Hostname: page-component-7bb8b95d7b-fmk2r Total loading time: 0 Render date: 2024-09-29T02:06:13.002Z Has data issue: false hasContentIssue false
  • English
  • Français

The Association Between State-Level Prenatal Substance Use Policies and Rates of Maternal Mortality in the United States: A Legal Epidemiology Study

Published online by Cambridge University Press:  12 July 2024

Kathryn A. Thomas Open the ORCID record for Kathryn A. Thomas [Opens in a new window] ,
Cara A. Struble ,
Madeline R. Stenersen  and
Kelly Moore
Rights & Permissions [Opens in a new window]

Abstract

Little research has explored relationships between prenatal substance use policies and rates of maternal mortality across all 50 states, despite evidence that prenatal substance use elevates risk of maternal death. This study, utilizing publicly available data, revealed that state-level mandated testing laws predicted maternal mortality after controlling for population characteristics.

Keywords

Maternal MortalitySubstance UseLegal EpidemiologyMaternal Health
Type
Symposium Articles
Information
Journal of Law, Medicine & Ethics , Volume 52 , Issue S1: 2023 Public Health Law Conference: People. Policy. Progress , Spring 2024 , pp. 75 - 80
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of American Society of Law, Medicine & Ethics

Maternal mortality, defined as the death of a woman while pregnant or within 42 days of termination of pregnancy, has more than tripled in the past three decades in the United States despite declining rates worldwide.Reference Hoyert1 Maternal mortality involves a complex interplay of many contributing factors. Substance use during pregnancy is a major risk factor for maternal mortality.Reference Schiff2 In fact, fatal maternal overdose rates more than doubled in the US from 2007 to 2017.Reference Cleveland3

Though researchers have suggested that substance use is a surrogate for other factors that influence mortality (e.g. reduced healthcare utilization, poor nutrition, unstable housing, and exposure to violence), states continue to develop policies to combat substance use during pregnancy.4 The number of states that have enacted policies considering prenatal substance use as a form of child abuse rose from 12 states in 2000 to 24 states in 2020.Reference Faherty5 It has recently been posited that punitive laws regarding substance use during pregnancy might contribute to increased rates of maternal mortality.6 Fear of seeking care due to social stigma and legal ramifications are common barriers to prenatal care for pregnant women with substance use disorders.Reference Gopman7 Laws punishing prenatal substance use are often disproportionately applied, such that low income Black women who live in Southern states are more likely to be reported by hospital staff, subjected to drug testing, charged with a felony, and arrested.Reference Paltrow and Flavin8 Research has begun to explore the impacts of punitive prenatal substance use laws on infant outcomes.9 For instance, one study found that enactment of punitive policies across eight states was associated with greater rates of neonatal abstinence syndrome (NAS), caused when an infant withdraws from certain drugs after prenatal exposure.10

To our knowledge, no studies have examined the impact of state-level policies regarding substance use during pregnancy on maternal mortality across all 50 states. This study utilizes a legal epidemiological approach, which is an emerging area of literature that provides a method to study the effects of laws on health-related outcomes.Reference Ramanathan11 This study examined the impact of state-level policies on rates of maternal mortality, including: (a) whether substance use during pregnancy is considered child abuse; (b) whether substance use during pregnancy requires mandated testing; (c) whether suspected substance use during pregnancy requires mandated reporting; and (d) whether substance use during pregnancy is grounds for civil commitment (see Table 1 for a complete list). We hypothesized that states that enacted each of these punitive laws would demonstrate higher rates of maternal mortality while controlling for correlates that have been shown in prior research to increase risk of maternal mortality, including: race, poverty, and rates of neonatal abstinence syndrome, prenatal care utilization, substance use in pregnant women, and health insurance.

Table 1 State laws on substance use during pregnancy in 2018.

Methods

Procedure

Publicly available state-level data from 2018 were combined from several sources including: (1) the Guttmacher Institute state-level coding prenatal substance use laws;6 (2) United Health Foundation’s data on rates of maternal mortality;12 (3) Healthcare Cost and Utilization Project data on rates of NAS among newborn hospitalizations;13 (4) Centers for Disease Control and Prevention data on rates of prenatal care in the first trimester;Reference Osterman and Martin14 (5) U.S. Census estimates of race, poverty levels, and health insurance (2010 to 2019);15 and (6) the National Survey on Drug Use and Health data on estimates of substance use during pregnancy.16 Data from all 50 states were included in analyses. See Table 2 for a complete list of population characteristics.

Table 2 All sources of data included in regression models.

Data Analysis

Bivariate correlations were examined for all variables (Table 3). Four separate hierarchical multiple regression models were built to examine the impact of each type of state-level law on maternal mortality. A backward stepwise approach was utilized to select salient correlate variables while reducing the likelihood of overfitting with variables that did not contribute to the variance in maternal mortality. The backwards stepwise regression began with a full, saturated model that included all potential population correlates informed by extant literature. Correlates that contributed the least amount of variance were removed one-by-one until a parsimonious model that predicted maternal mortality from population correlates was detected. In the second step of each model, the state-level policy was included.

Table 3 Correlation Matrix for All Variables.

*** p < .001, **p < .01, * p < .05, N = 50.

Results

The percent of population that identified as Black, percent of population below the federal poverty line, and percent of women receiving prenatal care in the first trimester were significant predictors of maternal mortality, while the percent of infants with NAS and percent of pregnant women who used illicit drugs, tobacco, or alcohol in the past month were not significant predictors of maternal mortality (Table 3).

The percent of population that identified as Black, percent of population below the federal poverty line, and percent of women receiving prenatal care in the first trimester were significant predictors of maternal mortality, while the percent of infants with NAS and percent of pregnant women who used illicit drugs, tobacco, or alcohol in the past month were not significant predictors of maternal mortality.

The backwards stepwise approach resulted in a final regression model which controlled for state-level percent of population that identifies as Black, percent of the population that falls below the poverty line, percent of infants with NAS, percent of women receiving prenatal care in the first trimester, and percent of pregnant women who used illicit drugs, tobacco, or alcohol in the past month. In the first step of the model (excluding state-level policy), no correlates significantly predicted rates of maternal mortality. In the second step of the model, the presence of mandated testing laws significantly predicted higher rates of maternal mortality; additionally, the percent of women receiving prenatal care in the first trimester was a significant predictor of maternal mortality (Table 4). The remaining three types of laws were not significant in separate models controlling for population correlates.

Table 4 Regression analysis examining the impact of mandated testing laws on maternal mortality.

** p <.01, * p <.05, N = 50.

Discussion

Results revealed that the presence of mandated testing laws significantly predicted increased rates of maternal mortality after controlling for state-level population correlates, including race, poverty, NAS, prenatal care, and prenatal substance use. The model accounted for 35.6% of the variance in mortality. The results of this study add to prior work demonstrating that enactment of punitive policies were associated with worsened infant outcome (NAS).17

Substance use during pregnancy may increase the odds of receiving inadequate prenatal care, which increases maternal mortality.18 It is possible that women may avoid prenatal care based on fear of legal consequences, including fear of child protective service involvement or criminal charges. In our mandated testing model, lack of prenatal care was related to higher maternal mortality. This provides preliminary support that reduced rates of prenatal care may be related to greater maternal mortality in light of punitive practices related to substance use. Future research utilizing medical records or Medicaid data could further examine this potential mechanism.

Findings provide preliminary support for the relationships between mandated testing laws, reduced rates of prenatal care, and increased rates of maternal mortality. Healthcare providers should be cognizant of these relationships and enact practices that bolster prenatal care utilization among pregnant women who use substances. Specifically, a multidisciplinary approach, in which clients are referred to providers with expertise in maternal substance use and treatment, has the potential to reduce risk for maternal mortality. Clinicians should engage in collaborative therapeutic discussions with clients to enhance health equity. Still, state-level policy reform, focused on best practices for treatment rather than legal consequences, could potentially reduce maternal mortality.

It is also important to note that race, specifically the percentage of the population that identifies as Black, was positively related to maternal mortality (as has been found in prior workReference Noursi19); however, in our final regression model, race was not a significant predictor, suggesting that there is shared variance between race and other correlate and legal variables in the model (i.e., mandated testing laws, poverty, NAS, prenatal care, and prenatal substance use). Bivariate correlations revealed that states with a higher proportion of Black residents tended to have lower levels of prenatal care utilization and higher rates of unemployment and poverty. This finding likely represents structural racism, such that Black people may experience disparities with regards to healthcare access in these states.Reference Howell20 This is consistent with research demonstrating that Black women are more likely to experience negative pregnancy-related health outcomes and healthcare discrimination, including increased pregnancy-related deaths, discrimination during prenatal care, and decreased access to healthcare.Reference Vintzileos21 Future research should expand on work examining inequitable implementation of these laws among racial minorities.22

The study is not without limitations. First, analyses were conducted with state-level data from several publicly available federal and state datasets. Thus, the results examined trends at the population level rather than the impact of policies at the individual level. Future work in this area should utilize diverse methodology to examine individualized experiences with policies, healthcare, and legal systems to better understand the impact of stigma or legal consequences. Second, the cross-sectional nature of this study does not allow for causal inference or trends over time. Further research can utilize a longitudinal approach to examine how maternal mortality is impacted by changes in policy. Third, there are inconsistences in how local jurisdictions document substance use during pregnancy and file petitions for court interventions and child removal.Reference Ondersma23 Thus, research accounting for nuances in policy enforcement across states could complement the present findings.

This study is the first known to utilize a legal epidemiological approach to examine the impact of state-level policies punitive of substance use during pregnancy with maternal mortality across all states. Results provide preliminary support for the relationship between mandated testing laws, reduced rates of prenatal care, and increased rates of maternal mortality.

Notes

The work described in this article was funded in part by NIH grants T32DA019426 and T32DA037202. The views and opinions expressed are those of the authors. The funding organizations had no further role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, or approval of the manuscript; and decision to submit the manuscript for publication.

References

Hoyert, D.L., National Center for Health Statistics, ,Maternal Mortality Rates in the United States 2019 (2021), available at <https://doi.org/10.15620/cdc:103855>.Google Scholar
Schiff, D.M. et al., “Methadone and buprenorphine discontinuation among postpartum women with opioid use disorder.” American Journal of Obstetrics and Gynecology 225 no. 4 (2021): 4P24. E1–424.E12; Maryland Department of Health and Mental Hygiene, Maryland Maternal Mortality Review: 2016 Annual Report (January 13, 2017); E.L. Wolfe et al., “Mortality risk associated with perinatal drug and alcohol use in California.” Journal of Perinatology 25(2) (2005): 93–100.CrossRefGoogle ScholarPubMed
Cleveland, L.M. et al., “A life-course theory exploration of opioid-related maternal mortality in the United States.” Addiction 115 no. 11 (2020): 20792088.CrossRefGoogle ScholarPubMed
See Wolfe et al, supra note 2.Google Scholar
Substance Use During Pregnancy (2020), Guttmacher Institute. available at <https://www.guttmacher.org/state- policy/explore/substance-use-during-pregnancy> (last visited August 12, 2023); Faherty, L.J. et al., “Association of punitive and reporting state policies related to substance use in pregnancy with rates of neonatal abstinence syndrome.” JAMA Network Open 2 no. 11 (2019): e1914078e1914078; C. Dailard and E. Nash, “State Responses to Substance Abuse Among Pregnant Women.” The Guttmacher Report on Public Policy 3 no. 6 (2000): 3–6.CrossRefGoogle ScholarPubMed
See Faherty et al., supra note 5.Google Scholar
Gopman, S., “Prenatal and Postpartum Care of Women With Substance Use Disorders.” Obstetrics and Gynecology Clinics 41 no. 2 (2014): 213228.Google ScholarPubMed
Paltrow, L.M. and Flavin, J., “Arrests of and Forced Interventions on Pregnant Women in the United States, 1973–2005: Implications for Women’s Legal Status and Public Health.” Journal of Health Politics, Policy and Law 38 no. 2 (2013): 299343.CrossRefGoogle ScholarPubMed
See Faherty et al., supra note 5.Google Scholar
See Faherty et al., supra note 5.Google Scholar
Ramanathan, T. et al., “Legal Epidemiology: the Science of Law.” Journal of Law, Medicine & Ethics 45 no. 1 supplement (2017): 6972.CrossRefGoogle ScholarPubMed
United Health Foundation: America’s Health Rankings, 2020 Health of Women and Children Report, (2021), available at <https://assets.americashealthrankings.org/app/uploads/2020-hwc-report.csv> (last visited March 3, 2024).+(last+visited+March+3,+2024).>Google Scholar
Agency for Healthcare Research and Quality, Healthcare Cost and Utilization Project (HCUP) Fast Stats: Neonatal Abstinence Syndrome (NAS), National & State (2018), available at <https://datatools.ahrq.gov/hcup-fast-stats?tab=special-emphasis&dash=83> (last visited March 3, 2024).+(last+visited+March+3,+2024).>Google Scholar
Osterman, M.J.K. and Martin, J.A, “System Timing and Adequacy of Prenatal Care in the United States, 2016,” National Vital Statistics reports 67 no. 3 (2018): 114.Google Scholar
Explore Census Data (2020), U.S. Census Bureau, available at <https://data.census.gov/> (last visited 2021).+(last+visited+2021).>Google Scholar
Substance Abuse and Mental Health Services Administration, National Survey on Drug Use and Health (2018), available at <https://www.samhsa.gov/data/release/2018-national-survey-drug-use-and-health-nsduh-releases> (last visited March 3, 2024).+(last+visited+March+3,+2024).>Google Scholar
See Faherty et al., supra note 5.Google Scholar
See Wolfe et al, supra note 2; Centers for Disease Control and Prevention, Pregnancy-Related Deaths: Data from 14 U.S. Maternal Mortality Review Committees, 2008-2017 (2019), available at <https://www.cdc.gov/reproductivehealth/maternal-mortality/erase-mm/mmr-data-brief.html>..>Google Scholar
Noursi, S. et al., “Maternal Morbidity and Mortality,” Journal of Women’s Health 30 no. 2 (2021): 145146; G.K. Singh “Trends and Social Inequalities in Maternal Mortality in the United States, 1969-2018.” International Journal of Maternal and Child Health and AIDS 10 no. 1 (2021): 29; M.J. Tucker et al., “The Black–White Disparity in Pregnancy-related Mortality From 5 Conditions: Differences in Prevalence and Case-Fatality Rates.” American Journal of Public Health 97 no. 2 (2007): 247–251; S. Partridge et al., 2012. “Inadequate Prenatal Care Utilization and Risks of Infant Mortality and Poor Birth Outcome: a Retrospective Analysis of 28,729,765 US Deliveries Over 8 Years.” American Journal of Perinatology 29 no. 10 (2012): 787–794.CrossRefGoogle ScholarPubMed
See Partridge et al., supra note 19; Howell, E.A. et al., “Black-White Differences in Severe Maternal Morbidity and Site of Care.” American Journal of Obstetrics and Gynecology 214 no. 1 (2016): 122.e1122.e7.CrossRefGoogle ScholarPubMed
See Noursi et al, supra note 19; Singh, supra note 19; Tucker et al., supra note 19; Partridge et al., supra note 19; Howell et al., supra note 20; Vintzileos, A.M. et al., “The impact of prenatal care on neonatal deaths in the presence and absence of antenatal high-risk conditions.” American Journal of Obstetrics and Gynecology 186 no. 5 (2002): 10111016.CrossRefGoogle ScholarPubMed
See Paltrow and Flavin, supra note 8.Google Scholar
Ondersma, S.J. et al., “Prenatal Drug Exposure and Social Policy: The Search for an Appropriate Response.” Child Maltreatment 5 no. 2 (2000): 93108.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 State laws on substance use during pregnancy in 2018.

Figure 1

Table 2 All sources of data included in regression models.

Figure 2

Table 3 Correlation Matrix for All Variables.

Figure 3

Table 4 Regression analysis examining the impact of mandated testing laws on maternal mortality.