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Article

Association of Gender, Painkiller Use, and Experienced Pain with Pain-Related Fear and Anxiety among University Students According to the Fear of Pain Questionnaire-9

by
Paweł Piwowarczyk
1,*,
Agnieszka Kaczmarska
2,
Paweł Kutnik
1,
Aleksandra Hap
2,
Joanna Chajec
2,
Urszula Myśliwiec
2,
Mirosław Czuczwar
1 and
Michał Borys
1
1
II Department of Anesthesiology and Intensive Care, Medical University of Lublin, 20-081 Lublin, Poland
2
Student’s Scientific Association, II Department of Anesthesiology and Intensive Care, Medical University of Lublin, 20-081 Lublin, Poland
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2021, 18(8), 4098; https://doi.org/10.3390/ijerph18084098
Submission received: 6 March 2021 / Revised: 2 April 2021 / Accepted: 10 April 2021 / Published: 13 April 2021
(This article belongs to the Special Issue Postoperative Pain Treatment and Prevention)
Browse Figures
Versions Notes

Abstract

:
Anxiety and fear are determinants of acute and chronic pain. Effectively measuring fear associated with pain is critical for identifying individuals’ vulnerable to pain. This study aimed to assess fear of pain among students and evaluate factors associated with pain-related fear. We used the Fear of Pain Questionnaire-9 to measure this fear. We searched for factors associated with fear of pain: gender, size of the city where the subjects lived, subject of academic study, year of study, the greatest extent of experienced pain, frequency of painkiller use, presence of chronic or mental illness, and past hospitalization. We enrolled 717 participants. Median fear of minor pain was 5 (4–7) fear of medical pain 7 (5–9), fear of severe pain 10 (8–12), and overall fear of pain 22 (19–26). Fear of pain was associated with gender, frequency of painkiller use, and previously experienced pain intensity. We found a correlation between the greatest pain the participant can remember and fear of minor pain (r = 0.112), fear of medical pain (r = 0.116), and overall fear of pain (r = 0.133). Participants studying medicine had the lowest fear of minor pain while stomatology students had the lowest fear of medical pain. As students advanced in their studies, their fear of medical pain lowered. Addressing fear of pain according to sex of the patient, frequency of painkiller use, and greatest extent of experienced pain could ameliorate medical training and improve the quality of pain management in patients.

1. Introduction

Pain is a prevalent, debilitating condition that has enormous health and economic consequences [1]. The prevalence of pain in primary care settings is estimated to be 30% of patients, and approximately 116 million Americans suffer from chronic pain conditions [1,2]. Anxiety and fear have been recognized as influential moderators and determinants of the perception of both acute and chronic pain [3,4,5,6,7].
Approximately 20% of the adult European population has chronic pain. The financial cost to society is estimated at more than 200 billion euros in Europe and 150 billion dollars in the USA annually [8,9]. The prevalence of chronic pain in the UK ranges from 35.0% to 51.3%. The prevalence of moderate to severely disabling chronic pain ranges from 10.4% to 14.3%. Chronic pain prevalence increases with increasing age from 14.3% in 18–25 years old to 62% in the over 75 age group. Reported prevalence estimates in the UK were 14.2% for widespread chronic pain, 8.2% to 8.9% for chronic neuropathic pain, and 5.4% for fibromyalgia. Chronic pain was more common in female than male participants [10].
Fear is an emotional reaction to an identifiable, imminent threat, including injury [11]. Fear plays a potent role in avoidance and confrontation behavior and is strongly associated with fight or flight responses triggered by the brain’s limbic system. However, persistent fear, including fear of pain, can lead to serious adverse psychological and physiological sequelae. Patients with higher levels of fear of pain often report greater disability associated with chronic pain or experience of pain severity [12]. Moreover, patients with higher levels of fear report greater pain intensity in studies on muscle injury models [13]. Additionally, anxiety was found associated with intensified and more extended pain experiences in dental patients [14]. Interestingly, pain-related fear is considered a stronger predictor of acute pain than pain catastrophizing, which is characterized by the tendency to magnify the threat value of pain stimulus and to feel helpless [7].
Efficiently and effectively measuring fear and anxiety associated with pain in healthcare settings is critical for identifying patients vulnerable to pain. However, students from medical universities often report too few hours of education on pain management and pain’s pathomechanisms. This inadequacy results in discomfort when assessing or treating pain [15]. Moreover, doctors’ own pain experience often determines how they approach pain treatment among their patients [16]. Thus, medical, dentistry, and nursing students, as future healthcare providers, should be encouraged to use designed scales and assessment tools to assess fear of pain and increase awareness of the problem. Factors that could influence individual fear of pain, including the extent of past pain experiences, frequency of painkiller use, presence of chronic or mental illness, and past hospitalization, have not been thoroughly evaluated yet. Understanding factors associated with fear of pain among medical university students could also help prepare better training programs regarding pain assessment.
The Fear of Pain Questionnaire-9 (FPQ-9) is a shortened, validated survey based on the Fear of Pain Questionnaire-III (FPQ-III), designated to assess pain-related fear and anxiety [17]. This screening tool enables improved efficiency and allows healthcare professionals to examine more patients in a shorter time compared to the FPQ-III, which is demanded by developing healthcare systems in many countries [18,19].
According to the presented rationale, this study aimed to establish the extent of fear of pain among medical university students according to the Fear of Pain Questionnaire-9 and evaluate factors associated with pain-related fear and anxiety.

2. Materials and Methods

This study was approved by the Local Ethical Committee (approval No. KE- 0254/294/2020). The survey was conducted via the internet between January and February 2021 among students of Medical University in Lublin, Poland, mainly in Medical, Dental, and Public Health (nurses, midwives, and EMT) departments and was compliant with GDPR privacy policy. There was no randomization of the participants, and convenience sampling was used. To assess pain-related fear and anxiety, the FPQ-9 was used. The questionnaire was conducted in English, and only those who reported advanced English language skills were included in the survey. The FPQ-9 questionnaire consists of nine questions that evaluate the fear of experiencing pain in various clinical and daily-life situations (Appendix A).
Additionally, for the study, questions evaluating overall pain-related fear and anxiety were grouped to assess fear of minor pain, severe pain, and medical pain. Based on the answers from the survey, the endpoints measured in this study were
  • fear of minor pain, which was calculated by summing the values of the items: 3, 5, 7 from the survey;
  • fear of medical pain, which was calculated by summing the values of the items: 2, 4, 8 from the survey;
  • fear of severe pain, which was calculated by summing the values of the items: 1, 6, 9 from the survey;
  • overall fear of pain, which was calculated by summing values of all nine items from the survey (Appendix B).
The secondary goal of the study was to evaluate factors that could be associated with pain-related fear and anxiety: gender, size of the city where the subjects lived, subject of academic study, year of study, the greatest extent of experienced pain, frequency of painkiller use, presence of chronic or mental illness, and past hospitalization. We used the variable gender instead of sex because seven people from the surveyed population did not want to reveal their sexual identity.
All statistical calculations were performed using STATISTICA 13.3 (StatSoft Inc., Tulsa, OK, USA). Categorical variables were presented as frequency rates and percentages. The data were tested for normal distribution using the Kolmogorov–Smirnov test; variables were presented as medians and interquartile ranges (IQR) due to a non-normal distribution. To compare data, we performed the Mann–Whitney U test, the Kruskal–Wallis test, and Spearman’s Rank-Order Correlation. A p-value of 0.05 or below was considered statistically significant.

3. Results

We enrolled 717 participants, of whom 76.3% were female. In the study, 15.3% of participants had a history of chronic illness associated with pain, and 22.5% suffered or had a history of suffering from mental illness. The majority of the studied population (59.8%) had been hospitalized in the past. Median fear of minor pain was 5 (4–7), median fear of medical pain was 7 (5–9), median fear of severe pain was 10 (8–12), and median overall fear of pain was 22 (19–26). Participants’ detailed demographics and median answers with interquartile range for survey questions are presented in Table 1.
Table 1 presents baseline characteristics of participants. Values are presented as number of participants in each subgroup and percentage of entire study population in the brackets, or as medians and interquartile range in the brackets.
In this study, fear of minor pain was associated with more frequent use of painkillers. Participants studying medicine showed lower median fear in comparison to students from stomatology or other subjects (Table 2).
Table 2 presents factors associated with fear of minor pain. Values are presented as medians and interquartile range in the brackets; p-value < 0.05 is considered statistically significant.
In our study, fear of medical pain was greater in females in comparison to males. Participants studying stomatology had the lowest fear of medical pain followed by medical students and students of other subjects. The final years of study were associated with a lower fear of medical pain among participants. Frequent users of painkillers showed a higher median fear of medical pain in contrast to infrequent ones (Table 3).
Table 3 presents factors associated with fear of medical pain. Values are presented as medians and interquartile range in the brackets; p-value < 0.05 is considered statistically significant.
Fear of severe pain was more outlined in females than in males (Table 4).
Table 4 presents factors associated with fear of severe pain. Values are presented as medians and interquartile range in the brackets; p-value < 0.05 is considered statistically significant.
Overall fear of pain was more emphasized in females than in males. Past experience of high-intensity pain was associated with a higher median result of an overall fear of pain. Participants who reported an increased frequency of painkiller use showed greater overall fear of pain (Table 5).
Table 5 presents factors associated with overall fear of pain. Values are presented as medians and interquartile range in the brackets; p-value < 0.05 is considered statistically significant.
We found a correlation between the greatest pain the participant can remember and fear of minor pain (r = 0.11242) (Figure 1), fear of medical pain (r = 0.11639) (Figure 2), and overall fear of pain (r = 0.13292) (Figure 3). In contrast, no correlation with the fear of severe pain was observed.
Figure 1 presents the scatter graph of relation between fear of minor pain and the greatest pain experienced. Size of the rings on the graph represent the number of participants within the group.
Figure 2 presents the scatter graph of relation between fear of medical pain and the greatest pain experienced. Size of the rings on the graph represent the number of participants within the group.
Figure 3 presents the scatter graph of relation between fear of overall pain and the greatest pain experienced. Size of the rings on the graph represent the number of participants within the group.
The majority of our study population were medical students (57.5%), students from the nursing and midwives department (32.5%), and stomatology (10%). The fear of severe, minor, and medical pain and overall fear of pain was compared between disciplines (Table 6).
Table 6 presents associations between type of study and type of fear of pain. Values are presented as medians and interquartile range in the brackets; p-value < 0.05 is considered statistically significant.
We used multivariate regression to seek an association between the results of the FPQ-9 and the greatest pain sensed by the participants. In the result, we found a model that included five quantitative variables from the FPQ-9 (answers to questions number 3, 4, 6, 7, 8) and five qualitative variables (answers to questions number 10, 11, 15, 17, 18) (Appendix A). Moreover, the sum of the FPQ-9 and each of the subscales (severe, minor, and medical pain) were also included in the model. This model’s prediction was R2 = 0.92, F = 449, and AIC = 2980.

4. Discussion

In the presented study, we found that fear of pain was significantly associated with gender, frequent use of painkillers, and pain intensity experienced in the past. Participants studying medicine had the lowest fear of minor pain while stomatology students had the lowest fear of medical pain. As students advanced in years of studying at medical university, the median fear of medical pain decreased.

4.1. Association between Gender and Fear of Pain

Women and men differ in how they process pain in experimental and clinical settings [19,20,21]. However, there is still a lack of consistent evidence on psychosocial variables’ contributions, including factors that influence fear of pain, in the pain experience [22,23,24,25]. Our study results correspond with the findings presented by Robinson et al. [26], where women were more willing to report pain and consider themselves to be more sensitive to pain than males. Conversely, according to Robinson’s study, some males believed that they have higher pain endurance than women and compared to the typical male. Interestingly, after controlling for these gender role differences and anxiety, previous sex-related differences in central sensitization to pain were attenuated [27]. Robinson et al. [26] indicated that sex differences in reported pain may be attributed to underlying differences in psychosocial factors. In case of the transgender patient, the fear of discrimination/maltreatment can potentially impact fear of pain, and medical professionals should be aware of this important issue and address it appropriately [28].

4.2. Association between Painkiller Use and Fear of Pain

Frequent use of painkillers has been associated with increased sensitivity to pain [29]. Moreover, while the role of opioid drugs in the mechanism of opioid-induced hyperalgesia has been elucidated, in a study by Samuelson et al., reduced pain tolerance has been found for both opioid users and non-users [29,30]. Additionally, Edwards et al. [31] suggest that analgesics’ effectiveness is reduced in a state of increased pain sensitivity. Some authors postulated that increased sensitivity to pain might be a risk factor for chronic pain [32]. Moreover, according to Krebbs et al. [33], treatment with opioids is not superior to treatment with non-opioid medications for improving pain-related function over 12 months in chronic back pain or hip or knee osteoarthritis pain. Pain-related fear is a factor that may increase the risk of drug toxicity, e.g., paracetamol poisoning in dental patients [34]. On the other hand, fear of drug toxicity in cancer patients, such as in opiophobia, might prevent patients from appropriate pain management due to drug addiction’s potential risk and undesirable side effects [35,36]. The association between increased pain sensitivity, fear of pain, and frequency of painkiller use has not yet been investigated. According to our study, there is an association between fear of minor pain, fear of medical pain, and overall fear of pain and frequent use of painkillers. The causal relationship between fear of pain, sensitivity to pain, and frequency of painkiller use remains to be established.

4.3. Association between the Extent of Experienced Pain and Fear of Pain

While fear of pain remains one of the leading aspects associated with pain sensitivity, multiple other factors, including attention to pain and the extent of pain experienced in the past, contribute to interindividual variance in pain processing [7,37,38,39]. Previous pain experiences, in certain circumstances, can lead to adaptation and a decrease in pain sensitivity [40,41,42,43,44,45]. On the other hand, continuous or repeated noxious stimulation can lead to sensitization to pain. Additionally, extensive past pain can alter future pain perception, and these changes may be long-lasting [46,47,48]. Interestingly, Hohmeister et al. [49] have proven that pain experience may affect sensory mechanisms and cognitive and emotional processing related to pain. Even single-episode trauma may result in altered cognitive and emotional processing of pain for years [50]. This finding might be clinically significant given that fear of pain and pain catastrophizing are known to be risk factors for the development of persistent pain [5,51,52,53]. Our study confirms an association between the greatest extent of pain experience from the past and the overall fear of pain.

4.4. Differences in Fear of Pain According to the Type and Year of Academic Study

In our study, both the year of study and the type of study were found to be significantly associated with fear of medical pain but not with other types of pain. The more completed years of study, and therefore the more experienced the student, the lower the fear of medical pain was. This observation could be explained by the process of obtaining more knowledge about pain management over the course of study, and consequently, more experienced students would fear medical pain less. However, in a study performed by Guivarc’h [16], dental students with more clinical experience presented less consideration for intraoperative pain. These results could imply that students undergo desensitization towards pain over their education, as they often experience a decline in empathy [48]. Pain management training should consider the potential decay of fear of medical pain among students and emphasize the importance of pain management in clinical practice.
The influence of fear of pain on the extent of chronic pain syndromes, especially in fibromyalgia, was recently thoroughly investigated. Multiple psychological and behavioral interventions have proven their efficacy in the alleviation of chronic pain [54,55,56,57,58]. Recently, Martinez-Calderon et al. published a systematic review on the issue of intervention therapies to reduce pain-related fear in fibromyalgia [59].
New approaches to the management of fear of pain that involve screening of neurophysiological markers, e.g., neural oscillatory correlates of fear-related brain circuits, may be a subject of future studies. Further insight into this issue could enable the development of novel therapies that could alleviate fear and anxiety symptoms [60].
This study has many limitations. The baseline level of pain in response to noxious stimuli and chronic pain measures has not been evaluated in the surveyed population. The survey was performed on a non-clinical population, and caution should be taken when the presented study findings are transferred to clinical use. We used an English version of the Fear of Pain Questionnaire-9 and adhered to the self-reported English language skills of the university students who participated in the survey, as English was not their native language. Polish translation and validation of Fear of Pain Questionaire-9 should be a subject of future study. Although the survey was distributed among the Medical University students and limited to one response per person by software, the answers could be at risk of a potential violation of honesty. Other factors that could influence the participants’ fear of pain, including the participants’ ethnocultural background and economic status, were not investigated. Their impact should be elucidated in future studies. A larger sample size of the surveyed population could increase the statistical power of the associations made.

5. Conclusions

While many societies and task forces studying the management of pain recommend individualized treatment approaches and fear of pain remains one of the main determinants of pain, the present study adds to how healthcare providers could tailor their treatment [61,62]. Understanding differences in fear of pain according to the patient’s sex, frequency of painkiller use, and greatest extent of experienced pain could ameliorate medical training and improve the quality of pain management in patients.

Author Contributions

Conceptualization, M.B. and P.P.; methodology, M.B., P.P. and P.K.; software, P.K.; formal analysis, P.P. and P.K.; investigation, A.K., A.H., J.C. and U.M.; data curation, A.K., A.H., J.C. and U.M.; writing—original draft preparation, P.P. and P.K.; writing—review and editing, M.B. and M.C.; supervision, M.C.; project administration, M.B. All authors have read and agreed to the published version of the manuscript.

Funding

The research received no external funding.

Institutional Review Board Statement

The study was conducted according to the guidelines of the Declaration of Helsinki, and approved by the Ethics Committee.

Informed Consent Statement

Informed consent was obtained from all participants involved in the study.

Data Availability Statement

The data presented in this study are available on request from the corresponding author. The data are not publicly available due to University’s data protection regulations.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A. FEAR of PAIN Questionnaire-9

The items listed below describe painful experiences. Please look at each item and think about how FEARFUL you are of experiencing the PAIN associated with each item. If you have never experienced the PAIN of a particular item, please answer on the basis of how FEARFUL you expect you would be if you had such an experience. Circle one number for each item below to rate your FEAR OF PAIN in relations to each event. (1—Not at all; 2—A little; 3—A fair amount; 4—Very much; 5—Extreme).
I FEAR the PAIN Associated with:Not at AllA LittleA Fair AmountVery MuchExtreme
1. Breaking your arm12345
2. Having a foot doctor remove a wart from your foot with a sharp instrument12345
3. Getting a papercut on your finger12345
4. Receiving an injection in your mouth12345
5. Getting strong soap in both your eyes while bathing or showering12345
6. Having someone slam a heavy car door on your hand12345
7. Gulping a hot drink before it has cooled12345
8. Receiving an injection in your hip/buttocks12345
9. Falling down a flight of concrete stairs12345

Appendix B

Scoring instructions for Fear of Pain Questionnaire-9:
(1)
Score the Fear of Severe Pain subscale by summing values for the following items: 1, 6, 9
(2)
Score the Fear of Minor Pain subscale by summing values for the following items: 3, 5, 7
(3)
Score the Fear of Medical/Dental Pain subscale by summing values for the following items: 2, 4, 8
(4)
Calculate the Total Score by summing the three subscale values, or simply sum all 9 items.
Each subscale contains 3 items, so the possible range of scores for each subscale is 3 through 15. The Total score has a range of 9 through 45.

References

  1. Institute of Medicine (US) Committee on Advancing Pain Research, Care, and Education. Relieving Pain in America: A Blueprint for Transforming Prevention, Care, Education, and Research; National Academies Press: Washington, DC, USA, 2011. [Google Scholar]
  2. Hasselström, J.; Liu-Palmgren, J.; Rasjö-Wrååk, G. Prevalence of pain in general practice. Eur. J. Pain 2002, 6, 375–385. [Google Scholar] [CrossRef]
  3. Romano, J.M.; Turner, J.A. Chronic pain and depression: Does the evidence support a relationship? Psychol. Bull. 1985, 97, 18–34. [Google Scholar] [CrossRef] [PubMed]
  4. Hursey, K.G.; Jacks, S.D. Fear of pain in recurrent headache sufferers. Headache J. Head Face Pain 1992, 32, 283–286. [Google Scholar] [CrossRef]
  5. McCracken, L.M.; Zayfert, C.; Gross, R.T. The Pain Anxiety Symptoms Scale: Development and validation of a scale to measure fear of pain. Pain 1992, 50, 67–73. [Google Scholar] [CrossRef]
  6. Geisser, M.E.; Robinson, M.E.; Keefe, F.J.; Weiner, M.L. Catastrophizing, depression and the sensory, affective and evaluative aspects of chronic pain. Pain 1994, 59, 79–83. [Google Scholar] [CrossRef]
  7. Hirsh, A.T.; George, S.Z.; Bialosky, J.E.; Robinson, M.E. Fear of pain, pain catastrophizing, and acute pain perception: Relative prediction and timing of assessment. J. Pain 2008, 9, 806–812. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  8. Van Hecke, O.; Torrance, N.; Smith, B.H. Chronic pain epidemiology and its clinical relevance. Br. J. Anaesth. 2013, 111, 13–18. [Google Scholar] [CrossRef] [Green Version]
  9. Breivik, H.; Collett, B.; Ventafridda, V.; Cohen, R.; Gallacher, D. Survey of chronic pain in Europe: Prevalence, impact on daily life, and treatment. Eur. J. Pain 2006, 10, 287–333. [Google Scholar] [CrossRef]
  10. Fayaz, A.; Croft, P.; Langford, R.M.; Donaldson, L.J.; Jones, G.T. Prevalence of chronic pain in the UK: A systematic review and meta-analysis of population studies. BMJ Open 2016, 6, e010364. [Google Scholar] [CrossRef]
  11. Arntz, A.; Dreessen, L.; De Jong, P. The influence of anxiety on pain: Attentional and attributional mediators. Pain 1994, 56, 307–314. [Google Scholar] [CrossRef]
  12. Turk, D.C.; Robinson, J.P.; Burwinkle, T. Prevalence of fear of pain and activity in patients with fibromyalgia syndrome. J. Pain 2004, 5, 483–490. [Google Scholar] [CrossRef]
  13. Parr, J.J.; Borsa, P.A.; Fillingim, R.B.; Tillman, M.D.; Manini, T.M.; Gregory, C.M.; George, S.Z. Pain-related fear and catastrophizing predict pain intensity and disability independently using an induced muscle injury model. J. Pain 2012, 13, 370–378. [Google Scholar]
  14. van Wijk, A.J.; Hoogstraten, J. Anxiety and pain during dental injections. J. Dent. 2009, 37, 700–704. [Google Scholar] [CrossRef] [PubMed]
  15. Tran, U.E.; Kircher, J.; Jaggi, P.; Lai, H.; Hillier, T.; Ali, S. Medical students’ perspectives of their clinical comfort and curriculum for acute pain management. J. Pain Res. 2018, 11, 1479–1488. [Google Scholar]
  16. Guivarc’h, M.; Saliba-Serre, B.; Jacquot, B.; Le Coz, P.; Bukiet, F. Dental students’ attitudes towards management of pain and anxiety during a dental emergency: Educational issues. Int. Dent. J. 2017, 67, 384–390. [Google Scholar] [CrossRef] [PubMed]
  17. McNeil, D.W.; Kennedy, S.G.; Randall, C.L.; Addicks, S.H.; Wright, C.D.; Hursey, K.G.; Vaglienti, R. Fear of Pain Questionnaire-9: Brief assessment of pain-related fear and anxiety. Eur. J. Pain 2018, 22, 39–48. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  18. Okie, S. The evolving primary care physician. N. Engl. J. Med. 2012, 366, 1849–1853. [Google Scholar] [CrossRef] [Green Version]
  19. Fillingim, R.B.; King, C.D.; Ribeiro-Dasilva, M.C.; Rahim-Williams, B.; Riley, J.L., 3rd. Sex, gender, and pain: A review of recent clinical and experimental findings. J. Pain 2009, 10, 447–485. [Google Scholar] [CrossRef] [Green Version]
  20. Robinson, M.E.; Riley, J.L., 3rd; Brown, F.F.; Gremillion, H. Sex differences in response to cutaneous anesthesia: A double blind randomized study. Pain 1998, 77, 143–149. [Google Scholar] [CrossRef]
  21. Kindler, L.L.; Valencia, C.; Fillingim, R.B.; George, S.Z. Sex differences in experimental and clinical pain sensitivity for patients with shoulder pain. Eur. J. Pain 2011, 15, 118–123. [Google Scholar] [CrossRef] [Green Version]
  22. Bingefors, K.; Isacson, D. Epidemiology, co-morbidity, and impact on health-related quality of life of self-reported headache and musculoskeletal pain—A gender perspective. Eur. J. Pain 2004, 8, 435–450. [Google Scholar] [CrossRef]
  23. George, S.Z.; Wittmer, V.T.; Fillingim, R.B.; Robinson, M.E. Sex and pain-related psychological variables are associated with thermal pain sensitivity for patients with chronic low back pain. J. Pain 2007, 8, 2–10. [Google Scholar] [CrossRef] [PubMed]
  24. Robinson, M.E.; Dannecker, E.A.; George, S.Z.; Otis, J.; Atchison, J.W.; Fillingim, R.B. Sex differences in the associations among psychological factors and pain report: A novel psychophysical study of patients with chronic low back pain. J. Pain 2005, 6, 463–470. [Google Scholar] [CrossRef] [PubMed]
  25. George, S.Z.; Fritz, J.M.; Childs, J.D.; Brennan, G.P. Sex differences in predictors of outcome in selected physical therapy interventions for acute low back pain. J. Orthop. Sports Phys. Ther. 2006, 36, 354–363. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  26. Robinson, M.E.; Riley, J.L., 3rd; Myers, C.D.; Papas, R.K.; Wise, E.A.; Waxenberg, L.B.; Fillingim, R.B. Gender role expectations of pain: Relationship to sex differences in pain. J. Pain 2001, 2, 251–257. [Google Scholar] [CrossRef] [PubMed]
  27. Robinson, M.E.; Wise, E.A.; Gagnon, C.; Fillingim, R.B.; Price, D.D. Influences of gender role and anxiety on sex differences in temporal summation of pain. J. Pain 2004, 5, 77–82. [Google Scholar] [CrossRef] [PubMed]
  28. Heima, M.; Heaton, L.J.; Ng, H.H.; Roccoforte, E.C. Dental fear among transgender individuals—A cross-sectional survey. Spec. Care Dent. 2017, 37, 212–222. [Google Scholar] [CrossRef]
  29. Samuelsen, P.J.; Nielsen, C.S.; Wilsgaard, T.; Stubhaug, A.; Svendsen, K.; Eggen, A.E. Pain sensitivity and analgesic use among 10,486 adults: The Tromsø study. BMC Pharmacol. Toxicol. 2017, 18, 45. [Google Scholar] [CrossRef]
  30. Fredheim, O.M.S.; Mahic, M.; Skurtveit, S.; Dale, O.; Romundstad, P.; Borchgrevink, P.C. Chronic pain and use of opioids: A population-based pharmacoepidemiological study from the Norwegian prescription database and the Nord-Trøndelag health study. Pain 2014, 155, 1213–1221. [Google Scholar] [CrossRef]
  31. Edwards, R.R. Individual differences in endogenous pain modulation as a risk factor for chronic pain. Neurology 2005, 65, 437–443. [Google Scholar] [CrossRef]
  32. Stoicea, N.; Russell, D.; Weidner, G.; Durda, M.; Joseph, N.C.; Yu, J.; Bergese, S.D. Opioid-induced hyperalgesia in chronic pain patients and the mitigating effects of gabapentin. Front. Pharmacol. 2015, 6, 104. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  33. Krebs, E.E.; Gravely, A.; Nugent, S.; Jensen, A.C.; DeRonne, B.; Goldsmith, E.S.; Kroenke, K.; Bair, M.J.; Noorbaloochi, S. Effect of Opioid vs. Nonopioid Medications on Pain-Related Function in Patients With Chronic Back Pain or Hip or Knee Osteoarthritis Pain: The SPACE Randomized Clinical Trial. JAMA 2018, 319, 872–882. [Google Scholar] [CrossRef] [PubMed]
  34. Nayyer, N.V.; Byers, J.; Marney, C. Identifying adults at risk of paracetamol toxicity in the acute dental setting: Development of a clinical algorithm. Br. Dent. J. 2014, 216, 229–235. [Google Scholar] [CrossRef] [PubMed]
  35. Reid, C.M.; Gooberman-Hill, R.; Hanks, G.W. Opioid analgesics for cancer pain: Symptom control for the living or comfort for the dying? A qualitative study to investigate the factors influencing the decision to accept morphine for pain caused by cancer. Ann. Oncol. 2008, 19, 44–48. [Google Scholar] [CrossRef] [PubMed]
  36. Graczyk, M.; Borkowska, A.; Krajnik, M. Why patients are afraid of opioid analgesics: A study on opioid perception in patients with chronic pain. Pol. Arch. Intern. Med. 2017, 128, 89–97. [Google Scholar] [CrossRef] [Green Version]
  37. George, S.Z.; Hirsh, A.T. Psychologic influence on experimental pain sensitivity and clinical pain intensity for patients with shoulder pain. J. Pain 2009, 10, 293–299. [Google Scholar] [CrossRef] [Green Version]
  38. Keogh, E.; Book, K.; Thomas, J.; Giddins, G.; Eccleston, C. Predicting pain and disability in patients with hand fractures: Comparing pain anxiety, anxiety sensitivity and pain catastrophizing. Eur. J. Pain 2010, 14, 446–451. [Google Scholar] [CrossRef]
  39. Dimova, V.; Horn, C.; Parthum, A.; Kunz, M.; Schöfer, D.; Carbon, R.; Griessinger, N.; Sittl, R.; Lautenbacher, S. Does severe acute pain provoke lasting changes in attentional and emotional mechanisms of pain-related processing? A longitudinal study. Pain 2013, 154, 2737–2744. [Google Scholar] [CrossRef]
  40. Cohen, M.J.; Naliboff, B.D.; Schandler, S.L.; Heinrich, R.L. Signal detection and threshold measures to loud tones and radiant heat in chronic low back pain patients and cohort controls. Pain 1983, 16, 245–252. [Google Scholar] [CrossRef]
  41. Cohen, M.J.; Song, Z.K.; Schandler, S.L.; Ho, W.H.; Vulpe, M. Sensory detection and pain thresholds in spinal cord injury patients with and without dysesthetic pain, and in chronic low back pain patients. Somatosens. Mot. Res. 1996, 13, 29–37. [Google Scholar] [CrossRef] [PubMed]
  42. Dar, R.; Ariely, D.; Frenk, H. The effect of past-injury on pain threshold and tolerance. Pain 1995, 60, 189–193. [Google Scholar] [CrossRef]
  43. Hapidou, E.G.; De Catanzaro, D. Responsiveness to laboratory pain in women as a function of age and childbirth pain experience. Pain 1992, 48, 177–181. [Google Scholar] [CrossRef]
  44. Naliboff, B.D.; Cohen, M.J.; Schandler, S.L.; Heinrich, R.L. Signal detection and threshold measures for chronic back pain patients, chronic illness patients, and cohort controls to radiant heat stimuli. J. Abnorm. Psychol. 1981, 90, 271–274. [Google Scholar] [CrossRef] [PubMed]
  45. Peters, M.L.; Schmidt, A.J. Differences in pain perception and sensory discrimination between chronic low back pain patients and healthy controls. J. Psychosom. Res. 1992, 36, 47–53. [Google Scholar] [CrossRef]
  46. Kleinböhl, D.; Hölzl, R.; Möltner, A.; Rommel, C.; Weber, C.; Osswald, P.M. Psychophysical measures of sensitization to tonic heat discriminate chronic pain patients. Pain 1999, 81, 35–43. [Google Scholar] [CrossRef]
  47. O’Neill, S.; Manniche, C.; Graven-Nielsen, T.; Arendt-Nielsen, L. Generalized deep-tissue hyperalgesia in patients with chronic low-back pain. Eur. J. Pain 2007, 11, 415–420. [Google Scholar] [CrossRef]
  48. Smith, B.W.; Tooley, E.M.; Montague, E.Q.; Robinson, A.E.; Cosper, C.J.; Mullins, P.G. Habituation and sensitization to heat and cold pain in women with fibromyalgia and healthy controls. Pain 2008, 140, 420–428. [Google Scholar] [CrossRef]
  49. Hohmeister, J.; Demirakça, S.; Zohsel, K.; Flor, H.; Hermann, C. Responses to pain in school-aged children with experience in a neonatal intensive care unit: Cognitive aspects and maternal influences. Eur. J. Pain 2009, 13, 94–101. [Google Scholar] [CrossRef] [PubMed]
  50. Hagenaars, M.A.; Fisch, I.; van Minnen, A. The effect of trauma onset and frequency on PTSD-associated symptoms. J. Affect. Disord. 2011, 132, 192–199. [Google Scholar] [CrossRef] [Green Version]
  51. Goubert, L.; Crombez, G.; Van Damme, S. The role of neuroticism, pain catastrophizing and pain-related fear in vigilance to pain: A structural equations approach. Pain 2004, 107, 234–241. [Google Scholar] [CrossRef]
  52. Vangronsveld, K.L.H.; Peters, M.; Goossens, M.; Vlaeyen, J. The influence of fear of movement and pain catastrophizing on daily pain and disability in individuals with acute whiplash injury: A daily diary study. Pain 2008, 139, 449–457. [Google Scholar] [CrossRef]
  53. Vlaeyen, J.W.S.; Linton, S.J. Fear-avoidance and its consequences in chronic musculoskeletal pain: A state of the art. Pain 2000, 85, 317–332. [Google Scholar] [CrossRef] [Green Version]
  54. Carleton, R.N.; Asmundson, G.J.G.; Korol, S.L.; LeBouthillier, D.M.; Hozempa, K.; Katz, J.D.; Vlaeyen, J.W.S.; Crombez, G. Evaluating the efficacy of an attention modification program for patients with fibromyalgia: A randomized controlled trial. Pain 2020, 161, 584–594. [Google Scholar] [CrossRef]
  55. Friesen, L.N.; Hadjistavropoulos, H.D.; Schneider, L.H.; Alberts, N.M.; Titov, N.; Dear, B.F. Examination of an Internet-Delivered Cognitive Behavioural Pain Management Course for Adults with Fibromyalgia: A Randomized Controlled Trial. Pain 2017, 158, 593–604. [Google Scholar] [CrossRef]
  56. Van Oosterwijck, J.; Meeus, M.; Paul, L.; De Schryver, M.; Pascal, A.; Lambrecht, L.; Nijs, J. Pain physiology education improves health status and endogenous pain inhibition in fibromyalgia: A double-blind randomized controlled trial. Clin. J. Pain 2013, 29, 873–882. [Google Scholar] [CrossRef]
  57. Simister, H.D.; Tkachuk, G.A.; Shay, B.L.; Vincent, N.; Pear, J.J.; Skrabek, R.Q. Randomized Controlled Trial of Online Acceptance and Commitment Therapy for Fibromyalgia. J. Pain 2018, 19, 741–753. [Google Scholar] [CrossRef] [PubMed]
  58. Amer-Cuenca, J.J.; Pecos-Martín, D.; Martínez-Merinero, P.; Lluch Girbés, E.; Nijs, J.; Meeus, M.; Ferrer Peña, R.; Fernández-Carnero, J. How Much Is Needed? Comparison of the Effectiveness of Different Pain Education Dosages in Patients with Fibromyalgia. Pain Med. 2020, 21, 782–793. [Google Scholar] [CrossRef] [PubMed]
  59. Martinez-Calderon, J.; Flores-Cortes, M.; Morales-Asencio, J.M.; Luque-Suarez, A. Intervention Therapies to Reduce Pain-Related Fear in Fibromyalgia Syndrome: A Systematic Review of Randomized Clinical Trials. Pain Med. 2021, 22, 481–498. [Google Scholar] [CrossRef] [PubMed]
  60. Trenado, C.; Pedroarena-Leal, N.; Cif, L.; Nitsche, M.; Ruge, D. Neural Oscillatory Correlates for Conditioning and Extinction of Fear. Biomedicines 2018, 6, 49. [Google Scholar] [CrossRef] [Green Version]
  61. Deyo, R.A.; Dworkin, S.F.; Amtmann, D.; Andersson, G.; Borenstein, D.; Carragee, E.; Carrino, J.; Chou, R.; Cook, K.; Delitto, A.; et al. Report of the NIH Task Force on research standards for chronic low back pain. Phys. Ther. 2015, 95, e1–e18. [Google Scholar] [CrossRef] [PubMed]
  62. Tick, H.; Nielsen, A.; Pelletier, K.R.; Bonakdar, R.; Simmons, S.; Glick, R.; Ratner, E.; Lemmon, R.L.; Wayne, P.; Zador, V. Pain Task Force of the Academic Consortium for Integrative Medicine and Health. Evidence-Based Nonpharmacologic Strategies for Comprehensive Pain Care: The Consortium Pain Task Force White Paper. Explore 2018, 14, 177–211. [Google Scholar] [CrossRef] [PubMed]
Ijerph 18 04098 g001 550
Figure 1. Correlation between the greatest experienced pain and fear of minor pain.
Figure 1. Correlation between the greatest experienced pain and fear of minor pain.
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Figure 2. Correlation between the greatest experienced pain and fear of medical pain.
Figure 2. Correlation between the greatest experienced pain and fear of medical pain.
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Figure 3. Correlation between the greatest experienced pain and fear of overall pain.
Figure 3. Correlation between the greatest experienced pain and fear of overall pain.
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Table
Table 1. Patient baseline characteristics.
Table 1. Patient baseline characteristics.
Demographics’ FeaturesNumber of Patients (N = 717)
Gender n, (%)
Female547 (76.3)
Male162 (22.6)
Prefer not to say7 (1)
Living n, (%)
Village196 (27.3)
City less than 50,000 inhabitants185 (25.7)
City less than 150,000 inhabitants89 (12.4)
City more than 150,000 inhabitants248 (34.6)
Type of study n, (%)
Medicine412 (57.5)
Stomatology71 (10)
Public Health234 (32.5)
Year of study n, (%)
1173 (24.1)
2142 (19.8)
3156 (21.8)
4131 (18.3)
567 (9.3)
648 (6.7)
Greatest pain you can remember on a scale of 0–10 n, (%)
02 (0.3)
12 (0.3)
28 (1.1)
323 (3.2)
441 (5.7)
584 (11.7)
6117 (16.3)
7177 (24.7)
8146 (20.4)
958 (8.1)
1058 (8.1)
Suffering from chronic illness n, (%)
Yes112 (15.6)
No605 (84.4)
Mental illness present or in past n, (%)
Yes161 (22.5)
No556 (77.5)
Hospitalization in the past n, (%)
Yes422 (58.9)
No295 (41.1)
Use of painkillers n, (%)
Hardly ever301 (42)
Once a month301 (42)
Once a week101 (14.1)
Once a day14 (1.9)
Fear of: Median (Interquartile range)Study population (N = 717)
Breaking arm3 (2–4)
Having a foot doctor remove a wart from a foot with a sharp instrument3 (2–4)
Getting a papercut on a finger1 (1–2)
Receiving an injection in mouth2 (1–3)
Getting strong soap in both eyes while bathing or showering1 (1–2)
Having someone slam a heavy car door on a hand4 (3–4)
Gulping a hot drink before it has cooled2 (1–3)
Receiving an injection in hip/buttocks2 (1–3)
Falling down a flight of concrete stairs3 (2–4)
Minor pain 3 + 5 + 75 (4–7)
Medical pain 2 + 4 + 87 (5–9)
Severe pain 1 + 6 + 910 (8–12)
Table
Table 2. Factors associated with fear of minor pain.
Table 2. Factors associated with fear of minor pain.
Demographics’ FeaturesStudy Population (N = 717)
Median (Interquartile Range)		p-Value
Gender 0.87
Female5 (4–7)
Male5 (4–7)
Living 0.20
Village5 (4–7)
City less than 50,000 inhabitants5 (4–7)
City less than 150,000 inhabitants5 (4–6)
City more than 150,000 inhabitants5 (4–7)
Type of study 0.003
Medicine5 (4–6)
Stomatology5 (4–7)
Public Health5 (4–7)
Year of study 0.44
15 (4–7)
25 (4–7)
35 (4–7)
45 (4–7)
55 (4–7)
65 (4–6)
Greatest pain you can remember on a scale of 0–10 0.19
07 (4–10)
16.5 (4–9)
24 (3–6)
35 (3–7)
45 (4–6)
55 (4–7)
65 (4–6)
75 (4–7)
85 (4–7)
95 (5–7)
106 (4–8)
Suffering from chronic illness 0.72
Yes5 (4–7)
No5 (4–7)
Mental illness present or in past 0.47
Yes5 (4–7)
No5 (4–7)
Hospitalization in the past 0.14
Yes5 (4–7)
No5 (4–7)
Use of painkillers 0.003
Hardly ever5 (4–6)
Once a month5 (4–7)
Once a week6 (5–7)
Once a day6.5 (5–8)
Table
Table 3. Factors associated with fear of medical pain.
Table 3. Factors associated with fear of medical pain.
Demographics’ FeaturesStudy Population (N = 717)
Median (Interquartile Range)		p-Value
Gender 0.002
Female7 (5–9)
Male6 (5–8)
Living 0.25
Village7 (5–9)
City less than 50,000 inhabitants7 (5–9)
City less than 150,000 inhabitants7 (5–8)
City more than 150,000 inhabitants7 (5–9)
Type of study 0.003
Medicine7 (5–9)
Stomatology7 (5–8)
Public Health7 (6–10)
Year of study 0.008
17 (5–9)
27 (6–9)
37 (5–9)
47 (5–9)
57 (5–8)
65 (4–7.5)
Greatest pain you can remember on a scale of 0–10 0.05
07 (5–9)
17 (6–8)
24 (3–5.5)
37 (3–8)
46 (4–8)
57.5 (5–9)
67 (6–8)
77 (5–9)
87 (5–9)
97 (5–10)
107.5 (5–10)
Suffering from chronic illness 0.77
Yes7 (5–9)
No7 (5–9)
Mental illness present or in past 0.24
Yes7 (5–9)
No7 (5–9)
Hospitalization in the past 0.66
Yes7 (5–9)
No7 (5–9)
Use of painkillers 0.004
Hardly ever6 (5–8)
Once a month7 (5–9)
Once a week7 (5–9)
Once a day8.5 (6–10)
Table
Table 4. Factors associated with fear of severe pain.
Table 4. Factors associated with fear of severe pain.
Demographics’ FeaturesStudy Population (N = 717)
Median (Interquartile Range)		p-Value
Gender 0.0007
Female10 (8–12)
Male10 (8–11)
Living 0.92
Village10 (8–12)
City less than 50,000 inhabitants10 (8–12)
City less than 150,000 inhabitants10 (8–12)
City more than 150,000 inhibitants10 (8–12)
Type of study 0.28
Medicine10 (8–12)
Stomatology10 (9–12)
Public Health10 (8–12)
Year of study 0.61
110 (8–12)
210 (8–12)
310 (8–11.5)
410 (8–12)
510 (8–12)
69 (8–11.5)
Greatest pain you can remember on a scale of 0–10 0.07
08 (6–10)
16 (5–7)
29.5 (5–12)
39 (7–10)
49 (8–11)
510 (8–12)
611 (9–12)
710 (8–12)
810 (8–12)
910 (8–11)
1010.5 (9–12)
Suffering from chronic illness 0.35
Yes10 (8–12)
No10 (8–12)
Mental illness present or in past 0.39
Yes10 (8–12)
No10 (8–12)
Hospitalization in the past 0.66
Yes10 (8–12)
No10 (8–12)
Use of painkillers 0.17
Hardly ever10 (8–12)
Once a month10 (8–12)
Once a week10 (9–12)
Once a day11.5 (9–12)
Table
Table 5. Factors associated with overall fear of pain.
Table 5. Factors associated with overall fear of pain.
Demographics’ FeaturesStudy Population (N = 717)
Median (Interquartile Range)		p-Value
Gender 0.003
Female23 (19–27)
Male21 (17–25)
Living 0.20
Village23 (19.5–27)
City less than 50,000 inhabitants23 (18–26)
City less than 150,000 inhabitants21 (18–25)
City more than 150,000 inhabitants22 (18–26)
Type of study 0.06
Medicine22 (18–26)
Stomatology22 (20–25)
Public Health23 (19–27)
Year of study 0.07
123 (19–27)
223 (19–27)
322 (18–25.5)
423 (19–27)
523 (18–26)
621 (17–24)
Greatest pain you can remember on a scale of 0–10 0.04
022 (19–25)
119.5 (15–24)
219.5 (11–22.5)
321 (15–24)
421 (17–23)
523 (19–27)
623 (20–25)
722 (18–26)
823 (19–26)
922.5 (19–26)
1024.5 (20–29)
Suffering from chronic illness 0.62
Yes23 (19–26)
No22 (19–26)
Mental illness present or in past 0.66
Yes22 (19–26)
No22 (19–26)
Hospitalization in the past 0.73
Yes22 (19–26)
No23 (18–27)
Use of painkillers 0.002
Hardly ever22 (18–25)
Once a month23 (19–26)
Once a week24 (20–28)
Once a day26.5 (20–31)
Table
Table 6. Fear of pain between disciplines.
Table 6. Fear of pain between disciplines.
Type of StudyFear of Minor Pain
Median (Interquartile Range)		p-ValueFear of Severe Pain
Median (Interquartile Range)		p-ValueFear of Medical Pain
Median (Interquartile Range)		p-ValueOverall Fear of Pain
Median (Interquartile Range)		p-Value
Medicine5 (4–6)0.00310 (8–12)0.287 (5–9)0.00322 (18–26)0.06
Stomatology5 (4–7)10 (9–12)7 (5–8)22 (20–25)
Public Health5 (4–7)10 (8–12)7 (6–10)23 (19–27)
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Piwowarczyk, P.; Kaczmarska, A.; Kutnik, P.; Hap, A.; Chajec, J.; Myśliwiec, U.; Czuczwar, M.; Borys, M. Association of Gender, Painkiller Use, and Experienced Pain with Pain-Related Fear and Anxiety among University Students According to the Fear of Pain Questionnaire-9. Int. J. Environ. Res. Public Health 2021, 18, 4098. https://doi.org/10.3390/ijerph18084098

AMA Style

Piwowarczyk P, Kaczmarska A, Kutnik P, Hap A, Chajec J, Myśliwiec U, Czuczwar M, Borys M. Association of Gender, Painkiller Use, and Experienced Pain with Pain-Related Fear and Anxiety among University Students According to the Fear of Pain Questionnaire-9. International Journal of Environmental Research and Public Health. 2021; 18(8):4098. https://doi.org/10.3390/ijerph18084098

Chicago/Turabian Style

Piwowarczyk, Paweł, Agnieszka Kaczmarska, Paweł Kutnik, Aleksandra Hap, Joanna Chajec, Urszula Myśliwiec, Mirosław Czuczwar, and Michał Borys. 2021. "Association of Gender, Painkiller Use, and Experienced Pain with Pain-Related Fear and Anxiety among University Students According to the Fear of Pain Questionnaire-9" International Journal of Environmental Research and Public Health 18, no. 8: 4098. https://doi.org/10.3390/ijerph18084098

APA Style

Piwowarczyk, P., Kaczmarska, A., Kutnik, P., Hap, A., Chajec, J., Myśliwiec, U., Czuczwar, M., & Borys, M. (2021). Association of Gender, Painkiller Use, and Experienced Pain with Pain-Related Fear and Anxiety among University Students According to the Fear of Pain Questionnaire-9. International Journal of Environmental Research and Public Health, 18(8), 4098. https://doi.org/10.3390/ijerph18084098

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