Statistics from Altmetric.com
Sudden infant death syndrome (SIDS) is the sudden and unexpected death of any infant or young child, which is unexpected by history, and in which a thorough postmortem examination fails to show an adequate cause of death.1
After increasing throughout the 1970s and 80s, the rate in southeast Norway has decreased since 1990, from 1.8 per 1000 live births in 1989, to less than 0.6 per 1000 live births after 1993.2 The decline was rapid from 1990 to 1992, but has stabilised since 1993. It is well documented that, after national campaigns in several countries,3-5 the reduced number of prone sleeping infants caused the rate reduction. Though the prone sleeping position is still a major risk factor for SIDS, the number of infants found dead in the prone position has decreased, and other risk factors such as maternal smoking6 7 have become more significant. The age distribution of SIDS victims is claimed to have changed8; the same is true for the impact of seasonal variation.9Some risk factors are still controversial; co-sleeping has become increasingly disputed.10 11 Some studies have shown an increased risk of SIDS associated with co-sleeping, sleeping together with a mother who smokes being the greatest hazard.12 13Others have shown no significant relation between co-sleeping and SIDS,14 and some have even suggested that co-sleeping might be protective for infants at risk for SIDS.15
Our objective was to look for changes in factors associated with increased or reduced risk of SIDS during the time of increasing SIDS rate (1984–89), the period of rapid decline (1990–92), and the time of stable low rates (1993–98).
Materials and methods
The survey was performed as a case–control study. A questionnaire was distributed by mail to 266 parents who had lost a child to SIDS during the period 1984–98, and to 698 control parents. Both cases and controls were from the southeast region of Norway, a region which has 2.5 million inhabitants (55% of Norway's total population). The questionnaires were distributed in 1993 and 1998. The response rate was 69% in the SIDS parents group, and 75% in the control parents group. The mean time between death and completing the questionnaire was three years (range 1–8 years). The time of observation was shorter for most of the SIDS cases (until time of death), than for the controls (their first year of life).
All sudden unexpected deaths among children between the second week after birth and 3 years of age were included as SIDS deaths, provided that no explanation for the death was found in the antemortem history or after postmortem examination.16
The control infants, matched with the SIDS victims with regard to sex, date of birth (± 1 day), and place of birth, were picked at random from the national population register. An adjusted questionnaire, leaving out questions concerning death, was sent to the control parents. We excluded answers from SIDS parents where none of the matching controls responded (n = 10), as well as answers from controls where the matching SIDS case did not respond (n = 150). No reference sleep was assigned for the control group as the time frame was too long, so we could not control for factors related to SIDS at time of death.
The questionnaires included information about pregnancy, birth, and the first year of life, including feeding habits and dummy use. For SIDS cases, we requested further information on factors concerning the days before death and the day of death. Obstetric factors, parents' smoking habits, social class, maternal age, birth weight, gestational age, birth order, breast feeding, dummy use, sleeping position, co-sleeping, age distribution of SIDS victims, season of death, and outdoor sleeping in winter have previously been shown to be associated with either increased or reduced risk of SIDS.
Questions were of a “yes” or “no”, or multiple choice nature. Evaluation of social class for both groups was based on occupation at the time of the pregnancy studied, according to the British registrar general's classification.17
Ethical approval for the study was obtained from the regional ethical committee.
Data were analysed by descriptive statistics with frequency distribution and cross tabs calculation using SPSS (Statistical Package for Social Sciences). For trends concerning factors related to SIDS at time of death, the χ2 test was used (for 2×2 tables where an expected cell was less than 5, the Fisher exact test was used). Possible selection bias of the participating versus the non-participating population of SIDS cases in the southeast region of Norway was investigated for age and sex distribution using the Mann–Whitney U test. To test for possible recall bias, 50 control families from each period were picked at random and tested for factors where little variation was expected over the time periods studied (birth weight, gestational age, smoking during pregnancy, and dummy use) using the χ2 test.
Conditional logistic regression, taking into account the matching factors between SIDS infants and control infants, was used for calculation of odds ratios (OR) with 95% confidence intervals (CI) and for analyses of interaction using the EGRET statistical package.
The study included 174 SIDS families and 375 control families. There were no differences in age and sex distribution between participating and non-participating SIDS infants (p = 0.99 and p = 0.47 respectively), and there was no significant difference between the cohorts studied for each of the different periods (p = 0.25). We found no significant change in the control cohorts studied for factors that were presumed to be stable over time (birth weight, gestational age, smoking during pregnancy, and dummy use).
FACTORS SHOWING A CHANGE IN RISK PROFILE ALONG WITH THE CHANGES IN SIDS RATE
For the factors sleeping position and co-sleeping among SIDS victims at time of death, age distribution of SIDS victims, seasonal variation of SIDS deaths, and outdoor sleeping, as well as maternal smoking during pregnancy and maternal age, we found a change concerning their significance for the risk of SIDS.
The proportion of infants found dead in the prone sleeping position decreased from 93% in the period with high SIDS rate, to 63% in the last period of stable rate (p < 0.01; table 1). In the last period, only 11% of the SIDS victims generally slept prone, and 19% had been placed prone for their last sleep, compared to 82% for both variables in the first period (p < 0.01; table 1). Moreover, in the last period, only 20% of the infants found dead in a prone position both generally slept prone, and were placed prone, for their last sleep. Fifteen per cent of those found prone were put to sleep in a prone position for their last sleep although they were unaccustomed to it, whereas 65% of SIDS victims found dead in a prone position were neither used to sleeping prone, nor put down prone for their last sleep (secondary prone). Prone sleeping as a usual mode of sleep in the control group has decreased dramatically throughout the periods studied; this decrease parallels the decrease in SIDS rate for the region (fig 1). The risk of SIDS for infants who usually slept in the prone position did not increase over the periods studied, as the number of infants usually placed in the prone position has decreased for both the SIDS group and the control group (table 2).
Of the SIDS infants put down in the side position, 56% were found dead in a prone position, whereas 53% of those placed on their back were found dead in a prone position. No increased risk of SIDS was seen for infants usually sleeping on the side or varying between side and back, compared to sleeping on the back (table 2).
Co-sleeping, age of SIDS victims, and seasonal variation at time of death
Previously, co-sleeping was uncommon in our region, and few SIDS victims were found dead while sharing a bed with an adult. During the periods studied both the proportion of SIDS infants (3%, 8%, and 26% respectively) and control infants (4%, 7%, and 15% respectively) who routinely co-slept, and the proportion of infants found dead while co-sleeping (2%, 0%, and 34% respectively) has increased. The infants found dead while co-sleeping were younger (median age at death 2.00 months; range 0.50–5.00) than the total SIDS population (median age at death 3.00 months; range 0.50–26.00; p < 0.01). The number of SIDS victims found dead while co-sleeping has increased significantly (table 1). However, we found no risk of SIDS for infants who usually co-slept, and no changes in risk over the periods could be detected as the number of infants who usually co-slept increased in both the SIDS group and the control group (table 2). The increase in co-sleeping as a usual mode of sleep in the control group, over the time period studied, could not be related to changes in the SIDS rate for the region (fig 1).
We found a positive interaction between co-sleeping at time of death for SIDS victims and maternal smoking during pregnancy, with an SIDS risk of 8.63 (CI 1.87 to 39.85; p < 0.01). No interaction was found between co-sleeping and birth weight (p = 0.18).
The age distribution of SIDS victims has changed during the periods studied. The age peak at 2–4 months has become less significant in the last period studied (table 1). In the last period there are also fewer deaths during autumn and winter than in previous periods (fig 2). Moreover, in the last period, only 8% of the SIDS victims were found outdoors, compared to 27% in the first period and 23% in the second period (table 1).
Maternal smoking during pregnancy
In the last period studied (1993–98), there has been an increase in the proportion of mothers who smoked during pregnancy in the SIDS group but not in the control group (table 3). In the first and second periods, the proportion of mothers who smoked during pregnancy did not differ significantly between the SIDS group and the controls (OR 1.52, CI 0.94 to 2.37; and OR 0.87, CI 0.33 to 2.29, respectively). However, during the period with a stable SIDS rate, there was a statistically significant increased risk of SIDS if the mother smoked during pregnancy (OR 3.37, CI 1.37 to 8.25). The importance of maternal smoking for SIDS risk increased significantly from the second to the third period (p = 0.04; table 3).
Fathers' smoking habits during pregnancy were not found to increase the risk of SIDS (table 2). Families where the father smoked but not the mother were, in fact, more common among control cases (19%) than SIDS cases (12%) (p = 0.04).
For the entire study, positive interaction was found between maternal smoking during pregnancy and being found prone (p < 0.01) and between maternal smoking during pregnancy and low birth weight (p = 0.01) for the SIDS group.
For the first two periods studied (1984–89 and 1990–92), we found no significant relation between maternal age and SIDS. In the last period (1993–98) however, an increased risk in young mothers has become apparent (<21 years of age, OR 22.49, CI 2.30 to 219.80; 21–25 years of age, OR 17.77, CI 3.15 to 100.28; table 3). A tendency for an increased risk of SIDS associated with mothers over the age of 35 did not reach statistical significance (OR 5.62; CI 0.71 to 44.37).
Positive multiplicative interaction was found between mothers of less than 25 years of age and mothers' smoking (table 4).
FACTORS THAT SHOWED NO CHANGE DURING THE DECREASE IN SIDS RATE
The significance, or lack of significance, of previously proposed risk factors for SIDS (pregnancy complications, birth weight, gestational age, birth order, breast feeding, dummy use, and social class) have not changed in the SIDS population, compared to the control population, during the periods studied.
During pregnancy, the SIDS mothers experienced significantly more complications than control mothers, including minor bleeding, proteinuria, and oedema (OR 1.52, CI 1.04 to 2.23), and disease such as infections (OR 2.90, CI 1.71 to 4.91; table 2). Disease during pregnancy remained significantly associated with increased risk of SIDS after adjustment for factors related to pregnancy and birth.
Birth weight, gestational age, and birth order
Even though there were slightly more SIDS infants with lower birth weight than control infants, we found no significant difference either in the univariate model or when adjusting for factors related to pregnancy and birth (table 2). There were significantly more SIDS infants born before 33 weeks of gestational age in both the univariate and the multivariate model, but no difference between SIDS infants and control infants was found for higher gestational age (table 2). For birth order, the risk of SIDS increased with increasing number of previous siblings in both models (table 2).
Breast feeding and sleeping pattern
For breast feeding, until the time of death or longer than three months, we found no significant difference between SIDS infants and control infants, either in the univariate model or when controlling for other factors including dummy use (table 2). The proportion of breast fed, co-sleeping infants (approx. 85% in both groups) was slightly higher than the total number of breast fed infants in both groups (approx. 75%). The proportion of breast fed infants was slightly lower (approx. 60% in both groups) when mothers smoked.
Infants who never woke at night spontaneously to feed had an increased risk (OR 9.80, CI 3.33 to 28.90) of dying from SIDS when compared to infants who always woke up during the night (table 2). This was confirmed when we adjusted for factors related to pregnancy, birth, sleep and feeding habits, and dummy use.
We found a significantly reduced risk of SIDS in infants up to 4 months who used a dummy during the day and night, compared to infants who never used one (daytime OR 0.56, CI 0.37 to 0.85; night-time OR 0.51, CI 0.33 to 0.77). The results were confirmed when adjusted for factors related to pregnancy, birth, feeding habits, co-sleeping, and sleeping position.
No significant difference in social class, for either the mother or the father, could be found between the SIDS families and the control families; there was also no increased risk for SIDS over the time periods studied (table 2). We observed positive interaction between social class and smoking during pregnancy and between social class and young maternal age for both groups.
Signs of infection prior to death and face covered at time of death
For the whole period studied, 46% of the SIDS victims had a cold during their last week, 33% had a cold on the last day before death, and 11% had an increased body temperature during their last week. We found no statistically significant changes in these factors during the periods studied (p = 0.06, p = 0.69, and p = 0.30 respectively; table 1).
For the whole period, 33% of the SIDS victims were found dead with their face covered by bedding or face down. This observation did not change significantly over the periods studied (p = 0.87; table 1). Eighty nine per cent of those found with their faces covered were found in the prone sleeping position.
Our main findings were that maternal smoking during pregnancy and maternal age have become more significant risk factors for SIDS, after the drop in the SIDS rate and the reduction in SIDS victims found in the prone sleeping position. There was an increase in SIDS victims found dead while co-sleeping. The usual age peak for SIDS deaths, between 2 and 4 months of age, and the seasonal peak during autumn/winter, has become less pronounced.
The response rate of both SIDS parents and control parents was high. We found no difference in age and sex distribution between responders and non-responders in the SIDS group, ensuring that our results are representative for all cases in the region studied. Matching SIDS victims and controls for date of birth, sex, and region of birth further reduces confounders. For both SIDS cases and controls there was a time lag, between the period the questions related to, and the time of the actual questionnaire. However, we believe the effect of recall bias was minimal as factors presumed to be stable in the control group over the periods studied were found to be so. Also, in earlier retrospective and prospective studies, recall bias has been found not to influence the results.18 19
CHANGES IN THE EPIDEMIOLOGICAL PATTERN OF SIDS
We have shown that changes have occurred in some of the modifiable risk factors, making them even more significant now than when prone sleeping was prominent. The fact that some risk factors have increased or decreased while others have remained unchanged may give further insight into possible mechanisms behind SIDS and clues to which factors should be focused on in future reduction campaigns.
Even though the message that infants should not be placed prone during sleep seems to have reached most parents,5 more than half of SIDS victims are still found prone. We found no difference between the number of infants who had turned prone from their sides, compared to from their backs. This might reflect the fact that a larger proportion of SIDS victims are now older than they were 10 years ago, and therefore more likely to change sleeping position of their own accord. We could not show an increased risk of side sleeping compared to supine sleeping as a usual mode of sleep in this study, in contrast to what previous studies have shown. However, because of the lack of a reference sleep for the controls, no comparison between SIDS victims and controls with respect to being put down or found on the side could be performed; likewise no conclusion as to the previously described risk of side sleeping could be made.20
Fifteen per cent of the infants found prone during the last period were unaccustomed to prone sleep and 65% were classified as secondary prone sleepers. An increased risk associated with unaccustomed prone sleep or secondary prone sleep has been shown previously, and reports suggest that lack of experience with a potentially dangerous sleep environment may result in increased risk when these environments are first encountered.21
For infants less than 4 months of age8 and infants with signs of infection prior to death,8 22 the risk of SIDS while sleeping prone has been shown to be higher during winter than summer.9 Prone sleeping has also been associated with excess thermal insulation. Between 1984 and 1989, 27% of SIDS victims in our region were found outdoors, most often during winter.23 It is possible that these infants were too heavily wrapped, inducing overheating, which has the most serious implications for the smallest infants with the least mature regulation of temperature.24
In a previous study from our region, maternal smoking during pregnancy was not a significantly increased risk,23 but it now stands out as a definite risk factor for SIDS. This could be a result of smoking effects previously being overshadowed by the risk of prone sleeping, as the positive interaction found between smoking during pregnancy and being found in the prone sleeping position indicates. Other recent studies of risk factors for SIDS have shown maternal smoking to be of increased importance after the “back to sleep campaigns” and the drop in SIDS rate.6 7 At the 6th International SIDS Conference, Auckland, New Zealand, February 2000, Mitchell concluded that maternal smoking is now an indisputable risk factor for SIDS. A meta-analysis based on eight independent studies, undertaken after the decrease in SIDS rate, disclosed smoking during pregnancy to be among the highest risk factors at the present time (Mitchell, conference presentation). Whether passive smoking is a risk factor for SIDS is still disputed. Nevertheless, it is not thought to have such a strong effect as maternal smoking during pregnancy,25 although some studies have found secondary smoking to be a risk factor.26 27 We did not show significantly increased risk of SIDS if the father smoked during pregnancy.
Smoking is thought to reduce birth weight via disturbance in the intrauterine growth pattern.28 29 Though we did not show a significantly increased risk for SIDS associated with low birth weight alone, there was a positive interaction between low birth weight and smoking during pregnancy, making such an association possible. Smoking during pregnancy has also been found to influence the autonomic nervous system, resulting in a deficiency in arousal responsiveness.30 We found that SIDS infants used to wake up less frequently to be fed during the night than control infants. Previous studies have also shown an association between SIDS and a behavioural pattern of being sleepier and less active than age matched controls.23 31 32 This observation may indicate abnormalities in autonomic control or arousal ability, or it could be a result of reduced ATP production. Recent studies have shown that some SIDS victims have mutations in mitochondrial DNA, which may induce ATP depletion.33-35 A relatively modest reduction in the ability to produce ATP may constitute a predisposition that could be disastrous under circumstances of increased stress. Finally, the amount of brain stem gliosis in SIDS victims, which is said to be associated with hypoxic–ischaemic events,36 37 correlates with maternal smoking during pregnancy.38
An association between SIDS and socioeconomic factors such as maternal age, maternal smoking during pregnancy, and parents' education or work status has previously been reported.39 We found positive interaction between mothers of less than 25 years of age and maternal smoking during pregnancy, for the last period studied. However, young mothers who do not smoke also have an increased risk of losing an infant to SIDS, showing low maternal age to be of importance in itself. An interaction was seen between young maternal age and lower social class and between maternal smoking during pregnancy and lower social class, but there were no differences between the SIDS group and the control group and no change over the time periods studied. We could not confirm that the changes shown in risk of SIDS concerning young maternal age and maternal smoking are merely markers of lower socioeconomic status. A limitation of our study is that we did not ask for parents' level of education. Later studies of social indicators as a marker for health in Norway, have shown that education is a better marker than occupation/income.40
Since 1993, co-sleeping has emerged as a more common mode of sleep for both SIDS infants and control infants in our region. At the beginning of the 1990s, a campaign to increase breast feeding in Norway encouraged co-sleeping, as this would bring the mother and infant closer, so making night breast feeding easier.41 Media focus on SIDS might have generated anxieties in families,42 inducing parents to keep the infant close at night. We could not evaluate the effect of this increase in co-sleeping at time of death on the risk of SIDS, as no reference sleep could be assigned to the control group. The increase in the number of SIDS cases found dead while co-sleeping, coincides with the stabilisation of the SIDS rate for the region. We speculate whether this indicates that an increase in co-sleeping is the reason why the SIDS rate did not continue to fall.
Co-sleeping may be most dangerous for the smallest infants, as all those who died while co-sleeping were under 5 months of age. However, as we have no information on when control parents stopped co-sleeping, we cannot decide whether this habit is hazardous only to infants in their first months.
Several studies have shown co-sleeping increases the risk of SIDS.10 11 In the past, the association was attributed to “overlaying” (Holy Bible, I Kings iii, 19), and it has been suggested that parental sedation (often alcohol), fatigue, and obesity may predispose to accidental infantile asphyxia.43 44 One study identified three cases of accidental asphyxia associated with breast feeding related co-sleeping.45 As there are no simple and unequivocal pathological criteria to distinguish between accidental infantile asphyxia and SIDS,46 47 cases of overlaying cannot be excluded unless a death scene investigation proves otherwise. Other mechanisms postulated for the increased risk include hypoxia caused by rebreathing of parental expired air, airway obstruction, and thermal stress.10 Tufnell and colleagues48 showed that co-sleeping infants had higher rectal temperatures than infants sleeping alone, providing support for the thermal stress hypothesis. It is possible that close proximity to a warm adult body and being covered by a heavy, warm adult duvet could result in a higher infant body temperature.
Some authors have reported that the increased risk for co-sleeping infants seems only to apply to infants with smoking mothers.12 13 Infants of mothers who smoke during pregnancy may have deficient hypoxic arousal responses, and their arousal response to thermal stress may also be blunted.49 50 On the other hand, although several studies have shown an association between co-sleeping and SIDS, it is also possible that parental closeness may have a positive effect on infants. Several studies of mother–infant interaction, while co-sleeping in sleep laboratories, have shown increased arousal responses, better sleep patterns, improved bonding, and increased breast feeding.15 51
Birth weight, gestational age, breast feeding, and dummy use did not show a change in trend throughout the different periods. Low birth weight and low gestational age have previously been shown to increase the risk of SIDS.52 We were not able to confirm such findings. Ethnically southeast Norway has a relatively homogeneous population with a high standard of living. Medical care is inexpensive and delivery care free of cost, which should contribute to a favourable pregnancy outcome.40 Breast feeding has in some studies been found to protect against SIDS.23 53 However, other, later studies have not been able to confirm this observation.11 52 We found support for the theory that dummies protect against SIDS,54-57 but only in infants younger than 4 months of age. We note that dummies probably make it easier to switch to mouth breathing if nasal occlusion occurs,58 and also increase the level of CO2, which is a stimulus for breathing and ensures arousal.59These mechanisms are more important for younger, less mature infants, with less ability to breathe through the mouth and with less developed arousal mechanism, than for older infants.
We conclude that following the reduction in the number of SIDS victims found prone, factors which are now more important include maternal smoking during pregnancy and young maternal age. Other factors have been consistent. This should give clues to preventing SIDS and to further studies of the death mechanisms in SIDS. The young SIDS mothers may represent a socially disadvantaged group. This could be a result of lack of social network and poor education, as well as the habit of smoking during pregnancy. Identification of high risk behaviour/groups may be the way ahead for SIDS prevention.
Dr Arnestad is a fellow of the Norwegian Foundation for Health and Rehabilitation, and Dr Andersen was a fellow of the Norwegian Women's Public Health Association. We would like to thank the Norwegian SIDS Society for support, and Dr philos Thore Egeland for statistical help.
If you wish to reuse any or all of this article please use the link below which will take you to the Copyright Clearance Center’s RightsLink service. You will be able to get a quick price and instant permission to reuse the content in many different ways.