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Article

Significance of Affection Changes during Pregnancy: Intimacy, Passion, and Commitment

by
Francisco Javier Fernández-Carrasco
1,
Urbano González-Mey
2,
Luciano Rodríguez-Díaz
3,
Juana María Vázquez-Lara
3,
Juan Gómez-Salgado
4,5,* and
Tesifón Parrón-Carreño
6,7
1
Department of Gynecology and Obstetrics, Hospiten Group, Hospiten Estepona, 29680 Estepona, Málaga, Spain
2
Department of Surgery, Hospital Punta de Europa, 11207 Algeciras, Cádiz, Spain
3
Department of Gynecology and Obstetrics, Hospital Universitario de Ceuta, Midwifery Teaching Unit of Ceuta, Spain, University of Granada, 51003 Ceuta, Spain
4
Department of Sociology, Social Work, and Public Health, University of Huelva, 21007 Huelva, Spain
5
Safety and Health Postgraduate Program, Espíritu Santo University, 092301 Samborondón, Guayaquil, Ecuador
6
School of Health Sciences, University of Almeria, 04120 Almeria, Spain
7
Territorial Delegation of Equality, Health and Social Policies, Health Delegation of Almeria, Junta de Andalucía, 04003 Almeria, Spain
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2019, 16(13), 2254; https://doi.org/10.3390/ijerph16132254
Submission received: 11 June 2019 / Revised: 21 June 2019 / Accepted: 24 June 2019 / Published: 26 June 2019
Browse Figures
Versions Notes

Abstract

:
The complex process of gestation involves significant biological, psychological, and social changes for both women and men looking toward the same direction. The aim of this study was to analyze changes occurring in affective health between the members of a couple during pregnancy. For this, a cross sectional descriptive study using Sternberg’s questionnaire based on his Triangular Theory of Love (intimacy, passion, and commitment) was implemented. A total of 180 couples participated in the study. Data were collected four times during pregnancy: at the beginning, during the first trimester, the second trimester, and during the third trimester. The level of intimacy was higher at the beginning of pregnancy (123.93 ± 9.67), the same as the level of passion (119 ± 9.83). The commitment score in women was, in general, higher than in men. The commitment score in men increased at the beginning of the third trimester (124.31 ± 7.72). Statistically significant differences between the sexes were found for the level of commitment at the beginning of the pregnancy (p = 0.001) and at the third trimester (p = 0.008), these scores being higher for women than for men. No significant differences between men and women were found for the remaining components of the triangle. During pregnancy, no significant changes were found regarding overall affection throughout the entire period.

1. Introduction

Antoine de Saint-Exupéry said that ‘love does not consist in gazing at each other but in looking outward together in the same direction’ [1]. Pregnancy is closely linked to this approach to affection. Undoubtedly, the wonderful and complex process of gestation involves significant biological, psychological, and social changes for both women and men [2], particularly during the postpartum period [3]. Changes in the psychobiology sphere occurring during pregnancy can lead to sexual dysfunctions in women in this stage of their lives as well as in men [4,5,6].
The concept of love is difficult to define; therefore, it is difficult to measure. One of the first approaches to its conceptualization was developed by Robert J. Sternberg with his Triangular Theory of Love, where he suggested that the affective relationship could be understood in terms of three components: intimacy, passion, and commitment [7].
Intimacy refers to feelings of closeness, connectedness, and bondedness in loving relationships. Therefore, intimacy includes those feelings that lead essentially to the experience of warmth in a loving relationship. Passion refers to the impulses that lead to romance, physical attraction, sexual consummation, and the related phenomena in loving relationships. The passion component includes sources of motivation and other forms of arousal that lead to the experience of passion in a loving relationship. Commitment refers to the decision of loving each other, and, in the long-term, to maintaining the attachment.
Several studies on sexuality during pregnancy have been conducted. Von Sydow analyzed 59 studies on sexuality during pregnancy published between 1950 and 1996 and found changes in sexual interest and activity during pregnancy when compared to before pregnancy [8]. These studies focused on the coital activity of pregnant women and provided scarce or absent information about men as well as non-coital sexual activity and feelings. The studies conducted by Brtnicka et al. also focused on the interest in sex and the sexual activity of pregnant women [9]. Similarly, Sacomori and Cardoso studied sexual practices in pregnant Brazilian women using questionnaires [10]. Nevertheless, there have been some studies that have approached affection [11]. Others have even approached the feelings, love, and affection of pregnant women, which considered that these feelings strengthened self-satisfaction (satisfaction with themselves) and promoted life continuity, symbolized by pregnancy [12].
In a similar way, studies focusing on men had only explored the sexual behaviors and beliefs related to the convenience of sexual intercourse during pregnancy, the frequency of sex, and even the convenience of having an extra-marital partner during this period [13,14]. LaRossa and Sapién and Córdoba conducted qualitative studies about the sexual activity of men during pregnancy [15,16]. However, few researchers have approached the measure of this issue using the tool described by Sternberg and Grajek [17], as modified by Yela [18], or their own tool such as Rusbult [19], but none have focused on pregnancy and no one has assessed the behavior of triadic love during pregnancy.

2. Materials and Methods

The present study parts from the meaning of an affective relationship for the members of different couples and analyzes the affective changes they experience during the entire pregnancy. A cross-sectional descriptive study was conducted. The study population consisted of pregnant women and their male partners who visited the Hospiten Estepona Health Centre in Estepona (Spain) for their first prenatal care visit from January 2017 to December 2018.
The sample size was considered sufficiently high when it determined differences of up to nine units between the paired means (i.e., the means between one trimester and the following one), a mean SD of both means of 30, and a significance level of 0.05, two-tailed contrast, and power of 0.80. This sample was randomly chosen among all women attending the healthcare center for prenatal care who met the inclusion criteria and whose partners also agreed to participate in the study.
The inclusion criteria were as follows:
-
Pregnant women recruited since the first prenatal care visit;
-
Men who were partners of these women; and
-
Both of them held Spanish nationality.
The exclusion criteria included:
-
Pregnant women who had not been recruited from the beginning of their pregnancies;
-
Women who developed any kind of disease during pregnancy; and
-
Women whose partners rejected enrolling in the study.
A total of 147 were initially recruited and 39 were excluded because their partners did not wish to participate in the study. Finally, 108 couples were included in the study.
The study analyzed sociodemographic variables such as sex, age, marital status, schooling level, number of children, number of miscarriages, and level of commitment. Data were collected using Sternberg’s love scale, and sociodemographic variables were collected using an ad hoc questionnaire. Sternberg’s love scale was distributed among the participants four times: at the first prenatal care visit, which was before week nine of pregnancy (beginning of pregnancy); at week 12 of pregnancy (first trimester); between weeks 20 and 24 of pregnancy (second trimester); and after week 32 of pregnancy (third trimester).
Sternberg’s Love Scale was validated in Spain by Carreño and Serrano [20]. The total Cronbach’s alpha was 0.96. Cronbach’s alpha values were 0.94, 0.88, and 0.93 for the intimacy, passion and commitment subscales, respectively.
During the first visit, participants were informed about the purpose and the development of the study. A written informed consent was signed by both members of the couple prior to participation. Data confidentiality was guaranteed as the information was recorded anonymously. The study was given consent from the directors and approved by the Ethics Committee of Research of the Hospiten Estepona Health Centre.
A statistical analysis was performed using the software SPSS version 23 (Windows, Chicago, IL, USA). Frequencies and percentages were determined for the qualitative variables. Means and standard deviations (SD) were determined for the quantitative variables. Pearson’s correlation coefficient, the Mann–Whitney U test, and the Kruskal–Wallis test were used for the bivariate analysis. A p < 0.05 was considered significant.

3. Results

The mean values, standard deviations, maximum, and minimum values are shown in Table 1.
With regard to marital status, Table 2 shows that most of the participants were married, almost 70% of the sample.
Table 3 shows that most of the participants in the study were graduates or postgraduates.
The bivariate analysis showed statistically significant differences regarding the age variable, which was slightly lower in the women than in the men (Table 4).
When performing the repeated measures analysis with the test totals (ANOVA), statistically significant differences were found both when analyzing the men and women combined and individually (p < 0.001). The Bonferroni test allows for the comparison of the means of the t levels of a factor after having rejected the null hypothesis (Ho) of the equality of means using the ANOVA technique. This test adjusts the level of significance in relation to the number of statistical tests performed simultaneously on a dataset. It is a test of multiple comparisons to avoid accumulating an error of 5% in each comparison pair. The Bonferroni test is based on the creation of a threshold above which the difference between the two means will be significant and below which this difference will not be statistically significant. When performing the post hoc Bonferroni test, significative differences were found between the second trimester and the rest (p < 0.001), and for both the combined analysis and the one performed on women. On the other hand, as for men, a difference was found between the second trimester and the first and fourth ones (p < 0.001) (Table 5).
With regards to the total test scores of the men and women at different time points throughout pregnancy, results are shown in Figure 1. Regarding the comparison by sex of the test domain scores and the total scores, statistically significant differences were only found regarding the initial commitment, with women obtaining higher scores than men (123.61 vs. 120.28). Likewise, statistically significant differences were found regarding commitment in the third trimester, with women also obtaining higher scores than men. No differences were found for the other domains or any of the four determinations of each remaining domain (Table 6).
By comparing the test scores with the schooling level, statistically significant differences were only found for commitment, with the highest scores found in uneducated participants or those with primary school education, followed by graduates or postgraduates. The lowest score was found in participants who had completed secondary/high school or technical education (Table 7).
When comparing all of the test components, the age and the number of children showed a positive correlation with a high and statistically significant Pearson’s coefficient. A significant correlation coefficient of 0.70 was found between intimacy and passion. Similarly, a significant correlation coefficient of 0.74 was found between intimacy and commitment. The correlation between intimacy and total score was higher than the other two correlations above-mentioned (0.90). A negative correlation was found between intimacy and age, but this value was not statistically significant. No significant correlation was found between intimacy and the number of children. As can be seen in Table 7, there was a positive and significative correlation between the three domains and the test total score as there was between commitment and the number of children 0.16 (p < 0.05).
Passion was significantly correlated with commitment (0.75) and with the total score (0.92). A negative correlation was found between passion and age, but this correlation was not significant. No significant correlation was found between passion and the number of children.
Commitment was significantly correlated with the total score (0.90). A negative correlation was found between commitment and age, but this correlation was not significant. No significant correlation was found between commitment and the number of children.
Total score was also negatively correlated with age and the number of children, but these correlations were not significant (Table 8).
The intimacy domain scores (Table 9 and Figure 2) remained practically the same. Regarding the scores of the women and men, these were higher at the beginning, decreased in the first trimester, and increased again in the second and third trimesters. Similarly, the same happened with the passion domain.
The post hoc Bonferroni test stablished a difference between the first trimester total scores and those of the other trimesters (p < 0.001), and between the second and the third trimesters (p = 0.026). Regarding women, the difference was established between the first trimester and the others (p < 0.001), and between the second and the third trimesters (p = 0.045). Regarding the Mann–Whitney U test, the difference was established between the first trimester and the others (p < 0.047).
Regarding the passion domain (Table 10 and Figure 3), the highest score was found at the beginning of the process. Then, it critically decreased, reaching the lowest level in the first trimester and increased again during the second and the third trimesters, though did not reach the initial level. In the second trimester, the score was slightly higher in women than in men.
The post hoc Bonferroni test established a difference between the initial total and the first trimester, and then between the initial total and each of the other trimesters (p < 0.001). For women, this difference was established between the initial total and the first trimester and between the initial total and each of the other trimesters (p < 0.001). Regarding the Mann–Whitney U test, this difference was also established between the initial total and the first and rest of the trimesters (p < 0.005).
Regarding the commitment domain, as can be seen in Table 11 and Figure 4, women always obtain higher scores than men, but the latter increase their scores from the beginning until the third trimester, while women show a slight decrease of these scores in the second trimester.
The post hoc Bonferroni test established a difference between the initial scores and those of the second and third trimesters (p < 0.004) and between the first and the second and third trimesters (p < 0.04). For women, this difference was established between the initial scores and those of the third trimester (p < 0.05) and between the first and the second and third trimesters (p < 0.001). Regarding the Mann–Whitney U test, this difference was established between the first and third trimester (p < 0.003).
Four linear mixed-effects regression models (LRM-ME) were developed for each dependent variable (questionnaire dimensions) that considered the randomized effect of the participants. Model I was null; model II was adjusted by the time variable; model III included the sex variable; and, eventually, model IV was adjusted by time and sex (only for those dependent variables whose independent variables were statistically significant in models II and III). The intercept variance shown in Table 12 indicates the individual variability.
Model II
An increase in time also increased intimacy by 0.279, significantly decreased passion by −0.72 (p < 0.001), and increased commitment by 1.13.
Model III
Being male decreased commitment by −1.74, without significantly affecting the intimacy and passion dimensions.
Model IV
An increase in time also increased commitment by 1.131, while the sex variable remained the same (p < 0.001). Being male decreased commitment by −1.741, while the time variable remained the same.

4. Discussion

Many studies using Sternberg’s Triangle Theory of Love have been published. However, so far, no one has investigated the importance of affective health during pregnancy as the sum of the three components (intimacy, passion, and commitment) proposed by this theory. This study aimed to elucidate the changes occurring in these parameters for each trimester throughout pregnancy.
Intimacy decreased slightly during the first trimester. Then, intimacy slowly recovered during the second and third trimesters, reaching similar levels to those found at the beginning in both sexes. Our results are consistent with recent studies showing no differences between the sexes regarding intimacy [21,22]. In contrast, other studies described higher levels of intimacy for women than for men [23,24]. Nevertheless, Dindia and Allen, in a meta-analysis, reported that this difference was small [25]. Findings revealed a dip in intimacy and passion during the first trimester. This may occur because the woman in the first trimester may feel discomfort from pregnancy such as nausea, hypersensitivity, etc., which would make her less keen to be intimate or express the passion she would express if she felt completely well. In addition, there is a belief and fear that a miscarriage may occur as a result of sexual contact, thereby diminishing the expression of intimacy and passion.
The outcomes of this study are consistent with the results found by Sorokowski et al. [26], as we also found an unexpected negative correlation between the women’s intimacy scores and the number of children, although this correlation was not statistically significant. It is likely that women that need to look after more children have less time to spend with their partners, which explains this lower level of intimacy. Mothers can also satisfy their need for intimacy through close contact with their children. Previous studies have demonstrated that the transition to parenthood can interfere with the sexual life and partnership within the couple [27], and that marital relations and parent–child relationships are interrelated [28].
Regarding passion, our study is consistent with recent studies that have stated that passion does not differ between sexes [29]. However, our results showed that passion clearly decreased during the first trimester of pregnancy in both men and women. However, as pregnancy progressed, passion was gradually recovered.
Regarding commitment, and according to Tsirigotis et al., women showed a greater level of commitment than men under normal conditions [30]. This study is also consistent with our results. However, despite women having a higher level of commitment than their partners throughout the entire pregnancy, we found that as pregnancy progressed, commitment became stronger among men. Nevertheless, other studies suggest that there are no differences between men and women regarding commitment.

5. Conclusions

Love that we may have toward our partner is different throughout the relationship, and therefore, love can change during different stages and situations in our lives.
Despite a significant change in the level of commitment (one of the three components) that was found during pregnancy, no significant changes were found for total affection throughout the entire period. During pregnancy, men increased their total level of commitment to their partner. At the end of pregnancy, men reached higher commitment levels than they had before gestation, whereas women maintained the same level throughout the entire pregnancy.
The results from this research may help in understanding the effect of pregnancy in the relationship of a couple. These could also help to identify situations of stress or lack of coping strategies. The results are also helpful in understanding the loving and caring environment that will welcome the baby.

Author Contributions

Conceptualization, F.J.F.-C. and J.M.V.-L.; Data Curation, U.G.-M. and T.P.-C.; Formal Analysis, F.J.F.-C.; Investigation, F.J.F.-C.; Methodology, F.J.F.-C., U.G.-M., L.R.-D., J.M.V.-L., and T.P.-C.; Resources, L.R.-D.; Supervision, L.R.-D., J.G.-S., and T.P.-C.; Validation, U.G.-M. and T.P.-C.; Visualization, F.J.F.-C. and T.P.-C.; Writing–Original Draft, F.J.F.-C.; Writing–Review & Editing, L.R.-D., J.M.V.-L., and J.G.-S.

Funding

This research received no external funding.

Conflicts of Interest

The authors declare no conflicts of interest.

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Ijerph 16 02254 g001 550
Figure 1. Total test scores of the men and women at different time points throughout pregnancy.
Figure 1. Total test scores of the men and women at different time points throughout pregnancy.
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Figure 2. Intimacy scores for the men and women at different time points throughout pregnancy.
Figure 2. Intimacy scores for the men and women at different time points throughout pregnancy.
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Figure 3. Passion scores for the men and women at different time points throughout pregnancy.
Figure 3. Passion scores for the men and women at different time points throughout pregnancy.
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Figure 4. Commitment scores for the men and women at different time points throughout pregnancy.
Figure 4. Commitment scores for the men and women at different time points throughout pregnancy.
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Table
Table 1. Mean values of the quantitative variables studied.
Table 1. Mean values of the quantitative variables studied.
VariablesNMinimumMaximumMeanS.D.
Women’s age108244332.724.20
Men’s age108214833.855.46
Years of relationship2162206.773.28
Number of children216030.600.74
Number of miscarriages216020.110.34
Intimacy21698.00135.00122.438.57
Passion21690.00133.75116.3010.66
Commitment21699.00133.50123.656.98
Total Test21699.00133.25120.797.92
Table
Table 2. Distribution of marital status.
Table 2. Distribution of marital status.
Marital StatusFrequencyPercentage
Married19569.6
Single6121.8
Divorced248.6
Total280100.0
Table
Table 3. Distribution of schooling level.
Table 3. Distribution of schooling level.
Schooling LevelFrequencyPercentage
Uneducated or Primary School4822.2
High or Technical School7534.7
Graduate or Postgraduate9343.1
Total216100.0
Table
Table 4. Mean age based on sex.
Table 4. Mean age based on sex.
SexNMinimumMaximumMeanS.D.p-Value *
Women108244332.724.20<0.001 *
Men108214833.855.46
* Asterisks represent statistically significant differences between men and women (Mann–Whitney U test, p-value < 0.05).
Table
Table 5. Initial and final total scores of the means of each trimester.
Table 5. Initial and final total scores of the means of each trimester.
Scores MeanS.D.p-Value *
TOTALInitial365.471.690.001
1st Trimester355.861.88
2nd Trimester362.771.85
3rd Trimester365.461.74
WOMENInitial367.002.200.001
1st Trimester355.802.88
2nd Trimester364.252.56
3rd Trimester366.082.65
MENInitial363.952.580.001
1st Trimester355.912.43
2nd Trimester361.302.67
3rd Trimester364.842.26
* Repeated measures ANOVA.
Table
Table 6. Comparison by sex of the test domain scores and the total scores.
Table 6. Comparison by sex of the test domain scores and the total scores.
DomainsSexNMeanS.D.p-Value *
Initial IntimacyFemale108123.588.480.84
Male108123.939.67
1st Trimester IntimacyFemale108119.7211.480.51
Male108119.6510.58
2nd Trimester IntimacyFemale108122.759.390.96
Male108122.4710.28
3rd Trimester IntimacyFemale108123.589.090.77
Male108123.837.56
Initial PassionFemale108119.819.380.66
Male108119.7511.22
1st Trimester PassionFemale108113.1412.240.85
Male108113.2112.07
2nd Trimester PassionFemale108116.1411.530.96
Male108115.3612.47
3rd Trimester PassionFemale108116.3311.250.54
Male108116.6912.34
Initial CommitmentFemale108123.617.420.001
Male108120.288.97
1st Trimester CommitmentFemale108122.949.390.35
Male108123.067.31
2nd Trimester CommitmentFemale108125.368.330.17
Male108123.478.91
3rd Trimester CommitmentFemale108126.179.380.008
Male108124.317.72
Initial TotalFemale108367.0022.890.28
Male108363.9526.90
1st Trimester TotalFemale108355.8029.930.62
Male108355.9125.28
2nd Trimester TotalFemale108364.2526.670.47
Male108361.3027.76
3rd Trimester TotalFemale108366.0827.590.52
Male108364.8423.57
Total MeanFemale108121.098.510.39
Male108120.507.31
* Mann–Whitney U test.
Table
Table 7. The total mean scores of each domain and the total sum test according to the level of education.
Table 7. The total mean scores of each domain and the total sum test according to the level of education.
DomainsSchoolingNMeanS.D.p-Value *
IntimacyUneducated or Primary School48124.267.180.32
High or Technical School75121.249.93
Graduate or Postgraduate93122.467.94
PassionUneducated or Primary School48117.529.770.15
High or Technical School75117.2811.14
Graduate or Postgraduate93114.8810.64
CommitmentUneducated or Primary School48126.134.45<0.001
High or Technical School75121.287.23
Graduate or Postgraduate93124.287.33
TotalUneducated or Primary School48122.635.860.54
High or Technical School75119.939.06
Graduate or Postgraduate93120.547.78
* Kruskal–Wallis test.
Table
Table 8. Correlations between the total components’ scores, age, and number of children.
Table 8. Correlations between the total components’ scores, age, and number of children.
ComponentsPassionCommitmentTotalAgeNumber of Children
IntimacyCorrel. Coef.0.700.740.90−0.0730.09
Sig. (Bilateral)<0.001<0.001<0.0010.280.15
PassionCorrel. Coef. 0.750.92−0.0650.03
Sig. (Bilateral) <0.001 *<0.0010.340.58
CommitmentCorrel. Coef. 0.90−0.0310.16
Sig. (Bilateral) <0.0010.640.02
TotalCorrel. Coef. −0.060.10
Sig. (Bilateral) 0.340.14
AgeCorrel. Coef. 0.30
Sig. (Bilateral) <0.001
* Asterisks represent statistically significant differences between groups (Pearson’s correlation coefficient p value < 0.05).
Table
Table 9. Initial and final intimacy means for each trimester.
Table 9. Initial and final intimacy means for each trimester.
Intimacy MeanS.D.p-Value *
TotalInitial123.750.610.001
1st Trimester119.680.75
2nd Trimester122.610.66
3rd Trimester123.700.56
WomenInitial123.580.810.001
1st Trimester119.721.10
2nd Trimester122.750.90
3rd Trimester123.580.87
MenInitial123.920.930.001
1st Trimester119.641.01
2nd Trimester122.470.99
3rd Trimester123.830.72
* Repeated measures ANOVA.
Table
Table 10. Initial and final passion means for each trimester.
Table 10. Initial and final passion means for each trimester.
Passion MeanS.D.p-Value *
TotalInitial119.770.700.001
1st Trimester113.170.82
2nd Trimester115.750.816
3rd Trimester116.510.802
WomenInitial119.800.9030.001
1st Trimester113.131.178
2nd Trimester116.131.110
3rd Trimester116.331.083
MenInitial119.71.080.001
1st Trimester113.211.16
2nd Trimester115.361.20
3rd Trimester116.691.18
* Repeated measures ANOVA.
Table
Table 11. Initial and final Commitment means for each trimester.
Table 11. Initial and final Commitment means for each trimester.
CommitmentPeriodMeanS.D.p-Value *
TotalInitial121.940.570.001
1st Trimester123.000.57
2nd Trimester124.410.58
3rd Trimester125.240.58
WomenInitial123.610.710.001
1st Trimester122.940.90
2nd Trimester125.360.80
3rd Trimester126.160.90
MenInitial120.270.860.001
1st Trimester123.050.70
2nd Trimester123.470.85
3rd Trimester124.310.74
* Repeated measures ANOVA.
Table
Table 12. Linear mixed-effects regression model (LRM-ME).
Table 12. Linear mixed-effects regression model (LRM-ME).
IntimacyModel IModel IIModel IIIModel IV
Fixed effects, coefficient (S.D.)
Intercept122.440 (0.528)122.023 (0.631)122.410 (0.822)
Time 0.279 (0.163) **
Sex 0.060 (0.164)
Random effects, variance (S.D.)
Intercept65.896 (7.048)65.928 (7.048)65.895 (7.048)
Residual28.913 (1.606)28.783 (1.599)28.913 (1.606)
Passion
Fixed effects, coefficient (S.D.)
Intercept116.304 (0.724)117.387 (0.771)116.354 (1.024)
Time −0.722 (0.176) *
Sex −0.100 (1.448)
Random effects, variance (S.D.)
Intercept104.590 (10.904)104.807 (10.903)104.588 (10.904)
Residual34.462 (1.915)33.594 (1.866)34.461 (1.915)
Commitment
Fixed effects, coefficient (S.D.)
Intercept123.651 (0.474)121.955 (0.539)124.521 (0.665)122.825 (0.713)
Time 1.131 (0.171) * 1.131 (0.171) *
Sex −1.741 (0.941) **−1.741 (0.940) **
Random effects, variance (S.D.)
Intercept40.137 (4.697)40.670 (4.694)39.380 (4.624)39.912 (4.621)
Residual33.715 (1.873)31.585 (1.755)33.715 (1.873)31.585 (1.755)
Model I: Null model; Model II: Includes the Time variable; Model III: Includes the Sex variable; Model IV: Includes both Sex and Time. * p value < 0.001 ** p value ≤ 0.10. S.D.: standard deviation

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Fernández-Carrasco, F.J.; González-Mey, U.; Rodríguez-Díaz, L.; Vázquez-Lara, J.M.; Gómez-Salgado, J.; Parrón-Carreño, T. Significance of Affection Changes during Pregnancy: Intimacy, Passion, and Commitment. Int. J. Environ. Res. Public Health 2019, 16, 2254. https://doi.org/10.3390/ijerph16132254

AMA Style

Fernández-Carrasco FJ, González-Mey U, Rodríguez-Díaz L, Vázquez-Lara JM, Gómez-Salgado J, Parrón-Carreño T. Significance of Affection Changes during Pregnancy: Intimacy, Passion, and Commitment. International Journal of Environmental Research and Public Health. 2019; 16(13):2254. https://doi.org/10.3390/ijerph16132254

Chicago/Turabian Style

Fernández-Carrasco, Francisco Javier, Urbano González-Mey, Luciano Rodríguez-Díaz, Juana María Vázquez-Lara, Juan Gómez-Salgado, and Tesifón Parrón-Carreño. 2019. "Significance of Affection Changes during Pregnancy: Intimacy, Passion, and Commitment" International Journal of Environmental Research and Public Health 16, no. 13: 2254. https://doi.org/10.3390/ijerph16132254

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