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Costs of common perinatal mental health problems in South Africa

Published online by Cambridge University Press:  23 August 2022

Annette Bauer*
Affiliation:
London School of Economics and Political Science (LSE), Care Policy and Evaluation Centre, Houghton Street, London WC2A 2AE, UK
Emily Garman
Affiliation:
Department of Psychiatry and Mental Health, Alan J Flisher Centre for Public Mental Health, University of Cape Town, Cape Town, South Africa
Donela Besada
Affiliation:
Health Systems Unit, South African Medical Research Council, Cape Town, South Africa
Sally Field
Affiliation:
Department of Psychiatry and Mental Health, Perinatal Mental Health Project, Alan J Flisher Centre for Public Mental Health, University of Cape Town, Cape Town, South Africa
Martin Knapp
Affiliation:
London School of Economics and Political Science (LSE), Care Policy and Evaluation Centre, Houghton Street, London WC2A 2AE, UK
Simone Honikman
Affiliation:
Department of Psychiatry and Mental Health, Perinatal Mental Health Project, Alan J Flisher Centre for Public Mental Health, University of Cape Town, Cape Town, South Africa
*
Author for correspondence: Annette Bauer, E-mail: [email protected]
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Abstract

Background

Perinatal mental health problems, defined as mental health problems occurring from the start of pregnancy to one year after birth, substantially affect women's and children's quality of life in low- and middle-income countries. In South Africa, despite high prevalence and documented negative impacts, most women do not receive any care.

Methods

A modelling study examined the costs of perinatal mental health problems, namely depression and anxiety, for a hypothetical cohort of women and their children in South Africa over part of their life course (10 years for women, 40 years for children). In sensitivity analysis, additional impacts of post-traumatic stress disorder (PTSD) and completed suicide were included. Data sources were published findings from cohort studies, as well as epidemiological and economic data from South Africa. Data from international studies were considered where no data from South Africa were available.

Results

Lifetime costs of perinatal depression and anxiety in South Africa amount to USD 2.8 billion per annual cohort of births. If the impacts of PTSD and suicide are included, costs increase to USD 2.9 billion. This includes costs linked to losses in quality of life (USD 1.8 billion), losses in income (USD 1.1 billion) and public sector costs (USD 3.5 million).

Conclusions

Whilst important progress has been made in South Africa with regards to mental health policies and interventions that include assessment and management of perinatal mental health problems, substantial underinvestment prevents progress. Findings from this study strengthen the economic case for investing in perinatal mental health care.

Type
Original Research Paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press

Background

Perinatal mental health problems, defined in this paper as maternal mental health problems during the period from the start of pregnancy to one year postpartum, are highly prevalent among women giving birth and contribute substantially to the global burden of disease (Fisher, Reference Fisher, de Mello, Izutsu and Tran2011). In South Africa, estimates of the prevalence of perinatal depression, stress or anxiety range widely from 16% to 50% (Ramchandani et al., Reference Ramchandani, Richter, Stein and Norris2009; Rochat et al., Reference Rochat, Tomlinson, Barnighausen, Newell and Stein2011; Brittain et al., Reference Brittain, Myer, Koen, Koopowitz, Donald, Barnett, Zar and Stein2015; van Heyningen et al., Reference Van Heyningen, Myer, Onah, Tomlinson, Field and Honikman2016), reflecting measurement challenges and differences in population characteristics. Furthermore, 10% of women are at high risk of suicide during the perinatal period (Dewing et al., Reference Dewing, Tomlinson, Le Roux, Chopra and Tsai2013; Rochat et al., Reference Rochat, Bland, Tomlinson and Stein2013; van Heyningen et al., Reference Van Heyningen, Myer, Onah, Tomlinson, Field and Honikman2016; Garman et al., Reference Garman, Cois, Schneider and Lund2019a). This significant burden has been exacerbated by the coronavirus disease 2019 (COVID-19) pandemic (Abrahams et al., Reference Abrahams, Boisits, Schneider, Prince and Lund2021).

In addition to causing substantial human suffering for women, there are well-established adverse impacts of untreated perinatal mental health problems on pregnancy outcomes, infant growth and development, and offspring educational attainments (Stewart, Reference Stewart2007; Stein et al., Reference Stein, Pearson, Goodman, Rapa, Rahman, Mccallum, Howard and Pariante2014; Glover et al., Reference Glover, O'Donnell, O'Connor and Fisher2018). Evidence from South African studies shows negative impacts of postnatal depression or psychological distress on short- and long-term child outcomes, including respiratory tract infections, recurrent wheezing or asthma (MacGinty et al., Reference Macginty, Lesosky, Barnett, Stein and Zar2018, Reference Macginty, Lesosky, Barnett, Nduru, Vanker, Stein and Zar2019, Reference Macginty, Kariuki, Barnett, Wedderburn, Hardy, Hoffman, Newton, Zar, Donald and Stein2020; Kariuki et al., Reference Kariuki, Gray, Newton, Vanker, Macginty, Koen, Barnett, Chibnik, Koenen, Stein and Zar2020), stunting (Avan et al., Reference Avan, Richter, Ramchandani, Norris and Stein2010; Tomlinson et al., Reference Tomlinson, Cooper, Stein, Swartz and Molteno2006), and mental health problems (Verkuijl et al., Reference Verkuijl, Richter, Norris, Stein, Avan and Ramchandani2014). Risk factors include a complex combination of genetic, biological, social, psychological and environmental factors. For example, antenatal anxiety increases maternal cortisol concentrations, which have been associated with changes to foetal brain development (Stein et al., Reference Stein, Pearson, Goodman, Rapa, Rahman, Mccallum, Howard and Pariante2014; Glover et al., Reference Glover, O'Donnell, O'Connor and Fisher2018). In the postnatal period, psychological factors may affect mothers' responsiveness to their infants and nurturing abilities (Stein et al., Reference Stein, Pearson, Goodman, Rapa, Rahman, Mccallum, Howard and Pariante2014). Poverty, domestic violence, addictions and lack of social support, especially from another caregiver or partner, worsen negative impacts on the child (Stein et al., Reference Stein, Pearson, Goodman, Rapa, Rahman, Mccallum, Howard and Pariante2014).

Globally and nationally, most perinatal mental health problems remain unidentified and untreated (Engle, Reference Engle2009; English et al., Reference English, Peer, Honikman, Tugendhaft and Hofman2017). While the urgent need to address perinatal depression as a key risk factor for child development has been highlighted by bodies such as the World Health Organization (WHO) (Fisher, Reference Fisher, de Mello, Izutsu and Tran2011), this has not yet led to adequate policies or investments in most low- or middle-income countries. In South Africa, although important progress has been made with regards to mental health policies, such as the introduction of routine screening, and trialled pilots, including those that assess and manage common mental disorders during the perinatal period (Honikman et al., Reference Honikman, Van Heyningen, Field, Baron and Tomlinson2012; National Department of Health, 2012; Lund et al., Reference Lund, Schneider, Davies, Nyatsanza, Honikman, Bhana, Bass, Bolton, Dewey, Joska, Kagee, Myer, Petersen, Prince, Stein, Thornicroft, Tomlinson, Alem and Susser2014; Baron et al., Reference Baron, Hanlon, Mall, Honikman, Breuer, Kathree, Luitel, Nakku, Lund, Medhin, Patel, Petersen, Shrivastava and Tomlinson2016), underinvestment, under-resourcing and major implementation challenges have prevented progress and scaling-up (Docrat et al., Reference Docrat, Besada, Cleary, Daviaud and Lund2019a; Honikman and Sigwebela, Reference Honikman and Sigwebela2020).

Untreated perinatal mental health problems generate substantial human suffering and high costs (Bauer et al., Reference Bauer, Knapp and Parsonage2016). In addition to quality-of-life losses, this includes women's reduced ability to pursue income-generating or other productive activities (Howard et al., Reference Howard, Piot and Stein2014). Children's reduced quality of life and life-time earnings because of long-term health and development problems are likely to be substantial. There are also costs associated with increased hospital service use resulting from severe infant morbidities (Weobong et al., Reference Weobong, Ten Asbroek, Soremekun, Gram, Amenga-Etego, Danso, Owusu-Agyei, Prince and Kirkwood2015; Jacques et al., Reference Jacques, De Mola, Joseph, Mesenburg and Da Silveira2019). For example, in the United Kingdom (UK), the costs of perinatal depression and anxiety were estimated to be £800 million (USD 1.1 billion) per 100 000 births (Bauer et al., Reference Bauer, Knapp and Parsonage2016).

There have been very few economic studies of perinatal mental health problems, particularly in low- or middle-income contexts. The aim of this study is to address this gap in South Africa by examining the lifetime costs of perinatal mental health problems associated with the impacts on mothers and their children.

Method

As done in an earlier UK study (Bauer et al., Reference Bauer, Knapp and Parsonage2016), we applied decision-analytic modelling techniques (Briggs et al., Reference Briggs, Claxton and Sculpher2006) to simulate the additional costs because of (untreated) perinatal mental health problems. A hypothetical cohort of women and their children were followed in annual cycles over time (10 years for women, 40 years for children) to cover the lifetime over which most impacts occur.

For the model parameters, we used: peer-reviewed publications of results from birth cohort studies such as the Drakenstein Child Health Study (Stein et al., Reference Stein, Koen, Donald, Adnams, Koopowitz, Lund, Marais, Myers, Roos, Sorsdahl, Stern, Tomlinson, Van Der Westhuizen, Vythilingum, Myer, Barnett, Brittain and Zar2015) and the Birth-to-Twenty (Bt20) cohort (Richter et al., Reference Richter, Norris and De Wet2004); as well as survey data on population, economic and health indicators published by national and international organisations (WHO, World Bank and South African government). Where we drew on international evidence or evidence not specific to the perinatal period, this is made explicit. All parameters used for the study, values, data sources, and details of how values were derived are presented in Table 1.

First, we describe how we estimated the number of women who develop perinatal mental health problems and the children who develop problems resulting from their exposure.

Focus on anxiety and depression

We focused on common perinatal mental health problems, namely depression and anxiety, for which there was sufficiently robust prevalence data, based on diagnostic measures, differentiated into ante- and postnatal periods. Because data on prevalence vary widely between studies in different settings, conservative estimates were chosen. Since prevalence data were chosen based on diagnostic measures, mild conditions that do not meet the disease threshold were excluded. For both ante- and postnatal depression, a rate of 20% was chosen for the analysis. From international data, we applied proportions of 92% and 8% for moderate and severe depression, respectively (Burstein et al., Reference Burstein, Fleming, Haagsma, Salomon, Vos and Murray2015). For anxiety, an adjusted prevalence was estimated to reflect women without co-existing depression (and, for simplicity, no further distinction is made regarding severities). Since a study in Johannesburg found that, amongst 15% of women with probable anxiety disorder, half have co-existing probable depression (Redinger et al., Reference Redinger, Norris, Pearson, Richter and Rochat2018), a prevalence of 7.5% of anxiety was taken. Estimates align with a study from Cape Town that employed a diagnostic measure for anxiety disorder and excluded moderate depression or post-traumatic stress disorder (PTSD), reporting the prevalence of 8% (van Heyningen et al., Reference Van Heyningen, Honikman, Myer, Onah, Field and Tomlinson2017). In the absence of data for anxiety for the postnatal period, we assumed an equal prevalence, as indicated in other studies (Dennis et al., Reference Dennis, Falah-Hassani and Shiri2017).

Estimating a hypothetical cohort of affected women and children

Numbers of mothers in the cohort were estimated based on number of live births reported in national statistics and prevalence data for perinatal depression and anxiety (noted above). We included all women aged 15 to 39 years who gave birth in 2017. This is the age range when most women or girls give birth. To estimate the economic impact of perinatal mental health problems during the antenatal period, adjustments were required to include women with still-births. For simplicity, no adjustments were made to reflect multiple births (e.g. twins) since this figure is very small. In line with the UK study (Bauer et al., Reference Bauer, Knapp and Parsonage2016) the chronic nature of the problems for some women was captured by modelling for a proportion of these women who have persistent perinatal mental health problems for a 10-year period post-birth. Data were taken from a longitudinal study in a township near Cape Town (Garman et al., Reference Garman, Cois, Tomlinson, Rotheram-Borus and Lund2019b) which showed that, for about 10% of women with postnatal depression, the condition is chronic. We estimated that the condition lasts for up to 10 years. Starting from the first year after birth, we modelled a yearly, linear reduction of women with chronic perinatal depression or anxiety to reflect natural remission (Bauer et al., Reference Bauer, Knapp and Parsonage2016). The same proportion was assumed and calculations applied for postnatal anxiety (Bauer et al., Reference Bauer, Knapp and Parsonage2016).

The cohort number was reduced each year by the proportion of women who die over this period, based on age- and gender-specific mortality data from national statistics. For the probability of death during the perinatal period, we applied an additional mortality risk attributed to pregnancy- and maternity-related causes (see Table 1).

To estimate the additional number of children who develop adverse outcomes linked to their exposure, the number of live births was multiplied by the prevalence of perinatal mental health problems and the additional risk that children develop problems as a result. The latter is derived from birth cohort studies in South Africa that identify significant effects of perinatal mental health problems on: severe lower respiratory tract infections in the first year after birth (MacGinty et al., Reference Macginty, Lesosky, Barnett, Nduru, Vanker, Stein and Zar2019), asthma (MacGinty et al., Reference Macginty, Lesosky, Barnett, Stein and Zar2018), internalising problems (defined as being anxious or depressed), externalising problems (defined as showing aggressive or rule-breaking behaviour) (Verkuijl et al., Reference Verkuijl, Richter, Norris, Stein, Avan and Ramchandani2014), and stunting (Tomlinson et al., Reference Tomlinson, Cooper, Stein, Swartz and Molteno2006, Reference Tomlinson, Rotheram-Borus, Scheffler and Le Roux2018).

Specifically, numbers of children with internalising or externalising problems or stunting linked to perinatal mental health problems were estimated from the number of women with perinatal depression. Numbers of children with lower respiratory tract infection in the first year or ongoing asthma (which is linked to perinatal psychological distress) were estimated from the number of children exposed to perinatal psychological distress (which overlaps with depression and anxiety) based on work by MacGinty and colleagues (MacGinty et al., Reference Macginty, Lesosky, Barnett, Stein and Zar2018, Reference Macginty, Lesosky, Barnett, Nduru, Vanker, Stein and Zar2019). Evidence from that study indicated that lower respiratory infections occur only in the first year, whilst asthma develops as a long-term condition and persists over the lifetime (i.e. 40 years in this model).

As done for mothers, we modelled children in the cohort who are alive each year by applying mortality probabilities derived from national statistics.

Estimating economic consequences

Disability weights and unit costs (multiplied by assumed disease durations) were assigned to adverse impacts for mothers and children. Our approach follows recommendations by the WHO to include costs borne by both government and wider society (WHO, 2003). Here, government costs refer to the use of publicly-funded healthcare care for children admitted to hospital because of severe lower respiratory tract infections in the first year after birth. We were unable to identify any other government costs directly applicable to the population. Societal costs included productivity losses and losses in quantity and quality of life, measured in the form of disability-adjusted life years (DALYs). Valuing both productivity and DALYs separately followed an approach in which (mental) health is valued distinctively for its contribution to labour force participation and its contribution to other intrinsic benefits (e.g. ability to enjoy life or to contribute to society such as performing parenting or caring tasks). We followed the approach proposed by the World Bank and WHO (Chisholm et al., Reference Chisholm, Sweeny, Sheehan, Rasmussen, Smit, Cuijpers and Saxena2016; Stenberg et al., Reference Stenberg, Axelson, Temmerman, Sheehan, Black, Temmerman, Laxminarayan and Walker2016), and applied values equal to per capita gross domestic product (GDP) to income gains or losses and 0.5 per capita GDP to a DALY. Per capita GDP data were taken from World Bank estimates (https://data.worldbank.org), which include the impact of COVID-19 on GDP for 2020. For simplicity, and to reflect an uncertain outlook for economic recovery in South Africa, we applied 2020 GDP values for subsequent years.

Table 2 summarises the economic consequences included in the modelling and sources of cost data.

Table 2. Economic consequences included in the analysis

Economic consequences: mothers

Economic consequences linked directly to mothers are losses in quantity and quality of life (measured by DALYs) and in productivity.

DALYs were calculated based on the number of women with depression or anxiety, disability weights and a duration of 3 months over which the problems last (Garman et al., Reference Garman, Cois, Tomlinson, Rotheram-Borus and Lund2019b). Disability weights for moderate and severe depression were applied to the respective numbers of mothers with those symptom severities, while for anxiety disorders, a disability weight for moderate anxiety was applied for all women with anxiety (since the model did not make further distinctions for severity levels).

Women's productivity losses were calculated based on the estimated annual income decrement for women with severe depression (Lund et al., Reference Lund, Myer, Stein, Williams and Flisher2013) applied to the estimated number of women with severe depression during and after the perinatal period. Findings from that study suggest that the income of women with severe depression is a third of the income that women without severe depression can expect to earn in South Africa. This value was applied using GDP per capita data, adjusting for a lower value for women (Lund et al., Reference Lund, Myer, Stein, Williams and Flisher2013).

Economic consequences: children

Economic consequences linked to children are losses in quantity and quality of life (measured by DALYs), productivity losses (linked to stunting) and hospital care (linked to severe lower respiratory tract infections in the first year after birth). Effects on DALYs were calculated for the additional number of children who experience severe lower respiratory tract infections in the first year after birth, asthma, or internalising or externalising mental health problems. Disability weights were for: severe infections to reflect severe lower respiratory tract infections; partly controlled asthma to reflect asthma; a weighted average for moderate depression or anxiety to reflect internalising problems (there is no disability weight for internalising problems as such); moderate conduct disorder to reflect child externalising problems. There is no disability weight for stunting and so we did not include this in the calculation of quantity or quality of life losses.

Depending on the data, different assumptions were made about disease durations or persistence of health impacts. The impact of children's mental health problems was assumed to persist for 40 years, a figure supported by national longitudinal study data up to 10 years later (Verkuijl et al., Reference Verkuijl, Richter, Norris, Stein, Avan and Ramchandani2014) and several larger cohort studies from high-income settings which follow children until they are young adults (Pearson et al., Reference Pearson, Evans, Kounali, Lewis, Heron, Ramchandani, O'Connor and Stein2013; O'Donnell et al., Reference O'Donnell, Glover, Barker and O'Connor2014; Rajyaguru et al., Reference Rajyaguru, Kwong, Braithwaite and Pearson2021). As described above, for asthma, we also assumed long-term persistence (i.e. 40 years) due to the chronic nature of the condition, whilst for severe lower respiratory tract infections, only the initial episode during the postpartum year was considered.

Productivity losses linked to one child outcome – stunting – were calculated for the period starting from when children reach age 16 years, which is the minimum age for admission to employment in South Africa (https://www.labourguide.co.za). The strong negative links between stunting, lost school years and earnings – and the impact of perinatal depression on these outcomes – are well established from previous studies (Martorell et al., Reference Martorell, Horta, Adair, Stein, Richter, Fall, Bhargava, Biswas, Perez, Barros and Victora2010; Smith Fawzi et al., Reference Smith Fawzi, Andrews, Fink, Danaei, Mccoy, Sudfeld, Peet, Cho, Liu, Finlay, Ezzati, Kaaya and Fawzi2019). An annual income decrement (Martorell et al., Reference Martorell, Horta, Adair, Stein, Richter, Fall, Bhargava, Biswas, Perez, Barros and Victora2010) was applied to the additional number of children who are stunted linked to postnatal depression, taken from pooled data across five cohorts in low- and middle-income countries, including South Africa (Martorell et al., Reference Martorell, Horta, Adair, Stein, Richter, Fall, Bhargava, Biswas, Perez, Barros and Victora2010).

Costs to the public sector refer to costs of hospitalisations of infants with episodes of severe lower respiratory tract infections linked to persistent psychological distress during the first year postpartum, calculated from South African evidence on hospitalisation risk (MacGinty et al., Reference Macginty, Lesosky, Barnett, Stein and Zar2018, Reference Macginty, Lesosky, Barnett, Nduru, Vanker, Stein and Zar2019) and data on the average cost of a hospital stay (Ramjee, Reference Ramjee2013).

Discounting

Costs incurred in the future are valued less than the same costs incurred today, which is why economic studies apply a discount rate to future costs (and benefits). In keeping with global methods (Chisholm et al., Reference Chisholm, Sweeny, Sheehan, Rasmussen, Smit, Cuijpers and Saxena2016), we determined the present value of costs (in 2017) using a discount rate of 3% for DALYs, income losses and healthcare costs. Estimates therefore reflected the present and future costs as they occur for a hypothetical cohort of women giving birth in the present year (here: 2017) and the children they give birth to. The year 2017 was chosen as the ‘present year’ as this is the latest year for which most national statistical data were available.

Sensitivity analysis

Sensitivity analysis was used to explore the uncertainty of values by analysing the impact of changing parameters in a model on the final results. For this sensitivity analysis, we included quality and quantity of life impacts linked to one additional perinatal mental health problem, PTSD, excluded from the main analysis because some parts of the costs were likely to be included as part of depression or anxiety. We also included quality and quantity of life impacts linked to (completed) suicide during the perinatal period only in sensitivity analysis, as reliable data on suicide are particularly difficult to obtain in low- and middle-income countries (Fuhr et al., Reference Fuhr, Calvert, Ronsmans, Chandra, Sikander, De Silva and Patel2014) and suicide is not invariably related to mental health problems (Onah et al., Reference Onah, Field, Bantjes and Honikman2017).

Proportions of women with PTSD were estimated at 10% for the antenatal period (Koen et al., Reference Koen, Brittain, Donald, Barnett, Koopowitz, Mare, Zar and Stein2017; van Heyningen et al., Reference Van Heyningen, Honikman, Myer, Onah, Field and Tomlinson2017; MacGinty et al., Reference Macginty, Kariuki, Barnett, Wedderburn, Hardy, Hoffman, Newton, Zar, Donald and Stein2020) and 5% for the postnatal period (MacGinty et al., Reference Macginty, Lesosky, Barnett, Stein and Zar2018). DALYs were calculated by applying a disability weight for severe anxiety and a duration of 3 months. For women completing suicide during the perinatal period, we estimated DALYs based on a suicide rate among women of 4.5 per 100 000 (Matzopoulos et al., Reference Matzopoulos, Prinsloo, Pillay-Van Wyk, Gwebushe, Mathews, Martin, Laubscher, Abrahams, Msemburi, Lombard and Bradshaw2015) and a weight for years of life lost over the lifespan for someone dying during their mid-life taken from the Global Burden of Disease study.

Results

The main results of the analysis are presented in Table 3. The costs of perinatal mental health problems are shown in the form of the average cost per woman giving birth, as well as across the estimated 1 000 053 pregnant women in 2017. Reported values reflect present (i.e. discounted) values of the costs as they occur over the lifespan for the hypothetical 2017 cohort of women, and the children they gave birth to, in that year. As described above, the ‘lifespan’ refers to a time horizon of ten years for the women's cohort and of 40 years for the children's cohort. Findings from the main analysis reflect the costs of perinatal anxiety and depression. Findings from sensitivity analysis reflect the combined costs of PTSD or completed suicide during the perinatal period in addition to the costs of perinatal anxiety and depression. The additional costs only include those that relate to mothers' quality of life since we were not able to find published studies that measured the impact of PTSD or completed suicide on children.

Table 3. Costs of perinatal mental health problems per woman giving birth and per cohort of women giving birth (based on 2017 data, in USD), findings from base case and sensitivity analysis

Total societal costs of perinatal depression and anxiety in South Africa are USD 2.8 billion if the impacts of PTSD and completed suicide are excluded, and USD 2.9 billion if they are included. This includes costs linked to losses in quality of life of USD 1.8 billion (USD 0.4 billion for mothers and USD 1.4 billion for children) and to losses in income of USD 1.1 billion (USD 0.9 billion for mothers and 0.2 billion for children). Total societal costs are USD 2818 per woman giving birth if the impacts of PTSD and completed suicide are excluded and USD 2966 if they are included. The share of total costs falling on the public (health) sector is comparatively small: USD 3.5 million for the cohort, linked entirely to short-term costs for hospitalisations of the infant. Over 77% of the costs of reduced quality of life are linked to the child, whilst 85% of the costs of lost income are linked to the mother. If it is assumed that costs would occur at the same rate over a 40-year period, then total costs calculated here would be equivalent to a yearly cost of USD 0.12 billion for the total population in South Africa and USD 122 per child born per cohort of women and children.

Discussion

Lifetime costs linked to perinatal mental health problems in South Africa are very high. If one considers the impacts of both perinatal depression and anxiety on women (for 10 years) together with the impacts on their children (for 40 years), these costs amount to USD 2.8 billion per cohort of women giving birth each year. Costs increase further when PTSD and completed suicide impacts are considered. To our knowledge, this is the first study to assess the long-term and intergenerational costs of perinatal mental health problems in South Africa. The study established the costs in one African country, which was feasible because relevant data sources were available, including data from large, well-conducted birth cohort studies. Whilst similar prevalence and impacts are likely to occur in other African countries, a lack of data currently prevents estimating those. The methodology employed here would be applicable to other countries where the necessary data are available and would thereby help to make the case for investment.

Our study has several strengths. By taking a long-term and intergenerational perspective on costs, it addresses a gap that commonly occurs because studies only consider the short-term costs to individuals with the condition, a limitation that has been highlighted by the WHO (Chisholm et al., Reference Chisholm, Sweeny, Sheehan, Rasmussen, Smit, Cuijpers and Saxena2016). They therefore underestimate the implementation challenges of moving from evidence to better policy and practice (Knapp and Wong, Reference Knapp and Wong2020). Our study is largely based on country-specific data, thus seeking to be relevant to decision-makers nationally. For example, whilst an independent impact of antenatal depression on pregnancy outcomes, such as low birth-weight and preterm birth, has emerged consistently from studies and meta-analyses globally (Dadi et al., Reference Dadi, Miller, Bisetegn and Mwanri2020), this link could not be confirmed in South Africa (Sania et al., Reference Sania, Brittain, Phillips, Zerbe, Ronan, Myer and Abrams2017; Christodoulou et al., Reference Christodoulou, Le Roux, Tomlinson, Le Roux, Katzen and Rotheram-Borus2019) and is therefore not included in the analysis. This country-specific approach is only possible because of the several longitudinal studies that have been conducted in South Africa, following mothers and their children from pregnancy or childbirth over time.

Our study also has several limitations, many of which relate to gaps in the evidence typical for modelling studies of this kind (Chisholm et al., Reference Chisholm, Sweeny, Sheehan, Rasmussen, Smit, Cuijpers and Saxena2016). It is difficult to establish accurate prevalence data for perinatal mental health problems, which vary substantially between regions and communities. Our conservative approach to prevalence estimates may have mitigated against these problems but may also have led to the underestimation of impacts. For example, the study underestimated the impacts of psychological distress that are below thresholds for diagnostic categorisation. There are other reasons why our estimates are likely to be below actual costs. For example, to avoid double-counting, we probably underestimated lost productivity linked to children's problems since we only valued productivity losses linked to an increased probability of stunting and not those linked to mental health problems.

Several economic impacts could not be included due to a lack of data, including impacts on fathers, families and communities, as well as impacts of more severe conditions like psychosis. The latter, whilst rare, are known to have substantial impacts on individuals, families and communities (Farooq, Reference Farooq2012). In addition, no data were available that would have allowed us to quantify the costs of using health services for mothers and children beyond first year postpartum. Additionally, we were also unable to include costs of treating injuries or physical health conditions associated with perinatal mental health problems (Johannsen et al., Reference Johannsen, Laursen, Bech and Munk-Olsen2020), or the cost of attempted suicide. For example, even though evidence suggests that maternal depression during the perinatal period is linked to missed health visits, reduced adherence to immunisation schedules and reduced adherence to HIV treatment (Cook et al., Reference Cook, Peltzer, Weiss, Rodriguez and Jones2018), we were unable to include these impacts. Similarly, we were unable to include potentially substantial hospital costs linked to attempted suicide (Benedict et al., Reference Benedict, Mofolo and Adefuye2020), for example when women access trauma units. At the same time, the low public sector costs we found in this study reflect the substantial underinvestment in publicly-funded maternal and child mental health services, as well as in publicly funded services more generally, including those required to support children with stunting and mental health problems in order to prevent long-term disability and income losses.

We used data from studies that are unable to determine causality between perinatal mental health problems and negative child impacts. Even though studies sought to eliminate the influence of factors such as socio-economic status, HIV, co-existing physical health conditions, substance misuse or intimate partner violence, it cannot be fully ruled out that costs in our study related to the impacts of co-occurring factors. The importance of addressing social determinants of mental health problems, to prevent or reduce the long-term impact of mental health problems, is widely recognised (Lund et al., Reference Lund, Brooke-Sumner, Baingana, Baron, Breuer, Chandra, Haushofer, Herrman, Jordans, Kieling, Medina-Mora, Morgan, Omigbodun, Tol, Patel and Saxena2018).

Notwithstanding the limitations of modelling studies like this, findings from our study are an important part of the economic case for investment in this area and can be used to inform national policies and public financing decisions. Supporting the credibility of the results, assumptions were made following a conservative approach throughout, thus underestimating, rather than overestimating results.

Results from this study are consistent with previous findings. It has been estimated that the yearly costs of depression and anxiety among the general adult population globally amount to USD 1.15 trillion (Chisholm et al., Reference Chisholm, Sweeny, Sheehan, Rasmussen, Smit, Cuijpers and Saxena2016), and that the costs of perinatal depression linked to just a single economic impact, child stunting, for 137 low- and middle-income countries, are USD 14.5 billion (Smith Fawzi et al., Reference Smith Fawzi, Andrews, Fink, Danaei, Mccoy, Sudfeld, Peet, Cho, Liu, Finlay, Ezzati, Kaaya and Fawzi2019). When compared with findings from our cost study conducted in the UK (Bauer et al., Reference Bauer, Knapp and Parsonage2016), which calculated costs of USD 7.8 billion for perinatal depression and anxiety, which is an equivalent to about USD 1.2 billion per 100 000 births, costs in South Africa are about a quarter of these costs. However, given that GDP per capita in South Africa is about a sixth of that in the UK, relative costs of perinatal mental health problems as a proportion of the GDP per capita are relatively much higher in South Africa (about 43% v. 28% in the UK in 2019) suggesting a relatively higher burden of perinatal mental problems. This is supported by evidence of the higher prevalence and more substantial health and economic impacts of mental health problems in low-and middle-income countries compared with high-income countries (Howard et al., Reference Howard, Piot and Stein2014; Chisholm et al., Reference Chisholm, Sweeny, Sheehan, Rasmussen, Smit, Cuijpers and Saxena2016; Dadi et al., Reference Dadi, Miller, Bisetegn and Mwanri2020).

Action is needed now to reduce the large human and economic costs of mental health problems to the population, which have been increasing as a result of the COVID-19 pandemic. This action should draw on local evidence for sustainable mental health financing strategies (Docrat et al., Reference Docrat, Lund and Chisholm2019b), national and international policies, such as the National Mental Health Policy Framework and Strategic Plan (Department of Health, 2013), South African Maternal, Perinatal and Neonatal Health Policy (Department of Health, 2021), WHO guidance on maternal mental health and early child development (WHO, 2008a, 2014, 2020) and by reference to the UN Sustainable Development Goals (WHO, 2008b). Intersectoral, collaborative and community-based strategies are needed to promote perinatal mental health by addressing social determinants of mental illness (such as gender-based violence, poverty, social isolation and obstetric violence), reducing mental health stigma, increasing demand for and promoting the uptake of care (Rahman et al., Reference Rahman, Surkan, Cayetano, Rwagatare and Dickson2013, Atif et al., Reference Atif, Lovell and Rahman2015, Lund et al., Reference Lund, Brooke-Sumner, Baingana, Baron, Breuer, Chandra, Haushofer, Herrman, Jordans, Kieling, Medina-Mora, Morgan, Omigbodun, Tol, Patel and Saxena2018, Macnab et al., Reference Macnab, Fisher, Honikman, Muvhu, Levine, Chorwe-Sungani, Bar-Zeev, Hailegebriel, Yusuf, Chowdhary and Rahman2022). Implementation strategies should include competency-based training, supervision and support for maternity staff and other frontline providers to provide primary-level mental healthcare (Honikman et al., Reference Honikman, Van Heyningen, Field, Baron and Tomlinson2012, Lund et al., Reference Lund, Schneider, Davies, Nyatsanza, Honikman, Bhana, Bass, Bolton, Dewey, Joska, Kagee, Myer, Petersen, Prince, Stein, Thornicroft, Tomlinson, Alem and Susser2014, Howard et al., Reference Howard, Piot and Stein2014, WHO, PEPFAR & UNAIDS, 2007). Linked to this, investments should be made to create remunerated staff positions for non-specialist mental health providers in maternal and child service and community-based settings (Jacobs et al., Reference Jacobs, Myers, Van Der Westhuizen, Brooke-Sumner and Sorsdahl2021; Karyotaki et al., Reference Karyotaki, Araya, Kessler, Waqas, Bhana, Rahman, Matsuzaka, Miguel, Lund, Garman, Nakimuli-Mpungu, Petersen, Naslund, Schneider, Sikander, Jordans, Abas, Slade, Walters, Brugha, Furukawa, Amanvermez, Mello, Wainberg, Cuijpers and Patel2022; Patel, Reference Patel2022).

Conclusion

This study demonstrates the substantial costs to women, their children and to society of unaddressed perinatal mental health problems in South Africa. To avert ongoing costs, sustained investment is required to address perinatal mental health problems. Future research on the return on investment of scaling evidence-based interventions would yield further valuable data for government decision making.

Financial support

This work was supported by Open Society Foundations (grant number OR2019-65006).

Conflict of interest

None.

Ethical standards

Not applicable.

References

Abrahams, Z, Boisits, S, Schneider, M, Prince, M and Lund, C (2021) The relationship between common mental disorders (CMDs), food insecurity and domestic violence in pregnant women during the COVID-19 lockdown in Cape Town, South Africa. Social Psychiatry and Psychiatric Epidemiology 57(1), 3746. doi: 10.1007/s00127-021-02140-7. Epub 2021 Jul 19. PMID: 34282488; PMCID: PMC8288830.CrossRefGoogle Scholar
Atif, N, Lovell, K and Rahman, A (2015) Maternal mental health: the missing ‘m’ in the global maternal and child health agenda. Seminars in Perinatology 39, 345352.CrossRefGoogle ScholarPubMed
Avan, B, Richter, LM, Ramchandani, PG, Norris, SA and Stein, A (2010) Maternal postnatal depression and children's growth and behaviour during the early years of life: exploring the interaction between physical and mental health. Archives of Disease in Childhood 95, 690695.CrossRefGoogle ScholarPubMed
Baron, EC, Hanlon, C, Mall, S, Honikman, S, Breuer, E, Kathree, T, Luitel, NP, Nakku, J, Lund, C, Medhin, G, Patel, V, Petersen, I, Shrivastava, S and Tomlinson, M (2016) Maternal mental health in primary care in five low- and middle-income countries: a situational analysis. BMC Health Services Research 16, 5353.CrossRefGoogle ScholarPubMed
Bauer, A, Knapp, M and Parsonage, M (2016) Lifetime costs of perinatal anxiety and depression. Journal of Affective Disorders 192, 8390.CrossRefGoogle ScholarPubMed
Benedict, MA, Mofolo, N and Adefuye, AO (2020) The economic burden of deliberate self-poisoning: insight from a tertiary hospital in the Free State Province, South Africa. Pan African Medical Journal 36, 35.CrossRefGoogle ScholarPubMed
Briggs, A, Claxton, C and Sculpher, M (2006). Decision Modelling for Health Economic Evaluation. Oxford: Oxford University Press.Google Scholar
Brittain, K, Myer, L, Koen, N, Koopowitz, S, Donald, KA, Barnett, W, Zar, HJ and Stein, DJ (2015) Risk factors for antenatal depression and associations with infant birth outcomes: results from a South African birth cohort study. Paediatric and Perinatal Epidemiology 29, 505514.CrossRefGoogle ScholarPubMed
Burstein, R, Fleming, T, Haagsma, J, Salomon, JA, Vos, T and Murray, CJL (2015) Estimating distributions of health state severity for the global burden of disease study. Population Health Metrics 13, 31.CrossRefGoogle ScholarPubMed
Chisholm, D, Sweeny, K, Sheehan, P, Rasmussen, B, Smit, F, Cuijpers, P and Saxena, S (2016) Scaling-up treatment of depression and anxiety: a global return on investment analysis. The Lancet. Psychiatry 3, 415424.CrossRefGoogle ScholarPubMed
Christodoulou, J, Le Roux, K, Tomlinson, M, Le Roux, IM, Katzen, LS and Rotheram-Borus, MJ (2019) Perinatal maternal depression in rural South Africa: child outcomes over the first two years. Journal of Affective Disorders 247, 168174.CrossRefGoogle ScholarPubMed
Cook, RR, Peltzer, K, Weiss, SM, Rodriguez, VJ and Jones, DL (2018) A Bayesian analysis of prenatal maternal factors predicting nonadherence to infant HIV medication in South Africa. AIDS and Behavior 22, 29472955.CrossRefGoogle ScholarPubMed
Dadi, AF, Miller, ER, Bisetegn, TA and Mwanri, L (2020) Global burden of antenatal depression and its association with adverse birth outcomes: an umbrella review. BMC Public Health 20, 173.CrossRefGoogle Scholar
Dennis, CL, Falah-Hassani, K and Shiri, R (2017) Prevalence of antenatal and postnatal anxiety: systematic review and meta-analysis. The British Journal of Psychiatry 210, 315323.CrossRefGoogle ScholarPubMed
Department of Health (2013) National Mental Health Policy Framework and Strategic Plan: 2013–2020. Pretoria: National Department of Health.Google Scholar
Department of Health (2021) South African Maternal, Perinatal and Neonatal Health Policy: 2021. Pretoria: National Department of Health.Google Scholar
Dewing, S, Tomlinson, M, Le Roux, IM, Chopra, M and Tsai, AC (2013) Food insecurity and its association with co-occurring postnatal depression, hazardous drinking, and suicidality among women in peri-urban South Africa. Journal of Affective Disorders 150, 460465.CrossRefGoogle ScholarPubMed
Docrat, S, Besada, D, Cleary, S, Daviaud, E and Lund, C (2019a) Mental health system costs, resources and constraints in South Africa: a national survey. Health Policy and Planning 34, 706719.CrossRefGoogle Scholar
Docrat, S, Lund, C and Chisholm, D (2019b) Sustainable financing options for mental health care in South Africa: findings from a situation analysis and key informant interviews. International Journal of Mental Health Systems 13, 4.CrossRefGoogle Scholar
Engle, PL (2009) Maternal mental health: program and policy implications. American Journal of Clinical Nutrition 89, 963s966s.CrossRefGoogle ScholarPubMed
English, R, Peer, N, Honikman, S, Tugendhaft, A and Hofman, KJ (2017) ‘First 1000 days’ health interventions in low- and middle-income countries: alignment of South African policies with high-quality evidence. Global Health Action 10, 1340396.CrossRefGoogle ScholarPubMed
Farooq, S (2012). The impact of untreated psychosis in low and middle income (LAMI) countries and a paradigm for early intervention.Google Scholar
Fisher, JR, de Mello, MC, Izutsu, T and Tran, T (2011) The Ha Noi Expert Statement: recognition of maternal mental health in resource-constrained settings is essential for achieving the Millennium Development Goals. International Journal of Mental Health Systems 5(1), 2. doi: 10.1186/1752-4458-5-2. PMID: 21214891; PMCID: PMC3226322.CrossRefGoogle Scholar
Fuhr, DC, Calvert, C, Ronsmans, C, Chandra, PS, Sikander, S, De Silva, MJ and Patel, V (2014) Contribution of suicide and injuries to pregnancy-related mortality in low-income and middle-income countries: a systematic review and meta-analysis. The Lancet. Psychiatry 1, 213225.CrossRefGoogle ScholarPubMed
Garman, EC, Cois, A, Schneider, M and Lund, C (2019a) Association between perinatal depressive symptoms and suicidal risk among low-income South African women: a longitudinal study. Social Psychiatry and Psychiatric Epidemiology 54, 12191230.CrossRefGoogle Scholar
Garman, EC, Cois, A, Tomlinson, M, Rotheram-Borus, MJ and Lund, C (2019b) Course of perinatal depressive symptoms among South African women: associations with child outcomes at 18 and 36 months. Social Psychiatry and Psychiatric Epidemiology 54, 11111123.CrossRefGoogle Scholar
Glover, V, O'Donnell, KJ, O'Connor, TG and Fisher, J (2018) Prenatal maternal stress, fetal programming, and mechanisms underlying later psychopathology: a global perspective. Development and Psychopathology 30, 843854.CrossRefGoogle ScholarPubMed
Honikman, S and Sigwebela, S (2020). Perinatal depression and anxiety in resource-constrained settings: interventions and health systems strengthening.Google Scholar
Honikman, S, Van Heyningen, T, Field, S, Baron, E and Tomlinson, M (2012) Stepped care for maternal mental health: a case study of the perinatal mental health project in South Africa. PLoS Medicine 9, e1001222.CrossRefGoogle ScholarPubMed
Howard, LM, Piot, P and Stein, A (2014) No health without perinatal mental health. The Lancet 384, 17231724.CrossRefGoogle ScholarPubMed
Jacobs, Y, Myers, B, Van Der Westhuizen, C, Brooke-Sumner, C and Sorsdahl, K (2021) Task sharing or task dumping: counsellors experiences of delivering a psychosocial intervention for mental health problems in South Africa. Community Mental Health Journal 57, 10821093.CrossRefGoogle ScholarPubMed
Jacques, N, De Mola, CL, Joseph, G, Mesenburg, MA and Da Silveira, MF (2019) Prenatal and postnatal maternal depression and infant hospitalization and mortality in the first year of life: a systematic review and meta-analysis. Journal of Affective Disorders 243, 201208.CrossRefGoogle ScholarPubMed
Johannsen, BMW, Laursen, TM, Bech, BH and Munk-Olsen, T (2020) General medical conditions and mortality in women with postpartum psychiatric disorders. Acta Psychiatrica Scandinavica 142, 467475.CrossRefGoogle ScholarPubMed
Kariuki, SM, Gray, DM, Newton, C, Vanker, A, Macginty, RP, Koen, N, Barnett, W, Chibnik, L, Koenen, KC, Stein, DJ and Zar, HJ (2020) Association between maternal psychological adversity and lung function in South African infants: a birth cohort study. Pediatric Pulmonology 55, 236244.CrossRefGoogle ScholarPubMed
Karyotaki, E, Araya, R, Kessler, RC, Waqas, A, Bhana, A, Rahman, A, Matsuzaka, CT, Miguel, C, Lund, C, Garman, EC, Nakimuli-Mpungu, E, Petersen, I, Naslund, JA, Schneider, M, Sikander, S, Jordans, MJD, Abas, M, Slade, P, Walters, S, Brugha, TS, Furukawa, TA, Amanvermez, Y, Mello, MF, Wainberg, ML, Cuijpers, P and Patel, V (2022) Association of Task-Shared Psychological Interventions With Depression Outcomes in Low- and Middle-Income Countries: A Systematic Review and Individual Patient Data Meta-analysis. JAMA Psychiatry 79(5), 430443. doi: 10.1001/jamapsychiatry.2022.0301. PMID: 35319740; PMCID: PMC8943620CrossRefGoogle ScholarPubMed
Kassebaum, NJ, Bertozzi-Villa, A, Coggeshall, MS, Shackelford, KA, Steiner, C, Heuton, KR, Gonzalez-Medina, D, Barber, R, Huynh, C, Dicker, D, Templin, T, Wolock, TM, Ozgoren, AA, Abd-Allah, F, Abera, SF, Abubakar, I, Achoki, T, Adelekan, A, Ademi, Z, Adou, AK, Adsuar, JC, Agardh, EE, Akena, D, Alasfoor, D, Alemu, ZA, Alfonso-Cristancho, R, Alhabib, S, Ali, R, Al Kahbouri, MJ, Alla, F, Allen, PJ, Almazroa, MA, Alsharif, U, Alvarez, E, Alvis-Guzmán, N, Amankwaa, AA, Amare, AT, Amini, H, Ammar, W, Antonio, CAT, Anwari, P, Ärnlöv, J, Arsenijevic, VSA, Artaman, A, Asad, MM, Asghar, RJ, Assadi, R, Atkins, LS, Badawi, A, Balakrishnan, K, Basu, A, Basu, S, Beardsley, J, Bedi, N, Bekele, T, Bell, ML, Bernabe, E, Beyene, TJ, Bhutta, Z, Bin Abdulhak, A, Blore, JD, Basara, BB, Bose, D, Breitborde, N, Cárdenas, R, Castañeda-Orjuela, CA, Castro, RE, Catalá-López, F, Cavlin, A, Chang, J-C, Che, X, Christophi, CA, Chugh, SS, Cirillo, M, Colquhoun, SM, Cooper, LT, Cooper, C, Da Costa Leite, I, Dandona, L, Dandona, R, Davis, A, Dayama, A, Degenhardt, L, De Leo, D, Del Pozo-Cruz, B, Deribe, K, Dessalegn, M, Deveber, GA, Dharmaratne, SD, Dilmen, U, Ding, EL, Dorrington, RE, Driscoll, TR, Ermakov, SP, Esteghamati, A, Faraon, EJA, Farzadfar, F, Felicio, MM, Fereshtehnejad, S-M, De Lima, GMF, et al. (2014) Global, regional, and national levels and causes of maternal mortality during 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013. The Lancet 384, 9801004.CrossRefGoogle ScholarPubMed
Knapp, M and Wong, G (2020) Economics and mental health: the current scenario. World Psychiatry 19, 314.CrossRefGoogle ScholarPubMed
Koen, N, Brittain, K, Donald, KA, Barnett, W, Koopowitz, S, Mare, K, Zar, HJ and Stein, DJ (2017) Maternal posttraumatic stress disorder and infant developmental outcomes in a South African birth cohort study. Psychological Trauma 9, 292300.CrossRefGoogle Scholar
Lawn, JE, Blencowe, H, Waiswa, P, Amouzou, A, Mathers, C, Hogan, D, Flenady, V, Frøen, JF, Qureshi, ZU, Calderwood, C, Shiekh, S, Jassir, FB, You, D, Mcclure, EM, Mathai, M and Cousens, S (2016) Stillbirths: rates, risk factors, and acceleration towards 2030. Lancet (London, England) 387, 587603.CrossRefGoogle ScholarPubMed
Lindahl, V, Pearson, JL and Colpe, L (2005) Prevalence of suicidality during pregnancy and the postpartum. Archives of women's Mental Health 8, 7787.CrossRefGoogle ScholarPubMed
Lund, C, Myer, L, Stein, DJ, Williams, DR and Flisher, AJ (2013) Mental illness and lost income among adult South Africans. Social Psychiatry and Psychiatric Epidemiology 48, 845851.CrossRefGoogle ScholarPubMed
Lund, C, Schneider, M, Davies, T, Nyatsanza, M, Honikman, S, Bhana, A, Bass, J, Bolton, P, Dewey, M, Joska, J, Kagee, A, Myer, L, Petersen, I, Prince, M, Stein, DJ, Thornicroft, G, Tomlinson, M, Alem, A and Susser, E (2014) Task sharing of a psychological intervention for maternal depression in Khayelitsha, South Africa: study protocol for a randomized controlled trial. Trials 15, 457.Google ScholarPubMed
Lund, C, Brooke-Sumner, C, Baingana, F, Baron, EC, Breuer, E, Chandra, P, Haushofer, J, Herrman, H, Jordans, M, Kieling, C, Medina-Mora, ME, Morgan, E, Omigbodun, O, Tol, W, Patel, V and Saxena, S (2018) Social determinants of mental disorders and the sustainable development goals: a systematic review of reviews. The Lancet Psychiatry 5, 357369.CrossRefGoogle ScholarPubMed
Macginty, RP, Lesosky, M, Barnett, W, Stein, DJ and Zar, HJ (2018) Associations between maternal mental health and early child wheezing in a South African birth cohort. Pediatric Pulmonology 53, 741754.CrossRefGoogle Scholar
Macginty, R, Lesosky, M, Barnett, W, Nduru, PM, Vanker, A, Stein, DJ and Zar, HJ (2019) Maternal psychosocial risk factors and lower respiratory tract infection (LRTI) during infancy in a South African birth cohort. PLoS One 14, e0226144.CrossRefGoogle Scholar
Macginty, RP, Kariuki, SM, Barnett, W, Wedderburn, CJ, Hardy, A, Hoffman, N, Newton, CR, Zar, HJ, Donald, KA and Stein, DJ (2020) Associations of antenatal maternal psychological distress with infant birth and development outcomes: results from a South African birth cohort. Comprehensive Psychiatry 96, 152128.CrossRefGoogle ScholarPubMed
Macnab, S, Fisher, J, Honikman, S, Muvhu, L, Levine, R, Chorwe-Sungani, G, Bar-Zeev, S, Hailegebriel, TD, Yusuf, I, Chowdhary, N and Rahman, A (2022) Comment: silent burden no more: a global call to action to prioritize perinatal mental health. BMC Pregnancy and Childbirth 22, 14.Google Scholar
Martorell, R, Horta, BL, Adair, LS, Stein, AD, Richter, L, Fall, CH, Bhargava, SK, Biswas, SK, Perez, L, Barros, FC and Victora, CG (2010) Weight gain in the first two years of life is an important predictor of schooling outcomes in pooled analyses from five birth cohorts from low- and middle-income countries. Journal of Nutrition 140, 348354.Google ScholarPubMed
Matzopoulos, R, Prinsloo, M, Pillay-Van Wyk, V, Gwebushe, N, Mathews, S, Martin, LJ, Laubscher, R, Abrahams, N, Msemburi, W, Lombard, C and Bradshaw, D (2015) Injury-related mortality in South Africa: a retrospective descriptive study of postmortem investigations. Bulletin of the World Health Organization 93, 303313.CrossRefGoogle ScholarPubMed
National Department of Health (2012). Strategic Plan for Maternal, Newborn, Child and Women's Health (MNCWH) and Nutrition in South Africa 2012–2016. Republic of South Africa: National Department of Health.Google Scholar
O'Donnell, KJ, Glover, V, Barker, ED and O'Connor, TG (2014) The persisting effect of maternal mood in pregnancy on childhood psychopathology. Development and Psychopathology 26, 393403.CrossRefGoogle ScholarPubMed
Onah, MN, Field, S, Bantjes, J and Honikman, S (2017) Perinatal suicidal ideation and behaviour: psychiatry and adversity. Archives of Women's Mental Health 20, 321331.CrossRefGoogle ScholarPubMed
Patel, V (2022) Scale up task-sharing of psychological therapies. The Lancet 399, 343345.CrossRefGoogle ScholarPubMed
Pearson, RM, Evans, J, Kounali, D, Lewis, G, Heron, J, Ramchandani, PG, O'Connor, TG and Stein, A (2013) Maternal depression during pregnancy and the postnatal period: risks and possible mechanisms for offspring depression at age 18 years. JAMA Psychiatry 70, 13121319.CrossRefGoogle ScholarPubMed
Rahman, A, Surkan, PJ, Cayetano, CE, Rwagatare, P and Dickson, KE (2013) Grand challenges: integrating maternal mental health into maternal and child health programmes. PLOS Medicine 10, e1001442.CrossRefGoogle ScholarPubMed
Rajyaguru, P, Kwong, ASF, Braithwaite, E and Pearson, RM (2021) Maternal and paternal depression and child mental health trajectories: evidence from the Avon Longitudinal Study of Parents and Children. BJPsych Open 7, e166e166.CrossRefGoogle ScholarPubMed
Ramchandani, PG, Richter, LM, Stein, A and Norris, SA (2009) Predictors of postnatal depression in an urban South African cohort. Journal of Affective Disorders 113, 279284.CrossRefGoogle Scholar
Ramjee, S (2013) Comparing the Cost of Delivering Hospital Services Across the Public and Private Sectors in South Africa. Cape Town, South Africa: University of Cape Town.Google Scholar
Redinger, S, Norris, SA, Pearson, RM, Richter, L and Rochat, T (2018) First trimester antenatal depression and anxiety: prevalence and associated factors in an urban population in Soweto, South Africa. Journal of Developmental Origins of Health and Disease 9, 3040.CrossRefGoogle Scholar
Richter, LM, Norris, SA and De Wet, T (2004) Transition from birth to ten to birth to twenty: the South African cohort reaches 13 years of age. Paediatric and Perinatal Epidemiology 18, 290301.CrossRefGoogle ScholarPubMed
Rochat, TJ, Tomlinson, M, Barnighausen, T, Newell, ML and Stein, A (2011) The prevalence and clinical presentation of antenatal depression in rural South Africa. Journal of Affective Disorders 135, 362373.CrossRefGoogle ScholarPubMed
Rochat, T, Bland, R, Tomlinson, M and Stein, A (2013) Suicide ideation, depression and HIV among pregnant women in rural South Africa. Health 5, 650661.CrossRefGoogle Scholar
Sania, A, Brittain, K, Phillips, TK, Zerbe, A, Ronan, A, Myer, L and Abrams, EJ (2017) Effect of alcohol consumption and psychosocial stressors on preterm and small-for-gestational-age births in HIV-infected women in South Africa: a cohort study. BMJ Open 7, e014293.CrossRefGoogle ScholarPubMed
Smith Fawzi, MC, Andrews, KG, Fink, G, Danaei, G, Mccoy, DC, Sudfeld, CR, Peet, ED, Cho, J, Liu, Y, Finlay, JE, Ezzati, M, Kaaya, SF and Fawzi, WW (2019) Lifetime economic impact of the burden of childhood stunting attributable to maternal psychosocial risk factors in 137 low/middle-income countries. BMJ Glob Health 4, e001144.CrossRefGoogle ScholarPubMed
Spijker, J, De Graaf, R, Bijl, RV, Beekman, ATF, Ormel, J and Nolen, WA (2002) Duration of major depressive episodes in the general population: results from the Netherlands Mental Health Survey and Incidence Study (NEMESIS). British Journal of Psychiatry 181, 208213.CrossRefGoogle Scholar
Stein, A, Pearson, RM, Goodman, SH, Rapa, E, Rahman, A, Mccallum, M, Howard, LM and Pariante, CM (2014) Effects of perinatal mental disorders on the fetus and child. The Lancet 384, 18001819.CrossRefGoogle ScholarPubMed
Stein, DJ, Koen, N, Donald, KA, Adnams, CM, Koopowitz, S, Lund, C, Marais, A, Myers, B, Roos, A, Sorsdahl, K, Stern, M, Tomlinson, M, Van Der Westhuizen, C, Vythilingum, B, Myer, L, Barnett, W, Brittain, K and Zar, HJ (2015) Investigating the psychosocial determinants of child health in Africa: the Drakenstein Child Health Study. Journal of Neuroscience Methods 252, 2735.CrossRefGoogle ScholarPubMed
Stenberg, K, Sweeny K, Axelson, H, Temmerman, M and Sheehan, P (2016) Returns on investment in the continuum of care for reproductive, maternal, newborn, and child health. In Black, R, Temmerman, M, Laxminarayan, R and Walker, N (eds), Reproductive, Maternal, Newborn, and Child Health: Disease Control Priorities, 3rd Edn. Washington, DC: World Bank, pp. 299317.Google ScholarPubMed
Stewart, RC (2007) Maternal depression and infant growth: a review of recent evidence. Maternal & Child Nutrition 3, 94107.CrossRefGoogle ScholarPubMed
Tomlinson, M, Cooper, PJ, Stein, A, Swartz, L and Molteno, C (2006) Post-partum depression and infant growth in a South African peri-urban settlement. Child: Care, Health & Development 32, 8186.CrossRefGoogle Scholar
Tomlinson, M, Rotheram-Borus, MJ, Scheffler, A and Le Roux, I (2018) Antenatal depressed mood and child cognitive and physical growth at 18-months in South Africa: a cluster randomised controlled trial of home visiting by community health workers. Epidemiology and Psychiatric Sciences 27, 601610.CrossRefGoogle ScholarPubMed
Van Heyningen, T, Myer, L, Onah, M, Tomlinson, M, Field, S and Honikman, S (2016) Antenatal depression and adversity in urban South Africa. Journal of Affective Disorders 203, 121129.CrossRefGoogle Scholar
Van Heyningen, T, Honikman, S, Myer, L, Onah, MN, Field, S and Tomlinson, M (2017) Prevalence and predictors of anxiety disorders amongst low-income pregnant women in urban South Africa: a cross-sectional study. Archives of women's Mental Health 20, 765775.CrossRefGoogle ScholarPubMed
Van Heyningen, T, Honikman, S, Tomlinson, M, Field, S and Myer, L (2018) Comparison of mental health screening tools for detecting antenatal depression and anxiety disorders in South African women. PLoS One 13, e0193697.CrossRefGoogle ScholarPubMed
Verkuijl, NE, Richter, L, Norris, SA, Stein, A, Avan, B and Ramchandani, PG (2014) Postnatal depressive symptoms and child psychological development at 10 years: a prospective study of longitudinal data from the South African Birth to Twenty Cohort. The Lancet Psychiatry 1, 454460.CrossRefGoogle ScholarPubMed
Weobong, B, Ten Asbroek, AHA, Soremekun, S, Gram, L, Amenga-Etego, S, Danso, S, Owusu-Agyei, S, Prince, M and Kirkwood, BR (2015) Association between probable postnatal depression and increased infant mortality and morbidity: findings from the DON population-based cohort study in rural Ghana. BMJ Open 5, e006509.CrossRefGoogle ScholarPubMed
WHO (2003) Making Choices in Health: The WHO Guide to Cost-Effectiveness Analysis. Geneva, Switzerland: World Health Organization.Google Scholar
WHO, PEPFAR & UNAIDS (2007) Task shifting: rational redistribution of tasks among health workforce teams: global recommendations and guidelines. World Health Organization, 150. https://apps.who.int/iris/handle/10665/43821.Google Scholar
WHO (2008a) Maternal Mental Health and Child Health Development in Low and Middle-Income Countries. Geneva, Switzerland: World Health Organization.Google Scholar
WHO (2008b) Millennium Development Goal 5: Improving Maternal Health: Improving Maternal Mental Health. Geneva, Switzerland: World Health Organization.Google Scholar
WHO (2014) Maternal Mental Health: Why it Matters and What Countries with Limited Resources can do. Geneva, Switzerland: World Health Organization.Google Scholar
WHO (2020) Improving early childhood development: WHO guideline. Geneva: World Health Organization, pp. 134. https://www.who.int/publications/i/item/97892400020986.Google Scholar
Figure 0

Table 1. Parameters, values, and data sources for the modelling

Figure 1

Table 2. Economic consequences included in the analysis

Figure 2

Table 3. Costs of perinatal mental health problems per woman giving birth and per cohort of women giving birth (based on 2017 data, in USD), findings from base case and sensitivity analysis