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Neonatal health care costs related to smoking during pregnancy

Author

Listed:
  • E. Kathleen Adams
  • Vincent P. Miller
  • Carla Ernst
  • Brenda K. Nishimura
  • Cathy Melvin
  • Robert Merritt

Abstract

Research objective: Much of the work on estimating health care costs attributable to smoking has failed to capture the effects and related costs of smoking during pregnancy. The goal of this study is to use data on smoking behavior, birth outcomes and resource utilization to estimate neonatal costs attributable to maternal smoking during pregnancy. Study design: We use 1995 data from the Center for Disease Control's (CDC) Pregnancy Risk Assessment Monitoring System (PRAMS) database. The PRAMS collects representative samples of births from 13 states (Alabama, Alaska, California, Florida, Georgia, Indiana, Maine, Michigan, New York (excluding New York City), Oklahoma, South Carolina, Washington, and West Virginia), and the District of Columbia. The 1995 PRAMS sample is approximately 25 000. Multivariate analysis is used to estimate the relationship of smoking to probability of admission to an NICU and, separately, the length of stay for those admitted or not admitted to an NICU. Neonatal costs are predicted for infants ‘as is’ and ‘as if’ their mother did not smoke. The difference between these constitutes smoking attributable neonatal costs; this divided by total neonatal costs constitutes the smoking attributable fraction (SAF). We use data from the MarketScan™ database of the MedStat™ Corporation to attach average dollar amounts to NICU and non‐NICU nursery nights and data from the 1997 birth certificates to extrapolate the SAFs and attributable expenses to all states. Principal findings: The analysis showed that maternal smoking increased the relative risk of admission to an NICU by almost 20%. For infants admitted to the NICU, maternal smoking increased length of stay while for non‐ NICU infants it appeared to lower it. Over all births, however, smoking increased infant length of stay by 1.1%. NICU infants cost $2496 per night while in the NICU and $1796 while in a regular nursery compared to only $748 for non‐NICU infants. The combination of the increased NICU use, longer stays and higher costs result in a positive smoking attributable fraction (SAF) for neonatal costs. The SAF across all states is 2.2%. Across the states, the SAF varied from a low of 1.3% in Texas to a high of 4.6% in Indiana. Conclusions: These results further confirm the adverse effects of smoking. Among mothers who smoke, smoking adds over $700 in neonatal costs. The smoking attributable neonatal costs in the US represent almost $367 million in 1996 dollars; these costs vary from less than a million in smaller states to over $35 million in California. These costs are highly preventable since the adverse effects of maternal smoking occur in the short‐run and can be avoided by even a temporary cessation of maternal smoking. These cost estimates can be used by managed care plans, state and local public health officials and others to evaluate alternative smoking cessation programs. Copyright © 2002 John Wiley & Sons, Ltd.

Suggested Citation

  • E. Kathleen Adams & Vincent P. Miller & Carla Ernst & Brenda K. Nishimura & Cathy Melvin & Robert Merritt, 2002. "Neonatal health care costs related to smoking during pregnancy," Health Economics, John Wiley & Sons, Ltd., vol. 11(3), pages 193-206, April.
    • Handle: RePEc:wly:hlthec:v:11:y:2002:i:3:p:193-206
    DOI: 10.1002/hec.660
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    Cited by:

    1. Ji Yan, 2013. "Prenatal Smoking Cessation and Infant Health: Evidence from Sibling Births," Southern Economic Journal, John Wiley & Sons, vol. 80(2), pages 299-323, October.
    2. Shoff, Carla & Yang, Tse-Chuan, 2013. "Understanding maternal smoking during pregnancy: Does residential context matter?," Social Science & Medicine, Elsevier, vol. 78(C), pages 50-60.
    3. Negri­n, Miguel A. & Vázquez-Polo, Francisco-José, 2008. "Incorporating model uncertainty in cost-effectiveness analysis: A Bayesian model averaging approach," Journal of Health Economics, Elsevier, vol. 27(5), pages 1250-1259, September.
    4. Ji Yan & Peter A. Groothuis, 2013. "Timing of Prenatal Smoking Cessation or Reduction and Infant Birth Weight: Evidence from the United Kingdom Millennium Cohort Study," Working Papers 13-16, Department of Economics, Appalachian State University.
    5. Feng Liu, 2009. "Effect of Medicaid Coverage of Tobacco-Dependence Treatments on Smoking Cessation," IJERPH, MDPI, vol. 6(12), pages 1-13, December.
    6. Jeffrey E. Harris & Ana Balsa & Patricia Triunfo, 2014. "Campaña antitabaco en Uruguay:Impacto en la decisión de dejar de fumar durante el embarazo y en el peso al nacer," Documentos de Trabajo (working papers) 0114, Department of Economics - dECON.
    7. Shooshan Danagoulian & Derek Jenkins, 2021. "Rolling back the gains: Maternal stress undermines pregnancy health after Flint's water switch," Health Economics, John Wiley & Sons, Ltd., vol. 30(3), pages 564-584, March.
    8. Francisco-José Polo & Miguel Negrín & Xavier Badía & Montse Roset, 2005. "Bayesian regression models for cost-effectiveness analysis," The European Journal of Health Economics, Springer;Deutsche Gesellschaft für Gesundheitsökonomie (DGGÖ), vol. 6(1), pages 45-52, March.
    9. Eiji Yamamura & Yoshiro Tsutsui, 2019. "Effects of Pregnancy and Birth on Smoking and Drinking Behaviours: A Comparative Study Between Men and Women," The Japanese Economic Review, Japanese Economic Association, vol. 70(2), pages 210-234, June.
    10. Lhila, Aparna & Simon, Kosali I., 2010. "Relative deprivation and child health in the USA," Social Science & Medicine, Elsevier, vol. 71(4), pages 777-785, August.
    11. Yang, Tse-Chuan & Shoff, Carla & Noah, Aggie J. & Black, Nyesha & Sparks, Corey S., 2014. "Racial segregation and maternal smoking during pregnancy: A multilevel analysis using the racial segregation interaction index," Social Science & Medicine, Elsevier, vol. 107(C), pages 26-36.
    12. Jeffrey E. Harris & Ana Inés Balsa & Patricia Triunfo, 2014. "Tobacco Control Campaign in Uruguay: Impact on Smoking Cessation during Pregnancy," NBER Working Papers 19878, National Bureau of Economic Research, Inc.
    13. Yan, Ji, 2022. "Is WIC effective in improving pregnancy-related outcomes? An empirical reassessment," Economics & Human Biology, Elsevier, vol. 47(C).
    14. Petrou, Stavros & Hockley, Christine & Mehta, Ziyah & Goldacre, Michael, 2005. "The association between smoking during pregnancy and hospital inpatient costs in childhood," Social Science & Medicine, Elsevier, vol. 60(5), pages 1071-1085, March.
    15. Caitlin Notley & Tracey J. Brown & Linda Bauld & Elaine M. Boyle & Paul Clarke & Wendy Hardeman & Richard Holland & Marie Hubbard & Felix Naughton & Amy Nichols & Sophie Orton & Michael Ussher & Emma , 2022. "Development of a Smoke-Free Home Intervention for Families of Babies Admitted to Neonatal Intensive Care," IJERPH, MDPI, vol. 19(6), pages 1-17, March.
    16. F. J. Vázquez‐Polo & M. A. Negrín Hernández & B. González López‐Valcárcel, 2005. "Using covariates to reduce uncertainty in the economic evaluation of clinical trial data," Health Economics, John Wiley & Sons, Ltd., vol. 14(6), pages 545-557, June.
    17. Tracey J. Brown & Sarah Gentry & Linda Bauld & Elaine M. Boyle & Paul Clarke & Wendy Hardeman & Richard Holland & Felix Naughton & Sophie Orton & Michael Ussher & Caitlin Notley, 2020. "Systematic Review of Behaviour Change Techniques within Interventions to Reduce Environmental Tobacco Smoke Exposure for Children," IJERPH, MDPI, vol. 17(21), pages 1-14, October.
    18. Miguel A. Negrín & Francisco J. Vázquez-Polo & María Martel & Elías Moreno & Francisco J. Girón, 2010. "Bayesian Variable Selection in Cost-Effectiveness Analysis," IJERPH, MDPI, vol. 7(4), pages 1-20, April.

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