Acetaminophen Use During Pregnancy and Children’s Risk of Autism, ADHD, and Intellectual Disability

Acetaminophen (paracetamol) is commonly used to manage pain and fever during pregnancy. The US Food and Drug Administration¹ and the European Medicines Agency² consider acetaminophen to pose minimal risk during pregnancy. However, a 2021 consensus statement by an international group of scientists and clinicians³ recommended that pregnant individuals “forego [acetaminophen] unless its use is medically indicated,” among other precautionary actions, due to potential risk of developmental disorders such as autism and attention-deficit/hyperactivity disorder (ADHD).

Multiple biases may explain the associations observed in previous studies between acetaminophen use and neurodevelopmental disorders. Confounding by indication may occur based on the reasons that acetaminophen was taken, eg, due to infection,⁴ fever,⁵ migraine,⁶ or pain from autoimmune disease.⁷ These indications for acetaminophen use may be risk factors for neurodevelopmental disorders and may thus result in spurious associations. Confounding by parental health and genetics is likely because neurodevelopmental disorders are highly heritable^8-10 and those who used acetaminophen during pregnancy reported higher prevalence of multiple health conditions associated with neurodevelopmental disorders compared with nonusers.¹¹ Confounding by other medications is possible given the potential for use of multiple medications during pregnancy.¹² Previous studies have also been limited by small sample sizes, leading to inconsistent and imprecise estimates.¹³

The current study investigated use of acetaminophen during pregnancy and children’s risk of autism, ADHD, and intellectual disability among nearly 2.5 million children in Sweden. Quiz Ref IDThis analysis featured prospectively collected antenatal and prescription records to capture medication use in a nationwide cohort, clinical neurodevelopmental diagnoses, and sibling comparisons to account for unobserved familial confounding.

This study included all singleton liveborn children in Sweden from July 1, 1995, to December 31, 2019, with a linkable personal identifier (N = 2 489 721), with follow-up until December 31, 2021. Unique personal identifiers assigned to each resident at birth or emigration were used to link parents and children. The individual who gave birth is termed the birthing parent to use gender-inclusive terminology.¹⁴ Children were excluded if they had missing information on the birthing parent’s birth country (n = 166 [<0.01%]), age (n = 1586 [0.06%]), region of residence (n = 2805 [0.11%]), or household education or income (n = 4367 [0.18%]), resulting in a final analytical sample of 2 480 797 children (99.64% retained) (Figure 1). The Swedish Ethical Review Authority (2020-05516) approved the study and waiver for informed consent.

For an expanded discussion of assessment of acetaminophen use, see eAppendix 1 in Supplement 1. Briefly, acetaminophen use during pregnancy was identified between 1995 and 2019 from the Medical Birth Register.¹⁵ Early drug exposure information was prospectively collected during the first antenatal visit (typically at 8-10 weeks’ gestation), during which midwives conducted structured interviews and examinations and recorded use of over-the-counter (OTC) or prescription medications. Later medication use in pregnancy was also prospectively documented by the midwife and physician. These data were later translated into Anatomical Therapeutic Chemical (ATC) codes by the National Board of Health and Welfare. From July 1, 2005, onward, the Medical Birth Register was supplemented with Prescribed Drug Register data covering all prescription dispensations in Sweden.

The primary exposure metric was ever-use of acetaminophen during pregnancy, determined from Medical Birth Register and Prescribed Drug Register data. For the subsample of pregnancies with Prescribed Drug Register coverage (ie, birth cohorts from July 1, 2005, onward), a secondary exposure metric of dose was examined. Based on the cumulative prescribed dosage dispensed over the pregnancy (number of packs × pack size × dosage), the mean daily acetaminophen dose for each pregnancy was calculated and categorized into no use, low daily use (<166 mg/d; <25th percentile), medium daily use (<429 mg/d; 25th to 75th percentile), and high daily use (≥430 mg/d; 76th to 100th percentile).

The primary outcomes were autism, ADHD, and intellectual disability diagnoses identified using International Classification of Diseases (ICD) codes from the National Patient Register (see eTable 1 in Supplement 1 for ICD codes).¹⁶ The Prescribed Drug Register was also used to identify ADHD diagnoses based on the dispensation of the ADHD medications¹⁷ methylphenidate (ATC: N06BA04) or atomoxetine (ATC: N06BA09).

Covariates were collected from the Medical Birth Register, the National Patient Register, and the longitudinal integrated database for health insurance and labor market studies.¹⁸ To capture common indications for analgesics, this analysis recorded any birthing parent’s inpatient or specialized outpatient (2005 onward) diagnosis of migraine, chronic pain, infection, fever, rheumatoid arthritis, and headaches from 1 year before pregnancy until the day of delivery. This analysis also examined the following covariates implicated in drug use and/or child neurodevelopmental disorders: birth year; calendar period of delivery; child sex; birthing parent’s parity; age at delivery (linear term and cube term); country of birth; residential region; parental cohabitation at delivery; body mass index at first antenatal visit; smoking status; autism, ADHD, and intellectual disability diagnosis; history of psychiatric conditions; prescription use of psycholeptic drugs, antidepressants, and antiseizure medications; health care visits in the year before pregnancy and number of antenatal visits; and education (highest of either of the parents) and disposable household income (income minus outgoing expenses, including taxes, with adjustment for family size).¹⁹ This study also considered use of the following other analgesics during pregnancy, using the same data sources as for acetaminophen: aspirin, nonaspirin nonsteroidal anti-inflammatory drugs (NSAIDs), opioid medications, and antimigraine medications. See eTable 1 in Supplement 1 for ICD and ATC codes.

This analysis used Cox proportional hazards models with cluster robust standard errors to estimate the hazard ratios (HRs) and 95% CIs while accounting for clustering of siblings by family. Children were followed up from birth, using the age of the child as the time scale, until the earliest date of diagnosis of a neurodevelopmental disorder, death, emigration, or end of follow-up. Models were adjusted for use of other analgesics and all covariates described above. Covariates with missing data were imputed using the dummy category approach. E-values, defined as the minimum association an unmeasured confounder would need to have with both acetaminophen use and the neurodevelopmental disorder to nullify observed associations,²⁰ were reported for point estimates in the fully adjusted models. Differences in absolute risk at 10 years of age (ie, the marginal mean treatment effect) were calculated using Breslow baseline estimator and bootstrapped 95% CI with 1000 repetitions.²¹

To account for unobserved genetic and environmental confounders shared between full siblings, sibling analysis of 1 773 747 full siblings (ie, siblings with the same biological parents as determined by the Multigenerational Register) was performed using stratified Cox regression with cluster robust standard errors, conditioned on the family (eAppendix 1 in Supplement 1). Characteristics of the sibling cohort are presented in eTable 2 in Supplement 1 and a comparison of pregnant individuals who had discordant vs concordant acetaminophen use across pregnancies is presented in eTable 3 in Supplement 1. The sibling analysis was adjusted for all putative confounders that differed among siblings (ie, excluding birthing parent’s birth country, psychiatric history, and diagnosis of autism, ADHD, and intellectual disability). Sample sizes for sibling analyses are reported in eTable 4 in Supplement 1.

Several analyses were conducted to test the robustness of results. Sensitivity analyses examined whether results varied by source of medication data or across study period by stratifying by birth cohorts. Other analyses examined whether results differed by missing data approach by repeating total sample analyses using inverse probability weighting correction²² and complete case analysis. For dose analyses, sensitivity analyses examined whether OTC use of acetaminophen influenced estimates and repeated analyses using restricted cubic splines with knots at the fifth, 35th, 65th, and 95th percentiles. For sibling analyses, sensitivity analyses examined the generalizability of the full sibling cohort, whether carryover effects (in which one sibling’s exposure or outcome affects the other sibling’s exposure or outcome) were present, and whether exposure measurement error may have biased estimates (eAppendix in Supplement 1).

Among the 2 480 797 included children, 185 909 (7.49%) were exposed to acetaminophen during pregnancy (Table 1, Figure 2). Acetaminophen exposure was more common among children born to birthing parents with a lower socioeconomic position, a higher early pregnancy body mass index, those who smoked during pregnancy, and those with diagnoses of any psychiatric conditions, neurodevelopmental disorders, indications for acetaminophen, and co-prescription of related therapeutics.

During a median (IQR) follow-up of 13.4 (7.6-19.8) years, 188 929 children (7.62%) were diagnosed with at least 1 neurodevelopmental condition (ADHD, autism, or intellectual disability): 68 584 (2.76%) with autism, 146 386 (5.90%) with ADHD, and 24 554 (0.99%) with intellectual disability (Figure 2). Median (IQR) age of diagnosis was 11.6 (7.0-15.3) years for autism, 12.2 (9.2-15.6) years for ADHD, and 8.2 (5.3-12.7) years for intellectual disability.

Preliminary models are shown in eTable 5 in Supplement 1. In final adjusted models in the population-based sample, children exposed to acetaminophen were slightly more likely to be diagnosed with autism (HR, 1.05 [95% CI, 1.02-1.08]; e-value, 1.28), ADHD (HR, 1.07 [95% CI, 1.05-1.10]; e-value, 1.34), and intellectual disability (HR, 1.05 [95% CI, 1.00-1.10]; e-value, 1.28) compared with children not exposed to acetaminophen (Figure 3; eTable 6 in Supplement 1). Differences in absolute risk between acetaminophen users and nonusers were small. For example, for the population-based adjusted model of acetaminophen and autism, the absolute risk at 10 years was 0.09% higher with acetaminophen use (Figure 3; eTable 7 in Supplement 1). E-values indicated that an unobserved confounder would have to be only modestly associated with both the exposure and outcome to nullify the above associations. Sensitivity analysis using Cox models without sibling control in the full sibling cohort demonstrated that the sibling sample had the same apparent acetaminophen outcome associations as the total sample (eAppendix 2 and eTable 8 in Supplement 1).

Quiz Ref IDIn contrast, in models with sibling control, acetaminophen was not associated with children’s risk autism (HR, 0.98 [95% CI, 0.93-1.04]), ADHD (HR, 0.98 [95% CI, 0.94-1.02]), or intellectual disability (HR, 1.01 [95% CI, 0.92-1.10]) (Figure 3; eTable 6 in Supplement 1). Carryover effects did not bias the autism and intellectual disability analyses among sibling controls, although the possibility of carryover effects for ADHD could not be ruled out (eAppendix 2 and eTable 9 in Supplement 1). Simulations indicated that even if acetaminophen use had been substantially underascertained, such measurement error would have been unlikely to result in the null associations observed with sibling control (eAppendix 2 and eTable 10 in Supplement 1). Additionally, sensitivity analyses suggested that results were consistent regardless of data source used for ascertainment of medication use (eTable 11 in Supplement 1), stratification by older vs younger birth cohorts (eTable 12 in Supplement 1), or method of handling missing data (eTable 13 in Supplement 1).

The magnitude of the association between acetaminophen and neurodevelopmental disorders was generally comparable to or lower than estimates for aspirin, nonaspirin NSAIDs, opioids, and antimigraine medications (Figure 3). As with acetaminophen, the association between nonaspirin NSAIDs, opioids, and antimigraine medications and neurodevelopmental disorders diminished to null in the sibling analysis. However, aspirin was inversely associated with neurodevelopmental disorders in the sibling analysis: HR of 0.87 (95% CI, 0.76-0.99) for autism, 0.92 (95% CI, 0.83-1.01) for ADHD, and 0.71 (95% CI, 0.57-0.88) for intellectual disability.

Characteristics of the study subsample with prescription dispensation information for acetaminophen are displayed in eTable 14 in Supplement 1. Persons with higher acetaminophen use tended to have more diagnoses of psychiatric conditions, neurodevelopmental disorders, indications for acetaminophen, and co-prescriptions of related therapeutics, among other differences. Mean dispensed prescription acetaminophen dose per day across pregnancy is displayed in eFigure 1 in Supplement 1. The median (IQR) mean daily dose was 228.5 (165.6-429.0) mg/d. Table 2 shows that in population-based models, a dose-response pattern seen with partially adjusted models attenuated with covariate adjustment and fully disappeared in the sibling analysis. For example, in sibling control models for autism, compared with no use of acetaminophen, the HR was 0.85 (95% CI, 0.68-1.08) for low mean daily use (<166 mg/d), 0.96 (95% CI, 0.79-1.15) for medium (166-429 mg/d) mean daily use, and 0.88 (95% CI, 0.68-1.14) for high (≥430 mg/d) mean daily use. Spline analyses confirmed the lack of a dose-response association in sibling analyses (eFigure 2 in Supplement 1). Adjusting for OTC acetaminophen use or excluding persons who used only OTC, but not prescribed, acetaminophen did not alter results (eTable 15 in Supplement 1).

Sibling control analyses found no evidence that acetaminophen use during pregnancy was associated with children’s risk of autism, ADHD, or intellectual disability. This suggests that the small increase in children’s risk of neurodevelopmental disorders associated with acetaminophen use observed in statistical models without sibling control may have been due to unmeasured confounding. In addition, sibling control analyses did not identify a dose-response association between acetaminophen and neurodevelopmental disorders.

Quiz Ref IDResults of this study indicate that the association between acetaminophen use during pregnancy and neurodevelopmental disorders is a noncausal association. Birthing parents with higher acetaminophen use differed in many aspects from those with lower use or no use. Results suggested that there was not one single “smoking gun” confounder, but rather that multiple birthing parents’ health and sociodemographic characteristics each explained at least part of the apparent association. The null results of the sibling control analyses indicate that shared familial confounders were involved, but do not identify the specific confounding factors.

Pregnant individuals’ genetics are likely candidates as unmeasured confounders, because certain genotypes or phenotypes increase both the probability of acetaminophen use and neurodevelopmental disorders. The Avon Longitudinal Study of Parents and Children found that birthing parent’s ADHD polygenic risk was associated with acetaminophen use in pregnancy.²³ The Norwegian Mother, Father, and Child Cohort Study (MoBa) found that birthing parent’s ADHD polygenic risk was associated with pregnancy pain, migraine, and use of pain medications including acetaminophen, while birthing parent’s autism polygenic risk was associated with migraine.²⁴ The Japan Environment and Children’s Study found that birthing parent’s autistic traits were associated with a higher degree of antenatal pain.²⁵ These findings are consistent with the current study’s observation that higher acetaminophen use correlated with higher prevalence of birthing parent’s neurodevelopmental disorders. Time-varying indications for acetaminophen, use such as infection or fever, could also play a role, as indicated by previous findings that prenatal, but not postnatal, acetaminophen use was associated with increased risk of autism and ADHD.¹³

The present results demonstrated a dose-response pattern that was attenuated with increasing covariate control and nullified in sibling control. Although the dose analysis suggested that even the highest level of acetaminophen use was not associated with increased risk, the results should not be interpreted as benchmarks for safety. Dose in this study only reflected dispensed prescriptions and not actual use of those dispensations or OTC use.

These analyses adjusted for use of other analgesics to address potential confounding. Examination of the associations of neurodevelopmental conditions with these other analgesics suggested that they are subject to the same confounding structures as acetaminophen. This study found an unexpected result in that aspirin use in the sibling control analyses, but not in the total population, was associated with reduced risk of neurodevelopmental disorders. The population of birthing parents who do not use aspirin during one pregnancy but use it in another pregnancy is likely a select subset of the population. Although routine aspirin use is not recommended during pregnancy, low-dose aspirin use for preeclampsia prevention is associated with lower risk of perinatal factors implicated in neurodevelopmental disorders, including preeclampsia, preterm birth, and intrauterine growth restriction.^26-30 Thus, this finding appears to be biologically plausible and warrants further investigation.

A meta-analysis of 6 European cohorts (none of which used sibling controls) concluded that children prenatally exposed to acetaminophen had 19% and 21% higher odds of symptoms of autism and ADHD, respectively.¹³ However, results were driven by the largest cohort of 61 430 children, because none of the other cohorts found evidence of associations (all P > .05) with symptoms of autism or ADHD. The magnitudes of conventional risk estimates for acetaminophen in the present study were similar to those from other studies, indicating that the current study was not biased toward null findings. In the previous largest study of acetaminophen use during pregnancy and autism by Liew and colleagues, the crude HR for ever-use of acetaminophen and autism spectrum disorders was 1.22.³¹ In comparison, the crude HR for acetaminophen ever-use and autism was 1.26 in the present study.

Two studies, both using data from the MoBa Study, used sibling controls to examine acetaminophen use during pregnancy and neurodevelopmental outcomes. Brandlistuen and colleagues found that acetaminophen was associated with externalizing symptoms at 3 years of age.³² In contrast, Gustavson and colleagues found that although models without sibling control showed that long-term exposure (≥29 days) to acetaminophen was associated with higher risk (HR, 2.02 [95% CI, 1.17-3.25]) of ADHD diagnosis, the association was nullified (HR, 1.06 [95% CI, 0.51-2.05]) in sibling analyses.³³ The differences in results between studies, even drawing from the same parent study, may be explained by several factors, including that clinical ADHD diagnoses differ from parental report of symptoms or the potential instability of symptoms at 3 years of age.³³

Although this study had several strengths (large, nationally representative sample; extensive confounding control; and systematic, prospective recording of both acetaminophen use and clinical diagnoses of neurodevelopmental disorders), there were also limitations. First, although a past medical record review confirmed Diagnostic and Statistical Manual of Mental Disorders (Fourth Edition) diagnosis of autism in 83 of 88 persons in this data set,¹⁶ the ADHD and intellectual disability diagnoses in the data analyzed have not been validated. In addition, the median ages of neurodevelopmental diagnoses in the present study were higher than in other studies, but this should not meaningfully affect generalizability. Median age of diagnosis is dependent on the age of children studied, so longer follow-up generally results in higher median ages of diagnoses.³⁴

Second, exposure assessment was not perfect. Antenatal data in the Medical Birth Register only recorded whether a birthing parent used acetaminophen, without regard to dose, duration, or timing. Prescription dispensation records might not reflect OTC use of acetaminophen. Thus, more specific aspects of exposure could not be assessed, and one cannot definitively exclude the possibility that use of acetaminophen beyond a certain dose at a critical point might pose some risk. This study’s finding that 7.49% of birthing parents used acetaminophen during pregnancy is lower than in some studies, but is concordant with other studies. Self-reported medication use is subject to underreporting of actual use.³⁵ However, even large amounts of exposure measurement error could not explain the nullification of associations seen with sibling control. Third, this study did not have data on conditions that did not require inpatient or outpatient medical care. Many indications for acetaminophen use, such as headache, infection, fever, and other pain, may not rise to a level that warrants seeking medical attention. Thus, capture of potential indications is incomplete.¹⁶

Acetaminophen use during pregnancy was not associated with children’s risk of autism, ADHD, or intellectual disability in sibling control analyses. This suggests that associations observed in models without sibling control may have been attributable to confounding.