Incidence and determinants of chronic stress as a health risk factor in a group of Polish high school students

Grażyna Wiraszka; Martyna Głuszek-Osuch; Renata Stępień

doi:10.5114/ms.2024.140974

eISSN: 2300-6722
ISSN: 1899-1874

Medical Studies/Studia Medyczne

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Występowanie i uwarunkowania stresu przewlekłego jako czynnika zagrożenia zdrowia w grupie polskich uczniów szkoły średniej

Grażyna Wiraszka

^{1, 2}

,

Martyna Głuszek-Osuch

¹

,

Renata Stępień

^{1, 2}

Collegium Medicum, Jan Kochanowski University, Kielce, Poland
Polish Nurses Association

Medical Studies/Studia Medyczne 2024; 40 (2): 102–112

DOI: https://doi.org/10.5114/ms.2024.140974

Data publikacji online: 2024/06/29

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Introduction

Technological advances, acceleration of life, and changing environmental factors are strong stressors affecting the emotional and physical condition of humans. Stress has become an everyday experience for most individuals; chronic stress may lead to numerous disorders and diseases [1–4]. According to Selye – the pioneer of stress research – stress is the non-specific response of the body to all types of stressors, positive and negative alike [4]. Due to the differences in definitions, 3 complementary rather than mutually exclusive concepts are in use today, including stress being construed as a stimulus, a response, or a transaction. Construed as a stimulus, stress is defined as any event or situation leading to the experience of tension and strong, usually negative emotions. Construed as a response, stress consists of physiological and psychological consequences of exposure to stressors. The transactional understanding of stress was introduced in the concept proposed in 1984 by Richard Lazarus and Susan Folkman. Since that time, the concept has gained wide acceptance in the field of psychology. According to the transactional model, stress is a particular relationship (transaction) between an individual and their environment. Stress is defined as a situation assessed by the individual to be a burden exceeding their ability to cope and posing a threat to their well-being [2, 4–6]. Thus, stress is caused by the imbalance between the demands and burdens of the environment and resources owned and used by the individual as part of their coping efforts (stress transaction) [7]. The model focuses not only on the actual event being experienced, but also on how it is being perceived and interpreted by the individual, with physiological and psychological reactions developing when a person considers a particular situation to pose a threat, a loss, or a challenge [5].
In adult populations, the main sources of stress are from the work and home environments [3, 8–10]. In adolescence, the main source of stress is school, followed by the home and peer environment, the stressors including school violence or excessive expectations of parents [7, 11]. The importance of parenting stress is also highlighted as a factor disturbing family relationships and thus having a negative impact on the life and health of children [12]. In addition, high school students reaching their physical, psychosocial, and sexual maturity are at high risk of stress as they cope with various developmental tasks including those associated with their sexuality, decisions regarding further education (occupation), and gaining independence from their parents [13–16].
Physical and emotional stressors trigger a series of systemic processes that comprise the stress response. The stress response involves complex biochemical, physiological, behavioural, and emotional phenomena; many of these may lead to pathological consequences [4, 17–20]. Diseases with stress response constituting a part of their aetiopathomechanism are referred to as stress-related disorders (SRDs). They include disorders both caused by stress and exacerbated by stress. These include both psychiatric disorders usually related to post-traumatic stress and physical disorders usually resulting from chronic stress exposure [2, 17–25]. Chronic stress is particularly adverse as it may lead to functional disorders of many types of tissues and organs [4, 6, 22, 26–28]. It is defined as “the physiological or psychological response to a prolonged internal or external stressful event (i.e. a stressor)” [26]. Studies suggest a significant role of chronic stress in the development of, e.g., cardiovascular disorders [3, 9, 27, 29, 30]. Chronic stress may also increase the risk of carcinogenesis [31], autoimmune diseases [32], inflammatory bowel disease [33], gastric or duodenal ulcers [4], food allergies [34], or mental illnesses and schizophrenia [20, 35]. Chronic stress may also increase individuals’ susceptibility to depression and drug abuse-related disorders [36]. Negative systemic responses secondary to stressor exposure depend on environmental factors or duration of exposure as well as on genetic predisposition, particularly on the individual’s susceptibility to stress [37]. Studies on distressed (type D) personality have been ongoing for more than a decade. Type D personality is reported to be a risk factor of somatic disorders, particularly cardiovascular disorders [5, 38–41], with the risk of coronary artery disease being increased as much as 4 fold [42]. In high school, last-grade students are at particularly high exposure to stress as they experience the pressure of the upcoming final high school exams. In addition, this stage of early adulthood is associated with important decisions regarding the choice of occupation and career as well as building one’s own independence.

Aim of the research

The objective of this study was to assess the incidence of chronic stress in a group of Polish high school students and to identify the potential impact of selected sociodemographic, health, and personality type-related factors on the intensity of stress.

Material and methods

Study design, procedure, and participants

The designed cross-sectional study was conducted in the 2017/18 school year. The research area was School Complex No. 3 in Kielce, and the participants were adult students of the above-mentioned educational institution, including the Secondary School named after Józef Piłsudski as well as Technical Secondary School No. 8 named after Maria Skłodowska-Curie. The above educational institution was selected as the research area by using a simple random sampling technique with the application of a closed list of 16 secondary schools in the city of Kielce. Additionally, the management of a randomly selected school agreed to conduct the research. The criteria for including a candidate in the study were being over 18 years of age, being a high school student, and giving informed and voluntary consent to participate in the study.
A total of 268 students were included in the study. A school nurse, providing health care to students of the mentioned institution, was entrusted with the role of interviewer. Moreover, she was provided by the research organisers with the instructions including how to make the questionnaire available, the need to obtain informed and voluntary consent from students, assuring them of anonymity, and conducting a collective analysis of the collected data.
Furthermore, the instructions also specified the place to deposit completed questionnaires, how to store them, and how to make them available to the research team. The box for the completed questionnaires was located in the school nurse office, which was secured with a lock, and the key was solely in the possession of the researchers. Participants were given survey questionnaires containing 2 standardised tools prepared in the measurement strategy and a self-developed questionnaire. To ensure anonymity, the questionnaires were distributed in envelopes, and after completing and sealing them, they were placed by students in a closed box. Questionnaires were distributed to students in the classroom during scheduled teaching classes. Additionally, written consent to participate in the study was provided by the students on separate forms, which were then collected in one envelope, sealed, and thrown into the ballot box. To ensure optimal conditions when answering questions, students took the questionnaires home and deposited the completed ones in a box located in the school nurse’s office. After completing the data collection phase, the ballot box was transported to the university to assess the usefulness of the completed questionnaires in terms of completeness and their codification.
Finally, the study material consisted of data collected from 250 high school students (72.8% female and 27.2% male, Mage = 18.1, age range: 18–19 years), who had submitted fully completed questionnaires (Table 1). The study was approved by the Bioethics Committee (Decision no. 5/2017 of 27.02.2017) and the high school authorities.

Study measures

Study data were collected using a proprietary questionnaire as well as 2 standardised tools. The stress levels were measured using the Polish version of the Perceived Stress Scale (PSS-10) used to assess the intensity of stress associated with the circumstances of one’s life. The questionnaire is used to assess the subjective feelings related to problems and events in one’s personal life, as well as behaviours and actions taken as part of coping strategies. According to its assumptions, PSS-10 is focused on the subjective evaluation of the symptoms of distress caused by particular situations rather than on recording these situations themselves. The intensity of stress depends on the appraisal of stressors rather than on their number. As a result, the score is the measure of emotional comfort in relation to coping with stressors, and thus a measure of chronic stress. The questionnaire may be used in patients and healthy individuals alike. The original questionnaire was developed by Sheldon Cohen, Tom Kamarck, and Robin Mermelstein. The 10-question survey was adapted to Polish conditions by Zygfryd Juczyński and Nina Ogińska-Bulik. PSS-10 is an established psychometric tool. Its reliability was assessed by estimation of its intrinsic consistency and absolute stability. Cronbach’s for the Polish version of PSS-10 was 0.86, with satisfactory correlation between all questions and scale scores. PSS-10 is a self-assessment tool, with the responders providing answers to questions using a 5-point ordinal scale. Each response is assigned a value of 0 to 4 points. The overall score may range between 0 and 40 points; the higher the score, the greater the intensity of stress. The results may also be presented using categories of low (0–13 points), medium (14–19 points), and high (20–40 points) intensity of stress [2, 5].
Features of distressed (type D) personality were assessed using the Polish version of the DS-14 scale. The original scale, developed by Johan Denollet, was adapted to Polish conditions by Nina Ogińska-Bulik and Zygfryd Juczyński. The questionnaire consists of 14 statements. Seven of these statements are used to assess the individual’s predisposition to negative affectivity (NA) while another 7 are used to assess the individual’s predisposition to social inhibition (SI) of emotions and emotion-triggered behaviours. DS-14 is a self-assessment tool, with subjects providing their responses using a 5-point ordinal scale. Each response is assigned a value of 0 to 4 points. The results are calculated separately for both dimension; each dimension is summarised by the total score of 0–28 points. The higher the score, the greater the intensity of features comprising the particular dimension of type D personality. To be classified as type-D personality, a subject must attain a minimum score of 10 in each of the 2 dimensions. DS-14 is an established psychometric tool. The reliability of the Polish version was assessed in a group of 1154 patients and healthy volunteers, with Cronbach’s  amounting to 0.86 for the NA scale and 0.84 for the SI scale [5].

Statistical analysis

The data were collected and stored using Microsoft Excel. The c2 test or Fisher’s exact test were applied to compare proportions as part of statistical analyses. Student’s t-test or one-way ANOVA were used to compare means of continuous distributions. Post-hoc analyses were performed by means of Tukey test. For the differences between means, the 95% confidence intervals were calculated. Associations between 2 continuous variables were assessed using Pearson’s correlation coefficient. For the linear regression models, the coefficient of determination (R2) was calculated. Categorical data were expressed as number and percentage distributions whereas numerical variables were summarised using means and standard deviations. A two-tailed p-value < 0.05 was considered as statistically significant. All statistical analyses were performed using R (version 3.1.2; The R Foundation for Statistical Computing, Vienna, Austria) and Statistica (StatSoft, Inc. 2014, version 12) software packages.

Results

The mean PSS-10 score in the study population was high (M = 21.1; SD ±7.29) with individual scores ranging from 1 to 36 points. In terms of low/medium/high stress categories, high stress (20–40 points) was diagnosed in a majority of students (56.8%; n = 142) (Figure 1).
As shown by the data in Table 1, statistically significant differences in PSS-10 scores were observed for different subgroups stratified by gender (p = 0.0002), health self-evaluation (p < 0.0001), and type D personality features (p < 0.0001). A difference was also observed in the preliminary analysis for subjects with different actual health status (p = 0.043), with the distribution of means suggesting that the highest stress level was experienced by individuals presenting with disturbing symptoms. This, however, was not confirmed in a post-hoc Tukey test (p > 0.05).
Pearson’s linear correlation analysis revealed a statistically significant, positive correlation between the stress intensity and DS-14 scores. The strong correlation was observed between PSS-10 and NA scores: r = 0.74, p < 0.0001 (Figure 2). The weaker correlation was observed between PSS-10 and SI scores: r = 0.16, p = 0.011.
Linear regression analysis (Table 2) revealed that the variability in PSS-10 scores was best accounted for using negative affectivity levels (R2 = 55%). Type-D personality accounted for 12% of PSS-10 score variability.
Negative affectivity was used as a variable together with sex and health self-evaluation in a multidimensional linear regression model (Table 3). The coefficient of determination was 56% (Table 3).
PSS-10 scores were also analysed for individual quartile groups (GQ1-GQ4), as shown in Table 4. As in the previous analyses, correlation can be observed between higher PSS-10 scores and female sex (p = 0.003), low health self-evaluation (p = 0.0002), higher DS-14 scores (p < 0.0001), higher NA scores (p < 0.001), and incidence of type D personality (p < 0.0001). No correlation was observed with regard to the SI scale (p = 0.1).
Table 4 presents also the results of an analysis of variables associated with the top quartile PSS-10 scores. Subpopulation of students presenting with the highest stress levels (> 27 points) was characterised by a high percentage of individuals with low health self-evaluation (39.3% vs. 13.1%), individuals presenting with disturbing symptoms (13.7% vs. 4.0%), as well as type-D personalities (60.8% vs. 36.2%). One should also note that 39.2% of individuals presenting with stress scores of more than 27 points were non-type-D personalities, while all of them (100%) scored at least 10 points in the negative affectivity scale.

Discussion

Many researchers suggest that human adolescence may be burdened by multiple negative factors [7, 11–14]. The stress associated with this burden may exceed their ability to cope [7], thus putting them at risk of health problems, including deferred onset chronic diseases [16]. Particularly difficult burden may be experienced by last-grade high school students being under the pressure of the upcoming final high school exams. Stress may originate from school and demands imposed by school-related duties (school-related stress) as well as from the individuals facing important decisions and choices regarding their future lives. Therefore, this study attempted to assess the incidence of chronic stress in a group of last-grade high school students as well as to identify selected factors that determine the intensity of stress being experienced.
As shown by the obtained PSS-10 scores, high-level chronic stress was experienced by more than half of the students at the age of 18–19 years (56.8%), with the mean score amounting to M = 21.1. These data are higher compared to those obtained in adult population of Central Poland – both healthy subjects (M = 16.62) and patients with ischaemic heart disease (M = 18.84), diabetic patients (M = 17.5), and haemodialyzed patients (M = 16.87). On the other hand, they are close to data obtained in menopausal women (M = 20.8) and post-myocardial infarction patients (M = 21.48) [5]. Few reports are available in the scientific literature with regard to stress intensity being measured in subjects of age similar to that in our study group. According to the Health Behaviour in School-aged Children: a WHO Collaborative Cross-National Survey (HBSC) conducted in 2014 in younger students (11–15 years old) from 41 countries, school-related stress levels are quite high and tend to increase with age. Elevated stress was declared by 22% of girls and 24% of boys aged 11 years (in Poland: 29% and 24%; p = 0.043), 38% of girls and 33% of boys aged 13 years (in Poland: 33% and 30%; p > 0.05), and as much as 51% of girls and 39% of boys aged 15 years (in Poland: 44% and 32%; p = 0.000) [43]. In addition, comparative analysis of HBSC results obtained in Polish students suggests that the population of students with elevated stress levels has increased from 21.8% in 2010 to 32.1% in 2014 [44]. Few studies are available regarding the levels of chronic stress experienced by high school students as measured using standardised psychometric tools. Somewhat lower levels of stress compared to those obtained in our study were reported for a slightly younger population of high school students in Thailand (15–19 years). In that group, T-PSS-10 score ranged from 6 to 34 points (M = 15.95; SD ±4.95) [45]. Our percentage of high chronic stress scores was similar to that assessed using the PSS-10 scale in a group of somewhat older Polish students (Mage = 22.3 years), where high stress was reported by 50% of subjects [46]. High PSS-10 scores were also reported by Murphy, Denis, Ward, and Tartar [43] in a group of undergraduate students before (M = 19.43) and during final exam sessions (M = 19.39). To sum up, the comparison of the results of our study with the available literature data suggests that stress levels in last-grade high school students were higher than those in younger student groups and close to those in young adults exposed to academic stress and final exam burden.
As shown by the already cited HBSC study [43] as well as by the results obtained in a group of Polish adolescents [44], the percentage of significant school-related stress burden is higher in female students. Similar results were obtained in this study for last-grade high school students. Stress levels presented by last-grade female students were significantly higher than those in male students (p < 0.0001), the sex variable accounting for 5% of PSS-10 score variability. Higher levels of perceived stress were also observed in female subpopulations in the aforementioned studies carried out in adult Poles; however, the differences were not significant in statistical terms [5]. No significant differences were observed for different sex subpopulations in the Thai student population [45]. The importance of sex in responding to stress in adolescence is indicated by Smith et al. [16]. According to the authors, this is due to the difference in the level of sex hormones between men and women, which affect stress and immune responses differently. The problem of the high incidence of stress-related disorders among women is also described by Helpman [17]. The author even talks about the stress of being a woman and being exposed to an individual set of gender-related stressors.
Chronic stress is reported to be a factor involved in the aetiopathogenesis of chronic non-infectious diseases [3, 4, 9, 27, 29–36]. On the other hand, diseases may also be the source of stress [2, 46–48]. In our own study, parental diseases had no impact on higher stress levels in the study subjects (p > 0.05). On the other hand, differences were observed with regard to the responders’ own health status. Health self-evaluation was an important factor responsible for the variability of the study group students (p < 0.0001), accounting for 9% of PSS-10 variability. Ambiguous results were obtained with respect to the actual chronic morbidity rates in subjects. Higher stress levels were observed in subjects suspecting themselves of presenting with disturbing symptoms (F = 3.179; p = 0.043). However, this could not be confirmed in Tukey’s test (p > 0.05). This variable was also observed to be one of the variables correlated with the top quartile PSS-10 scores (GQ4, PSS-10 > 27 points). Disturbing symptoms were reported by 13.7% of subjects presenting with the highest PSS-10 scores as compared to 4.0% of subjects presenting with lower stress levels (p < 0.05). Another study [49] also confirms the relationship between school-related stress and the incidence of health disorders in adolescents. According to the author, students experiencing stress may escape into disease; this behaviour may become a fixed coping mechanism leading to the development of SRDs.
Besides chronic stress, the importance of distressed (type D) personality is increasingly mentioned as a factor contributing to the aetiopathogenesis of certain diseases. Distressed personality is characterised by susceptibility to depression, low self-esteem, high sense of guilt, inability to share or speak about feelings, and tendency to experience negative emotions. Individuals with type-D personality are more prone to develop cardiovascular diseases, hypertension, psoriasis, and gastric ulcers [50]. One study [51] suggested that type-D personality is a predictor of poor prognosis in patients with coronary artery disease (RR = 2.2). Our own study showed that the level of stress experienced by high school students was predominantly determined by distressed personality traits. Type-D personality was responsible for 12% of PSS-10 score variability, with individuals with this type of personality presenting with significantly higher chronic stress levels compared to non-type-D personality types (p < 0.0001). Type-D personality was also correlated with the highest PSS-10 scores (60.8% of subjects). One of the dimensions of type-D personality, namely negative affectivity, was even more important as a determinant of high stress levels as it accounted for as much as 55% of PSS-10 score variability. In addition, all students (100%) who experienced the highest stress levels (GQ4, PSS-10 > 27 points) had scored at least 10 points in the NA subscale. Both our results and literature data [15, 43, 44, 46, 47] suggest that young individuals entering adulthood are significantly burdened by the adverse impact of stress. The high level of chronic stress identified in this study, being largely determined by type-D personality features including negative affectivity, poses a threat to the subjects’ health since both chronic stress and type-D personality have been listed among psychosocial risk factors of chronic non-infectious diseases [9]. In addition, individuals with the highest stress levels were observed to present with high intensity of disturbing health symptoms and low health self-evaluation. The stress response caused by activation of the neuroendocrine and autonomous nervous system [52] triggers the neuroimmune axis, which ties the nervous system to the immune system [53]. Stress may reduce the efficacy of the immune system, making the chronically distressed individual more susceptible to various diseases [4]. Hypercortisolaemia, observed particularly in chronic stress, is responsible for an immunosuppressive effect. Stress may induce production of pro-inflammatory cytokines, increase the production of reactive oxygen species, activate pro-inflammatory factors, or release acute inflammatory phase mediators [54]. The importance of psychological factors analysed in this study is currently highlighted in cardiovascular disease prevention guidelines [9]. Chronic non-infectious diseases, particularly cardiovascular diseases and malignancies, are the causes of high morbidity and mortality rates both worldwide and in Poland. Considering the fact that these are deferred-onset diseases, which may develop over many years having been triggered by numerous concomitant risk factors, preventive interventions should be made as early as possible.
A limitation of this study was the relatively small sample of young adult participants and the narrow research area. Therefore, we are cautious in interpreting and generalising our results, considering them to be preliminary.
Implications for practice: The school environment, while being identified as a potential stress source, may also provide the basic environment for strengthening stress coping capabilities [7]. Every day, a lot of time is spent by children and adolescents at school. Therefore, educators as well as school nurses, psychologists, and educationalists may be the first persons to notice potential problems and health hazards. Considering the burden being placed by stress on the current situation of a student as well as the deterred consequences of chronic stress, one may identify 2 categories of practice implications. Firstly, prevention teams should consider stress exposure and appropriate coping capabilities when monitoring the students’ health. Particular attention should be paid to adolescents entering adulthood, particularly female students and individuals burdened with health problems. Cooperation in wider teams providing preventive care at school environments would be required. Teams should be prepared to control stress as a health risk factor and to provide individualised support to students. Secondly, efficient prevention of chronic stress-related diseases requires stress coping skills being developed from an early age. School environments provide excellent conditions for prevention programs involving the participation of school nurses. The possibility of taking advantage of screening programs based on standardised stress exposure assessment tools should be taken into consideration in both preventive dimensions. Such screening would facilitate identification of individuals particularly susceptible to stress and subsequent implementation of prophylactic measures to prevent potential health problems.

Conclusions

We have demonstrated a serious chronic stress burden to the study group of high school students. The stress burden was determined mainly by negative affectivity, type-D personality, health self-evaluation, and sex. Subpopulation of students presenting the highest stress levels was also characterised by a high level of disturbing disease symptoms.
Stress prevention teams should be prepared to control stress as a health risk factor, to provide individualised support to students, and to promote psychiatric health. An important role could be played by screening programs based on standardised stress exposure assessment tools that would facilitate identification of individuals particularly susceptible to stress and subsequent implementation of prophylactic measures to prevent potential health problems. It should also be considered to introduce classes on stress reduction methods at this level of education.

Funding

No external funding.

Ethical approval

The study was approved by the Bioethics Committee (Decision no. 5/2017 of 27.02.2017) and the high school authorities.

Conflict of interest

The authors declare no conflict of interest.

References

1. Greenberg M, Jóźwiak B, Horzowska A. Mózg odporny na stres. Wydawnictwo Rebis, Białystok, 2022.

2. Heszen I. Psychologia stresu. PWN, Warszawa, 2023.

3. Schnall PA, Dobson M, Landsbergis P. Globalization, work, and cardiovascular diseases. Int J Health Serv. 2016; 46(4): 656-692.

4. Sojka E, Jonderko K. From laboratory to practice: stress as a pathogenetic factor in diseases of the gastrointestinal tract. Wiad Lek. 2013; LXVI(4): 379-385.

5. Juczyński Z, Ogińska-Bulik N. Narzędzia pomiaru stresu i radzenia sobie ze stresem. Pracownia Testów Psychologicznych PTP, Warszawa, 2012.

6. Kabunga A, Kigongo E, Udho S, Auma AG, Okalo P, Apili B, Halimah N, Nalwoga V. Chronic stress and coping mechanisms among nurses in Lango sub-region, northern Uganda. Nurs Open. 2023 Sep; 10(9): 6101-6107.

7. Małkowska-Szkutnik A. Problemy szkolne – stres w szkole. In: Standardy postępowania i metodyka pracy pielęgniarki szkolnej. W Ostręga, A Oblacińska A (eds.). Instytut Matki i Dziecka, Warszawa 2017; 119-134.

8. Siegrist J, Li J. Work stress and the development of chronic diseases. Int J Environ Res Public Health. 2018 Mar; 15(3): 536.

9. Piepoli MF, Hoes AW, Agewall S, Albus Ch, Brotons C, Catapano AL, Cooney MT, Corrà U, Cosyns B, Deaton C, Graham I, Hall MS, Hobbs FDR, Løchen ML, Löllgen H, Marques-Vidal P, Perk J, Prescott E, Redon J, Richter DJ, Sattar N, Smulders Y, Tiberi M, van der Worp HB, van Dis I, Verschuren WMM. 2016 European Guidelines on cardiovascular disease prevention in clinical practice: The Sixth Joint Task Force of the European Society of Cardiology and Other Societies on Cardiovascular Disease Prevention in Clinical Practice (constituted by representatives of 10 societies and by invited experts): Developed with the special contribution of the European Association for Cardiovascular Prevention & Rehabilitation (EACPR). Eur J Prev Cardiol. 2016; 23(11): NP1-NP96.

10. Kivimaki M, Nyberg ST, Batty GD, Fransson EI, Heikkila K, Alfredsson L, Bjorner JB, Borritz M, Burr H, Casini A, Clays E, De Bacquer D, Dragano N, Ferrie JE, Geuskens GA, Goldberg M, Hamer M, Hooftman WE, Houtman IL, Joensuu M, Jokela M, Kittel F, Knutsson A, Koskenvuo M, Koskinen A Kouvonen A, Kumari M, Madsen IEH, Marmot MG, Nielsen ML, Nordin M, Oksanen T, Pentti J, Rugulies R, Salo P, Siegrist J, Singh-Manoux A, Suominen SB, Väänänen A, Vahtera J, Virtanen M, Westerholm PJM, Westerlund H, Zins M, Steptoe A, Theorell T; IPD-Work Consortium. Job strain as a risk factor for coronary heart disease: a collaborative meta-analysis of individual participant data. Lancet. 2012 Oct; 380(9852): 1491-1497.

11. Östberg V, Låftman SB, Modin B, Lindfors P. Bullying as a stressor in mid-adolescent girls and boys-associations with perceived stress, recurrent pain, and salivary cortisol. Int J Environ Res Public Health. 2018 Feb; 15(2): 364.

12. Wong RSM, Yu EYT, Guo VY, Wan EY, Chin WY, Wong CKH, Fung CSC, Tung KTS, Wong WHS, Ip P, Tiwa- ri AFY, Lam CLK. A prospective cohort study to investigate parental stress and child health in low-income Chinese families: protocol paper. BMJ Open. 2018 Feb; 8(2): e018792.

13. Williams SG. Mental health issues related to sexual orientation in a high school setting. J Sch Nurs. 2017 Oct; 33(5): 383-392.

14. Cywińska M. Stres dzieci w młodszym wieku szkolnym. Objawy, przyczyny, możliwości przeciwdziałania. Wydawnictwo Naukowe UAM, Poznań, 2017.

15. Zhao S, Zhang Y, Yu C, Zhang H, Xie M, Chen P, Lin D. Trajectories of perceived stress among students in transition to college: mindset antecedents and adjustment outcomes. J Youth Adolesc. 2023 Jun; 52(9): 1873-1886.

16. Smith KB, Murack M, Ismail N. The sex-dependent and enduring impact of pubertal stress on health and disease. Brain Res Bull. 2023 Aug; 200: 110701.

17. Helpman L. On the stress of being a woman: the synergistic contribution of sex as a biological variable and gender as a psychosocial one to risk of stress-related disorders. Neurosci Biobehav Rev. 2023 Jul; 150: 105211.

18. Yang MH, Huang JY, Chen SL, Wei JC. Association of interstitial cystitis/bladder pain syndrome with stress-related diseases: a nationwide population-based study. J Clin Med. 2021 Nov; 10(23): 5669.

19. Stress. APA Dictionary of Psychology. American Psychological Association. Available at: https://dictionary.apa.org/stress?_gl=1*1la7r1x*_ga*MTQ5MzgxODgwOS4xNjkxODYzNDI3*_ga_SZXLGDJGNB*MTY5MjE5MDcyNy4zLjEuMTY5MjE5MjQ5Ni4wLjAuMA. Accessed on 10.08.2023.

20. Lee SH, Jung EM. Adverse effects of early-life stress: focus on the rodent neuroendocrine system. Neural Regen Res. 2024; 19(2): 336-341.

21. Su G, Song H, Lanka V, Liu X, Fang F, Valdimarsdóttir U.A., Carrero JJ. Stress related disorders and the risk of kidney disease. Kidney Int Rep. 2021 Jan; 6(3): 706-715.

22. Kelly JK, Coons HL. Stress, Chronic stress - Stress won’t go away? Maybe you are suffering from chronic stress. American Psychological Association. Available at: https://www.apa.org/topics/stress/chronic Accessed on 8.07.2023.

23. How stress affects your healt. Chronic stress. American Psychological Association. Available at: https://www.apa.org/topics/stress/health Accessed on 11.08.2023.

24. Liu, YZ, Wang YX, Jiang CL. Inflammation: the common pathway of stress-related diseases. Front Hum Neurosci. 2017; 11: 316.

25. Gradus JL, Antonsen S, Svensson E, Lash TL, Resick PA, Hansen JG. Trauma, comorbidity, and mortality following diagnoses of severe stress and adjustment disorders: a nationwide cohort study. Am J Epidemiol. 2015 Sep; 182(5): 451-458.

26. Chronic stress. APA Dictionary of Psychology. American Psychological Association Available at; https://dictionary.apa.org/chronic-stress. Accessed on 3.07.2023.

27. Jodłowska E, Juszczak M. The influence of chronic stress on development of hypertension. Folia Med Lodziensia. 2013; 40 (1): 53-77.

28. Begega A, Jove CI, López M, Moreno RD. Impact of environmental enrichment on the GABAergic neurons and glucocorticoid receptors in the hippocampus and nucleus accumbens of Wistar rats: pro-resilient effects. Brain Res Bull. 2023 Aug; 200: 110699.

29. Song H, Fang F, Arnberg FK, Mataix-Cols D, Fernández de la Cruz L, Almqvist C, Fall K, Lichtenstein P, Thorgeirs- son G, Valdimarsdóttir UA. Stress related disorders and risk of cardiovascular disease: population based, sibling controlled cohort study. BMJ. 2019 Apr; 365: l1255.

30. Vaccarino V, Goldberg J, Rooks C, Shah AJ, Veledar E, Faber TL, Votaw JR, Forsberg CW, Bremner JD. Post-traumatic stress disorder and incidence of coronary heart disease: a twin study. J Am Coll Cardiol. 2013 Sep; 62(11): 970-978.

31. Jośko-Ochojska J, Brus R. Stress and cancer. Ann Acad Med Siles. 2020; 74: 166-180.

32. Song H, Fang F, Tomasson G, Arnberg FK, Mataix-Cols D, de la Cruz LF, Almqvist C, Fall K, Valdimarsdóttir UA. Association of stress-related disorders with subsequent autoimmune disease. JAMA. 2018 Jun; 319 (23): 2388-2400.

33. Gao X, Cao Q, Cheng Y, Zhao D, Wang Z, Yang H, Wu Q, You L, Wang Y, Lin Y, Li X, Wang Y, Bian JS, Sun D, Kong L, Birnbaumer L, Yang Y. Chronic stress promotes colitis by disturbing the gut microbiota and triggering immune system response. Proc Natl Acad Sci USA. 2018 Mar; 115(13): E2960-E2969.

34. Michalska A, Ukleja-Sokołowska N, Bartuzi Z. Psychological stress and food allergy. Alerg Astma Immun. 2016; 21(4): 195-200.

35. Wysokiński A. The role of stress in etiopathogenesis and the course of schizophrenia. Psychiatr Psychol Klin. 2016; 16(3): 176-181.

36. Sheth C, McGlade E, Yurgelun-Todd D. Chronic stress in adolescents and its neurobiological and psychopathological consequences: an RD^oC perspective. Chronic Stress (Thousand Oaks). 2017 Jac-Dec; 1: 2470547017715645.

37. Pawlaczyk B. Rola hormonów w regulacji homeostazy organizmu człowieka. Homines Hominibus 2010; 6: 7-20.

38. Piegza M, Pająk J, Leksowska A, Piegza J, Gorczyca PW. Typ osobowości D a choroba niedokrwienna serca. Psychiatria. 2021; 18(2): 129-135.

39. Pedersen S, Denollet J. Is type D personality here to stay? Emerging evidence across cardiovascular disease patient groups. Curr Card Rev. 2006; 2: 205-213.

40. Steca P, D’Addario M, Magrin ME, Miglioretti M, Monzani D, Pancani L, Sarini M, Scrignaro M, Vecchio L, Fattirolli F, Giannattasio C, Cesana F, Riccobono SP, Gre- co A. A type A and type D combined personality typology in essential hypertension and acute coronary syndrome patients: associations with demographic, psychological, clinical, and lifestyle indicators. PLoS One. 2016; 11(9): e0161840.

41. Kupper N, Denollet J. Type D personality as a risk factor in coronary heart disease: a review of current evidence. Curr Cardiol Rep. 2018 Sep; 20(11): 104.

42. Pedersen S, Denollet J. Type D personality, cardiac events and impaired quality of life: a review. Eur J Cardiov Prev Rehabil. 2003 Aug; 10: 241-248.

43. Inchley J, Currie D, Young T, Samdal O, Torsheim T, Augustson L. Growing up unequal: gender and socioeconomic differences in young people’s health and well-being. Health Behaviour In School-Aged Children (HBSC) Study: International report from the 2013/2014 Survey Health Policy For Children And Adolescents. World Health Organization (Europe). Department of Health Promo- tion and Development, University of Bergen. Available at: https://hbsc.org/publications/reports/growing-up-unequal-gender-and-socioeconomic-differences-in-young-peoples-health-and-well-being/ Accessed on 16.07.2023.

44. Małkowska-Szkutnik A. Stres szkolny. In: Zdrowie i zachowania zdrowotne młodzieży szkolnej w Polsce na te wybranych uwarunkowań socjodemograficznych. Wyniki badań HBSC 2014. J Mazur (ed.). Instytut Matki i Dziecka. Warszawa 2015; 72-77.

45. Maritta V, Ruthaychonnee S, Minna A. Survey of adolescents’ stress in school life in Thailand: implications for school health. J Child Health Care. 2017 Jun; 21(2): 222-230.

46. Nowak G, Żelazko A, Nowak D, Waliczek M, Pawlas K. Zależność między zachowaniami zdrowotnymi a poziomem stresu i występowaniem bezsenności oraz depresji u studentów zdrowia publicznego. Piel Zdr Publ. 2015; 5(3): 231-238.

47. Murphy L, Denis R, Ward CP, Tartar JL. Academic stress differentially influences perceived stress, salivary cortisol, and immunoglobulin-A in undergraduate students. Stress. 2010 Jul; 13(4): 365-370.

48. Ziarko M. Zmaganie się ze stresem choroby przewlekłej. Wydawnictwo Naukowe Wydziału Nauk Społecznych Uniwersytetu im. Adama Mickiewicza w Poznaniu, Poznań, 2014.

49. Supranowicz P, Wysocki MJ. School stress and health disorders of post-elementary school adolescents. Roczn PZH. 2010; 61(2): 171-178.

50. Ogińska-Bulik N. Osobowość typu D. Teoria i badania. Wyd. WSH-E w Łodzi, Łódź 2009.

51. Grande G, Romppel M, Barth J. Association between type D personality and prognosis in patients with cardiovascular diseases: a systematic review and meta-analysis. Ann Behav Med. 2012 Jun; 43(3): 299-310.

52. Ulrich-Lai YM, Herman JP. Neural regulation of endocrine and autonomic stress responses. Nat Rev Neurosci. 2009 Jun; 10(6): 397-409.

53. Ekman R, Arnetz BB. The brain in stress – influence of environment and lifestyle on stressrelated disorders In: Stress in health and disease. BB Arnetz, R Ekman (eds.). Wiley-VCH Verlag GmbH & Co KGaA. Weinheim 2006; 196-213.

54. Uszyński M. Anatomia i neurofizjologia stresu u człowieka. In: Stres i antystres – patomechanizm i skutki zdrowotne. MedPharm, Wrocław 2009; 34-55.

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