m2 (OR = 2.18; 1.14–4.14 95% CI), high-density lipoprotein <1.24 mmol/L (OR = 2.42; 1.53–3.84 95% CI), triglycerides >3.24 mmol/L (OR = 1.60; 1.04–2.48 95% CI) and glycemia >4.9 mmol/L (OR = 2.66; 1.47–4.81 95%CI) as well as being primigravidae (OR = 1.71; 1.07–2.73 95% CI) were associated with the development of PE, after adjusting for other variables.
Conclusion
Factors present in the cluster of metabolic syndrome and primigravidity were associated with a greater risk of PE among Colombian women. Understanding the role of this cluster of risk factors in the development of PE is of crucial importance to prevent PE and remains to be determined.
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer