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Vol. 51. Issue 10.
Pages 626-636 (December 2019)
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Vol. 51. Issue 10.
Pages 626-636 (December 2019)
Original article
Open Access
Association between affective disorders presenting before and during pregnancy and pre-term birth, considering socio-demographic factors, obstetric factors, health conditions, and use of medication
Asociación entre los trastornos afectivos que se presentan antes y durante el embarazo y el parto prematuro, teniendo en cuenta los factores sociodemográficos, los factores obstétricos, las condiciones de salud y el uso de medicamentos
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Arantxa Aliagaa, Oriol Cunillerab,c, María del Carmen Amadord, Mercedes Aliagae, Martí Arqueronsf, Jesús Almedab,c,
Corresponding author
jalmeda@ambitcp.catsalut.net

Corresponding author.
a Equip d’Atenció Primària el Castell, SAP Baix Llobregat Litoral, Insitut Català de la Salut (ICS) Castelldefels, Spain
b Unitat de Suport a la Recerca Costa de Ponent, Institut Universitari d’Investigació en Atenció Primària Jordi Gol (IDIAP Jordi Gol), Cornellà de Llobregat, Spain
c Universitat Autònoma de Barcelona, Bellaterra (Cerdanyola del Vallès), Spain
d Atenció a la Salut Sexual I Reproductiva Delta del Llobregat, SAP Baix Llobregat Litoral, ICS, Castelldefels, Spain
e ABS la Torrassa, Hospitalet de Llobregat, Barcelona, Spain
f Facultad de Medicina, Campus de Bellvitge, Universitat de Barcelona, Hospitalet de Llobregat, Barcelona,Spain
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Tables (4)
Table 1. Descriptive global and bivariate analysis of maternal characteristics, previous pregnancies, and labour regarding preterm birth.
Table 2. [ll1]Health conditions before birth. Descriptive and bivariate analysis according to preterm birth.
Table 3. Use of medication prior to birth. Descriptive and bivariate analysis according to preterm birth.
Table 4. Multivariate analysis on health conditions prior and during pregnancy and preterm birth.
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Abstract
Objective

To study the relationship between maternal affective disorders (AD) before and during pregnancy, and pre-term birth.

Design

Retrospective observational study.

Location

Sexual and reproductive health units at the Institut Català de la Salut (ICS) in Catalonia, Spain.

Participants

Pregnant women with a result of live-born child from 1/1/2012 to 30/10/2015.

Interventions

Data were obtained from the ICS Primary Care electronic medical record.

Main measurements

Diagnosis of AD before and during pregnancy, months of pregnancy, and possible confusion factors were collected. Descriptive statistical analysis (median, interquartile range, and absolute and relative frequency), bivariate analysis (Wilcoxon test and Chi-square test), and multivariate analysis (logistic regression) were performed.

Results

102,086 women presented valid information for the study. Prevalence of AD during pregnancy was 3.5% (4.29% in pre-term and 3.46% in term births; p<0.004). Pregnant women with pre-term births presented a higher age, smoking habit, lower inter-pregnancy interval, and a lower socio-economic status. Pre-term birth was significantly associated to previous history of stress and dissociative disorder (SDD), anxiety, obsessive-compulsive disorder (OCD) and eating disorders (ED), and use of antidepressants. It was also associated to abuse of alcohol, smoking, and use of psychoactive substances, as well as SDD, ED, use of antipsychotics, and divorce during pregnancy. Multivariate analysis confirmed the relationship between pre-term birth and history of AD, SDD, ED, and smoking, but not with AD during pregnancy.

Conclusions

Examining the previous history of SDD and ED in pregnant women, and SDD, and ED during pregnancy is highly relevant to avoid pre-term birth.

Keywords:
Pregnancy
Affective disorders
Infant
Premature
Risk factors
Antidepressive agents
Resumen
Objetivo

Estudiar la relación entre diagnósticos de trastornos afectivos (TA) antes y durante el embarazo, y factores de confusión con prematuridad del neonato.

Diseño

Estudio observacional retrospectivo.

Emplazamiento

Servicios de atención sexual y reproductiva del Institut Català de la Salut (ICS) en Cataluña, España.

Participantes

Embarazadas atendidas con resultado de hijo vivo del 1/1/2012 al 30/10/2015.

Intervenciones

Datos recogidos en la base de datos de la historia clínica informatizada.

Mediciones

Se recogió los diagnósticos de TA antes y durante el embarazo, meses de gestación y posibles factores de confusión. Se realizó análisis estadístico descriptivo (mediana y rango intercuartílico y frecuencias absoluta y relativa), bivariante (test de Wilcoxon y Chi-cuadrado) y multivariante (regresión logística).

Resultados

Ciento dos mil ochenta y seis mujeres presentaban información válida para el estudio. La prevalencia de TA durante el embarazo fue del 3,5% (4,29% en prematuros y 3,46% en a término; p<0,004). Las embarazadas con partos prematuros presentan mayor edad, más tabaquismo, menor tiempo entre embarazos y menor nivel socioeconómico. La prematuridad se asoció a antecedentes previos de trastorno por estrés y disociativo (TED), de ansiedad y obsesivo-compulsivo, de conducta alimentaria (TCA) y uso de antidepresivos. También a abuso de alcohol, tabaco y sustancias psicoactivas; TED, TCA, uso de antipsicóticos y divorcio durante el embarazo. El análisis multivariante confirmó la relación de prematuridad con antecedentes de TA, TED, TCA y tabaquismo, pero no con TA durante el embarazo.

Conclusiones

Es importante explorar antecedentes de TED y TA en la embarazada y los TED durante el embarazo, para disminuir la prematuridad.

Palabras clave:
Embarazo
Trastornos psicóticos afectivos
Recién nacido Prematuro
Factores de riesgo
Antidepresivos
Full Text
Introduction

Depression is the most frequent mental disorder in women. It may alter the course of pregnancy, affect the foetus, and the newborn, having consequences even on adolescence.1,2 Prevalence of depression during pregnancy ranges from 4.8% to 33.2%,3 with under 50% of cases identified in the everyday clinical practice.4 Depression and bipolar disorder have been associated to pre-term birth.5–10 Studies on the relationship between affective disorders and pre-term birth, conducted in the Mediterranean and South European countries, and included in systematic reviews, are scarce, therefore, no data on this matter are available in our country. Pre-term birth has been associated to prolonged stays at paediatric intensive care units or neonatal departments, a higher incidence of infection, and of respiratory, digestive, ophthalmologic, psychomotor conditions, etc.,11 resulting in a remarkable impact on the health care system.

Other clinical obstetric and therapeutic factors associated to pre-term birth are collected on the Clinical Practice Guideline for care in Pregnancy and Puerperium in the Spanish National Health Service (NHS),12 on the ‘Protocol de Seguiment de l’embaràs a Catalunya’ (Protocol on pregnancy monitoring in Catalonia),13 and on numerous publications14,15 (Table S1). Moreover, pre-term birth has been associated with stress,16,17 and low socio-economic status.7

The Spanish NHS guideline systematically evaluates postpartum depression, but it does not recommend a similar population screening during pregnancy, unlike other countries. It neither recommends a systematic mental health examination on women of childbearing age.

The current study aims to study the relationship between maternal affective disorders (AD) and pre-term birth, controlling by the confusion factors associated to pre-term birth, and differentiating between those factors which appeared priorly, and those presenting during pregnancy. Since mental health disorders are not as extensively investigated as physical conditions, on the patient anamnesis performed on women in family and maternal and child primary healthcare services, we will dedicate special attention to them.

This study is framed within the primary healthcare area, being its implementation necessary since to date, no similar clinical study has been performed in our country.

The aim is to study the relationship between maternal affective disorders (AD) before and during pregnancy, and pre-term birth.

Material and methodsDesign, area of study, and research subjects

Retrospective observational study conducted in the primary health care area.

Data were obtained from the Information System for the Enhancement of Research in Primary Care (SIDIAP) database, with an assigned population in 2012 of 5,835,000 patients (80% of the total population in Catalonia). This database is supplied, among other, by information from the Primary Care electronic medical records (e-CAP), and from the Sexual and Reproductive Health Care Program (ASSIR) of the Catalan Institute of Health (ICS), used by obstetricians, gynaecologists, and midwives in primary care. The ASSIR records include data on pregnancy, delivery, and postpartum monitoring from women who attended the primary health care services of the ICS,18 accounting for 65.7% term pregnancies in Catalonia, over the period of our study.19

All pregnant women registered in the SIDIAP, aged 15–47, who gave birth to live-born children in Catalonia from 1st January 2012 to 30 October 2015, with a gestational age over 25 weeks and under 44 weeks, and with two foetuses at most, were included in the study.

Variables

Pre-term birth was defined as gestational age under 37 weeks, based on the number of days from the date of last menstruation to the date of birth.

AD included the following ICD-10 codes: F30 (Manic episode), F31 (Bipolar disorder), F32 (Depressive disorders), F33 (Recurrent depressive disorder), F34 (Persistent mood affective disorder), F38 (Other mood affective disorders), F39 (Unspecified mood affective disorders), presenting before pregnancy (at any time of life) or during pregnancy.

Socio-economic status was classified according to the Deprivation index MEDEA,20 presented in quintiles (the highest quintile, the lower socio-economic status). All the variables related to pre-term birth found on the clinical guides, and on the conducted bibliographic search, were collected7,12–17 (Table S1). Considering the ICD-10,099 code includes all mental disorders, those most discussed and controverted on the reviewed literature, were chosen. Those AD interrelated, especially when scarce in number, were gathered, namely, stress and dissociative disorder (SDD), eating disorder (ED), anxiety disorder, obsessive compulsive disorder (OCD), etc. Whether these diagnoses were active before or during pregnancy was taken into consideration.

Finally, all treatments related to pre-term birth, based on clinical guides and literature, were registered, and coded according to the “Anatomical Therapeutic Chemical Classification” (WHOCC-ATC)21 (Table S2). It was also recorded whether medication was taken before or during pregnancy.

Statistical analysis

Descriptive statistical analysis, showing median and interquartile range for numeric variables, and absolute and relative frequency for categorical variables; A bivariate analysis according to pre-term birth, was performed, through Wilcoxon test for numeric variables and Chi-square test for categorical variables.

A multivariate logistic regression model was built (final model obtained by an AIC stepwise backwards variable selection model from all statistically and clinically relevant variables on the bivariate analysis), without including possible interactions between them.

All analyses were conducted by complete case (without missing values being treated). Significance level of 0.05 was considered as indicator of statistically significant differences. Treatment of data and statistical analyses were performed using software R 3.2.4-revised.

Results

Out of the 119,036 pregnancies which fulfilled the inclusion criteria, valid information for the study was obtained from 102,086 women (85%). The prevalence of affective disorders during pregnancy was 3.5%, and the prevalence of pre-term birth 4.2%. Patients who presented pre-term birth showed a significantly higher age, a lower socio-economic status, a higher history of previous pre-term birth, a higher history of abortion, a shorter interval between pregnancies, and a higher rate of twin pregnancies (Table 1). Pre-term birth was also significantly associated with history of AD, OCD, SDD, smoking, and ED, among other (Table 2).

Table 1.

Descriptive global and bivariate analysis of maternal characteristics, previous pregnancies, and labour regarding preterm birth.

N=102,086  Missing  Global (n=102,086)  Normal (n=97,800)  Preterm (n=4,286)  p-Value 
Socio-demographic characteristics
Agea  31.00 [27.00, 35.00]  31.00 [27.00, 35.00]  32.00 [28.00, 36.00]  <0.001 
MEDEA deprivation index        0.038 
Rural    15,487 (15.17%)  14,804 (15.14%)  683 (15.94%)   
Quintile 1 (less disadvantaged)    9,553 (9.36%)  9,188 (9.39%)  365 (8.52%)   
Quintile 2    24,866 (24.36%)  23,864 (24.40%)  1,002 (23.38%)   
Quintile 3    14,508 (14.21%)  13,913 (14.23%)  595 (13.88%)   
Quintile 4    17,236 (16.88%)  16,514 (16.89%)  722 (16.85%)   
Quintile 5 (more disadvantaged)    20,436 (20.02%)  19,517 (19.96%)  919 (21.44%)   
Partnership status        0.468 
Single    37,279 (36.52%)  35,691 (36.49%)  1,588 (37.05%)   
Partner    64,807 (63.48%)  62,109 (63.51%)  2,698 (62.95%)   
Previous delivery
Term deliveryb  1,334  1.07 (1.01)  1.08 (1.01)  0.81 (0.99)  <0.001 
Preterm deliveryb  1,334  0.03 (0.19)  0.02 (0.16)  0.22 (0.52)  <0.001 
Abortionb  1,334  0.46 (0.79)  0.46 (0.79)  0.53 (0.88)  <0.001 
Live bornb  1,334  1.08 (1.01)  1.09 (1.00)  0.98 (1.02)  <0.001 
Inter-pregnancy interval        <0.001 
(>18 months)    85,813 (84.06%)  82,292 (84.14%)  3,521 (82.15%)   
[12–18] months    5,334 (5.23%)  5,102 (5.22%)  232 (5.41%)   
[0–12] months    10,939 (10.72%)  10,406 (10.64%)  533 (12.44%)   
Delivery characteristics
Type  14,439        <0.001 
Eutocic    56,808 (64.81%)  54,974 (65.36%)  1,834 (51.81%)   
Dystocic    30,839 (35.19%)  29,133 (34.64%)  1,706 (48.19%)   
Number of foetuses        <0.001 
  100,624 (98.57%)  96,872 (99.05%)  3,752 (87.54%)   
  1,462 (1.43%)  928 (0.95%)  534 (12.46%)   

Qualitative variables are expressed in absolute and relative frequency for each category, and numeric variables are expressed in (a) median and interquartile range, or (b) media and standard deviation. Variable distribution between preterm and term labour groups is compared by Wilcoxon test for numeric variables, and Chi-square test for categorical variables.

Table 2.

[ll1]Health conditions before birth. Descriptive and bivariate analysis according to preterm birth.

  Previous historyDuring pregnancy
  Global  Normal (n=97,800)  Preterm (n=4,286)  p-Value  Global  Normal (n=97,800)  Preterm (n=4,286)  p-Value 
Affective disorder  1,631 (1.60%)  1,533 (1.57%)  98 (2.29%)  <0.001  3,571 (3.50%)  3,387 (3.46%)  184 (4.29%)  0.004 
Anxiety disorder and obsessive-compulsive disorder  6,775 (6.64%)  6,427 (6.57%)  348 (8.12%)  <0.001  14,996 (14.69%)  14,294 (14.62%)  702 (16.38%)  0.002 
Dissociative and stress disorder  746 (0.73%)  695 (0.71%)  51 (1.19%)  <0.001  1,922 (1.88%)  1,818 (1.86%)  104 (2.43%)  0.009 
Smoker  7,962 (7.80%)  7,623 (7.79%)  339 (7.91%)  0.806  22,533 (22.07%)  21,491 (21.97%)  1,042 (24.31%)  <0.001 
Non-smoker  2,455 (2.40%)  2,372 (2.43%)  83 (1.94%)  0.046  47,962 (46.98%)  46,045 (47.08%)  1,917 (44.73%)  0.003 
Mental and behavioural disorders due to use of tobacco  2,869 (2.81%)  2,756 (2.82%)  113 (2.64%)  0.511  15,961 (15.63%)  15,217 (15.56%)  744 (17.36%)  0.002 
Eating disorder  207 (0.20%)  192 (0.20%)  15 (0.35%)  0.044  833 (0.82%)  803 (0.82%)  30 (0.70%)  0.438 
Mental and behavioural disorders due to use of psychoactive substances  125 (0.12%)  120 (0.12%)  5 (0.12%)  1.000  451 (0.44%)  422 (0.43%)  29 (0.68%)  0.024 
Mental and behavioural disorders due to use of alcohol  69 (0.07%)  63 (0.06%)  6 (0.14%)  0.118  277 (0.27%)  250 (0.26%)  27 (0.63%)  <0.001 
Divorce  287 (0.28%)  275 (0.28%)  12 (0.28%)  1.000  1,468 (1.44%)  1,387 (1.42%)  81 (1.89%)  0.013 
In Vitro fertilization  147 (0.14%)  135 (0.14%)  12 (0.28%)  0.028  573 (0.56%)  503 (0.51%)  70 (1.63%)  <0.001 
Caesarean  1,033 (1.01%)  973 (0.99%)  60 (1.40%)  0.012  334 (0.33%)  322 (0.33%)  12 (0.28%)  0.677 
Twin pregnancy  39 (0.04%)  36 (0.04%)  3 (0.07%)  0.491  169 (0.17%)  114 (0.12%)  55 (1.28%)  <0.001 
Placental pathology  13 (0.01%)  12 (0.01%)  1 (0.02%)  1.000  23 (0.02%)  19 (0.02%)  4 (0.09%)  0.008 
Placenta praevia, detachment, antepartum haemorrhage  780 (0.76%)  752 (0.77%)  28 (0.65%)  0.446  2,623 (2.57%)  2,413 (2.47%)  210 (4.90%)  <0.001 
Pre-eclampsia-Eclampsia  417 (0.41%)  383 (0.39%)  34 (0.79%)  <0.001  1,046 (1.02%)  892 (0.91%)  154 (3.59%)  <0.001 
Hypertension  110 (0.11%)  101 (0.10%)  9 (0.21%)  0.065  852 (0.83%)  751 (0.77%)  101 (2.36%)  <0.001 
Glomerular disease, tubulo-interstitial disease, lithiasis, other  1,432 (1.40%)  1,366 (1.40%)  66 (1.54%)  0.475  1,608 (1.58%)  1,524 (1.56%)  84 (1.96%)  0.045 
Metabolic disorder  310 (0.30%)  293 (0.30%)  17 (0.40%)  0.323  3,829 (3.75%)  3,603 (3.68%)  226 (5.27%)  <0.001 
Viral Hepatitis  270 (0.26%)  249 (0.25%)  21 (0.49%)  0.005  769 (0.75%)  735 (0.75%)  34 (0.79%)  0.827 
Diabetes Mellitus  49 (0.05%)  44 (0.04%)  5 (0.12%)  0.082  372 (0.36%)  333 (0.34%)  39 (0.91%)  <0.001 
Toxic liver disease  5 (0.00%)  3 (0.00%)  2 (0.05%)  0.004  8 (0.01%)  7 (0.01%)  1 (0.02%)  0.772 
Sexual transmission disease  251 (0.25%)  233 (0.24%)  18 (0.42%)  0.028  789 (0.77%)  761 (0.78%)  28 (0.65%)  0.410 
Viral disease  14,230 (13.94%)  13,577 (13.88%)  653 (15.24%)  0.013  5,219 (5.11%)  4,982 (5.09%)  237 (5.53%)  0.218 
Mycosis (Aspergillus, etc.)  47 (0.05%)  46 (0.05%)  1 (0.02%)  0.731  96 (0.09%)  86 (0.09%)  10 (0.23%)  0.005 
Blood disorder  58 (0.06%)  52 (0.05%)  6 (0.14%)  0.045  479 (0.47%)  459 (0.47%)  20 (0.47%)  1.000 
Congenital malformation  126 (0.12%)  119 (0.12%)  7 (0.16%)  0.591  1,127 (1.10%)  1,062 (1.09%)  65 (1.52%)  0.010 
Cerebral palsy and other  4 (0.00%)  4 (0.00%)  0 (0.00%)  1.000  29 (0.03%)  25 (0.03%)  4 (0.09%)  0.035 
Vestibular disorder  2325 (2.28%)  2,208 (2.26%)  117 (2.73%)  0.048  1,220 (1.20%)  1,165 (1.19%)  55 (1.28%)  0.638 
Benign tumoura  493 (0.48%)  452 (0.46%)  41 (0.96%)  <0.001  2319 (2.27%)  2,198 (2.25%)  121 (2.82%)  0.015 
Tumour  37 (0.04%)  35 (0.04%)  2 (0.05%)  1.000  113 (0.11%)  102 (0.10%)  11 (0.26%)  0.007 
a

Digestive system, respiratory, intrathoracic, bone and cartilage, lipomatous, mesothelial, conjunctive, ovarian, uterus, meningeal, encephalous.

Absolute and relative frequency of women presenting the characteristic are shown for each variable. Variable distribution between preterm and term labour groups is compared by Chi-square test. This description and test are conducted on variables prior to pregnancy (previous history) and variables during pregnancy.

With regard to health conditions during pregnancy (Table 2), pre-term birth was bivariately associated with anxiety, OCD, AD, SDD, divorce, smoking, mental disorder due to psychoactive substance use, abuse of alcohol and tobacco, among other. It was also associated with history of antidepressant intake and use of antipsychotics during pregnancy, among other (Table 3).

Table 3.

Use of medication prior to birth. Descriptive and bivariate analysis according to preterm birth.

  Previous historyDuring pregnancy
  Global (n=102,086)  Normal (n=97,800)  Preterm (n=4,286)  p-Value  Global (n=102,086)  Normal (n=97,800)  Preterm (n=4,286)  p-value 
Anticoagulants  3,548 (3.48%)  3,385 (3.46%)  163 (3.80%)  0.249  1,770 (1.73%)  1,578 (1.61%)  192 (4.48%)  <0.001 
Antidepressants  11,529 (11.29%)  10,962 (11.21%)  567 (13.23%)  <0.001  4,143 (4.06%)  3,936 (4.02%)  207 (4.83%)  0.010 
Androgens  21,109 (20.68%)  20,253 (20.71%)  856 (19.97%)  0.252  9,125 (8.94%)  8,589 (8.78%)  536 (12.51%)  <0.001 
Antipsychotics  2,179 (2.13%)  2,070 (2.12%)  109 (2.54%)  0.066  407 (0.40%)  374 (0.38%)  33 (0.77%)  <0.001 
ACEI  382 (0.37%)  337 (0.34%)  45 (1.05%)  <0.001  191 (0.19%)  160 (0.16%)  31 (0.72%)  <0.001 
Progestagens  18,744 (18.36%)  17,993 (18.40%)  751 (17.52%)  0.153  8,191 (8.02%)  7,704 (7.88%)  487 (11.36%)  <0.001 

Absolute and relative frequency of use, are shown for each medication. Variable distribution between preterm and term labour groups is compared by Chi-square test. This description and test are conducted on use of medication prior to pregnancy (previous history) and during pregnancy.

ACEI=angiotensin converting enzyme inhibitors.

Pre-term birth was significantly associated with history of AD, SDD, ED, and smoking among other, in the final multivariate model. It was also associated with presence of smoking and mental disorder due to use of alcohol during pregnancy, among other (Table 4). The association between AD before pregnancy and pre-term birth, in terms of punctual estimation of the adjusted OR (1.32 95%CI: [1.04, 1.64]) was inferior than Eclampsia (3.22 [2.63, 3.90]), DM (2.31 [1.56, 3.31]), and HTA (2.15 [1.64, 2.79]) and Placenta praevia, detachment, antepartum haemorrhage (1.80 [1.53, 2.11]), and superior than smoking (non-smokers OR: 0.92 [0.86, 0.98]). Presence of SDD during pregnancy was relevant, providing plausibility to the model, although its marginal effect did not reach statistical significance. Association between AD during pregnancy and pre-term birth was not statistically significant.

Table 4.

Multivariate analysis on health conditions prior and during pregnancy and preterm birth.

    Odds Ratio [CI95%]  p-Value 
(Independent term)    0.00 [0.00, 0.00]  <0.001 
Affective disorders during pregnancy    1.07 [0.90, 1.26]  0.413 
Previous births characteristics  Term birth  0.54 [0.45, 0.63]  <0.001 
  Preterm birth  4.68 [4.00, 5.45]  <0.001 
  Abortion  1.07 [1.03, 1.11]  0.001 
  Live-born  1.44 [1.21, 1.71]  <0.001 
Socio-economic status  Rural  -reference-   
  Quintile 1 (less disadvantaged)  0.92 [0.80, 1.05]  0.231 
  Quintile 2  0.92 [0.82, 1.02]  0.117 
  Quintile 3  0.91 [0.81, 1.03]  0.144 
  Quintile 4  0.98 [0.88, 1.10]  0.789 
  Quintile 5 (more disadvantaged)  1.09 [0.97, 1.21]  0.136 
Inter-pregnancy interval  Without short interval  -reference-   
  12 to 18 months  0.98 [0.84, 1.14]  0.822 
  Under 12 months  1.19 [1.07, 1.32]  <0.001 
Number of foetuses    14.32 [12.37, 16.55]  <0.001 
Previous history
Affective disorder    1.32 [1.04, 1.64]  0.017 
Dissociative and stress disorder    1.41 [1.02, 1.91]  0.030 
Non-smoker    0.72 [0.56, 0.91]  0.007 
Eating disorder    1.91 [1.05, 3.20]  0.022 
Viral Hepatitis    1.79 [1.04, 2.90]  0.025 
Toxic liver disease    12.75 [1.53, 83.93]  0.009 
Benign tumoura    1.70 [1.18, 2.38]  0.003 
During pregnancy
Medication
Anticoagulants    1.39 [1.15, 1.67]  <0.001 
Androgens    1.23 [1.10, 1.36]  <0.001 
Antipsychotics    1.61 [1.05, 2.36]  0.021 
ACEI    1.88 [1.13, 3.03]  0.012 
Health conditions
Dissociative and stress disorder    1.24 [0.99, 1.53]  0.051 
Non-smoker    0.92 [0.86, 0.98]  0.010 
Mental and behavioural disorders due to use of alcohol    1.92 [1.20, 2.93]  0.004 
In Vitro fertilization    1.46 [1.05, 2.00]  0.021 
Placenta praevia, detachment, antepartum haemorrhage    1.80 [1.53, 2.11]  <0.001 
Eclampsia    3.22 [2.63, 3.90]  <0.001 
Hypertension    2.15 [1.64, 2.79]  <0.001 
Glomerular disease, tubulo-interstitial disease, lithiasis, other    1.20 [0.94, 1.52]  0.128 
Metabolic disorder    1.30 [1.11, 1.51]  <0.001 
Diabetes Mellitus    2.31 [1.56, 3.31]  <0.001 
Mycosis (Aspergillus, etc.)    3.35 [1.60, 6.26]  <0.001 
Congenital malformation    1.24 [0.94, 1.61]  0.122 
Cerebral palsy and other    2.72 [0.74, 7.74]  0.088 
Tumour    2.38 [1.12, 4.51]  0.014 
a

Digestive system, respiratory, intrathoracic, bone and cartilage, lipomatous, mesothelial, conjunctive, ovarian, uterus, meningeal, encephalous.

ACEI=angiotensin converting enzyme inhibitors.

Results of the multivariate logistic regression model on preterm birth. Final model obtained by “stepwise backwards” variable selection model based on the “Akaike Information Criteria” from all statistically significant and clinically relevant variables on the bivariate analysis, as explicative variables. Results are presented in “Odds Ratio”, with a confidence interval of 95%, estimated as the exponential of the obtained coefficient from the multivariate logistic regression model, and p-value of its statistical significance.

Discussion

This study shows an association between previous history of maternal AD and pre-term birth. The prevalence of pre-term birth obtained in our study was 4.2%, lower than the 7% expected.19 This may have been due to the restrictive inclusion criteria considered in the study, and to the fact that in 2012 not all ASSIR relied on the same electronic register.

The prevalence of AD during pregnancy obtained in our study is considerably lower than that published on most studies which use depression scales without diagnostic confirmation (often self-reported),3,4 being comparable to that reported in studies which use clinical diagnoses,22 and even to that found in studies performed in psychiatric in-patient wards.8

Most widely used health evaluation instruments present sensitivity and specificity values which are far from ideal. Therefore, the ‘Edinburgh Postnatal Depression Scale’ (EPDS) shows a sensitivity of 0.72 and a specificity of 0.85 for the 10 cut-off point for ‘minor’ or ‘major depression’ on the English version, and 0.81 and 0.92 respectively, on the non-English versions4; The sensitivity and specificity values for the ‘Patient Health Questionnaire’ (PHQ) are 0.79 and 0.75 respectively. Accordingly, the use of this type of screening tools -with specificity far from ideal- to screen population for low prevalence conditions automatically triggers prevalence values.

Whereas the definition of AD, would lead one to expect a higher prevalence than that found in those studies limited to depression (most of them), it is to be expected a lower prevalence of AD in the population seen in primary care (general population) than in the population seen in specialized centres.

Despite identifying a bivariate association between AD during pregnancy and pre-term birth initially, we did not observe this association on the multivariate analysis, after considering history of AD (prior to pregnancy), and other factors like the use of relevant medication, whose bivariate association with pre-term birth had also resulted significant. These results contradict the findings of the two meta-analysis published on this matter23,24; although the authors themselves recognize their studies’ limitations: Grigoriadis23 concluded that the association was modest and the quality of evidence insufficient, and Grote24 reported lack of homogeneity among the evaluated studies. Both considered significantly fewer confusion factors than our work, which may explain this assumed difference.

However, our findings are consistent with more recent publications: Mei-Danobserved an association between history of maternal AD and pre-term birth, after comparing pregnant women who had been hospitalized due to bipolar disorder or major depression within the 5 years prior to pregnancy, with those without documented history of mental disorder. We consider that the higher the diagnostic specificity, the stronger this association becomes. Furthermore, Mannisto,22 observed an association between pre-term birth and maternal depression or bipolar disorder, based on electronic medical records and maternal psychiatric diagnoses from discharge summaries. Räisänen7 found a significant association between depression and pre-term birth, being smoking a relevant contributing factor, and history of depression prior to pregnancy the risk factor with the strongest association.

On the other hand, considering the generalized concept that prevalence of depression may be lower in the Mediterranean area, since our study was conducted in a Spanish population, we may expect a lower rate of AD than that found in North European or North American populations. However, last report from the WHO contradicts this assumption,25 having reported a higher relevance of low socio-economic status on the prevalence of this disorder, regardless of the country in which the study was conducted. Our work includes a population from all socio-economic status, which may explain the lower prevalence of depression, and is novel since addresses pregnant women resident in Catalonia.

Some authors have observed association between low socio-economic status (LSES) and situations of chronic stress, and between both with depression and pre-term birth.16,17 In our study both LSES and diagnosis of SDD were associated to pre-term birth in the bivariate analysis. Multivariate analysis showed association between previous history of SDD and pre-term birth; however, the association of SDD during pregnancy with pre-term birth was not statistically significant, although by a very small margin. Most authors underline the relevance of identifying and alleviating exposure to stress during pregnancy, as far as possible, to reduce pre-term birth26; our results demonstrate the importance of evaluating the presentation of these disorders prior to pregnancy.

With regards to use of antidepressants, two meta-analysis recently conducted on the antidepressant-pre-term birth association, Huang and Eke,27,28 considering exclusively selective serotonin reuptake inhibitors (SSRIs), found an association between the use of SSRIs and pre-term birth. Viktorin, just observed a small reduction in gestational age associated to SSRIs.29 Sujan published in 2017 a retrospective cohort study, in which association between use of antidepressants, in general, during the first trimester of pregnancy and pre-term birth was observed.30 Our results, considering all antidepressants – except mood stabilizers-are consistent with these findings in the bivariate analysis, although do not coincide in the multivariate analysis. This discrepancy suggests the need to conduct further studies on the effect of the various antidepressant drugs on pre-term birth.

With reference to the relationship between use of antipsychotic medication during pregnancy and pre-term birth, we observed a statistically significant association, consistent with the findings of Galbally.14 It seems sensible to follow the general tendency to evaluate the risk-benefit relationship of using this medication in the pregnant woman who needs it, thoroughly and individually.31

One of the limitations of this study is the possible existence of incorrect or unregistered diagnoses, inherent to the use of electronic medical. In primary care settings, the data are entered by general practitioners, due to their own diagnosis, or because they have seen it in specialist reports or hospital discharge reports (in these last two cases the data are not downloaded automatically in the computerized records of primary care, with the consequent delay in the coding of hospital and specialist diagnoses). This can also ignore the diagnoses made in private care and not seen in primary care. And finally, it is also of note that data obtained from ASSIR of 2012 were incomplete, as the ASSIR electronic medical records were not homogeneous then.

Although the big sample size and representativeness of the study is an important strength, it must be advised that it can affect to the statistical signification of tests, easily leading to significance. Nevertheless (and keeping that in mind when valuing p-values), multivariate regression model was selected according to Akaike Information Criteria, and variables were included or not in the final model with disregard of their p-values.

On the other hand, our multivariate analysis only took into account the effect of the independent variables without interaction among them; since being such a large number, made it practically impossible to examine all variables two by two. Due to the exploratory nature of the study, it was considered inadequate to force a hypothesis on a limited number of possible interactions.

Nevertheless, the SIDIAP data base has been widely validated. Unlike other data bases, all primary care professionals in the ICS participate in it, not only voluntaries; and benefits from a first-rate anonymity system,18 which can open the way to conduct further research in our line, and in other areas where similar data bases – which include most of the population treated in the primary healthcare – may be established.

In conclusion, a previous history of AD in pregnant women is associated to pre-term birth. Classically, general habits and physical conditions have received more attention when evaluating health in pregnancy. This study demonstrates that, at least regarding avoiding pre-term birth and its severe consequences, to investigate the history of affective disorders, and the psychosocial environment in the pregnant woman is of great relevance, considering the potential stressful situations which may affect the course of pregnancy.

We coincide with some authors in that the aforementioned should be explored within a general examination, in a trusted environment, within the framework of the appropriate physician-patient relationship in primary care; paying attention to avoid that the patient may feel stigmatized or fear social services intervention.32 This becomes easier if we regard that any women of childbearing age can be a mother, and establish this desirable relationship from adolescence, whenever possible. A thorough anamnesis, which includes psychosocial factors – like the already available in many primary care devices, which have not received the attention they deserve – is undoubtedly, a suitable instrument to perform this task.

Key PointsThe known on the subject:

Depression is the most frequent mental disorder in women and it may alter the course of pregnancy, affect the foetus, and the newborn.

Studies on the relationship between affective disorders and pre-term birth are scarce, therefore, and few data on this matter are available in our country.

The Spanish NHS guideline systematically evaluates postpartum depression, but it does not recommend a similar population screening during pregnancy, unlike other countries.

What does this study contribute?

This study shows an association between previous history of maternal affective disorders and pre-term birth.

To investigate the history of affective disorders, and the psychosocial environment in the pregnant woman is of great relevance, considering the potential stressful situations which may affect the course of pregnancy and avoiding pre-term birth and its severe consequences.

A thorough anamnesis, which includes psychosocial factors – like the already available in many primary care devices, which have not received the attention they deserve – is undoubtedly, a suitable instrument to perform this task.

Funding

This study received a research grant from the SIDIAP (Information System for the Enhancement of Research in Primary Care) of the University Institute for Research in Primary Care (IDIAP) Jordi Gol, in its 4th call for 2014.

Conflict of interest

The authors declare that there is no conflict of interest regarding the publication of this article.

Appendix A
Supplementary data

The following are the supplementary data to this article:

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Editorial.
Screening for perinatal depression: a missed opportunity.
Copyright © 2018. The Authors
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