Skip to main content

ORIGINAL RESEARCH article

Front. Psychol., 07 July 2023
Sec. Psycho-Oncology

Pain-related and psychological factors mediate the effect of personality on health-related quality of life. A study in breast cancer survivors with persistent pain

  • 1Department of Anaesthesiology, Intensive Care and Pain Medicine, University of Helsinki and Helsinki University Hospital, Helsinki, Finland
  • 2Sleep Well Research Programme, University of Helsinki, Helsinki, Finland
  • 3Clinical Neurosciences, Neurology, University of Helsinki and Helsinki University Hospital, Helsinki, Finland
  • 4Department of Psychology and Logopedics, Faculty of Medicine, University of Helsinki, Helsinki, Finland
  • 5Department of Pharmacology, University of Helsinki, Helsinki, Finland

Introduction: Personality characteristics affect the long-term well-being and health-related quality of life (HrQoL) of breast cancer (BC) survivors. Persistent pain significantly affects psychosocial well-being and HrQoL in this patient group. We studied the effects of temperament and character via pain-related and psychological factors on dimensions of HrQoL in BC survivors.

Methods: We studied 273 patients who had been treated for BC and who reported persistent pain at any site of the body in Brief Pain Inventory. The patients were recruited from a longitudinal cohort of patients 4–9 years after surgery for BC. Short-Form-36 inventory was used to assess physical and mental dimensions of HrQoL and Temperament and Character Inventory to assess dimensions of temperament and character. We used parallel mediation modeling for studying effects of temperament and character on physical and mental HrQoL.

Results: A significant total effect was found for harm avoidance (HA) temperament (βtotal = −0.665, p < 0.001) and character dimensions self-directedness (SD) (βtotal = 0.609, p = 0.001) and cooperativeness (CO) (βtotal = 0.584, p = 0.028) on physical and mental HrQoL. Additionally, different combinations of pain-related and psychological variables fully mediated the indirect effects of HA, SD, and CO on physical and mental HrQoL.

Discussion: HA temperament is a potential emotional vulnerability factor for psychological burden and impaired HrQoL in BC survivors. Character dimensions SD and CO may protect from the negative effect of mood on HrQoL. The results provide new insights about the risk-and target-factors for clinical interventions and effective pain management to improve psychosocial well-being and HrQoL in BC survivors.

Introduction

Breast cancer (BC) is the most common cancer among women in Western countries (Ferlay et al., 2021). Since overall BC survival has improved over time, health-related quality of life (HrQoL) has become an important topic to study and verify patient experience of health, functioning, and psychological adjustment after BC treatments. Long-term distress, fatigue, and persistent pain are underestimated outcomes in this patient group and known to associate with impaired HrQoL (Mokhatri-Hesari and Montazeri, 2020). Personality characteristics affect the course of long-term well-being of BC survivors (Durá-Ferrandis et al., 2017) and may additionally provide a target for clinical interventions to improve psychological well-being and HrQoL (Abrahams et al., 2018; Ye et al., 2018).

Persistent pain following BC treatments is often multifactorial (Andersen and Kehlet, 2011) and affects 13–30% of BC survivors (Meretoja et al., 2014; Wang et al., 2018) with various negative effects on patients’ psychological well-being, sleep (Mustonen et al., 2019) and HrQoL (Caffo et al., 2003; Mokhatri-Hesari and Montazeri, 2020). In this patient group, the psychosocial aspects of disability, such as mood and catastrophic thinking are primary targets for psychological interventions (Edwards et al., 2016; Abrahams et al., 2018). Personality, its vulnerability and protective factors, explain some of the vicious cycle of chronic pain-related disability (Edwards et al., 2016; Naylor et al., 2017).

Perceived health and experience of well-being are shaped by temperament and character according to the psychobiological model of personality (Cloninger et al., 1993, 2010). Temperament dimensions novelty seeking (NS), harm avoidance (HA), reward-dependence (RD), and persistence (P) refer to stable and moderately heritable mechanisms of behavioral activation, inhibition, and maintenance. Character dimensions self-directedness (SD), cooperativeness (CO), and self-transcendence refer to concepts of coping and maturation, psychosocial adaptability, and spirituality that have been learned during a lifespan (Cloninger et al., 2010).

A combination of higher levels of HA temperament and lower levels of character dimension SD has previously been associated with impaired HrQoL in BC survivors (Bonacchi et al., 2012; Laroche et al., 2017) but also shown to be prevalent in patients suffering from persistent pain (Conrad et al., 2013; Mokhatri-Hesari and Montazeri, 2020). Individual tendency for caution, fearfulness, and fatigability (high HA) combined with immature coping strategies and lacking an internal locus of control (low SD) (Cloninger et al., 1993) increase the risk for poor adaptation, illbeing, and psychopathology (Cloninger et al., 2010).

The dynamic balance between emotional vulnerability and protective coping abilities appears to be essential for promoting well-being during chronic disability (Cloninger et al., 2010; Edwards et al., 2016; Abrahams et al., 2018). Despite of growing evidence, the effects of personality on different dimensions of HrQoL are poorly understood (Huang et al., 2017). We aimed to study effects of temperament and character on physical and mental dimensions of HrQoL in BC treated patients with persistent pain. We hypothesized that pain-related and psychological factors indirectly convey the effect of temperament and character on HrQoL. Parallel mediation modeling was used as a statistical method. We hypothesized that the protective effect of psychological adaptability-related character would associate with better HrQoL.

Materials and methods

Patients and demographics

We included patients from a subgroup of 402 women who had a research visit during 2014–2016 regarding perioperative surgical nerve injury and persistent post-surgical neuropathic pain (PPSNP) (Mustonen et al., 2019). That cohort was originally recruited from a previous longitudinal cohort of 1,000 women operated on for unilateral BC at the Helsinki University Hospital during years 2006–2010 (Kaunisto et al., 2013). The data was collected 4–9 years (mean 6.4 years) after the surgery. The patient flow of the original and sub cohort used in this paper have been reported in detail elsewhere (Kaunisto et al., 2013; Mustonen et al., 2019). Patients with active cancer treatments or metastatic cancer were excluded. Detailed description of patient recruitment is described in Figure 1. The study protocol was approved by the Ethics Committee of the Helsinki and Uusimaa Hospital District (reference number: 149/13/03/00/14) and registered in ClinicalTrials.gov (NCT 02487524). All patients provided a written informed consent. Data concerning previous surgery and BC treatments were extracted from patient records.

FIGURE 1
www.frontiersin.org

Figure 1. Flow chart of the patient recruitment. ICBN, intercostobrachial nerve; NRS, numerical rating scale.

Patients who reported at least mild persistent pain (pain severity ≥ 1/10 on a Numerical Rating Scale (NRS), where 0 indicates no pain and 10 worst pain imaginable, at any site of the body (N = 312), were considered. In the second step, only patients who had a complete dataset on an independent variable (i.e., dimensions from a Temperament and Character Inventory) and on the main outcome variables (i.e., physical and mental HrQoL dimensions from a Short-Form-36 Health Survey) were included. The final study cohort consisted of 273 patients (Figure 1).

Health-related quality of life

HrQoL was assessed by using the Finnish translation of the Short-Form-36 Health Survey (SF-36) questionnaire (Aalto et al., 1999), which has previously been used in BC survivors (Treanor and Donnelly, 2015). The SF-36 inventory includes 36 items with a scale from 0 to 100 which are organized into eight subscales: physical functioning, role-physical, bodily painlessness, general health, mental health, role-emotional, social functioning, and vitality.

For SF-36 dimensions of physical and mental HrQoL were formed as composite scores of the first four subscales (physical functioning, role-physical, bodily painlessness, and general health) and the last four subscales (mental health, role-emotional, social functioning, and vitality), respectively. Both dimensions ranged from 0 to 100 and higher scores indicate better performance in the dimension.

Temperament and character

We used the Finnish translation of the 240-item self-administered Temperament and Character Inventory (TCI) (Miettunen et al., 2004) with a true-false scale to assess four temperament dimensions (novelty seeking, NS (range 0–40) (Cronbach α = 0.82); harm avoidance, HA (range 0–35) (Cronbach α = 0.89); reward dependence, RD (range 0–24) (Cronbach α = 0.71); and persistence, P (range 0–8) (Cronbach α = 0.56) and three character dimensions (self-directedness, SD (range 0–44) (Cronbach α = 0.79); cooperativeness, CO (range 0–42) (Cronbach α = 0.79); and self-transcendence, ST (range 0–33) (Cronbach α = 0.86), based on a psychobiological model of temperament and character (Cloninger et al., 1993).

NS describes the activation or initiation of behaviors in response to novelty, HA the inhibition or cessation of behaviors, RD the maintenance or continuation of ongoing behaviors, and P perseverance of behavior despite of frustration and fatigue (Cloninger et al., 1993). SD refers to self-determination, willpower, and ability to individual control, CO to social tolerance and empathy, and ST to spirituality (Cloninger et al., 1993). For all dimensions, higher scores indicate stronger tendency for dimension specific behavioral patterns.

Psychological questionnaires and symptoms of insomnia

Hospital Anxiety and Depression Scale (HADS) was used to assess both anxiety (Cronbach α = 0.82) and depressive (Cronbach α = 0.88) symptoms (Bjelland et al., 2002). Pain Catastrophizing Scale (PCS) (Cronbach α = 0.93) was used to assess self-reported pain-related catastrophic thinking (Sullivan et al., 1995). Insomnia Severity Index (ISI) (Cronbach α = 0.91) was used for assessing self-reported symptoms of insomnia (Morin et al., 2011).

Assessment of pain severity and pain interference

We used Brief Pain Inventory (BPI) to assess severity and interference of self-reported pains during the past week (Cleeland and Ryan, 1994). Patients reported pain severity and interference separately for the pains in the previously operated area (the breast, the axilla, the upper arm) and for the pains in any other site of the body (e.g., back pain, joint pain etc.). A pain severity variable was formed by calculating the mean NRS of the four items (i.e., the worst, the average, and the mildest pain during the week and pain at the moment). A pain interference variable was formed by calculating the mean NRS of the seven items assessing pain interference for different daily activities (i.e., general activity, walking, work, mood, enjoyment of life, relations with others, and sleep). Additionally, NRS was used for assessing pain severity during the clinical sensory examination included to the study protocol. We considered NRS ≥ 4/10 as moderate to severe pain (Gerbershagen et al., 2011).

Statistical methods

Statistical analyses were performed using SPSS 25.0 for Windows (SPSS Inc., Chicago, IL, United States). Descriptive statistics are presented as mean (standard deviation, S.D.), median (interquartile range, IQR), or number (percentage). Pearson’s correlation was used to assess associations between the continuous variables. Results with p ≤ 0.05 were considered statistically significant.

For all statistical analyses, included variables were standardized by using the mean and S.D. of each variable [i.e., x-mean(x)/S.D.(X)]. Cronbach’s alpha (α) was used for reliability assessment for all psychological variables. For an exploratory statistical approach, we used parallel mediation modeling with multiple mediators. Mediation analyses were done by running a separate mediation analysis for each independent and dependent variable. The personality dimensions and the mediators were selected based on significant correlations between the independent variables and the main outcome variables to fulfill the criteria for mediation analysis (Preacher and Hayes, 2004). The other variables were used as a covariate in the models.

The parallel mediation analyses were performed by using the PROCESS add-on v.s. 16.1 in SPSS by using model 4 (Hayes, 2013). Non-parametric bootstrapping (Preacher and Hayes, 2004) with 5,000 bootstrap samples were deployed to test the parallel mediational model of the elected mediators of the relationship between the temperament and character dimensions and the physical and mental HrQoL.

The entire effect of an independent variable on the outcome variable (total effect) and the effect of exposure of an independent variable on the outcome variable with (indirect effect, IE) and without (direct effect) the mediators were reported. The lower limit (LL) and the upper limit (UL) of the confidence interval (CI) were used to test statistical significance of the IE (Preacher and Hayes, 2004).

Results

Patient characteristics

Demographics, surgery, and treatment related factors of the 273 included patients are presented in Table 1. The mean age of the included patients was 61.7 years (range from 39 to 75 years). Most of the patients had intraductal carcinoma (64.5%) and they had had breast conserving surgery (52.0%), axillary lymph node dissection (64.8%), and had received chemotherapy (70.3%), radiotherapy (72.5%), and endocrine therapy (76.6%).

TABLE 1
www.frontiersin.org

Table 1. Patient demographics and clinical characteristics.

Of the 273 patients, 22 (8.0%) used neuropathic pain medications, such as tricyclic antidepressants, gabapentinoids (gabapentin or pregabalin), or serotonin and norepinephrine reuptake inhibitors. Further, 63 (23.1%) used mild opioids, non-steroidal anti-inflammatory drugs, or paracetamol.

Descriptive statistics of the assessed pain-related and psychological instruments, including temperament and character dimensions and HrQoL, are presented in Table 2. Of the patients, 53.1% (145/273) reported moderate to severe pain (NRS ≥ 4/10) at any site of the body in BPI. The distribution of pain located at the previously operated area in 62.3% (170/273) and only in other site of the body in 37.7% (103/273) of the cases. Additionally, 18 patients presented evoked pain at previously operated area in clinical examination.

TABLE 2
www.frontiersin.org

Table 2. Descriptive statistics of the assessed instruments.

Physical HrQoL correlated significantly with temperament dimensions NS (p = 0.016) and HA (p < 0.001), and with character dimensions SD (p = 0.013) and CO (p = 0.046). Mental HrQoL correlated significantly with HA (p < 0.001), SD (p < 0.001), and CO (p = 0.005) (Table 3). Of the potential mediator variables unsignificant correlations were found only for pain severity with HA (p = 0.385), SD (p = 0.607), and CO (p = 0.633), and for pain interference with SD (p = 0.303) and CO (p = 0.402). According to the criteria for mediation analysis, non-significant correlations were excluded from the mediation analyses. All of the potential mediator variables correlated significantly with dimensions of physical and mental HrQoL (Table A1). Intercorrelations between the potential mediator variables are presented in Table A2.

TABLE 3
www.frontiersin.org

Table 3. Pearson correlation coefficients of the study variables.

Parallel mediation models

The total effect of harm avoidance (HA) on physical HrQoL (βtotal = −0.665, SE = 0.165, p < 0.001) and mental HrQoL (βtotal = −1.071, SE = 0.177, p < 0.001) was significant, while the direct effects was not. Depressive symptoms (IEdepression = −0.282, CI95%: LL = −0.508 to UL = −0.109), pain catastrophizing (IEcatastrophizing = −0.138, CI95%: LL = −0.278 to UL = −0.044), and pain interference (IEinterference = −0.071, CI95%: LL = −0.171 to UL = −0.007), fully mediate the relationship between HA and physical HrQoL and contribute to the overall IE (Figure 2A). For mental HrQoL, depressive symptoms (IEdepression = −0.636, CI95%: LL = −0.924 to UL = −0.420) and anxiety (IEanxiety = −0.308, CI95%: LL = −0.459 to UL = −0.146) fully mediate the effect of HA and contributed to the overall IE (Figure 3A).

FIGURE 2
www.frontiersin.org

Figure 2. Parallel mediation model for the indirect effects (IE) of (A) harm avoidance (HA), (B) self-directedness (SD), and (C) cooperativeness (CO) on physical Health-related Quality of Life (HrQoL). All models are controlled for age and intensity of chronic pain. For statistical significance: *p < 0.05; **p < 0.01; ***p < 0.001.

FIGURE 3
www.frontiersin.org

Figure 3. Parallel mediation model for the indirect effects (IE) of (A) harm avoidance (HA), (B) self-directedness (SD), and (C) cooperativeness (CO) on mental Health-related Quality of Life (HrQoL). All models are controlled for age and intensity of chronic pain. For statistical significance: **p < 0.01; ***p < 0.001.

The total effect of self-directedness (SD) on physical HrQoL (βtotal = 0.609, SE = 0.187, p = 0.001) and mental HrQoL (βtotal = 1.319, SE = 0.199, p < 0.001) was significant, while the direct effects was not. Depressive symptoms (IEdepression = 0.388, CI95%: LL = 0.173 to UL = 0.650), and pain catastrophizing (IEcatastrophizing = 0.175, CI95%: LL = 0.059 to UL = 0.343) fully mediate the relationship between SD and physical HrQoL (Figure 2B). For mental HrQoL, depressive symptoms (IEdepression = 0.777, CI95%: LL = 0.510 to UL = 1.091) and anxiety (IEanxiety = 0.319, CI95%: LL = 0.152 to UL = 0.524) fully mediated the effect of SD (Figure 3B).

The total effect of cooperativeness (CO) on physical HrQoL (βtotal = 0.584, SE = 0.264, p = 0.028) and mental HrQoL (βtotal = 0.759, SE = 0.265, p = 0.005) was significant, while the direct effects was not. Depressive symptoms (IEdepression = 0.187, CI95%: LL = 0.050 to UL = 0.409), and pain catastrophizing (IEcatastrophizing = 0.203, CI95%: LL = 0.046 to UL = 0.429) fully mediate the relationship between CO and physical HrQoL (Figure 2C). For mental HrQoL, depressive symptoms (IEdepression = 0.403, CI95%: LL = 0.155 to UL = 0.745) and anxiety (IEanxiety = 0.155, CI95%: LL = 0.040 to UL = 0.316) fully mediated the effect of CO (Figure 3C).

Discussion

Main findings

We showed that the psychological and pain-related variables convey the effects of temperament and character on HrQoL in BC survivors. The temperament dimension HA showed a negative effect on physical and mental HrQoL via mood, catastrophic thinking, and pain interference. Character dimensions SD and CO showed a protective effect against factors like mood and catastrophic thinking on physical and mental HrQoL. Mediators for temperament and character differed for physical and mental HrQoL.

Personality characteristics and HrQoL

In previous studies, personality characteristics have consistently been associated with various, and especially psychosocial dimensions of HrQoL (Huang et al., 2017). Direct and indirect effects influence HrQoL via emotional reactivity, coping, and health behavior. A dynamic balance between temperament and character influence an individual’s psychosocial adaptation and well-being (Cloninger et al., 2010; Wong and Cloninger, 2010). Temperament refers to automatic and associative reactions, such as primary emotions and fear, whereas character, a collection of self-concepts learned during psychosocial development, refers to the interpretation of the significance of the internal stimuli, such as pain, or external events, such as cancer diagnosis (Cloninger et al., 2010).

In our study, pain-related factors, such as pain interference and pain catastrophizing, mediated the negative effect of HA on physical but not mental HrQoL. Likewise, pain catastrophizing mediated the effect of SD and CO only for physical HrQoL. Pain interference and pain catastrophizing are both strongly related especially with somatic sensations and interpretations of the state of physical health. Pain interference refers to the reactive dimension of pain and its interference with daily functions and HrQoL (Cleeland and Ryan, 1994). Pain catastrophizing refers to a negative cognitive-affective and coping responses to pain driving attention toward worsening somatic sensations and illness perception (Quartana et al., 2009). Catastrophic interpretations and hypervigilance toward somatic sensations facilitate the fear-avoidance behavior and negative emotions (Crombez et al., 2012), which are associated with HA temperament (Naylor et al., 2017). Persistent pain itself and pain-related catastrophizing may affect physical HrQoL, for example, by preventing the rehabilitation of upper limb dysfunction after BC surgery (De Groef et al., 2017). Additionally, in individuals with heightened tendency for pain-related catastrophic thinking, the poorer coping strategies (Quartana et al., 2009) may explain the shown association between SD, CO, and pain catastrophizing (Cloninger et al., 2010).

Lowered mood and symptoms of insomnia are crucial factors affecting HrQoL in BC survivors (Mokhatri-Hesari and Montazeri, 2020). We found that depressive symptoms mediated the effect of HA, SD, and CO on both physical and mental HrQoL. In other words, depressive symptoms indirectly convey the effects of these personality characteristics on HrQoL. High HA is a long-term risk factor for depressive symptoms and clinical depression (Cloninger et al., 2006), which are, beside of anxiety, clinically important comorbidities in BC survivors (Abrahams et al., 2018; Wang et al., 2018; Mokhatri-Hesari and Montazeri, 2020). On the other hand, low SD is a significant predictor for cognitive dysfunctions relating to clinical depression (Richter and Eisemann, 2002). Anxiety mediated the effect of HA, SD, and CO only on mental HrQoL, thus, forming an indirect link between temperament and character on psychosocial aspects of perceived health. We found no mediating effect of symptoms of insomnia on HrQoL, which may reflect a mediating effect of HA on depressive symptoms instead of multifactorial symptoms of insomnia (Lee et al., 2012).

Our results suggest that HA temperament is a vulnerability factor linked to mood, pain-related interference, and pain catastrophizing. In clinical pain, mood has been shown to have a significant mediative effect on HrQoL (Galvez-Sánchez et al., 2020). Our results suggest a protective role of SD and CO character dimensions on both physical and mental HrQoL. Character dimensions, like SD and CO, have been associated with various aspects of well-being (Cloninger et al., 2010) and they have been suggested to be protective factors for mood disorders (Richter and Eisemann, 2002; Cloninger et al., 2006). In BC survivors, social support and functioning are important predictors for HrQoL. The protective effect of SD and CO on HrQoL may reflect the differences in coping abilities, such as willpower, self-regulation, personality maturation, and social coping (Cloninger et al., 1993).

The full mediation between HA, SD, CO, and the dimensions of HrQoL might reflect the complex adaptive system of human personality as temperament and character refer to vulnerability or protective factors rather than deterministic factors for health and well-being. On the other hand, full mediation may be partly explained by statistical reasons as the non-significant direct effect in our data does not mean lack of a true direct effect in a population.

Clinical implications

According to our results, high HA individuals may be vulnerable to lowered mood and pain-related disability and, therefore, clinically significant psychological burden. Bedside clinical evaluation of the tendencies for general worrying, fearfulness, or fatigability, related with high HA, may provide new insights to patient selection for clinical interventions. As personality characteristics effect long-term clinical well-being of BC survivors, interventions targeted to personality characteristics could improve clinical treatment outcomes (Durá-Ferrandis et al., 2017) and person-centered clinical practice (Wong and Cloninger, 2010). Moderate to strong evidence suggest a relationship of fatigue with anxiety and depression, persistent pain, and catastrophic thinking in BC survivors (Abrahams et al., 2018; Mokhatri-Hesari and Montazeri, 2020), which can be used as targets for psychological interventions for improving psychosocial health and HrQoL, such as cognitive-behavioral therapies (CBT) (Ye et al., 2018) and acceptance and commitment therapy interventions (ACT) (Hughes et al., 2017; González-Fernández and Fernández-Rodríguez, 2019).

Additionally, our results suggest a protective role for certain character dimensions (namely SD and CO). These might be a target for therapeutic interventions in patients with pain and high HA-related features (Wong and Cloninger, 2010). Cognitive behavioral therapies are an important method for empowering the vulnerable patient group with persistent pain and impaired HrQoL as well as BC survivors (Ye et al., 2018) as characters SD and CO have in previous studies presented as predictors for psychological well-being and social coping (Cloninger et al., 2010; Wong and Cloninger, 2010).

After BC treatments, persistent postsurgical pain (Wang et al., 2018; Mustonen et al., 2019) and upper limb dysfunctions (De Groef et al., 2017) have a negative effect on HrQoL. These possibly reflect mechanisms of catastrophic thinking and fear of pain on BC survivors at long term (De Groef et al., 2017), but also issues related to worry about BC in general and possible treatment side-effects (Mokhatri-Hesari and Montazeri, 2020). The clinical relevance of our findings may highlight the importance of effective pain management, psychoeducation, BC treatment methods, and other multidisciplinary therapeutical interventions (Wang et al., 2018).

Limitations

There are limitations of the study. First, our data consisted only of women who had been treated for BC. Thus, the results cannot be directly generalized to healthy participants, other chronic diseases, or males. Additionally, as the patients with ongoing cancer treatments might suffer from acute side effects of the adjuvant therapies and pronounced psychosocial burden of disease, the results may not be generalized to the patients with active disease. However, a strength of this study is the homogenous and well characterized cohort of patients treated for BC.

Secondly, the limited sample size may limit making prominent conclusions. However, to the best of our knowledge, this is one of the largest patient sample related with temperament and character in BC survivors.

Thirdly, the study design was observational and cross-sectional. Therefore, despite of the mediation models, conclusions about the causality between studied variables cannot be drawn (Edwards et al., 2016). In the future, more complex structural models may be needed to study associations between different personality profiles and HrQoL. Longitudinal datasets are needed to confirm the causal associations of personality characteristics and potential mediators on dimensions of HrQoL.

Fourthly, most measurements were based on self-reports, which may differ from clinical assessment and therefore affect the results. It is possible that the measurement of personality dimensions can be affected by the presence of persistent pain (Fishbain et al., 2006).

Conclusion

High harm avoidance temperament is a potential vulnerability factor for greater psychological burden of disease and impaired HrQoL in BC survivors. High self-directedness and cooperativeness character may protect from the negative effects of anxiety and depressive symptoms on HrQoL. From a multidisciplinary point of view, our results may provide new insights about the risk-and target-factors for clinical interventions and emphasize the importance of effective pain management to improve psychological health and HrQoL in BC survivors.

Data availability statement

The original contributions presented in the study are included in the article/supplementary material, further inquiries can be directed to the corresponding author.

Ethics statement

The studies involving human participants were reviewed and approved by Ethics Committee of the Helsinki and Uusimaa Hospital District (reference number: 149/13/03/00/14). The patients/participants provided their written informed consent to participate in this study.

Author contributions

EK, HH, and RS designed the study. HH and RS collected the data. TA analyzed the data supervised by JL and prepared figures and tables. TA wrote the first draft of the manuscript. All authors contributed to the article and approved the submitted version.

Funding

This study was funded by the European Union FP7 (# Health_F2-2013-602891), NeuroPain.

Conflict of interest

EK has provided consultancy to Orion Pharma and Pfizer and HH to TEVA, Allergan, and Lilly, unrelated to this work.

The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher’s note

All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.

References

Aalto, A., Aro, A. R., and Teperi, J. (1999). RAND-36 terveyteen liittyvän elämänlaadun mittarina. Mittarin luotettavuus ja suomalaiset väestöarvot. Stakes Tutkimuksia :101.

Google Scholar

Abrahams, H. J. G., Gielissen, M. F. M., Verhagen, C. A. H. H. V. M., and Knoop, H. (2018). The relationship of fatigue in breast cancer survivors with quality of life and factors to address in psychological interventions: a systematic review. Clin. Psychol. Rev. 63, 1–11. doi: 10.1016/j.cpr.2018.05.004

PubMed Abstract | CrossRef Full Text | Google Scholar

Andersen, K. G., and Kehlet, H. (2011). Persistent pain after breast cancer treatment: a critical review of risk factors and strategies for prevention. J. Pain 12, 725–746. doi: 10.1016/j.pain.2010.12.005

PubMed Abstract | CrossRef Full Text | Google Scholar

Bjelland, I., Dahl, A. A., Haug, T. T., and Neckelmann, D. (2002). The validity of the hospital anxiety and depression scale. An updated literature review. J. Psychosom. Res. 52, 69–77. doi: 10.1016/S0022-3999(01)00296-3

CrossRef Full Text | Google Scholar

Bonacchi, A., Miccinesi, G., Guazzini, M., Rossi, A., Bacci, S., Toccafondi, A., et al. (2012). Temperament and character traits associated with health-related quality of life in cancer patients. Tumori J 98, 377–384. doi: 10.1177/030089161209800316

PubMed Abstract | CrossRef Full Text | Google Scholar

Caffo, O., Amichetti, M., Ferro, A., Lucenti, A., Valduga, F., and Galligioni, E. (2003). Pain and quality of life after surgery for breast cancer. Breast Cancer Res. Treat. 80, 39–48. doi: 10.1023/A:1024435101619

CrossRef Full Text | Google Scholar

Cleeland, C. S., and Ryan, K. M. (1994). Pain assessment: global use of the brief pain inventory. Ann. Acad. Med. Singap. 23, 129–138.

PubMed Abstract | Google Scholar

Cloninger, C. R., Svrakic, D. M., and Przybeck, T. R. (1993). A psychobiological model of temperament and character. Arch. Gen. Psychiatry 50, 975–990. doi: 10.1001/archpsyc.1993.01820240059008

CrossRef Full Text | Google Scholar

Cloninger, C. R., Svrakic, D. M., and Przybeck, T. R. (2006). Can personality assessment predict future depression? A twelve-month follow-up of 631 subjects. J. Affect. Disord. 92, 35–44. doi: 10.1016/j.jad.2005.12.034

PubMed Abstract | CrossRef Full Text | Google Scholar

Cloninger, C. R., Zohar, A. H., and Cloninger, K. M. (2010). Promotion of well-being in person-centered mental health care. Focus 8, 165–179. doi: 10.1176/foc.8.2.foc165

PubMed Abstract | CrossRef Full Text | Google Scholar

Conrad, R., Wegener, I., Geiser, F., and Kleiman, A. (2013). Temperament, character, and personality disorders in chronic pain. Curr. Pain Headache Rep. 17:318. doi: 10.1007/s11916-012-0318-3

PubMed Abstract | CrossRef Full Text | Google Scholar

Crombez, G., Eccleston, C., Van Damme, S., Vlaeyen, J. W., and Karoly, P. (2012). Fear-avoidance model of chronic pain: the next generation. Clin. J. Pain 28, 475–483. doi: 10.1097/AJP.0b013e3182385392

CrossRef Full Text | Google Scholar

De Groef, A., Meeus, M., De Vrieze, T., Vos, L., Van Kampen, M., Christiaens, M.-R., et al. (2017). Pain characteristics as important contributing factors to upper limb dysfunctions in breast cancer survivors at long term. Musculoskelet. Sci. Pract. 29, 52–59. doi: 10.1016/j.msksp.2017.03.005

PubMed Abstract | CrossRef Full Text | Google Scholar

Durá-Ferrandis, E., Mandelblatt, J. S., Clapp, J., Luta, G., Faul, L. A., Kimmick, G., et al. (2017). Personality, coping, and social support as predictors of long-term quality-of-life trajectories in older breast cancer survivors: CALGB protocol 369901 (a lliance). Psychooncology 26, 1914–1921. doi: 10.1002/pon.4404

PubMed Abstract | CrossRef Full Text | Google Scholar

Edwards, R. R., Dworkin, R. H., Sullivan, M. D., Turk, D. C., and Wasan, A. D. (2016). The role of psychosocial processes in the development and maintenance of chronic pain. J. Pain 17, T70–T92. doi: 10.1016/j.jpain.2016.01.001

PubMed Abstract | CrossRef Full Text | Google Scholar

Ferlay, J., Colombet, M., Soerjomataram, I., Parkin, D. M., Piñeros, M., Znaor, A., et al. (2021). Cancer statistics for the year 2020: an overview. Int. J. Cancer 149, 778–789. doi: 10.1002/ijc.33588

PubMed Abstract | CrossRef Full Text | Google Scholar

Fishbain, D. A., Cole, B., Cutler, R. B., Lewis, J., Rosomoff, H. L., and Rosomoff, R. S. (2006). Chronic pain and the measurement of personality: do states influence traits? Pain Med. 7, 509–529. doi: 10.1111/j.1526-4637.2006.00239.x

CrossRef Full Text | Google Scholar

Galvez-Sánchez, C. M., Montoro, C. I., Duschek, S., and Del Paso, G. A. R. (2020). Depression and trait-anxiety mediate the influence of clinical pain on health-related quality of life in fibromyalgia. J. Affect. Disord. 265, 486–495. doi: 10.1016/j.jad.2020.01.129

PubMed Abstract | CrossRef Full Text | Google Scholar

Gerbershagen, H. J., Rothaug, J., Kalkman, C. J., and Meissner, W. (2011). Determination of moderate-to-severe postoperative pain on the numeric rating scale: a cut-off point analysis applying four different methods. Br. J. Anaesth. 107, 619–626. doi: 10.1093/bja/aer195

PubMed Abstract | CrossRef Full Text | Google Scholar

González-Fernández, S., and Fernández-Rodríguez, C. (2019). Acceptance and commitment therapy in cancer: review of applications and findings. Behav. Med. 45, 255–269. doi: 10.1080/08964289.2018.1452713

PubMed Abstract | CrossRef Full Text | Google Scholar

Hayes, A.F.. Introduction to mediation, moderation, and conditional process analysis. A regression-based approach. New York, NY: The Guilford Press; (2013).

Google Scholar

Huang, I. C., Lee, J. L., Ketheeswaran, P., Jones, C. M., Revicki, D. A., and Wu, A. W. (2017). Does personality affect health-related quality of life? A systematic review. PLoS ONE 12:e0173806. doi: 10.1371/journal.pone.0173806

PubMed Abstract | CrossRef Full Text | Google Scholar

Hughes, L. S., Clark, J., Colclough, J. A., Dale, E., and McMillan, D. (2017). Acceptance and commitment therapy (ACT) for chronic pain. Clin. J. Pain 33, 552–568. doi: 10.1097/AJP.0000000000000425

CrossRef Full Text | Google Scholar

Kaunisto, M. A., Jokela, R., Tallgren, M., Kambur, O., Tikkanen, E., Tasmuth, T., et al. (2013). Pain in 1, 000 women treated for breast cancer: a prospective study of pain sensitivity and postoperative pain. Anesthesiology 119, 1410–1421. doi: 10.1097/ALN.0000000000000012

PubMed Abstract | CrossRef Full Text | Google Scholar

Laroche, F., Perrot, S., Medkour, T., Cottu, P. H., Pierga, J. Y., Lotz, J. P., et al. (2017). Quality of life and impact of pain in women treated with aromatase inhibitors for breast cancer. A multicenter cohort study. PLoS ONE 12:e0187165. doi: 10.1371/journal.pone.0187165

PubMed Abstract | CrossRef Full Text | Google Scholar

Lee, S., Kim, S. J., Park, J. E., Cho, S. J., Cho, I. H., and Lee, Y. J. (2012). Biogenetic temperament and character in insomnia and depression. J. Psychosom. Res. 72, 383–387. doi: 10.1016/j.jpsychores.2012.01.016

PubMed Abstract | CrossRef Full Text | Google Scholar

Meretoja, T., Leidenius, M., Tasmuth, T., Sipilä, R., and Kalso, E. (2014). Pain at 12 months after surgery for breast cancer. J. Am. Med. Assoc. 311, 90–92. doi: 10.1001/jama.2013.278795

CrossRef Full Text | Google Scholar

Miettunen, J., Kantojärvi, L., Ekelund, J., Veijola, J., Karvonen, J. T., Peltonen, L., et al. (2004). A large population cohort provides normative data for investigation of temperament. Acta Psychiatr. Scand. 110, 150–157. doi: 10.1111/j.1600-0047.2004.00344.x

PubMed Abstract | CrossRef Full Text | Google Scholar

Mokhatri-Hesari, P., and Montazeri, A. (2020). Health-related quality of life in breast cancer patients: review of reviews from 2008 to 2018. Health Qual. Life Outcomes 18, 338–325. doi: 10.1186/s12955-020-01591-x

PubMed Abstract | CrossRef Full Text | Google Scholar

Morin, C. M., Belleville, G., Belanger, L., and Ivers, H. (2011). The insomnia severity index: psychometric indicators to detect insomnia cases and evaluate treatment response. Sleep 34, 601–608. doi: 10.1093/sleep/34.5.601

PubMed Abstract | CrossRef Full Text | Google Scholar

Mustonen, L., Aho, T., Harno, H., Sipilä, R., Meretoja, T., and Kalso, E. (2019). What makes surgical nerve injury painful? A 4-year to 9-year follow-up of patients with intercostobrachial nerve resection in women treated for breast cancer. Pain 160, 246–256. doi: 10.1097/j.pain.0000000000001398

PubMed Abstract | CrossRef Full Text | Google Scholar

Naylor, B., Boag, S., and Gustin, S. M. (2017). New evidence for a pain personality? A critical review of the last 120 years of pain and personality. Scan J Pain 17, 58–67. doi: 10.1016/j.sjpain.2017.07.011

PubMed Abstract | CrossRef Full Text | Google Scholar

Preacher, K. J., and Hayes, A. F. (2004). SPSS and SAS procedures for estimating indirect effects in simple mediation models. Behav. Res. Meth. Instrum. Comput. 36, 717–731. doi: 10.3758/BF03206553

PubMed Abstract | CrossRef Full Text | Google Scholar

Quartana, P. J., Campbell, C. M., and Edwards, R. R. (2009). Pain catastrophizing: a critical review. Expert. Rev. Neurother. 9, 745–758. doi: 10.1586/ern.09.34

PubMed Abstract | CrossRef Full Text | Google Scholar

Richter, J., and Eisemann, M. (2002). Self-directedness as a cognitive feature in depressive patients. Pers. Individ. Differ. 32, 1327–1337. doi: 10.1016/S0191-8869(01)00121-0

CrossRef Full Text | Google Scholar

Sullivan, M. J. L., Bishop, S., and Pivik, J. (1995). The pain catastrophizing scale: development and validation. Psychol. Assess. 7, 524–532. doi: 10.1037/1040-3590.7.4.524

CrossRef Full Text | Google Scholar

Treanor, C., and Donnelly, M. (2015). A methodological review of the short form health survey 36 (SF-36) and its derivatives among breast cancer survivors. Qual. Life Res. 24, 339–362. doi: 10.1007/s11136-014-0785-6

PubMed Abstract | CrossRef Full Text | Google Scholar

Wang, K., Yee, C., Tam, S., Drost, L., Chan, S., Zaki, P., et al. (2018). Prevalence of pain in patients with breast cancer post-treatment: a systematic review. Breast 42, 113–127. doi: 10.1016/j.breast.2018.08.105

PubMed Abstract | CrossRef Full Text | Google Scholar

Wong, K. M., and Cloninger, C. R. (2010). A person-centered approach to clinical practice. Focus 8, 199–215. doi: 10.1176/foc.8.2.foc199

PubMed Abstract | CrossRef Full Text | Google Scholar

Ye, M., Du, K., Zhou, J., Zhou, Q., Shou, M., Hu, B., et al. (2018). A meta-analysis of the efficacy of cognitive behavior therapy on quality of life and psychological health of breast cancer survivors and patients. Psychooncology 27, 1695–1703. doi: 10.1002/pon.4687

PubMed Abstract | CrossRef Full Text | Google Scholar

Appendix

TABLE A1
www.frontiersin.org

Table A1. Intercorrelations between physical and mental Health-related Quality of Life (HrQoL) and potential mediator variables.

TABLE A2
www.frontiersin.org

Table A2. Intercorrelations between temperament and character dimensions.

Keywords: persistent pain, personality, breast cancer, health-related quality of life, temperament and character

Citation: Aho T, Harno H, Lipsanen J, Kalso E and Sipilä R (2023) Pain-related and psychological factors mediate the effect of personality on health-related quality of life. A study in breast cancer survivors with persistent pain. Front. Psychol. 14:1063920. doi: 10.3389/fpsyg.2023.1063920

Received: 07 October 2022; Accepted: 22 June 2023;
Published: 07 July 2023.

Edited by:

Eun-Jung Shim, Pusan National University, Republic of Korea

Reviewed by:

Rohit K. Srivastava, Baylor College of Medicine, United States
Hyo Young Choi, University of Tennessee Health Science Center (UTHSC), United States

Copyright © 2023 Aho, Harno, Lipsanen, Kalso and Sipilä. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

*Correspondence: Tommi Aho, tommi.aho@fimnet.fi

Disclaimer: All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.