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Effect of maternal depression and anxiety on use of health services for infants

M. Karen Campbell, PhD
Professor in the Department of Epidemiology and Biostatistics, the Department of Obstetrics and Gynecology, and the Department of Paediatrics at the University of Western Ontario in London. She is an Affiliated Scientist at the Lawson Research Institute and the Children’s Health Research Institute in London

Orlando daSilva, MD MSc
Professor in the Department of Paediatrics and the Department of Epidemiology and Biostatistics at the University of Western Ontario

Thomas Freeman, MD MClSc CCFP
Professor in the Department of Family Medicine at the University of Western Ontario

Bin Xie, PhD
Assistant Professor in the Department of Obstetrics and Gynecology and the Department of Epidemiology and Biostatistics at the University of Western Ontario

Correspondence: Dr Karen Campbell, University of Western Ontario, Epidemiology and Biostatistics, 1151 Richmond St, North Kresge Bldg, Room K201, London, ON N6A 5C1; telephone 519 661-2111, extension 86267; fax 519 661-3766; e-mailkaren.campbell{at}schulich.uwo.ca

There is little published research on the effects of maternal psychosocial distress on health services utilization (HSU) for infants. Maternal depressive symptoms have been shown to be associated with both an increased tendency to miss pediatric visits¹ and an increase in overall number of general practitioner or pediatrician visits.^2,3 Specific to well-child visits, 2 studies have reported no association between maternal depression and number of visits,^4,5 and a third study has reported an inverse association.⁶ Studies investigating the association between maternal depression and acute or sick-child care have found more consistent results. In studies in the United States, maternal depression has been associated with increased problem-oriented infant health care visits⁴ and increased infant emergency department (ED) visits.^1,4,6 Combined maternal and paternal depression has been positively associated with infants’ sick visits and ED visits and not associated with infants’ well-child care and inpatient visits.⁷ A literature search returned only 1 small study (N = 31) of maternal anxiety and HSU for infants; prenatal maternal anxiety was significantly associated with an increase in unscheduled acute care visits for infants (P < .05) and not associated with well-child visits.⁸

There is limited literature investigating the effect of maternal mood on HSU for infants, and very little of this research has been done in Canada. This study addresses these gaps in the literature. It is important to pursue this question because new mothers a re not only at high risk of depression, but they also require increased health services for both themselves and their new babies. This study aimed to investigate the influence of maternal depressive symptoms and anxiety on HSU for infants. On the basis of the reviewed literature, and after careful consideration of the possible behavioural mechanisms, we hypothesized that maternal depressive symptoms and anxiety would be inversely associated with the number of primary care provider (PCP) visits for infants and positively associated with walk-in clinic (WIC) and ED visits for infants.

	METHODS

TOP METHODS RESULTS DISCUSSION Footnotes Acknowledgments References

 
Study population
A postpartum cross-sectional survey was conducted using a sample of women drawn from a larger longitudinal, population-based cohort study known as the Prenatal Health Project (PHP).⁹ The PHP recruited pregnant women from 7 ultrasound clinics in London, Ont, between 2002 and 2005. Eligibility criteria for the PHP cohort required that all study participants be at 10 to 22 weeks’ gestation, at least 16 years of age, English speaking, currently living in the London-Middlesex region, and having a singleton pregnancy. All women in the PHP had previously completed a prenatal telephone interview. No intervention was applied in this observational study. Women with high-risk pregnancies were excluded from the PHP. The sample for this postpartum survey included all mothers whose infants were between 2 and 12 months of age between November 2004 and July 2005. Postpartum data were collected through scripted telephone interviews. This study was approved by the Research Ethics Board at the University of Western Ontario.

Measures
The outcome was HSU for infants, measured during the postpartum period using an adapted version of the Health Services Utilization Questionnaire.¹⁰ Main outcomes were number of PCP visits per month and whether WIC visits or ED visits were made for infants. Primary care provider visits were defined as visit to the infants’ regular sources of care, whether family physicians or pediatricians. The number of primary care provider visits per month was calculated as the total number of PCP visits made for the infant since birth, divided by age in weeks, multiplied by 4.3. Visits to EDs and WICs since birth were dichotomized as yes or no responses.

Depression and anxiety were assessed during the postpartum telephone survey. Depressive symptoms were assessed using the Center for Epidemiologic Studies Depression Scale (CES-D), a 20-item scale designed for the general population. A CES-D score 16 is indicative of depressive symptoms.¹¹ The reliability and validity of the CES-D have been well established; calculated Cronbach coefficients range from 0.84 to 0.93.^12–14 Specific to populations of mothers at 2, 3, 6, 12, and 18 months after giving birth, the Cronbach levels are all greater than 0.80.¹⁵ Maternal anxiety was measured using the State-Trait Anxiety Inventory (STAI), a 12-item scale created by Spielberger et al.¹⁶ This inventory has been widely used and a variety of estimates of its reliability and validity have been reported.¹⁷ For the purpose of this study the results were dichotomized and a STAI score 90th percentile was used to classify elevated maternal anxiety.

Table 1 provides a full list of all covariates included in this study. We used the behavioural model of HSU as a conceptual framework for this study, and all variables are classified as predisposing characteristics, enabling resources, or need variables.¹⁸ These variables were identified a priori from the literature as potential confounders to be tested for inclusion in any of the multivariable regression models.

Modeling was based on multivariable regression. For the 2 PCP outcomes, linear regression was conducted. For WIC and ED use, unconditional logistic regression was conducted. The analysis was performed for both hypothesized risk factors (maternal depressive symptoms and maternal anxiety) and all 4 infant HSU outcomes (PCP visits for infants < 6 months of age, PCP visits for infants = 6 months of age, ED use, and WIC use), resulting in a total of 8 hypothesis-testing models. Any variable that resulted in a change > 10% when removed from the full model was defined as a confounder and included in the final multivariable model. This study did not test for any interactions because the literature did not provide evidence of any a priori, and upon initial analyses the main effect was found to be modest.

	RESULTS

TOP METHODS RESULTS DISCUSSION Footnotes Acknowledgments References

 
Attempts were made to contact 880 mothers with infants between the ages of 2 and 12 months. Three mothers were subsequently found to be not eligible for the study. The remaining 877 mothers were presumed eligible for this postpartum study and 655 (75%) completed the interview; 90 (10%) refused to participate; and 132 (15%) were not contacted after repeated attempts.

At the time of the postpartum interview, 651 (> 99%) infants had PCPs; 596 received their primary care from family physicians, and 55 received their primary care from pediatricians. Four infants did not have PCPs and were therefore excluded from this analysis. The mean number of PCP visits per month for infants < 6 months of age (n = 216) was 1.27 (SD 0.70). For infants aged 6 to 12 months (n = 435), the mean number of PCP visits per month decreased to 0.77 (SD 0.42). Of all 651 infants with PCPs, 165 (25%) had visited EDs since birth. Nearly as many infants, 155 (24%), had visited WICs.

Table 2 provides prenatal characteristics of the 655 mothers who completed the postpartum interview and the 222 mothers who did not complete the interview. Postpartum depressive symptoms were indicated in 70 (11%) of the 651 mothers of infants with PCPs. Anxiety was indicated in 57 (8.8%) mothers. Thirty-four (5%) infants in the study were born preterm.

View this table: [in this window] [in a new window]   Table 3 Univariable and multivariable association between maternal depressive symptoms (CES-D 16) and HSU for infants: A) Visits per month; B) ED and WIC use.

View this table: [in this window] [in a new window]   Table 4 Univariable and multivariable association between maternal anxiety (STAI 90th percentile) and HSU for infants: A) Visits per month; B) ED and WIC use.

	DISCUSSION

TOP METHODS RESULTS DISCUSSION Footnotes Acknowledgments References

The finding that maternal depressive symptoms are not associated with WIC or ED use has previously been reported in 1 other Canadian study that investigated the effects of depression on mothers’ own HSU in the first month postpartum.²¹ Elsewhere, a direct association has been reported between mothers’ and infants’ use of health services.²² Three American studies, however, have reported increased ED use for infants of mothers with depressive symptoms.^1,4,6

Limitations and strengths
Design issues might have affected the study findings. First, although this study sample was drawn from a population-based, longitudinal cohort known to be representative of the London-Middlesex population, the sample itself was not representative of that cohort with respect to frequencies of prenatal depressive symptoms, marital status, education, employment status, and income. In general, although participation bias might limit the external validity of the frequencies provided to describe HSU, such bias typically does not influence estimates of the associations between factors.²³ Second, the HSU outcome variables were assessed through maternal reports of infant visits to each health care provider since birth. The recall period ranged from 2 to 12 months and the accuracy of the reports is unknown. Finally, a sample size calculation was not performed before conducting this study, as all eligible mothers in the cohort were approached for participation. However, the large number of confounders identified indicates the study was well powered and the weak parameter estimates and minimal differences in means suggests that there were no underlying effects missed.

An important strength of this study is the known sample characteristics of respondents and nonrespondents. Second, an additional strength of this study design is that women were recruited prenatally, before seeking postnatal care. Third, the comprehensiveness of the survey instrument was also a benefit to this study, allowing for control of many confounders and covariates in the analysis.

Conclusion
This study revealed no evidence of an association between maternal depressive symptoms or anxiety and visits to PCPs, WICs, or EDs for infants. Forthcoming studies should investigate other determinants of the variation in HSU for infants. This study excluded all infants without PCPs; studies investigating health care seeking behaviour of mothers and infants without PCPs might be warranted. Future studies on maternal and infant HSU might also benefit from investigating the actual decision-making process.

EDITOR’S KEY POINTS   Few published studies have investigated the influence of maternal depressive symptoms on health services utilization for infants, and even fewer have examined the effects of maternal anxiety. This study assesses these effects in a Canadian setting. The results of this study do not support the authors’ hypotheses that maternal depression and anxiety are inversely associated with primary care provider visits for infants or positively associated with emergency department and walk-in clinic use. No associations were found. Results differed from the authors’ expectations based on the literature. Design issues might have affected the findings: although an important strength of this study is that the sample characteristics of respondents and nonrespondents were known, the characteristics differed substantially between groups. Further, health services utilization was self-reported by mothers and could have been subject to measurement error.

 

POINTS DE REPÈRE DU RÉDACTEUR   Peu de travaux ont étudié les effets de symptômes dépressifs chez la mère, et encore moins ceux de l’anxiété maternelle sur le recours aux services de santé pour les bébés. Cette étude examine ces effets dans un contexte canadien. Les résultats de cette étude ne supportent pas l’hypothèse des auteurs voulant que la dépression et l’anxiété maternelles soient inversement associées au nombre de consultations pour les bébés auprès des intervenants de première ligne, et directement reliées aux visites aux services d’urgence et aux cliniques sans rendez-vous. Aucune association n’a été observée. Les résultats différaient de ceux auxquels les auteurs s’attendaient d’après les données de la littérature. Des différences sur le plan de la conception de l’étude pourraient avoir affecté les résultats: même si un point fort de cette étude est que les caractéristiques des groupes de répondants et de non répondants étaient connues, ces caractéristiques différaient substantiellement d’un groupe à l’autre. De plus, ce sont les mères elles-mêmes qui rapportaient le recours aux services de santé; cela pourrait avoir engendré des erreurs de mesure.

 

	Acknowledgments

TOP METHODS RESULTS DISCUSSION Footnotes Acknowledgments References

 
We thank Amanda McKenzie for project management. This research was supported by grants from the Canadian Institutes of Health Research and the Children’s Health Research Institute.

	Footnotes

TOP METHODS RESULTS DISCUSSION Footnotes Acknowledgments References

 
*Full text is available in English at www.cfp.ca.

This article has been peer reviewed.

Contributors

Ms Anderson and Drs Campbell, daSilva, Freeman, and Xie contributed to concept and design of the study, data interpretation, and preparing the manuscript for submission. Ms Anderson and Dr Campbell contributed to data gathering. Ms Anderson and Drs Campbell and Xie contributed to data analysis.

Competing interests

None declared

	References

TOP METHODS RESULTS DISCUSSION Footnotes Acknowledgments References

 

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