1 Danish Epidemiology Science Centre, Department of Epidemiology and Social Medicine, Institute of Public Health, University of Aarhus, Aarhus, Denmark
2 Department of Biostatistics, Institute of Public Health, University of Aarhus, Aarhus, Denmark
3 Perinatal Epidemiology Research Unit, Department of Obstetrics and Paediatrics, Aarhus University Hospital, Aarhus, Denmark
4 Department of Epidemiology, School of Public Health, University of California, Los Angeles, CA
Correspondence to Dr. Bodil Hammer Bech, Danish Epidemiology Science Centre, Department of Epidemiology and Social Medicine, Institute of Public Health, University of Aarhus, Vennelyst Boulevard 6, Building 260, DK-8000 Aarhus C, Denmark (e-mail: bhb{at}soci.au.dk).
Received for publication April 29, 2005. Accepted for publication June 15, 2005.
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ABSTRACT |
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coffee; fetal death; follow-up studies; regression analysis
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INTRODUCTION |
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Caffeine is a methylxanthine which is rapidly absorbed by the digestive system. It crosses the placenta freely, which implies that caffeine concentrations in the fetus are the same as those in the mother's plasma (6). Caffeine clearance slows down during pregnancy, and in the second and third trimesters, the half-life of caffeine is tripled in comparison with nonpregnant women (7
9
). Moreover, the fetus has low levels of enzymes that metabolize caffeine (10
). Caffeine increases levels of cellular cyclic adenosine monophosphate, which may influence cell development (11
); it also increases levels of circulating catecholamines that could interfere with uteroplacental circulation through vasoconstriction (12
).
Research on caffeine intake and spontaneous abortion or stillbirth has produced conflicting results (2, 13
, 14
). Many studies have been too small to detect an effect or have relied on retrospective information, which is subject to recall bias. Our aim in this study was to evaluate the association between coffee consumption during pregnancy and the risk of fetal death, taking into account a number of potential confounders.
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MATERIALS AND METHODS |
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We included all pregnant women for whom we had information from the first telephone interview (n = 88,570). The interview was considered missing if we could not reach the woman at the scheduled time or in three additional attempts to make contact. The interview was also designated missing if the woman was no longer pregnant at the time of the interview. The interview took place at approximately 16 weeks' gestation (interquartile range, 1319 weeks).
Exposure assessment
The exposure of interest was coffee. The participants were asked, "How many cups of coffee do you drink daily?" Answers were coded in number of cups per day; a mugful was coded as two cups. Women with missing information on coffee consumption were excluded from the study (n = 32). Similar questions were asked about consumption of tea, while information on cola intake was gathered as none, <1 liter/week, or 1 liter/week. Information on potential confounders, such as previous fetal death, parity, smoking, alcohol intake, height, prepregnancy body weight, and socio-occupational status, was also collected in the first interview. Socio-occupational status was based on self-reported current job title. If the woman was attending school, her socio-occupational status was based on the type of education being received. If the woman's job title was missing (n = 4,249), we used her husband's job title, if available. This approach resulted in our having only 583 women without socio-occupational classification. Socio-occupational status was classified into three categories: high, middle, and low. Women with higher education (4 years beyond high school) or in management were classified as "high." The category "middle" included skilled workers and women with middle-range training, while the category "low" included unskilled workers and the unemployed.
Pregnancy outcome
Livebirths and stillbirths were identified in the Civil Registration System and the Danish Medical Birth Registry through record linkage, using the mother's civil registration number. Cases of spontaneous abortion, induced abortion, ectopic pregnancy, and hydatidiform mole were identified in the National Hospital Discharge Register. Women with a diagnosis of hydatidiform mole were excluded from the study (n = 15). Emigrants and the time of emigration were identified in the Civil Registration System. In less than 1 percent, we failed to identify the outcome of pregnancy in the registry; we then used information on outcome from the pregnancy interview.
The main outcome in the study was fetal death, defined as either spontaneous abortion (gestational age <196 days) or stillbirth (gestational age 196 days). This was the official definition used in Denmark during the study period. Intrapartum death (n = 27) was considered a separate category of fetal death in the analyses, since the cause of death in these cases might have been related to the quality of clinical care during labor (16
). Since we had no information on whether a spontaneous abortion had occurred in a multiple pregnancy, multiple births were retained in the study population (n = 1,937). When a multiple pregnancy ended with both a liveborn child and a stillborn child, the outcome was coded as livebirth (n = 20).
Information about gestational age was obtained from the National Hospital Discharge Register. This estimate of gestational age was mainly based on ultrasound examination. Women with missing information on gestational age (n = 23) or with a gestational age of less than 28 days (according to information from the National Hospital Discharge Register) at the first pregnancy interview (n = 8) were excluded from the study. Furthermore, 10 women were excluded because they participated in the first interview after termination of pregnancy. The final study population consisted of 88,482 pregnancies with 1,102 fetal deaths.
In a subanalysis of causes of stillbirth, we used information from the women who entered the Danish National Birth Cohort between May 1, 1998, and April 30, 2001, and participated in the first pregnancy interview (n = 55,379).
Medical records on stillbirths for this population have been collected nationwide. Cause of death was classified as suggested by Andersen et al. (17), based on a categorization suggested by Cole et al. (18
) and Hey et al. (19
). For the present study, we combined the causes "intrauterine growth retardation," "infarction of the placenta with no intrauterine growth retardation," and "abruptio placentae" into the category "placental dysfunction." Intrauterine growth retardation was defined as a birth weight more than two standard deviations below the mean for gestational age on the reference curve, as suggested by Marsal et al. (20
). All records were retrieved and coded independently by two of the authors (B. H. B., E. A. N.), who were blinded with respect to the main exposure. In cases of disagreement (n = 6), the cases were further evaluated until consensus was reached.
Statistical methods
We estimated relative risks of fetal death due to coffee intake as hazard ratios (with 95 percent confidence intervals) in Cox regression analysis with left-truncation and right-censoring. Days of gestation was used as the underlying time variable. Pregnancies were entered at the time of first interview, and observation time ended at the time of any of the following events: fetal death, induced abortion, emigration, participant's death, or initiation of an intrapartum death or livebirth. To improve comparability, we stratified data in the Cox regression model according to gestational week of first pregnancy interview.
In the analysis, coffee intake was considered as a categorical variable (0, 3, 47, and
8 cups/day) and as a continuous variable (number of cups per day) in a test for trend. If the intake of coffee was less than one cup per day but more than zero, we recoded it as half a cup of coffee per day. Almost all caffeine intake among participants came from coffee, but we also analyzed the data according to caffeine intake itself by using average levels of 100 mg of caffeine for a cup of coffee and 50 mg for a cup of tea (21
). Potentially confounding factors were selected a priori as age at conception, parity, prepregnancy body mass index, smoking, alcohol consumption, and socio-occupational status, since these factors have all been linked to fetal death (22
26
).
A clinically spontaneous abortion may occur weeks after actual fetal demise (27), and exposure information obtained from an interview during this time period need not reflect the actual exposure at the time of interest. Intake of coffee during this time period may be high as a consequence of fetal death. To assess the possible bias effect of delayed fetal expulsion that occurred shortly after the date of the interview, we repeated the analysis using delayed entry times. Delay time was gradually increased from 2 days to 28 days in 2-day increments.
We divided the follow-up period into three gestational age intervals (<140, 140195, and 196 days) to study whether coffee increased the risk of fetal death during a specific time period. We used a likelihood ratio test to test for interaction with gestational age.
We also analyzed causes of singleton stillbirth as the primary outcome in a separate Cox analysis using the day of first pregnancy interview or day 195 as the entry date, if the interview was performed before that day. Because of the relatively small number of stillbirths, coffee intake was analyzed in three categories only (0, 3, and
4 cups/day).
We used likelihood ratio tests to assess whether the effect of coffee intake on fetal death and stillbirth was modified by smoking, alcohol use, or parity.
Since 1,436 women contributed more than one pregnancy to the study, we used robust standard errors to correct for possible dependence between pregnancy outcomes in the same woman (28). Moreover, we repeated all analyses using only the first pregnancies of these women. We used Stata software (version 8.0 SE; Stata Corporation, College Station, Texas) for all statistical analyses.
All Danish scientific ethics committees and the Danish Data Protection Board approved the study.
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RESULTS |
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Using caffeine intake from both coffee and tea gave results identical to those for coffee alone. We found no association between consumption of tea or cola and fetal death (data not shown).
The effect of coffee consumption on fetal death was similar in smokers and nonsmokers (test for interaction: p = 0.55), alcohol drinkers and nondrinkers (test for interaction: p = 0.96), and nulliparous women and multiparous women (test for interaction: p = 0.96) (data not shown).
In the analysis of causes of stillbirth according to coffee consumption for women who entered the Danish National Birth Cohort between May 1, 1998, and April 30, 2001, we found that the risk of stillbirth due to placental dysfunction was increased among consumers of four or more cups or coffee per day (hazard ratio = 2.27, 95 percent confidence interval: 1.21, 4.28) (table 3).
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DISCUSSION |
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Approximately 60 percent of eligible pregnant women joined the Danish National Birth Cohort. We expected the Danish National Birth Cohort not to be a representative sample of pregnant women but to be a large data source for internal comparisons. We would not expect nonparticipation to have been associated with both exposure and pregnancy outcome, since the participants were recruited before they knew the outcome.
A number of studies have reported similar associations between coffee or caffeine consumption and the risk of spontaneous abortion (2, 29
37
), but not all (13
, 38
40
). This disparity may reflect differences in exposure ascertainment, since different caffeine conversion factors have been used in previous studies. The caffeine content in a cup of coffee or tea depends on cup size, brand, and brewing method. Bracken et al. (41
) showed that there was considerable variability in the caffeine content of coffee and tea, even when the same respondent brewed coffee the same way on the same day. A biomarker measure of caffeine intake may provide a more precise estimate of exposure. The main metabolite of caffeine, serum paraxanthine, can be used to estimate caffeine intake (42
). Klebanoff et al. (43
) found that women with a paraxanthine level greater than 1,845 ng/ml (equivalent to six cups of coffee per day) had almost twice the risk of spontaneous abortion before 140 days' gestation of women with a serum paraxanthine level less than 50 ng/ml.
We had no information about brand of coffee or tea or brewing method, but the intake of decaffeinated coffee in Denmark is negligible. Furthermore, the use of instant coffee accounts for only 2 percent of total coffee consumption in Denmark (44). We had no information about the use of chocolate drinks or other drinks that contain caffeine, and our measure of cola consumption was too crude to be taken into account. However, one study showed that coffee accounted for 76 percent of caffeine intake and 23 percent of tea intake in Sweden (2
), and we would expect that the contribution from cola in Scandinavia is minimal. We found no association with other caffeine-containing beverages like tea or cola, which may indicate that there is a threshold for the effect or that a component of coffee other than caffeine causes fetal death.
Some previous studies had very few participants with moderate-to-high consumption of caffeine (13, 31
34
, 36
, 38
, 40
, 45
). In the present study, 13 percent of participants drank more than three cups of coffee per day, and 3.4 percent drank eight or more cups per day.
Information about coffee consumption and potential confounders was collected at approximately 16 weeks' gestation. We believe that the data are quite reliable, because coffee drinking during pregnancy is fully accepted in Denmark. In any case, misclassification was most likely small and nondifferential, which would have tended to attenuate associations. Coffee drinking is often closely linked to other lifestyle factors. Although we adjusted for a large number of factors, uncontrolled confounding cannot be ruled out. However, other confounders would need to be strong in order to explain our results. Information on coffee intake during pregnancy was missing for only 12 participants, and we were able to obtain information about pregnancy outcome for all but 34 participants, who left the country before giving birth. Thus, the association we observed was not caused by selection bias due to differential loss to follow-up.
The fetal deaths studied were those that we would expect to be related to caffeine intake, since caffeine is not known to cause chromosomal aberrations in humans. The proportion of losses with an abnormal karyotype decreases markedly with increasing gestational age (46, 47
); thus, the associations we studied probably addressed chromosomally normal losses, since we mainly studied losses occurring late in gestation. Our results find support in previous studies that focused on caffeine consumption and risk of late fetal death (32
, 34
, 43
).
The major limitation of this study was that we had incomplete information about early nausea and no data on coffee aversion. Nausea is significantly less common in pregnancies that end in miscarriage (48), and women with nausea may reduce their coffee intake more than women without nausea. It could be argued that the association we found between coffee and spontaneous abortion was due to reverse causationthat is, that coffee intake remains high in a high-risk pregnancy. However, Furneaux et al. (49
) found no association between nausea or vomiting in pregnancy and coffee intake. Furthermore, we found no signs of changing risk over the course of gestation, which would be expected in this scenario, since pregnancy-induced nausea is a time-limited condition existing in early pregnancy.
Reverse causation could also happen if women with fetal death increase their coffee intake because their aversion towards coffee drinking disappears when the fetus dies, even if it still remains in the uterus. We would then expect to see associations' attenuating more the later follow-up is initiated after reporting of coffee intake, which we did. This was confined to early fetal deaths (prior to 20 completed weeks' gestation), suggesting that reverse causation may explain the increased risk for this group of fetal deaths. However, an attenuated effect would also be expected in such an analysis if the association is causal and the time between exposure and effect is short.
We found no statistically significant association between coffee consumption and the risk of stillbirth. Women consuming more than three cups of coffee per day had a twofold risk of stillbirth due to placental dysfunction in comparison with nonconsumers; this finding could possibly be due to chance. However, an animal study showed that the rate of apoptosis in the mouse placenta was higher when the pregnancy ended with intrauterine fetal death (50). Furthermore, fetal death and caffeine are associated with lower expression of the BCL-2 gene, which plays an important role in preventing apoptosis of the syncytiotrophoblast (51
). Two previous studies have found an association between coffee consumption and stillbirth (22
, 52
). In a case-control study of 1,835 stillbirths, Little and Weinberg (22
) found an elevated risk of stillbirth for women who consumed more than four cups of coffee per day. Wisborg et al. (52
) found that women who consumed eight or more cups of coffee per day had nearly double the risk of stillbirth of nonconsumers, and this study was also based upon prospectively collected data.
If coffee causes fetal death, it is apparently not a sufficient cause, and the association could also be spurious. The lack of an association with other caffeine-containing products does not support a causal explanation if caffeine is the exposure of interest. However, coffee contains a number of other chemical compounds, and one or more of these could be physiologically active. Further studies might attempt to disentangle a caffeine effect from a noncaffeine effect by comparing different types of coffee drinkers. These studies should consider type of coffee (regular or decaffeinated), brand of coffee, and brewing methods. Brewing methods have a major impact on the content of caffeine and other substances in coffee.
Despite these uncertainties, it seems reasonable to apply the principle of precaution in this case. Coffee is not an essential beverage, and abstaining from drinking more than three cups of coffee per day during pregnancy is a minor intrusion in one's personal life.
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ACKNOWLEDGMENTS |
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Conflict of interest: none declared.
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References |
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