Do antidepressants really cause autism?

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Do antidepressants really cause autism?
Author(s)
Robert P. Kauffman, MD
Teresa Baker, MD
And Thomas W. Hale, PhD

Presently it seems that anything a pregnant woman ingests can be correlated with a teratology or an unfortunate neurobehavioral outcome. In an era when up to 15% of pregnant women are taking antidepressant therapy, antidepressants are obvious drugs to be correlated with an untoward fetal outcome, despite the fact that untreated maternal depression itself is significantly worse.1

A recent retrospective secondary end point study by Boukhris and colleagues on antidepressant use in pregnancy and the risk of autism spectrum disorder (ASD) in children is an example of correlation without substantive evidence of causation. Although this study received media attention,2 it is a “data-dredge” study. While the authors correctly note that the database is derived from a prospective registry-based population-based cohort study (the Quebec Pregnancy/Children Cohort), their study’s design more closely resembles a post hoc nested case-control study.

Details of the study
Researchers evaluated data from 145,456 singleton full-term infants born alive between January 1, 1998, and December 31, 2009, with antidepressant exposure during pregnancy defined according to trimester and specific antidepressant classes. Children were considered as having autism if they had received at least 1 autism diagnosis between their date of birth and the last date of follow-up.

We perceive several problems in the study’s design and the authors’ conclusions.

Shortcomings of study design
The study results are based on a post hoc analysis. Autism spectrum disorder was not the primary end point of interest in this database. Accordingly, in a secondary end point study, the risk for bias and confounding is substantial. This study design cannot prove causation.3–5

Exposure is defined by number of antidepressant prescriptions filled. No data regarding adherence (true exposure) are provided. Many women will not take antidepressant drugs as prescribed during pregnancy. It has been reported that antidepressants dispensed to pregnant women during the last 2 trimesters of pregnancy were taken by only 55% of the women.6

The specific antidepressant agents and dosages used were not identified, and the study provided no good sense of duration of use. Is it biologically plausible, therefore, to suggest that all antidepressants—with their disparate structures and mechanisms, in all doses, and for various durations of use—have a uniform effect on fetal neurodevelopment?

Notably, in another prescription drug study of 668,468 pregnancies in 2013, investigators found no significant association between prenatal exposure to antidepressants and ASD.7

Some data suggest that ASD and depression may share preexisting risk factors.8 The increased risk for ASD proposed by Boukhris and colleagues’ study cannot likely be separated from the well-described genetic risk of ASD that might be shared with that of depression.9,10

The stated hazard ratios (HRs) are all <2.2. Given this study’s design, it is plausible that various biases and confounders account for these findings. True significance of these HRs are suspect unless they exceed 3.0, and there is a greater probability of avoiding a type I error when the risk ratios are greater than 4 to 5.3,4

What this evidence means for practice
In this registry-based study of an ongoing population-based cohort, the authors suggest a sensational 87% increased risk of ASD with use of antidepressants during pregnancy. While technically correct, the absolute risk (if real) is really less than 1%. Using sound epidemiologic principles, we would advise against speculating on a number needed to harm based on this study design. Such a projection would require a prospective randomized trial.
—Robert P. Kauffman, MD; Teresa Baker, MD; and Thomas W. Hale, PhD

Share your thoughts! Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.

References
  1. Dawson AL, Ailes EC, Gilboa SM, et al. Antidepressant prescription claims among reproductive-aged women with private employer-sponsored insurance--United States 2008 -2013. MMWR Morb Mortal Wkly Rep. 2016;65(3):41–46.
  2. Cha AE. Maternal exposure to anti-depressant SSRIs linked to autism in children. https://www.washingtonpost.com/news/to-your-health/wp/2015/12/14/maternal-exposure-to-anti-depressant-ssris-linked-to-autism-in-children/. Published December 17, 2015. Accessed March 13, 2017.
  3. Taubes G. Epidemiology faces its limits. Science. 1995;269(5221):164–169.
  4. Grimes DA, Schulz KF. False alarms and pseudo-epidemics: the limitations of observational epidemiology. Obstet Gynecol. 2012;120(4):920–927.
  5. Smith GD, Ebrahim S. Data dredging, bias, and confounding: they can all get you into the BMJ and the Friday papers. BMJ. 2002;325(7378):1437–1438. 
  6. Källén B, Nilsson E, Olausson PO. Antidepressant use during pregnancy: comparison of data obtained from a prescription register and from antenatal care records. Eur J Clin Pharmacol. 2011;67(8):839–845.
  7. Sørensen MJ, Grønborg TK, Christensen J, et al. Antidepressant exposure in pregnancy and risk of autism spectrum disorders. Clin Epidemiol. 2013;5:449–459.
  8. King BH. Assessing risk of autism spectrum disorder in children after antidepressant use during pregnancy. JAMA Pediatr. 2016;170(2):111–112.
  9. Daniels JL, Forssen U, Hultman CM, et al. Parental psychiatric disorders associated with autism spectrum disorders in the offspring. Pediatrics. 2008;121(5):e1357–e1362.
  10. Lugnegård T, Hallerbäck MU, Gillberg C. Psychiatric comorbidity in young adults with a clinical diagnosis of Asperger syndrome. Res Dev Disabil. 2011;32(5):1910–1917.
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    EXPERT COMMENTARY
    Robert P. Kauffman, MD; Teresa Baker, MD; and Thomas W. Hale, PhD

    Dr. Kauffman is Professor and Regional Chair, Department of Obstetrics and Gynecology, Texas Tech University Health Sciences Center School of Medicine, Amarillo.

    Dr. Baker is Associate Professor, Department of Obstetrics and Gynecology, Texas Tech University Health Sciences Center School of Medicine.

    Dr. Hale is Professor of Pediatrics and Assistant Dean of Research, Pharmacology, Texas Tech University Health Sciences Center School of Medicine.

    The authors report no financial relationships relevant to this article.

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    Teresa Baker, MD
    And Thomas W. Hale, PhD
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    Teresa Baker, MD
    And Thomas W. Hale, PhD
    Author and Disclosure Information

     

    EXPERT COMMENTARY
    Robert P. Kauffman, MD; Teresa Baker, MD; and Thomas W. Hale, PhD

    Dr. Kauffman is Professor and Regional Chair, Department of Obstetrics and Gynecology, Texas Tech University Health Sciences Center School of Medicine, Amarillo.

    Dr. Baker is Associate Professor, Department of Obstetrics and Gynecology, Texas Tech University Health Sciences Center School of Medicine.

    Dr. Hale is Professor of Pediatrics and Assistant Dean of Research, Pharmacology, Texas Tech University Health Sciences Center School of Medicine.

    The authors report no financial relationships relevant to this article.

    Author and Disclosure Information

     

    EXPERT COMMENTARY
    Robert P. Kauffman, MD; Teresa Baker, MD; and Thomas W. Hale, PhD

    Dr. Kauffman is Professor and Regional Chair, Department of Obstetrics and Gynecology, Texas Tech University Health Sciences Center School of Medicine, Amarillo.

    Dr. Baker is Associate Professor, Department of Obstetrics and Gynecology, Texas Tech University Health Sciences Center School of Medicine.

    Dr. Hale is Professor of Pediatrics and Assistant Dean of Research, Pharmacology, Texas Tech University Health Sciences Center School of Medicine.

    The authors report no financial relationships relevant to this article.

    Article PDF
    0416_OBGM_Evidence.pdf.pdf
    Article PDF
    0416_OBGM_Evidence.pdf.pdf
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    Presently it seems that anything a pregnant woman ingests can be correlated with a teratology or an unfortunate neurobehavioral outcome. In an era when up to 15% of pregnant women are taking antidepressant therapy, antidepressants are obvious drugs to be correlated with an untoward fetal outcome, despite the fact that untreated maternal depression itself is significantly worse.1

    A recent retrospective secondary end point study by Boukhris and colleagues on antidepressant use in pregnancy and the risk of autism spectrum disorder (ASD) in children is an example of correlation without substantive evidence of causation. Although this study received media attention,2 it is a “data-dredge” study. While the authors correctly note that the database is derived from a prospective registry-based population-based cohort study (the Quebec Pregnancy/Children Cohort), their study’s design more closely resembles a post hoc nested case-control study.

    Details of the study
    Researchers evaluated data from 145,456 singleton full-term infants born alive between January 1, 1998, and December 31, 2009, with antidepressant exposure during pregnancy defined according to trimester and specific antidepressant classes. Children were considered as having autism if they had received at least 1 autism diagnosis between their date of birth and the last date of follow-up.

    We perceive several problems in the study’s design and the authors’ conclusions.

    Shortcomings of study design
    The study results are based on a post hoc analysis. Autism spectrum disorder was not the primary end point of interest in this database. Accordingly, in a secondary end point study, the risk for bias and confounding is substantial. This study design cannot prove causation.3–5

    Exposure is defined by number of antidepressant prescriptions filled. No data regarding adherence (true exposure) are provided. Many women will not take antidepressant drugs as prescribed during pregnancy. It has been reported that antidepressants dispensed to pregnant women during the last 2 trimesters of pregnancy were taken by only 55% of the women.6

    The specific antidepressant agents and dosages used were not identified, and the study provided no good sense of duration of use. Is it biologically plausible, therefore, to suggest that all antidepressants—with their disparate structures and mechanisms, in all doses, and for various durations of use—have a uniform effect on fetal neurodevelopment?

    Notably, in another prescription drug study of 668,468 pregnancies in 2013, investigators found no significant association between prenatal exposure to antidepressants and ASD.7

    Some data suggest that ASD and depression may share preexisting risk factors.8 The increased risk for ASD proposed by Boukhris and colleagues’ study cannot likely be separated from the well-described genetic risk of ASD that might be shared with that of depression.9,10

    The stated hazard ratios (HRs) are all <2.2. Given this study’s design, it is plausible that various biases and confounders account for these findings. True significance of these HRs are suspect unless they exceed 3.0, and there is a greater probability of avoiding a type I error when the risk ratios are greater than 4 to 5.3,4

    What this evidence means for practice
    In this registry-based study of an ongoing population-based cohort, the authors suggest a sensational 87% increased risk of ASD with use of antidepressants during pregnancy. While technically correct, the absolute risk (if real) is really less than 1%. Using sound epidemiologic principles, we would advise against speculating on a number needed to harm based on this study design. Such a projection would require a prospective randomized trial.
    —Robert P. Kauffman, MD; Teresa Baker, MD; and Thomas W. Hale, PhD

    Share your thoughts! Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.

    Presently it seems that anything a pregnant woman ingests can be correlated with a teratology or an unfortunate neurobehavioral outcome. In an era when up to 15% of pregnant women are taking antidepressant therapy, antidepressants are obvious drugs to be correlated with an untoward fetal outcome, despite the fact that untreated maternal depression itself is significantly worse.1

    A recent retrospective secondary end point study by Boukhris and colleagues on antidepressant use in pregnancy and the risk of autism spectrum disorder (ASD) in children is an example of correlation without substantive evidence of causation. Although this study received media attention,2 it is a “data-dredge” study. While the authors correctly note that the database is derived from a prospective registry-based population-based cohort study (the Quebec Pregnancy/Children Cohort), their study’s design more closely resembles a post hoc nested case-control study.

    Details of the study
    Researchers evaluated data from 145,456 singleton full-term infants born alive between January 1, 1998, and December 31, 2009, with antidepressant exposure during pregnancy defined according to trimester and specific antidepressant classes. Children were considered as having autism if they had received at least 1 autism diagnosis between their date of birth and the last date of follow-up.

    We perceive several problems in the study’s design and the authors’ conclusions.

    Shortcomings of study design
    The study results are based on a post hoc analysis. Autism spectrum disorder was not the primary end point of interest in this database. Accordingly, in a secondary end point study, the risk for bias and confounding is substantial. This study design cannot prove causation.3–5

    Exposure is defined by number of antidepressant prescriptions filled. No data regarding adherence (true exposure) are provided. Many women will not take antidepressant drugs as prescribed during pregnancy. It has been reported that antidepressants dispensed to pregnant women during the last 2 trimesters of pregnancy were taken by only 55% of the women.6

    The specific antidepressant agents and dosages used were not identified, and the study provided no good sense of duration of use. Is it biologically plausible, therefore, to suggest that all antidepressants—with their disparate structures and mechanisms, in all doses, and for various durations of use—have a uniform effect on fetal neurodevelopment?

    Notably, in another prescription drug study of 668,468 pregnancies in 2013, investigators found no significant association between prenatal exposure to antidepressants and ASD.7

    Some data suggest that ASD and depression may share preexisting risk factors.8 The increased risk for ASD proposed by Boukhris and colleagues’ study cannot likely be separated from the well-described genetic risk of ASD that might be shared with that of depression.9,10

    The stated hazard ratios (HRs) are all <2.2. Given this study’s design, it is plausible that various biases and confounders account for these findings. True significance of these HRs are suspect unless they exceed 3.0, and there is a greater probability of avoiding a type I error when the risk ratios are greater than 4 to 5.3,4

    What this evidence means for practice
    In this registry-based study of an ongoing population-based cohort, the authors suggest a sensational 87% increased risk of ASD with use of antidepressants during pregnancy. While technically correct, the absolute risk (if real) is really less than 1%. Using sound epidemiologic principles, we would advise against speculating on a number needed to harm based on this study design. Such a projection would require a prospective randomized trial.
    —Robert P. Kauffman, MD; Teresa Baker, MD; and Thomas W. Hale, PhD

    Share your thoughts! Send your Letter to the Editor to [email protected]. Please include your name and the city and state in which you practice.

    References
    1. Dawson AL, Ailes EC, Gilboa SM, et al. Antidepressant prescription claims among reproductive-aged women with private employer-sponsored insurance--United States 2008 -2013. MMWR Morb Mortal Wkly Rep. 2016;65(3):41–46.
    2. Cha AE. Maternal exposure to anti-depressant SSRIs linked to autism in children. https://www.washingtonpost.com/news/to-your-health/wp/2015/12/14/maternal-exposure-to-anti-depressant-ssris-linked-to-autism-in-children/. Published December 17, 2015. Accessed March 13, 2017.
    3. Taubes G. Epidemiology faces its limits. Science. 1995;269(5221):164–169.
    4. Grimes DA, Schulz KF. False alarms and pseudo-epidemics: the limitations of observational epidemiology. Obstet Gynecol. 2012;120(4):920–927.
    5. Smith GD, Ebrahim S. Data dredging, bias, and confounding: they can all get you into the BMJ and the Friday papers. BMJ. 2002;325(7378):1437–1438. 
    6. Källén B, Nilsson E, Olausson PO. Antidepressant use during pregnancy: comparison of data obtained from a prescription register and from antenatal care records. Eur J Clin Pharmacol. 2011;67(8):839–845.
    7. Sørensen MJ, Grønborg TK, Christensen J, et al. Antidepressant exposure in pregnancy and risk of autism spectrum disorders. Clin Epidemiol. 2013;5:449–459.
    8. King BH. Assessing risk of autism spectrum disorder in children after antidepressant use during pregnancy. JAMA Pediatr. 2016;170(2):111–112.
    9. Daniels JL, Forssen U, Hultman CM, et al. Parental psychiatric disorders associated with autism spectrum disorders in the offspring. Pediatrics. 2008;121(5):e1357–e1362.
    10. Lugnegård T, Hallerbäck MU, Gillberg C. Psychiatric comorbidity in young adults with a clinical diagnosis of Asperger syndrome. Res Dev Disabil. 2011;32(5):1910–1917.
      References
      1. Dawson AL, Ailes EC, Gilboa SM, et al. Antidepressant prescription claims among reproductive-aged women with private employer-sponsored insurance--United States 2008 -2013. MMWR Morb Mortal Wkly Rep. 2016;65(3):41–46.
      2. Cha AE. Maternal exposure to anti-depressant SSRIs linked to autism in children. https://www.washingtonpost.com/news/to-your-health/wp/2015/12/14/maternal-exposure-to-anti-depressant-ssris-linked-to-autism-in-children/. Published December 17, 2015. Accessed March 13, 2017.
      3. Taubes G. Epidemiology faces its limits. Science. 1995;269(5221):164–169.
      4. Grimes DA, Schulz KF. False alarms and pseudo-epidemics: the limitations of observational epidemiology. Obstet Gynecol. 2012;120(4):920–927.
      5. Smith GD, Ebrahim S. Data dredging, bias, and confounding: they can all get you into the BMJ and the Friday papers. BMJ. 2002;325(7378):1437–1438. 
      6. Källén B, Nilsson E, Olausson PO. Antidepressant use during pregnancy: comparison of data obtained from a prescription register and from antenatal care records. Eur J Clin Pharmacol. 2011;67(8):839–845.
      7. Sørensen MJ, Grønborg TK, Christensen J, et al. Antidepressant exposure in pregnancy and risk of autism spectrum disorders. Clin Epidemiol. 2013;5:449–459.
      8. King BH. Assessing risk of autism spectrum disorder in children after antidepressant use during pregnancy. JAMA Pediatr. 2016;170(2):111–112.
      9. Daniels JL, Forssen U, Hultman CM, et al. Parental psychiatric disorders associated with autism spectrum disorders in the offspring. Pediatrics. 2008;121(5):e1357–e1362.
      10. Lugnegård T, Hallerbäck MU, Gillberg C. Psychiatric comorbidity in young adults with a clinical diagnosis of Asperger syndrome. Res Dev Disabil. 2011;32(5):1910–1917.
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        Do antidepressants really cause autism?
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