AIDS Care
Psychological and Socio-medical Aspects of AIDS/HIV

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Correlated depressive symptoms within
seroconcordant, expectant partners living with
HIV in Zambézia Province, Mozambique: a cross-
sectional study

Daniel E. Sack, Ariano Matino, Erin Graves, Almiro Emilio, Bryan E. Shepherd,
Caroline De Schacht & Carolyn M. Audet

To cite this article: Daniel E. Sack, Ariano Matino, Erin Graves, Almiro Emilio, Bryan E.
Shepherd, Caroline De Schacht & Carolyn M. Audet (2023) Correlated depressive symptoms
within seroconcordant, expectant partners living with HIV in Zambézia Province, Mozambique:
a cross-sectional study, AIDS Care, 35:11, 1732-1740, DOI: 10.1080/09540121.2022.2151558

To link to this article:  https://doi.org/10.1080/09540121.2022.2151558

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Published online: 06 Dec 2022.

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Correlated depressive symptoms within seroconcordant, expectant partners
living with HIV in Zambézia Province, Mozambique: a cross-sectional study
Daniel E. Sack a, Ariano Matinob, Erin Gravesa, Almiro Emiliob, Bryan E. Shepherda, Caroline De Schacht c and
Carolyn M. Audeta

aVanderbilt Institute for Global Health, Vanderbilt University Medical Center, Nashville, TN, USA; bFriends in Global Health, Quelimane,
Mozambique; cFriends in Global Health, Maputo, Mozambique

ABSTRACT
Approximately 15% of people with HIV in sub-Saharan Africa have comorbid depression, which
impacts treatment outcomes. We describe predictors of baseline depressive symptoms in 1079
female and 1079 male participants in a cluster-randomized trial in Zambézia Province,
Mozambique from November 2017 to December 2020. We modeled each partners’ depressive
symptoms (Patient Health Questionnaire-9 [PHQ-9]) using proportional odds models adjusted
for enrollment date, age, body mass index [BMI], partner’s PHQ-9 score, district, relationship
status, education, occupation, WHO HIV clinical stage, and antiretroviral therapy use history. A
post hoc analysis assessed covariate-adjusted rank correlation between partner depressive
symptoms. Females were younger than males (median 23 vs. 28 years) and more likely to report
no education (20.7% vs. 7.9%). Approximately 10% screened positive for depression (PHQ-9
score≥ 10). Partner depressive symptoms were predictive of higher participant PHQ-9 scores. A
male partner PHQ-9 score of 10 (versus 5) increased the odds that the female partner would
have a higher PHQ-9 score (adjusted odds ratio: 7.25, 95% Confidence Interval [CI]: 5.43–9.67).
Partner PHQ-9 scores were highly correlated after covariate adjustment (Spearman’s rho 0.65,
95% CI 0.57–0.72). Interventions aimed to reduce depressive symptoms and improve HIV-related
outcomes during pregnancy should address both partners’ depressive symptoms.

ARTICLE HISTORY
Received 8 December 2021
Accepted 21 November 2022

KEYWORDS
HIV; sexual partners;
depression; patient health
questionnaire;
nonparametric statistics;
cross-sectional studies

Introduction

Depression is a key mediator of adherence to HIV treat-
ment and retention in care in sub-Saharan Africa (SSA)
(Kulisewa et al., 2019), where approximately 14% of
people with HIV (PWH) on antiretroviral therapy and
approximately 15% of all PWH have comorbid
depression (Bernard et al., 2017; Lofgren et al., 2020;
Nakimuli-Mpungu et al., 2012). Comorbid depression
and HIV impact approximately 3.63 million people
across SSA, accounting for approximately 1.57 million
disability adjusted life years (Lofgren et al., 2020). The
high prevalence of depression, coupled with suboptimal
mental health resources, likely undermines HIV testing
uptake, linkage to and adherence to treatment, retention
in care, and viral suppression (Kulisewa et al., 2019;
Nakimuli-Mpungu et al., 2012; (UNAIDS), 2014).
While the impact of depression on the care cascade
has been studied, there is an incomplete understanding
of the impact of depression during pregnancy and the
post-partum period among PWH. Pregnancy presents
providers an ideal opportunity to intervene to advance

the objectives of the 95-95-95 UNAIDS goals to reduce
HIV transmission given that pregnancy requires
repeated interactions with health systems (Roberts
et al., 2021; UNAIDS, n.d.; World Health Organization,
2016).

Among pregnant women with HIV in SSA, unem-
ployment, unplanned pregnancy, intimate partner vio-
lence, food insecurity, fewer years of education, lack of
male partner involvement in pregnancy, severe HIV,
advanced age, lower income, and stigma have been
associated with more depressive symptoms (Ayano
et al., 2018; Brittain et al., 2017; Kaida et al., 2010; Pelt-
zer et al., 2016, 2018). Better physical health, social sup-
port, a longer period on antiretroviral therapy, and
greater viral suppression (such as participation in pre-
vention of maternal-to-child HIV transmission activi-
ties) have been associated with fewer depressive
symptoms (Ayano et al., 2018; Brittain et al., 2017;
Kaida et al., 2010; Peltzer et al., 2016, 2018). Relation-
ship status (being single or never married) has variably
been associated with increased or decreased depressive

© 2022 Informa UK Limited, trading as Taylor & Francis Group

CONTACT Daniel E. Sack daniel.e.sack@vanderbilt.edu Vanderbilt Institute for Global Health, Vanderbilt University Medical Center, 2525 West End Ave,
Suite 750, Nashville, TN 37203, USA

Supplemental data for this article can be accessed online at https://doi.org/10.1080/09540121.2022.2151558.

AIDS CARE
2023, VOL. 35, NO. 11, 1732–1740
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symptoms (Ayano et al., 2018; Brittain et al., 2017;
Kaida et al., 2010; Peltzer et al., 2016, 2018). Antenatal
depression is also associated with decreased HIV test-
ing, adherence to and retention in HIV care (in most
cases) (Cholera et al., 2017), and adverse maternal and
infant outcomes; such as low birth weight, diarrheal
illness, decreased exclusive breastfeeding, impaired
postnatal growth and infant attachment, and decreased
or delayed infant social development (Christodoulou
et al., 2019; Gelaye et al., 2016; Kulisewa et al., 2019;
Nakimuli-Mpungu et al., 2012; Peltzer et al., 2018;
Rahman et al., 2004; Stewart, 2007; Tuthill et al., 2017).

Male partner depression may influence male partner
involvement in care, partner support, relationship
quality, intimate partner violence, and female partner
depression, all of which also have implications for
maternal and child health outcomes (Ayano et al.,
2018; Brittain et al., 2017; Kaida et al., 2010; Peltzer
et al., 2016, 2018). Among expectant fathers with
HIV in SSA, little is known about how depression
influences their own health or its impact on maternal
and infant health outcomes. The available data on
paternal depression, from Western Europe and the
United States, suggests that children with depressed
fathers have an increased risk of behavioral problems
and poor psychosocial functioning (Feldman et al.,
2020; Ramchandani et al., 2008; Sweeney & MacBeth,
2016). Unfortunately, little evidence exists on how
paternal depression impacts physical health outcomes
(Feldman et al., 2020; Ramchandani et al., 2008; Swee-
ney & MacBeth, 2016). Preliminary data also suggest
that in older children, strong paternal mental health
may be protective when a child’s mother is experien-
cing depressive symptoms (Gere et al., 2013). How-
ever, we could not find any data on male partner
depression from SSA.

Over the last decade, the mental health system in
Mozambique has shifted from an inpatient model
focused on patients with psychosis to also include out-
patient care for mood disorders (Fabian et al., 2020;
Santos et al., 2016; Wagenaar et al., 2016). However,
depressive symptoms and suicidal ideation remain com-
mon (lifetime prevalence of 17–19%), undertreated –
26% of those with symptoms seek care andMozambique
has the sixth highest suicide rate in the world – and the
mental health system struggles to achieve functional
improvement (Fabian et al., 2020; Halsted et al., 2019;
World Health Organization, 2014). Of the estimated
2.2 million PWH, approximately 15% have concurrent
major depression (18% of women and 13% of men),
although there are insufficient data on depression in
pregnant women with HIV (AIDSinfo | UNAIDS,
n.d.; Lofgren et al., 2020).

To better understand predictors of depression symp-
toms among pregnant women and their male partners,
we used baseline, cross-sectional data from the Homens
para Saúde Mais (HoPS+) (Men for Health Plus), a clus-
tered randomized controlled trial in Zambézia Province,
Mozambique. We describe the prevalence and predic-
tors of depressive symptoms in 1079 pregnant women
and their partners with HIV.

Material and methods

Participant selection and setting

We included baseline, cross-sectional data from 2158
participants in the HoPS + cluster randomized trial,
which recruited patients in Zambézia Province, Mozam-
bique from November 2017 to December 2020 (Audet,
Graves, et al., 2018). Zambézia is a rural north-central
province, with some of the lowest health and develop-
ment indicators in Mozambique including a HIV preva-
lence of approximately 15%, one of the highest in the
region (IaM, 2017; National Institute of Statistics
(INE) (Mozambique), 2017).

The HoPS + protocol is detailed elsewhere (Audet,
Graves, et al., 2018). Briefly, it enrolled 1079 couples
with HIV (with a pregnant female partner >2 weeks
from expected delivery date) between November 2017
and December 2020. Both partners were 18 years or
older, provided informed consent, not currently on
antiretroviral therapy, and willing to enroll in treatment
together. This paper includes baseline data collected at
participant recruitment for the 2158 individuals
enrolled in the HoPS+ trial (1079 women and 1079
men). Data collection, validation, storage, baseline cov-
ariates, other psychometric scales, and missingness are
described in the supplement.

Depressive symptoms

Depressive symptoms were measured with the Patient
Health Questionaire-9 (PHQ-9), a nine-item scale that
measures depressive symptoms over the previous two
weeks (American Psychiatric Association, 2013;
Kroenke et al., 2001). The PHQ-9 has been used and
validated across SSA, including in Zambézia Province
(Audet, Wainberg, et al., 2018; Cholera et al., 2014;
Cumbe et al., 2020), and validated for antenatal
depression screening (Sidebottom et al., 2012). Psycho-
logical services were available immediately for any par-
ticipant who disclosed suicidal ideation (item nine)
during the data collection process. Notably, PHQ-9 is
only a measure of symptom severity, since major
depressive disorder also requires functional impairment

AIDS CARE 1733



and symptoms not attributable to another condition
(American Psychiatric Association, 2013). Each item is
scored from 0 (not at all) to 3 (nearly every day),
which, when summed, results in total scores between
0 and 27 that can be characterized alternatively by
level of symptom severity [minimal (0–4), mild (5–9),
moderate (10–14), moderately severe (15–19), and
severe (20–27)], intended action [none (0–4), clinical
judgement (5–14), and treatment warranted (15–27)],
or as a binary screening tool whereby patients with a
threshold score of 10 or higher screen positive for
depression (Kroenke et al., 2001).

While our primary analysis operationalized PHQ-9
score as a 0–27 ordinal outcome, we also included sen-
sitivity analyzes with the following alternative PHQ-9
coding described above: symptom severity (five levels),
intended action (three levels), and a dichotomous out-
come (score of ≥10 or <10) (with logistic regression).
We also modeled log PHQ-9 scores (with scores of 0
replaced with 0.1 to avoid missing outcomes) using
least squares regression and included a “missing scen-
ario” where all participants with missing PHQ-9 data
were given a score of 0. Finally, we excluded partner
PHQ-9 as a predictor in a post-hoc sensitivity analysis.

Statistical analysis

We present baseline, cross-sectional data from HoPS+
participants stratified by sex and whether PHQ-9 was
missing. Categorical data are presented as frequencies
and percentages, while continuous variables are pre-
sented as medians and interquartile ranges (IQR). For
the stigma, social support, and empathy scale, medians
and IQR are presented by sub-scale.

We elucidated predictors of the baseline depressive
symptoms, modeled with ordinal logistic regression
after checking the proportional odds assumption (Har-
rell, 2015; Liu et al., 2017), stratified by sex to avoid
interdependence among partners. All model covariates
were selected as likely predictors of depressive symp-
toms a priori based on subject area knowledge, available
covariates, and the relevant literature (Ayano et al.,
2018; Brittain et al., 2017; Kaida et al., 2010; Peltzer
et al., 2016, 2018). Each model included continuous
(each participant’s enrollment date, age, total stigma,
total social support, body mass index, partner’s PHQ-
9 score), categorical (district, relationship status, edu-
cation, occupation, WHO HIV clinical stage), and
binary (antiretroviral therapy status – new user versus
restarting after 60+ days off treatment) covariates. Con-
tinuous variables were modeled using restricted cubic
splines with three knots, categorical variables were col-
lapsed if any category included fewer than 10

participants, and missing covariates were multiply
imputed 20 times with chained equations model vari-
ables (Harrell, 2015; Harrell, 2020). Model results are
presented as adjusted odds ratios (aOR) with 95% confi-
dence intervals (CI) and were validated across 1000
bootstrapped samples. We used partial effects plots to
assess the relationship between continuous covariates
and median predicted PHQ-9 scores. Odds ratios for
continuous covariates were calculated comparing an inte-
ger around the median (25 years, 25 kg/m2, 500 days, and
a score of 5, 50, and 30 for PHQ-9, social support, and
stigma, respectively) with integers near the first and
third quartiles of the distribution or, in the case of
body mass index and PHQ-9 scores, clinically meaning-
ful values. Finally, we did a post hoc analysis assessing the
unadjusted and covariate-adjusted rank correlation
between female and male partner depressive symptoms
(PHQ-9 scores) (Liu et al., 2020). Baseline data were
cleaned in STATA (version 16.0) (author AM) and all
analyses were done in R Statistical Software (version
4.1.0) (author DS). All R code is available at https://
github.com/dannysack/hops_baseline_depression

Ethics

All participants provided voluntary, written informed
consent at enrollment and the HoPS+ study protocol
was reviewed and approved by the Ministry of Health
in Mozambique (FWA00003139 IRB00002657) and
Vanderbilt University Medical Center Institutional
Review Board (IRB) (FWA00005756, IRB00000475–7,
IRB00002125).

Results

There were an equal number of female and male partici-
pants (n = 1079, by design) (Table 1). Female partici-
pants were younger than males (median age 23 vs. 28
years) and half of participants reported that they were
living together, ∼30% reported that they were single,
and ∼19% reported that they were married, with some
minor discordance across couples (Table 1). More
female than male participants reported no education
(20.7% vs. 7.9%) and males were more likely to have
attended or completed more than primary school
(Table 1). Female participants were more likely to report
that they were farmers (56.9% vs. 33%) or domestic
workers (34.2% vs. 11.3%), whereas male participants
were more likely to report that they were traders
(16.8% vs. 0.5%) or fishermen (15.6% vs. 0.0%) (Table 1).

Most participants, female and male, were classified as
World Health Organization (WHO) HIV clinical stage I
(82%) and they had similar median body mass indices

1734 D. E. SACK ET AL.

https://github.com/dannysack/hops_baseline_depression
https://github.com/dannysack/hops_baseline_depression


Table 1. Participant characteristics by sex
Female Male

All (n = 1079) Non-missing (n = 874) All (n = 1079) Non-missing (n = 874)

Enrollment year
2017 37 (3.4%) 16 (1.8%) 37 (3.4%) 16 (1.8%)
2018 460 (42.6%) 347 (39.7%) 460 (42.6%) 343 (39.2%)
2019 346 (32.1%) 304 (34.8%) 346 (32.1%) 297 (34.0%)
2020 236 (21.9%) 207 (23.7%) 236 (21.9%) 218 (24.9%)

Age (years)
Median [Q1, Q3] 23.0 [20.0, 28.0] 23.0 [20.0, 28.0] 27.5 [24.0, 32.0] 28.0 [24.0, 32.0]
Missing 0 (0%) 0 (0%) 1 (0.1%) 1 (0.1%)

District
Pebane 292 (27.1%) 268 (30.7%) 292 (27.1%) 264 (30.2%)
Inhassunge 191 (17.7%) 179 (20.5%) 191 (17.7%) 177 (20.3%)
Namacurra 179 (16.6%) 161 (18.4%) 179 (16.6%) 160 (18.3%)
Mocubela 181 (16.8%) 90 (10.3%) 181 (16.8%) 96 (11.0%)
Maganja da Costa 114 (10.6%) 94 (10.8%) 114 (10.6%) 91 (10.4%)
Gilé 101 (9.4%) 67 (7.7%) 101 (9.4%) 71 (8.1%)
Quelimane 21 (1.9%) 15 (1.7%) 21 (1.9%) 15 (1.7%)

Relationship status
Living together 549 (50.9%) 451 (51.6%) 548 (50.8%) 457 (52.3%)
Single 331 (30.7%) 272 (31.1%) 327 (30.3%) 269 (30.8%)
Married 198 (18.4%) 150 (17.2%) 201 (18.6%) 145 (16.6%)
Missing 1 (0.1%) 1 (0.1%) 3 (0.3%) 3 (0.3%)

Education
None 223 (20.7%) 184 (21.1%) 85 (7.9%) 67 (7.7%)
Some Primary School (Grades 1–7) 684 (63.4%) 547 (62.6%) 578 (53.6%) 473 (54.1%)
Completed Primary School (Grade 7) 66 (6.1%) 54 (6.2%) 120 (11.1%) 86 (9.8%)
Some Secondary School (Grades 8–10) 66 (6.1%) 55 (6.3%) 170 (15.8%) 146 (16.7%)
Completed Secondary School (Grade 10) 23 (2.1%) 22 (2.5%) 67 (6.2%) 56 (6.4%)
College/Higher Education 17 (1.6%) 12 (1.4%) 57 (5.3%) 44 (5.0%)
Missing 0 (0%) 0 (0%) 2 (0.2%) 2 (0.2%)

Occupation
Farmer 661 (61.3%) 576 (65.9%) 419 (38.8%) 339 (38.8%)
Domestic 396 (36.7%) 282 (32.3%) 150 (13.9%) 105 (12.0%)
Trader 6 (0.6%) 5 (0.6%) 179 (16.6%) 157 (18.0%)
Fisher 0 (0%) 0 (0%) 183 (17.0%) 156 (17.8%)
Other 14 (1.3%) 10 (1.1%) 145 (13.4%) 115 (13.2%)
Missing 2 (0.2%) 1 (0.1%) 3 (0.3%) 2 (0.2%)

Previous antiretroviral therapy
No 800 (74.1%) 641 (73.3%) 870 (80.6%) 698 (79.9%)
Yes 260 (24.1%) 220 (25.2%) 187 (17.3%) 155 (17.7%)
Missing 19 (1.8%) 13 (1.5%) 22 (2.0%) 21 (2.4%)

WHO HIV clinical stage
I 884 (81.9%) 713 (81.6%) 894 (82.9%) 718 (82.2%)
II 86 (8.0%) 73 (8.4%) 81 (7.5%) 70 (8.0%)
III 18 (1.7%) 15 (1.7%) 30 (2.8%) 27 (3.1%)
IV 1 (0.1%) 1 (0.1%) 2 (0.2%) 2 (0.2%)
Missing 90 (8.3%) 72 (8.2%) 72 (6.7%) 57 (6.5%)

Body mass index
Median [Q1, Q3] 21.7 [19.9, 23.4] 21.7 [19.9, 23.5] 21.5 [19.9, 23.0] 21.5 [19.9, 23.0]
Missing 121 (11.2%) 98 (11.2%) 125 (11.6%) 103 (11.8%)

Perceived community stigma
Median [Q1, Q3] 18.0 [8.00, 26.0] 17.0 [8.00, 26.0] 17.0 [8.00, 27.0] 17.0 [8.00, 27.0]
Missing 194 (18.0%) 105 (12.0%) 171 (15.8%) 69 (7.9%)

Participant felt/experienced stigma
Median [Q1, Q3] 12.0 [9.00, 14.0] 12.0 [9.00, 14.0] 12.0 [9.00, 14.0] 13.0 [9.00, 14.0]
Missing 132 (12.2%) 56 (6.4%) 115 (10.7%) 40 (4.6%)

Perceived support
Median [Q1, Q3] 26.0 [23.0, 28.0] 26.0 [23.0, 28.0] 26.0 [23.0, 28.0] 26.0 [23.0, 28.0]
Missing 70 (6.5%) 20 (2.3%) 68 (6.3%) 19 (2.2%)

Needed support
Median [Q1, Q3] 30.0 [27.0, 32.0] 30.0 [28.0, 32.0] 30.0 [28.0, 32.0] 30.0 [28.0, 32.0]
Missing 101 (9.4%) 27 (3.1%) 104 (9.6%) 28 (3.2%)

Cognitive empathy
Median [Q1, Q3] 19.0 [13.0, 23.0] 19.0 [13.0, 23.0] 21.0 [15.0, 24.0] 21.0 [15.0, 24.0]
Missing 246 (22.8%) 124 (14.2%) 223 (20.7%) 105 (12.0%)

Affective empathy
Median [Q1, Q3] 11.0 [6.00, 15.0] 11.0 [6.00, 15.0] 11.0 [6.00, 16.0] 11.0 [6.00, 16.0]
Missing 240 (22.2%) 125 (14.3%) 215 (19.9%) 94 (10.8%)

HIV knowledge (0–27)
Median [Q1, Q3] 17.0 [13.0, 21.0] 17.0 [13.0, 21.0] 18.0 [14.0, 21.0] 18.0 [14.0, 21.0]
Missing 358 (33.2%) 208 (23.8%) 333 (30.9%) 189 (21.6%)

(Continued )

AIDS CARE 1735



(females: 21.7; IQR 19.9–23.4, males: 21.5; IQR 19.8–
23.0). Females had lower median cognitive empathy
scores than males (19; IQR 13–23 vs. 21; IQR 15–24),
but other psychometrics scales were similar regardless
of sex (Table 1). Depressive symptom severity per the
PHQ-9 was also similar regardless of sex, with approxi-
mately 10% of participants reporting symptoms that
would denote a positive depression screen (i.e., PHQ-
9≥ 10; approximately 12% when excluding those with
missing PHQ-9 scores). These results were similar
among participants with and without missing PHQ-9
scores.

The included PHQ-9 predictors largely had a
similar magnitude and direction in female and male
participants with non-missing outcome data (n = 874)
(Figure 1 and Supplemental Figure 1). Low PHQ-9

scores in one partner were associated with low scores
in the other partner and high scores in one partner
were associated with high scores in the other partner.
For example, among female participants, compared to
a male partner PHQ-9 score of 5, a male partner’s
score of 10 was associated with an increased likelihood
that the female participant had a one point or higher
PHQ-9 score (aOR 7.25; 95% CI 5.43, 9.67). Partner
PHQ-9 scores were also highly correlated (Spearman’s
rho 0.68) and remained correlated after adjusting for
female and male characteristics (Spearman’s rho 0.65;
95% CI 0.57, 0.72) (Figure 2).

Higher stigma scores (e.g., a total stigma score of
40 versus 30) were associated with an increase in
females’ likelihood of a one point or greater increase
in PHQ-9 score (aOR 1.39; 95% CI 1.14, 2.69),

Table 1. Continued.
Female Male

All (n = 1079) Non-missing (n = 874) All (n = 1079) Non-missing (n = 874)

Patient health questionaire-9 (0–27)
Median [Q1, Q3] 3.00 [0, 5.00] 3.00 [0, 5.00] 2.00 [0, 5.00] 2.00 [0, 5.00]
Missing 205 (19.0%) 0 (0%) 205 (19.0%) 0 (0%)

Patient health questionaire-9
Minimal (0–4) 603 (55.9%) 603 (69.0%) 626 (58.0%) 626 (71.6%)
Mild (5–9) 162 (15.0%) 162 (18.5%) 145 (13.4%) 145 (16.6%)
Moderate (10–14) 59 (5.5%) 59 (6.8%) 66 (6.1%) 66 (7.6%)
Moderately severe (15–19) 39 (3.6%) 39 (4.5%) 31 (2.9%) 31 (3.5%)
Severe (20–27) 11 (1.0%) 11 (1.3%) 6 (0.6%) 6 (0.7%)
Missing 205 (19.0%) 0 (0%) 205 (19.0%) 0 (0%)

Figure 1. Predictors of depressive symptoms in female and male participants. This shows the predictors of depressive symptoms for
female (orange) and male (purple) participants with non-missing outcome data (n = 874).

1736 D. E. SACK ET AL.



which was not the case among males (aOR 1.01, 95%
CI 0.84, 1.22). There were also differential associations
with depressive symptoms across districts. Married
female participants were less likely to have a one
point or higher PHQ-9 score (aOR 0.68; 95% CI
0.45, 1.03), whereas married male participants were
more likely to have a one point or higher PHQ-9
score (aOR 1.52; 95% CI 0.99, 2.33; Figure 1). Both
models met proportional odds assumptions and per-
formed well across bootstrapped samples (Supplemen-
tal Figure 2, Supplemental Table 2).

Based on a series of sensitivity analyses, how we mod-
eled the PHQ-9 outcome was largely irrelevant in most
predictor coefficient estimates other than their level of
uncertainty (which increased with fewer PHQ-9 cat-
egories) (Supplemental Tables 3 and 4). However,
among males, having a college degree was not associated
with an increased PHQ-9 score with a 27-level outcome
(aOR 1.26; 95% CI 0.64, 2.45), but was highly associated
with an increased PHQ-9 with a dichotomous outcome
(aOR 3.40; 95% CI 1.24, 9.32) (Supplemental Table 4).

Modeling the outcome as the log of PHQ-9 instead of
ordinal decreased predicted PHQ-9 score precision
and produced impossible values for males if their part-
ner’s PHQ-9 score was greater than 10 (Supplemental
Figure 3). Finally, removing partner’s PHQ-9 as a cov-
ariate increased the magnitude of the other covariates
for both males and females (Supplemental Tables 3
and 4).

Discussion

In a descriptive cross-sectional study assessing predic-
tors of depressive symptoms in pregnant women and
their partners with HIV in rural Mozambique, we
found that 10% screened positive for depression when
presenting for antenatal care. This was similar, but
slightly lower than both a household survey of female
heads of household in the region (14%) (Audet, Wain-
berg, et al., 2018) and population-level estimates for
PWH in Mozambique (12%) (Lofgren et al., 2020).
The high prevalence of depressive symptoms among

Figure 2. Female PHQ-9 scores (x-axis) plotted against male PHQ-9 scores (y-axis). This shows female Patient Health Questionaire-9
(PHQ-9) scores (x-axis) plotted against male PHQ-9 scores. Abbreviations: ρ (Spearman’s rho); CI (confidence interval).

AIDS CARE 1737



pregnant women and their partners with HIV raises
concerns that these individuals are at an increased risk
of low adherence to and retention in HIV care and
that their offspring are at increased risk of low birth
weight, diarrheal illness, impaired growth, and poor
infant attachment (Cholera et al., 2017; Christodoulou
et al., 2019; Gelaye et al., 2016; Kulisewa et al., 2019;
Nakimuli-Mpungu et al., 2012; Peltzer et al., 2018; Rah-
man et al., 2004; Stewart, 2007; Tuthill et al., 2017).

We also found partner PHQ-9 scores to be highly
predictive of an individual’s depressive symptoms. The
relationship between depression within partners has
been studied during various stages of pregnancy and
the post-partum period, with a meta-analysis finding a
small positive association between maternal and
paternal depression (rho 0.31; 95% CI 0.23, 0.38) (Paul-
son & Bazemore, 2010). These studies were primarily
conducted in high income countries and did not include
PWH. The higher baseline rates of depression among
PWH compared with the general population may
explain the higher observed correlation among our par-
ticipants. The meta-analysis concluded that understand-
ing which partner’s depressive symptoms manifest first
(i.e., direction of causal effect) has not been elucidated
and this research would benefit from more longitudinal
assessments of depressive symptoms in partners (Paul-
son & Bazemore, 2010). Since our analysis was also
cross-sectional, we could not assume temporality or
causality (i.e., which partner’s depressive symptoms
manifest first), however, the HoPS+ study is well-poised
to do so in future analyses. Furthermore, our population
only included individuals newly starting or re-starting
antiretroviral therapy, further limiting generalizability.

Finally, we found that higher levels of HIV stigma
among females, but not males, were also associated
with increased depressive symptoms. This aligns with
findings in pregnant women with HIV in South Africa,
where stigma modified the relationship between social
support and depressive symptoms (Brittain et al., 2017).
HIV stigma has also been associated with depressive
symptoms in studies elsewhere in SSA that did not separ-
ate female and male individuals with HIV (Akena et al.,
2012; Tesfaw et al., 2016). The relationship between
HIV stigma and depression, however, will benefit from
further investigation in longitudinal datasets.

We were reassured by the uniformity in our predictor
effect across outcome definitions. The sensitivity analy-
sis with imputed missing outcome values (to zero)
revealed that outcome missingness may have been
related to when an individual enrolled in the study
(enrollment date) and what district they were enrolled
in, which may reflect some initial difficulties with
study administration. Though these findings require

validation with longitudinal data, the high correlation
between partners’ depressive symptoms has important
implications for intervention planning.

Our primary analyses analyzed PHQ-9 scores using
the ordinal, 27-level outcome. Such an analysis has
more power than analyses that categorize PHQ-9 scores
at various thresholds, although our sensitivity analyses
showed similar results after categorizing. Such an
approach is also preferable to treating the ordinal PHQ-
9 scores as a continuous outcome, which requires data
transformation and stronger assumptions (Liu et al.,
2017). When proportional odds assumptions are satisfied
(as in our analyses), we suggest that an ordinal analysis
should be considered the gold standard for PHQ-9 data.

A better understanding of the relationship between
partners’ depressive symptoms in the antenatal period
could provide opportunities to address and improvemen-
tal health and HIV care and outcomes among PWH in
Mozambique and beyond. This is especially relevant
during the antenatal period, where pregnant women
and their partners are more likely to interact with health
systems. Although these findings represent a cross-sec-
tional, baseline analysis from an ongoing cluster-random-
ized trial, we plan to assess the causal effects of partner
depressive symptoms, and other predictors identified in
this analysis, on maternal and infant outcomes at six,
12, and 18 months from trial onset in future analyses.

Acknowledgements

The authors would like to thank the participants of the HoPS+
study for donating their time and effort to participating in the
study-related activities, and our study team, including study
assistants, couples’ counselors, and peer advocates for provid-
ing support to participants in their effort to adhere to HIV
care and treatment. DES helped conceive the study, coordi-
nated and conducted the data analysis, and wrote and edited
the manuscript. AM also conducted part of the data analysis
and AM and EG were involved in study design. AM, EG,
AE, and CD were involved in data collection and manuscript
revisions. BES provided input on the data analysis and was
involved in substantive manuscript revisions. CMA helped
conceive the study, coordinate data analysis, and was involved
in substantive manuscript revisions. The authors read and
approved the final manuscript.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Funding

This work is supported by the National Institute of Mental
Health [R01MH113478 [CMA] and F30MH123219 [DES]],
NIGMS [T32GM007347 [DES]], NIAID [R01AI093234

1738 D. E. SACK ET AL.



[BES]], and NCATS [UL1TR000445] of the National Insti-
tutes of Health.

Data availability statement

The datasets used and/or analyzed during the current study
are available from the corresponding author on reasonable
request.

Geolocation statement

This study was conducted in Zambézia Province,
Mozambique.

ORCID

Daniel E. Sack http://orcid.org/0000-0003-0864-8875
Caroline De Schacht http://orcid.org/0000-0001-5384-2410

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	Abstract
	Introduction
	Material and methods
	Participant selection and setting
	Depressive symptoms
	Statistical analysis
	Ethics

	Results
	Discussion
	Acknowledgements
	Disclosure statement
	Data availability statement
	Geolocation statement
	ORCID
	References


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  /EndPage -1
  /ImageMemory 524288
  /LockDistillerParams true
  /MaxSubsetPct 100
  /Optimize true
  /OPM 1
  /ParseDSCComments false
  /ParseDSCCommentsForDocInfo true
  /PreserveCopyPage true
  /PreserveDICMYKValues true
  /PreserveEPSInfo false
  /PreserveFlatness true
  /PreserveHalftoneInfo false
  /PreserveOPIComments false
  /PreserveOverprintSettings false
  /StartPage 1
  /SubsetFonts true
  /TransferFunctionInfo /Remove
  /UCRandBGInfo /Remove
  /UsePrologue false
  /ColorSettingsFile ()
  /AlwaysEmbed [ true
  ]
  /NeverEmbed [ true
  ]
  /AntiAliasColorImages false
  /CropColorImages true
  /ColorImageMinResolution 150
  /ColorImageMinResolutionPolicy /OK
  /DownsampleColorImages true
  /ColorImageDownsampleType /Bicubic
  /ColorImageResolution 300
  /ColorImageDepth -1
  /ColorImageMinDownsampleDepth 1
  /ColorImageDownsampleThreshold 1.50000
  /EncodeColorImages true
  /ColorImageFilter /DCTEncode
  /AutoFilterColorImages false
  /ColorImageAutoFilterStrategy /JPEG
  /ColorACSImageDict <<
    /QFactor 0.90
    /HSamples [2 1 1 2] /VSamples [2 1 1 2]
  >>
  /ColorImageDict <<
    /QFactor 0.40
    /HSamples [1 1 1 1] /VSamples [1 1 1 1]
  >>
  /JPEG2000ColorACSImageDict <<
    /TileWidth 256
    /TileHeight 256
    /Quality 15
  >>
  /JPEG2000ColorImageDict <<
    /TileWidth 256
    /TileHeight 256
    /Quality 15
  >>
  /AntiAliasGrayImages false
  /CropGrayImages true
  /GrayImageMinResolution 150
  /GrayImageMinResolutionPolicy /OK
  /DownsampleGrayImages true
  /GrayImageDownsampleType /Bicubic
  /GrayImageResolution 300
  /GrayImageDepth -1
  /GrayImageMinDownsampleDepth 2
  /GrayImageDownsampleThreshold 1.50000
  /EncodeGrayImages true
  /GrayImageFilter /DCTEncode
  /AutoFilterGrayImages false
  /GrayImageAutoFilterStrategy /JPEG
  /GrayACSImageDict <<
    /QFactor 0.90
    /HSamples [2 1 1 2] /VSamples [2 1 1 2]
  >>
  /GrayImageDict <<
    /QFactor 0.40
    /HSamples [1 1 1 1] /VSamples [1 1 1 1]
  >>
  /JPEG2000GrayACSImageDict <<
    /TileWidth 256
    /TileHeight 256
    /Quality 15
  >>
  /JPEG2000GrayImageDict <<
    /TileWidth 256
    /TileHeight 256
    /Quality 15
  >>
  /AntiAliasMonoImages false
  /CropMonoImages true
  /MonoImageMinResolution 1200
  /MonoImageMinResolutionPolicy /OK
  /DownsampleMonoImages true
  /MonoImageDownsampleType /Average
  /MonoImageResolution 300
  /MonoImageDepth -1
  /MonoImageDownsampleThreshold 1.50000
  /EncodeMonoImages true
  /MonoImageFilter /CCITTFaxEncode
  /MonoImageDict <<
    /K -1
  >>
  /AllowPSXObjects true
  /CheckCompliance [
    /None
  ]
  /PDFX1aCheck false
  /PDFX3Check false
  /PDFXCompliantPDFOnly false
  /PDFXNoTrimBoxError true
  /PDFXTrimBoxToMediaBoxOffset [
    0.00000
    0.00000
    0.00000
    0.00000
  ]
  /PDFXSetBleedBoxToMediaBox true
  /PDFXBleedBoxToTrimBoxOffset [
    0.00000
    0.00000
    0.00000
    0.00000
  ]
  /PDFXOutputIntentProfile (None)
  /PDFXOutputConditionIdentifier ()
  /PDFXOutputCondition ()
  /PDFXRegistryName ()
  /PDFXTrapped /False

  /Description <<
    /ENU ()
  >>
>> setdistillerparams
<<
  /HWResolution [600 600]
  /PageSize [595.245 841.846]
>> setpagedevice