Breastfeeding difficulties frequently exacerbate one another and are common reasons for curtailed breastfeeding. Women with chronic conditions are at high risk of early breastfeeding cessation, yet limited evidence exists on the breastfeeding difficulties that co-occur in these mothers. The objective of this study was to explore clusters of breastfeeding difficulties experienced up to 6 weeks postpartum among mothers with chronic conditions and to examine associations between chronic condition types and breastfeeding difficulty clusters.
Methods
We analyzed 348 mothers with chronic conditions enrolled in a prospective, community-based pregnancy cohort study from Alberta, Canada. Data were collected through self-report questionnaires. We used latent class analysis to identify clusters of early breastfeeding difficulties and multinomial logistic regression to examine whether types of chronic conditions were associated with these clusters, adjusting for maternal and obstetric factors.
Results
We identified three clusters of breastfeeding difficulties. The “physiologically expected” cluster (51.1% of women) was characterized by leaking breasts and engorgement (reference outcome group); the “low milk production” cluster (15.4%) was discerned by low milk supply and infant weight concerns; and the “ineffective latch” cluster (33.5%) involved latch problems, sore nipples, and difficulty with positioning. Endocrine (adjusted relative risk ratio [RRR] 2.34, 95% CI 1.10–5.00), cardiovascular (adjusted RRR 2.75, 95% CI 1.01–7.81), and gastrointestinal (adjusted RRR 2.51, 95% CI 1.11–5.69) conditions were associated with the low milk production cluster, and gastrointestinal (adjusted RRR 2.44, 95% CI 1.25–4.77) conditions were additionally associated with the ineffective latch cluster.
Conclusion
Half of women with chronic conditions experienced clusters of breastfeeding difficulties corresponding either to low milk production or to ineffective latch in the first 6 weeks postpartum. Associations with chronic condition types suggest that connections between lactation physiology and disease pathophysiology should be considered when providing breastfeeding support.
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Abkürzungen
AIC
Akaike information criterion
BIC
Bayesian information criteria
BMI
Body mass index
CI
Confidence interval
EPDS
Edinburgh Postnatal Depression Scale
ICD
International Classification of Diseases
LCA
Latent class analysis
LICO
Low income cut-off
MaCI
Motherhood and Chronic Illness
RRR
Relative risk ratio
SABIC
Sample size-adjusted BIC
STAI
Spielberger State-Trait Anxiety Inventory
Background
The advantages of breastfeeding over formula feeding for maternal and child health are well established, including lowered risk of infection, obesity, and asthma in children and reduced risk of cardiovascular morbidity and breast and ovarian cancers for mothers [1‐5]. Breastfeeding is recommended as the primary source of infant nutrition until 6 months when complementary foods are introduced, and sustained for longer–up to 2 years and beyond–according to maternal preference [6]. Yet a substantial proportion of women discontinue breastfeeding earlier than is recommended or planned [7, 8]. Difficulties with the mechanics of breastfeeding and physiology of lactation are the most commonly cited reasons for early cessation [8‐10]. Women who have breastfeeding difficulties often report intense feelings of inadequacy, failure, and powerlessness and face higher risk for postpartum depression [11‐14], particularly in light of inadequate lactation support [15]. Public health emphasis on breastfeeding promotion should therefore be matched with high-quality care to prevent and address breastfeeding difficulties [16], taking into account that difficulties frequently cluster together and exacerbate one another [17].
Increasingly, evidence has shown that mothers with pre-existing physical health conditions are at high risk of early breastfeeding cessation compared to the general maternal population [7, 18‐20]. Evidence on the clusters of breastfeeding difficulties in women with chronic conditions that may underpin this disparity is scant [21]. Moreover, our understanding of whether the type of chronic condition, each with its own set of pathological and clinical features and management, impacts lactation through breastfeeding difficulties is limited. For example, Berg et al. reported that mothers with type 1 diabetes were more likely to report low milk supply than mothers without diabetes at 2 months postpartum. Hormonal aberrations from diabetes are thought to reduce milk production; [22] this may extend to other endocrine conditions such as thyroid disorders [23, 24], though few epidemiologic studies have investigated this. Qualitative studies on mothers with musculoskeletal conditions have detailed distinct challenges with breastfeeding positioning and latch due to pain and mobility limitations [25‐29]. We therefore sought to explore clusters of breastfeeding difficulties experienced by mothers with a wide range of chronic conditions up to 6 weeks postpartum, and to examine potential associations between chronic condition types and breastfeeding difficulty clusters.
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Methods
Study design
We conducted a prospective, community-based pregnancy cohort study of women with pre-existing physical health conditions in Alberta, Canada called the Motherhood and Chronic Illness (MaCI) Study. Our overarching aim for the MaCI Study was to explore factors associated with breastfeeding intentions, difficulties, support experiences, and outcomes among mothers with chronic conditions; we were specifically focused on exploring factors unique to maternal chronic conditions (e.g., condition types), hence the simultaneous inclusion of a healthy comparator group was inapplicable to our focus. The Conjoint Health Research Ethics Board at the University of Calgary approved this study (REB19-0443), and all participants provided informed consent upon enrollment.
Study sample
Women were eligible if they were living with at least one chronic physical health condition (defined using the Agency for Healthcare Research and Quality Chronic Condition Indicator) [30], carrying a singleton pregnancy less than 32 weeks gestation, aged 18 or older, planning to try breastfeeding or expressing breast milk after birth, able to complete online questionnaires in English, and residing in Alberta, Canada. We recruited participants through obstetric clinics, social media advertisements, targeted mailings through the province’s health authority, and word of mouth from November 2019 to March 2021. We screened a total of 743 women, of whom 405 met the eligibility criteria and were enrolled in the study (Fig. 1).
Fig. 1
Flowchart of cohort recruitment and selection of analytic sample
×
Data collection
Participants completed a total of three online questionnaires at 32 weeks gestation, 6 weeks postpartum, and 6 months postpartum that together collected information on reproductive history, obstetrical events, chronic illnesses and medications, health behaviours (e.g., sleep, substance use), mental health, infant feeding, and social determinants of health. We used data from the first two questionnaires for this analysis to maintain focus on the early postpartum period when risk of breastfeeding difficulties and cessation are highest [31].
Measurement of breastfeeding difficulties
Breastfeeding difficulties known to commonly occur in the early postpartum, based on existing literature [9, 32, 33], were measured at 6 weeks following delivery: feeling tired/fatigued, sore nipples, cracked nipples, swollen/engorged breasts, leaking breasts, baby having trouble latching on, baby too sleepy during feeds, baby too fussy during feeds, baby feeding too frequently, not enough milk, difficulty positioning baby during feeds, and feeling worried about baby’s weight gain or loss. Participants were asked to indicate the perceived severity of each difficulty using a 4-point Likert scale of not at all, mild, moderate, or severe, considering their experiences from birth up to the time of the questionnaire [34]. While mild breastfeeding difficulties are highly prevalent in the early postpartum period (upwards of 90% in our sample) and tend to resolve, moderate and severe difficulties are generally more persistent, distressing, and obstructive to breastfeeding efforts [12, 13, 35, 36]. We therefore developed a binary variable for moderate-to-severe presence of each difficulty (i.e., collapsing not at all/mild and moderate/severe).
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Measurement of chronic condition types
Self-reported chronic conditions present in the cohort were classified using chapters in the International Classification of Diseases (ICD) 10th Revision, in which medical conditions are grouped based on the affected body system, pathology, classical symptoms, and/or medical specialty responsible for care. Given that some women reported more than one condition, types were measured with a binary indicator for each ICD chapter. Chronic condition types (ICD chapter; title) included: hematologic (D; blood and blood-forming organs), endocrine (E; endocrine, nutritional, and metabolic), neurological (G; nervous system), cardiovascular (I; circulatory system), respiratory (J; respiratory system), gastrointestinal (K; digestive system), dermatologic (L; skin and subcutaneous tissue), musculoskeletal (M; musculoskeletal system and connective tissue), genitourinary (N; genitourinary system), and congenital (Q; congenital malformations, deformations, and chromosomal abnormalities). Owing to low prevalence of hematologic, dermatologic, and congenital conditions (each < 5%), indicators for these types were excluded from multivariable analysis; women with these conditions were not excluded, but rather contributed data to the remaining indicators based on additional morbidities present.
Statistical analysis
First, we used latent class analysis (LCA) to explore clusters of breastfeeding difficulties. LCA is a statistical method that helps identify unobserved (latent) subgroups of individuals in a population based on response patterns to a set of observed (measured) variables [37]. LCA is a person-centred approach in that it focuses on identifying groups of individuals who share similar within-person characteristics, contrasting with the variable-centred approach which focuses on associations among variables [38]. All binary variables for moderate-to-severe (versus none-to-mild) breastfeeding difficulties were included in the analysis. We fit LCA models with 1 through 4 latent classes and jointly considered model fit indices (Akaike information criterion [AIC], Bayesian information criteria [BIC], sample size-adjusted BIC [SABIC], and log likelihood), model parsimony, and clinical utility of the groupings in selecting the final number of latent classes, herein termed clusters. Lower values indicate better fit for the AIC, BIC, and SABIC, while higher values indicate better fit for the log likelihood [39]. Once the final model was selected, we estimated each participant’s probability of belonging to each cluster and assigned group membership using the cluster with the highest probability.
Next, we used multinomial logistic regression to examine whether different types of chronic conditions were associated with breastfeeding difficulty clusters. Multinomial logistic regression yields relative risk ratios (RRR) and 95% confidence intervals (CI). All chronic condition type indicators were modelled simultaneously (i.e., one model was constructed with all indicators); the referent group for each indicator was women who did not report living with that specific type of chronic condition (but reported other chronic conditions, as per the study eligibility criteria). To address potential confounding, models were adjusted for the following covariates based on prior evidence: maternal age (years), pre-pregnancy body mass index (BMI; kg/m2), prenatal depression (score on the Edinburgh Postnatal Depression Scale [EPDS]) [40, 41], prenatal anxiety (score on the 6-item short-form Spielberger State-Trait Anxiety Inventory [STAI]) [42, 43], maternal education (post-secondary degree versus some post-secondary education or less), mode of delivery (vaginal versus Cesarean section), and obstetrical complications (composite binary variable for one or more of: gestational hypertension, preeclampsia, gestational diabetes, placental disorder, postpartum hemorrhage, or preterm birth < 37 weeks); owing to low prevalence (< 5%) in this sample, prenatal tobacco/nicotine use was not included in the models to maintain sufficient precision of point estimates. Missing covariate data were minimal (3%) and handled through complete case analysis. All analyses were performed in Stata MP version 17.
Results
Of the 405 participants enrolled, 371 completed the 32-week pregnancy questionnaire (91.6% response rate) and 360 completed the 6-week postpartum questionnaire (88.9% response rate). From the 360 women who responded to both questionnaires, we excluded 11 women who did not initiate breastfeeding and 1 woman who did not provide complete data on breastfeeding difficulties, resulting in a sample size of 348 for this analysis (Fig. 1).
Table 1 describes characteristics of the MaCI Study sample used for this analysis. Participants were predominantly White, nulliparous or primiparous, reported a household income above the LICO for their area of residence, and held a post-secondary degree. Mean maternal age was 31.7 years and mean pre-pregnancy BMI was 27.4 kg/m2, which falls in the overweight range. Sample demographic characteristics were comparable to that of the baseline MaCI cohort and Alberta maternal population in recent years; however, the MaCI sample slightly under-represented mothers who were younger than 24 years of age, self-identified as BIPOC, did not hold a post-secondary degree, or were multiparous (Supplementary Table 1).
Table 1
Sample characteristics (N = 348)
n
%
Sociodemographic
Age in years, mean ± SD
31.7 ± 4.1
Race/ethnicity
White
271
78.1
Black, Indigenous, or Person of Colour
76
21.9
Household income below the LICO
72
20.7
Education
Post-secondary degree
281
80.7
Less than post-secondary degree
67
19.3
Physical and Mental Health
Pre-pregnancy body mass index in kg/m2, mean ± SD
27.4 ± 7.1
Depressive symptoms: EPDS
Score, mean ± SD
9.3 ± 5.2
Score of ≥ 10
157
45.1
Anxiety symptoms: STAI
Score, mean ± SD
38.6 ± 12.5
Score of ≥ 40
166
47.7
Obstetrical
Parity
0
167
48.1
1
137
39.5
2 +
43
12.4
Mode of delivery
Vaginal
220
63.2
Cesarean
128
36.8
Obstetrical complications
126
36.2
Chronic condition(s)
Hematologic (e.g., anemia)
15
4.3
Endocrine (e.g., diabetes)
126
36.2
Neurological (e.g., multiple sclerosis)
46
13.2
Cardiovascular (e.g., hypertension)
32
9.2
Respiratory (e.g., asthma)
48
13.8
Gastrointestinal (e.g., Crohn’s disease)
76
21.8
Dermatologic (e.g., psoriasis)
12
3.4
Musculoskeletal (e.g., arthritis)
85
24.4
Genitourinary (e.g., endometriosis)
33
9.5
Congenital (e.g., Ehlers–Danlos syndrome)
15
4.3
SD Standard deviation, EPDS Edinburgh Postnatal Depression Scale, STAI Spielberger State-Trait Anxiety Inventory, LICO Low-income cut-off threshold (based on postal code)
Within the sample, prenatal mental health symptoms were slightly elevated; on average, women reported a score of 9.3 on the EPDS (a cut-off of 10 indicates elevated depressive symptoms) and 38.6 on the STAI (a cut-off of 40 indicates elevated anxiety symptoms). Nearly two thirds of women delivered vaginally and one third experienced obstetrical complications. Endocrine conditions were the most prevalent condition type, reported by 36.2% of women, followed by musculoskeletal (24.4%), gastrointestinal (21.8%), and neurological (13.2%) and respiratory (13.8%) conditions. Maternal fatigue (68.4%), leaking (44.0%) and engorged (35.9%) breasts, sore nipples (43.1%), low milk supply (32.5%), and latch problems (30.7%) were the most commonly reported breastfeeding difficulties rated as moderate to severe in the sample (Supplementary Table 2).
Model fit indices indicated that the 3- or 4-cluster model fit the data best, as evidenced by the lower values for the AIC, BIC, and SABIC and larger values for the log likelihood (Supplementary Table 3). Additional consideration of model parsimony and clinical utility of the clusters led us to select the 3-cluster model as the final model.
Figure 2 depicts the prevalence of each moderate-to-severe breastfeeding difficulty (compared to none-to-mild) for each of the three clusters. Cluster 1 was labelled “physiologically expected,” characterized by modest prevalence of leaking breasts (49.3%), engorgement (34.9%), and maternal fatigue (55.8%) and low prevalence of the remaining difficulties (not exceeding 20%). Cluster 2 was labelled “low milk production,” characterized by high prevalence of low milk supply (97.4%) and maternal fatigue (79.3%) and modest prevalence of concerns about infant weight gain (50.0%). Cluster 3 was labelled “ineffective latch,” characterized by high prevalence of sore nipples (75.9%), latch problems (63.2%), and maternal fatigue (82.5%) and modest prevalence of the remaining difficulties (35–55%). Most participants were assigned to the physiologically expected cluster (51.1%), followed by the ineffective latch (33.5%) and low milk production (15.4%) clusters. The distribution of breastfeeding difficulty clusters differed by method of breast milk feeding between birth and 6 weeks postpartum (Supplementary Table 4). The physiologically expected cluster was most prevalent in participants who fed only from the breast (69.3%); the low milk production cluster was most prevalent in participants who fed only expressed breast milk (38.1%); and the physiologically expected cluster was most prevalent (45.6%), followed by the ineffective latch cluster (37.7%), in participants who fed both at the breast and expressed milk.
Fig. 2
Breastfeeding difficulty clusters identified by latent class analysis. Line connections between points are not indicative of trend, as ordering of nominal categories along the X-axis is arbitrary; rather, lines are used to visually discern the patterns of prevalence of breastfeeding difficulties within each cluster
×
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Table 2 displays the results of multinomial logistic regression estimating the association between chronic condition types and breastfeeding difficulty clusters, using the physiologically expected cluster as the reference outcome group. Endocrine (adjusted RRR 2.34, 95% CI 1.10–5.00), cardiovascular (adjusted RRR 2.75, 95% CI 1.01–7.81), and gastrointestinal (adjusted RRR 2.51, 95% CI 1.11–5.69) conditions were associated with higher risk of belonging to the “low milk production” cluster. Gastrointestinal conditions were associated with higher risk of belonging to the “ineffective latch” cluster (adjusted RRR 2.44, 95% CI 1.25–4.77).
Table 2
Association between chronic condition types and breastfeeding difficulty clusters
Relative Risk Ratio (95% CI)
Crude
Adjusted
Low milk production vs. Physiologically expected (reference
Endocrine
2.82
(1.38–5.80)
2.34
(1.10–5.00)
Neurological
0.90
(0.33–2.45)
0.89
(0.32–2.51)
Cardiovascular
3.53
(1.37–9.12)
2.75
(1.01–7.81)
Respiratory
1.02
(0.34–3.06)
0.95
(0.30–2.99)
Gastrointestinal
2.75
(1.23–6.12)
2.51
(1.11–5.69)
Musculoskeletal
0.97
(0.44–2.14)
0.80
(0.35–1.85)
Genitourinary
0.75
(0.26–2.18)
0.71
(0.22–2.24)
Ineffective latch vs. Physiologically expected (reference)
Endocrine
1.66
(0.92–3.00)
1.75
(0.91–3.36)
Neurological
1.09
(0.52–2.31)
1.03
(0.45–2.33)
Cardiovascular
1.49
(0.59–3.73)
1.52
(0.54–4.28)
Respiratory
1.88
(0.91–3.90)
1.98
(0.89–4.40)
Gastrointestinal
2.40
(1.27–4.53)
2.44
(1.25–4.77)
Musculoskeletal
1.22
(0.67–2.22)
1.17
(0.62–2.23)
Genitourinary
0.51
(0.21–1.27)
0.37
(0.13–1.02)
Adjusted model controlled for maternal age, pre-pregnancy body mass index, prenatal depressive score, prenatal anxiety score, maternal education, mode of delivery, and obstetrical complications
CI Confidence interval
Discussion
In this community-based cohort study of 348 postpartum mothers with chronic conditions, we identified three clusters of breastfeeding difficulties in the first 6 weeks postpartum. Half of mothers (49.3%) experienced physiologically expected difficulties of fatigue, leaking breasts, and engorgement. One third (33.5%) experienced ineffective latch, where latch problems co-occurred with several other difficulties including nipple pain. One in six (15.4%) experienced low milk production, where low milk supply co-occurred with concerns about infant weight gain.
Existing research has rarely accounted for the interrelatedness of breastfeeding difficulties, often studying them individually or as a composite [32, 44]. Exploratory factor analysis has been used to group similar types of breastfeeding difficulties [9, 14], but in the context of women’s underlying reasons for breastfeeding cessation. This approach overlooks women who are still breastfeeding despite potential difficulties or whose difficulties have resolved. Building on existing work, we used LCA to identify that most mothers with chronic conditions experienced co-occurring fatigue and breast overfullness in the first 6 weeks postpartum, which corresponds to the physiologically expected trajectory of breastfeeding establishment. Milk supply is upregulated to meet rapid increases in infant intake requirements, which mothers may experience as breast engorgement and leaking, and consolidated sleep is interrupted by frequent feeds and newborn care [45].
Sore nipples are experienced by up to 80% of breastfeeding mothers [44, 46]; while etiology is multifactorial, the most frequent cause is improper infant latch at the breast [47]. We identified an ineffective latch cluster which captured this causal link as well as co-occurring challenges with infant sleepiness, fussiness, and weight gain concerns, difficulty positioning the infant at the breast, and breast engorgement. Improper latch can lead to suboptimal draining of milk from the breasts during feeds, which initially presents as engorgement but will downregulate milk supply when sustained over time [48]. Moreover, limited transfer of milk to the infant can result in increased hunger cues and slower weight gain [48]. Our analysis of chronic condition types revealed that gastrointestinal conditions were associated with the ineffective latch cluster. Physical sensations of infant oral grasping and suckling on nipple tissue may be more painful for these women given that hypersensitivity to pain is a feature of several gastrointestinal conditions [49, 50]. Pain and discomfort in the abdominal area may also interfere with comfortable positioning of the infant to avoid cross-body breastfeeding positions.
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Perceived low milk supply in the absence of self-reported latch issues suggests that factors intrinsic to maternal physiology may be interfering with lactation [51]. This was captured in the low milk production cluster, wherein low milk supply was nearly universal and occurred in relative isolation. In our study, endocrine, cardiovascular, and gastrointestinal conditions were associated with the low milk production cluster. Endocrine conditions are an established risk factor for impaired lactation [51], through mechanisms related to insulin resistance, breast hypoplasia, and reduced prolactin responsiveness [52]. Previous studies have found that low milk supply was associated with diabetes in pregnancy [53], and that fewer women with polycystic ovary syndrome (PCOS) breastfed to 6 months relative to women without PCOS (44.3% vs. 54.2%, respectively) [54]. Our findings related to cardiovascular and gastrointestinal conditions are novel and merit further investigation. Lactation interfaces with several body systems, stimulating changes in hormone activity, gastrointestinal blood flow, metabolic rate, and cardiac output [55, 56]. Yet the influence of underlying maternal disease pathophysiology on lactation physiology has received minimal attention to date. Alternatively, given that we could not verify self-reported low milk supply with objective measurements of milk volume, our findings may reflect a hypervigilance among mothers with these conditions towards milk adequacy as opposed to differences in actual milk production.
Strengths of this study include the prospective design, community-based sampling of diverse chronic conditions, and graded measurement of breastfeeding difficulties in all women who initiated breastfeeding regardless of duration. However, some limitations should be considered. Validity of self-reported chronic conditions is imperfect relative to clinical exams or medical records; however, a quarter of the sample were recruited directly from obstetric clinics specializing in chronic medical disorders or using mailed letters sent to women with diagnostic codes for chronic conditions and pregnancy. Of the remaining participants recruited through social media or other methods, over 80% reported receiving prenatal care from an obstetrician and/or specialist physician. It is therefore likely that most women recruited into the sample have a true clinical diagnosis. Chronic condition types were based on the ICD system, but often involved grouping heterogeneous conditions. For example, endocrine conditions included type 1 diabetes, an autoimmune disease, as well as PCOS, a metabolic gynecologic disorder. Additional research on individual conditions is needed to verify the associations we observed and investigate distinct underlying mechanisms. Our use of complete case analysis for handling missing covariate data (< 3% of observations) may have slightly reduced the precision of our estimates [57]. Finally, compared to the maternal population in Alberta, the MaCI sample slightly under-represented mothers who were younger than 24 years of age, who self-identified as BIPOC race/ethnicity, or who did not hold a post-secondary degree. Caution is needed when generalizing findings from the MaCI Study to these underrepresented groups.
Our findings have important clinical implications. Women should be counselled prenatally about the potential breastfeeding difficulties they may experience related to their chronic condition. Given that our data suggests half of mothers with chronic conditions who choose to breastfeed will experience low milk production or ineffective latch, health care providers should closely monitor breastfeeding experiences for these clusters of breastfeeding difficulties and promptly offer evidence-based interventions when they arise [17, 45]. For example, mothers reporting low milk supply in the absence of latch issues should be evaluated for potential underlying physiologic or psychosocial contributors and counselled on appropriate feeding frequency, infant weight gain, and wet diapers, as well as supported to feed or express more frequently or initiate galactagogues as indicated to increase supply [17, 45]. More broadly, future research that employs latent class analysis of breastfeeding difficulties would be valuable to ascertain whether the clusters we identified in mothers with chronic conditions are similarly observed in the general maternal population and to compare the distributions of each.
Conclusion
In summary, we identified three clusters of breastfeeding difficulties in mothers with chronic conditions, corresponding to physiologically expected lactation changes, ineffective latch, and low milk production. Approximately half of mothers with chronic conditions belonged to either the ineffective latch or low milk production cluster. Relative to the physiologically expected cluster, endocrine, cardiovascular, and gastrointestinal conditions were associated with the low milk production cluster and gastrointestinal conditions were additionally associated with the ineffective latch cluster. These findings can aid with differentiating and treating breastfeeding difficulties in clinical practice and suggest that the influence of disease pathophysiology should be considered when providing early postpartum breastfeeding support.
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Acknowledgements
We are extremely grateful to the women who took part in the MaCI Study and to the MaCI Study research team.
Declarations
Ethics approval and consent to participate
The MaCI study was approved by the Conjoint Health Research Ethics Board at the University of Calgary (REB19-0443), and all participants provided informed consent upon enrollment. All methods were performed in accordance with relevant guidelines and regulations from the Declarations of Helsinki and the Tri-Council Policy Statement on Research Ethics.
Consent for publication
Not applicable.
Competing interests
CHS has served on advisory boards for Janssen, AbbVie, Takeda, Ferring, Shire, Pfizer, Sandoz, Pharmascience, Fresenius Kabi and Amgen, and as a speaker for Janssen, AbbVie, Takeda, Ferring, Shire, Pfizer and Pharmascience. NVS, AM, ANA, KN, SCT, and KHC have no potential conflicts of interest to report.
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