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. 2019 Apr 16;9(2):e78905. doi: 10.5812/aapm.78905

Effect of Cognitive-Behavioral Training on Pain Self-Efficacy, Self-Discovery, and Perception in Patients with Chronic Low-Back Pain: A Quasi-Experimental Study

Zahra Mirbolook Jalali 1,*, Azadeh Farghadani 2, Maryam Ejlali-Vardoogh 1
PMCID: PMC6614783  PMID: 31341821

Abstract

Background

Correcting false cognitions and establishing preventive behaviors in patients with chronic low-back pain can improve self-efficacy and self-discovery of these patients against the physical and psychological consequences of chronic back pain through reinforcing thoughts and constructive behaviors.

Objectives

This study aimed to investigate the effectiveness of cognitive-behavioral training in self-efficacy, self-discovery, and pain perception of patients with chronic low-back pain.

Methods

Based on a quasi-experimental design, 40 patients with chronic low-back were selected through purposive sampling and assigned into two groups of intervention (n = 20) and control (n = 20). After administering the pain self-efficacy (PSE) scale, the self-discovery scale (SDS), and the pain perception questionnaire (MPQ) to both groups, the intervention group received the cognitive-behavioral training while the control group did not receive the intervention. The post-test was performed on both groups and the data were analyzed using SPSS.

Results

The scores of pain self-efficacy and self-discovery (self-awareness and acceptance, commitment and attraction, transcendence and development, and personal growth) were higher in the intervention group than in the control group (P < 0.01). The highest increase with an effect size of 0.514 was related to the self-awareness and acceptance subscale. In addition, the pain assessment perception was the only reduced subscale among the other dimensions of pain perception (P < 0.01).

Conclusions

Psychosocial complementary therapies can provide patients suffering from chronic pain with better physical and mental conditions to have a higher quality of life.

Keywords: Cognitive-Behavioral Training, Pain Perception, Pain Self-Efficacy, Self-Discovery

1. Background

Chronic low-back pain is one of the most common types of pain (1). In patients with chronic low-back pain, the objective measurement of physical activity is not necessarily related to the fear of movement (2). Complete relief from pain, sometimes, is not possible and therefore, learning to live with pain is essential. Psychological factors play an important role in converting acute pain to chronic pain and explaining the severity of pain and pain-related problems (3). The belief that pain is a disaster and the formation of avoidance-fear behavioral patterns can ultimately lead to helplessness pain responses (1). Cognitive-behavioral training, with a focus on avoidance beliefs and behaviors, can play an important role in pain management. The long-term physiological interventions without any psychological intervention may not be very effective in pain self-management. On the other hand, the effect of cognitive-behavioral training is more stable on the self-management of pain (4). High levels of self-efficacy can reduce distracting physical information by reducing anxiety, physiological exacerbations, and negative physical senses (5). Therefore, pain self-efficacy can reduce the effect of pain on crucial everyday activities by increasing efforts to cope effectively with pain (6).

In adaptation to chronic pain, it is necessary to overcome the gaps between social roles and personal identities (7). The frequent presence of pain-related symptoms can form a fragile (8), fearful, and humiliated person, and may be associated with the experience of negative emotions, identity confusion (9), and more avoidable behaviors in everyday life (10). Based on humanistic views, the degree of perception destruction that an individual has of “self” (11) can engage the person in a continuous defense against attacks to “self” and against self-blame, due to the discrepancy between the “real self” and the “ideal self” (12, 13). As cognitive bias increases, the pattern of “self-pain enmeshment and pain increases (13) to the extent that the physician occasionally becomes pessimistic about the patient’s treatment process (14). Under these circumstances, self-discovery can help patients to achieve a more productive life despite their pain and limitations. Self-discovery is defined as prosperity and realization of self, accurate recognition of abilities, and effort to realize them, and is based on the dimensions of self-awareness and acceptance, commitment and attraction, transcendence and development, and personal growth (15). Integrated medicine, besides focusing on the regaining of more normal physical conditions, emphasizes the importance of patients’ unique ability and desire for adaptation and continuous promotion of his well-being (16).

2. Objectives

This study aimed to examine the effectiveness of cognitive-behavioral training in pain self-efficacy, self-discovery, and perception in patients with chronic low-back pain.

3. Methods

In this quasi-experimental study, 40 patients were purposefully selected from among 100 patients diagnosed with chronic low-back pain referring to the pain clinic of Rasoul-e-Akram affiliated to Iran University of Medical Sciences. They were divided into an intervention group (n = 20) and a control group (n = 20). The patients’ selection criteria included consent to participate in the study, no history of similar training, appropriate physical conditions for attending the training sessions, and having the pain for more than three months. Cognitive-behavioral intervention for chronic pain was designed based on the general cognitive-behavioral (17) and special chronic pain (18, 19) packages and administered in eight two-hour sessions. Patients in the intervention and control groups were asked to complete the pain self-efficacy (PSE) scale, the self-discovery scale (SDS), and the pain perception questionnaire (MPQ) as the pretest. Then, the training was performed on the intervention group and the control group continued the routine medical treatment. Finally, the questionnaires were completed again by both groups as the post-test.

PSE is a six-item scale each scored from 0 to 10 to assess the sense of trust in patients with chronic pain in some activities related to disease control (20). SDS is a 33-item questionnaire each scored 0 - 4 on four dimensions of self-awareness and acceptance, commitment and attraction, transcendence and development, and personal growth (total self-discovery) (21). The MPQ is a 20-item questionnaire with the dimensions of pain sensory perception, affective perception, and pain assessment perception (22). The validity and reliability of these tools were proven by previous similar studies in Iran.

3.1. Implementation

The protocol designed for eight two-hour sessions (Table 1) was performed for the intervention group. The cognitive-behavioral training sessions for chronic pain are presented in Table 1.

Table 1. Cognitive-Behavioral Training Sessions for Chronic Pain.

Session Outlines Time, min Subtitles
1 Principles of cognitive-behavioral training and pre-test 120 Relationship between thoughts, feelings, and behaviors; the need for psychological training along with drug use
2 Training of guided mastery 120 Patterning, activation (encouragement and planning of daily activities to avoid passivity)
3 Exposure to avoidance and elimination of safe behaviors 120 Training of visual exposure
4 Stress reduction methods 120 Training of rapid relaxation and diaphragmatic breathing
5 Training of problem-solving 120 Exploring efficient problem-solving methods
6 Training of profit and loss analysis 120 How to complete the profit and loss analysis table
7 Application of dual criteria method 120 Learning how to think about different options for a problem
8 Summary, conclusion, and post-test 120 Reviewing the achievements of the sessions in relation to the experienced situations
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3.2. Statistical Analysis

Descriptive statistics such as mean and standard deviation and inferential statistics as multivariate and univariate covariance analysis were used in the present study.

4. Results

In the experimental group, the post-test scores of the self-discovery dimensions increased compared to the pretest scores, but no considerable change was observed in the scores of the control group. The reduction in the score of pain perception in the experimental group was not very significant when compared to the control group score. However, the post-test score of pain self-efficacy significantly increased in the experimental group when compared to the control group. Table 2 presents the pre-test and post-test mean scores and standard deviations of self-discovery, pain perception, and pain self-efficacy.

Table 2. The Mean ± SD of Self-Discovery, Pain Perception, and Pain Self-Efficacy in Pre-Test and Post-Testa.

Components Intervention Group Control Group
Pre-Test Post-Test Pre-Test Post-Test
1- Self-awareness and acceptance 85.33 ± 5.6 39 ± 3.9 31.30 ± 6.8 31.35 ± 6.5
2- Commitment and attraction 27.45 ± 5.8 31.70 ± 4.8 28.20 ± 5 28.25 ± 5.4
3- Transcendence and development 24.30 ± 4 28.25 ± 3.6 21.70 ± 3.9 22.45 ± 4.3
4- Personal growth 26.25 ± 4.6 30.60 ± 3.8 25.20 ± 5.3 25.70 ± 5.5
5- Total (self-discovery) 111.85 ± 16.4 129.55 ± 13.9 106.55 ± 21.8 107.90 ± 18.4
6- Pain sensory perception 17.10 ± 5.9 9.95 ± 3.3 13.65 ± 6.9 9.15 ± 5.8
7- Pain affective perception 7.95 ± 2.7 4.10 ± 2 8 ± 2.5 4.30 ± 1.8
8- Pain assessment perception 24.05 ± 7.9 14.40 ± 4.9 25.35 ± 8.4 17.85 ± 5.3
9- Total (pain perception) 49.10 ± 14.2 28.45 ± 8.7 47 ± 15.7 31.30 ± 11.4
10- Pain self-efficacy 10.95 ± 7.18 16 ± 5.7 11.5 ± 7.86 12.65 ± 7.5
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aValues are expressed as mean ± SD.

Univariate covariance analysis indicated a higher pain self-efficacy score in the intervention group than in the control group (P < 0.01) and 40% of increased pain self-efficacy was related to the effect of cognitive-behavioral training (Table 3).

Table 3. A Summary of ANOVA Test for Inter-Group Factors to Examine the Effect of Cognitive-Behavioral Training on Pain Self-Efficacy.

Change Source Sum of Squares Degree of Freedom Mean of Squares F Ratio Significance Level Effect Size
Covariance 1492 1 1492 257.3 0.001 0.874
Group 144.8 1 144.8 25 0.001 0.403
Error 214.6 37 5.8
Total 19927 40
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Multivariate covariance analysis indicated that the total score of self-discovery and the scores of the components (self-awareness and acceptance, commitment and attraction, transcendence and development, and personal growth) were significantly higher in the intervention group than in the control group (P < 0.01). The highest effect size was related to the self-awareness and acceptance component (0.514) (Table 4).

Table 4. Factor Covariance Analysis to Compare Post-Test scores of Self-Discovery Components.

Change Source/Variable Sum of Squares Degree of Freedom Mean of Squares F Ratio Significance Level Effect Size
Group
Self-awareness and acceptance 260.1 1 260.1 40.3 0.001 0.514
Commitment and attraction 176.4 1 176.4 13.2 0.001 0.257
Transcendence and development 102.4 1 102.4 9.9 0.003 0.207
Personal growth 148.2 1 148.2 20.9 0.001 0.355
Total 3515.6 1 3515.6 847 0.001
Error
Self-awareness and acceptance 245.5 38 6.5
Commitment and attraction 508.7 38 13.4
Transcendence and development 392.7 38 10.3
Personal growth 269.6 38 7.09
Total 2796.4 38 73.6
Total
Self-awareness and acceptance 776 40
Commitment and attraction 870 40
Transcendence and development 716 40
Personal growth 653 40
Total 11811 40
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Among the dimensions of pain perception, only the score of pain assessment perception was lower in the intervention group than in the control group (P < 0.01) and 35.7% of the reduction in the pain assessment perception score was related to the effect of cognitive-behavioral training (Table 5).

Table 5. Factor Covariance Analysis to Examine the Effect of Cognitive-Behavioral Training on Pain Perception.

Change Source/Variable Sum of Squares Degree of Freedom Mean of Squares F Significance Level Effect Size
Group
Pain sensory perception 19.9 1 19.9 5.9 0.21 0.144
Pain affective perception 0.304 1 0.304 0.22 0.65 0.006
Pain assessment perception 98.8 1 98.8 19.4 0.001 0.357
Error
Pain sensory perception 118.4 35 3.4
Pain affective perception 49.2 35 1.4
Pain assessment perception 178.2 35 5.09
Total
Pain sensory perception 449.6 40
Pain affective perception 842 40
Pain assessment perception 11507 40
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5. Discussion

The reported symptoms in people suffering from specific low-back pain (with specific medical causes like blows or osteoporosis) and non-specific low-back pain (without specific medical causes) (23) do not match the data obtained from clinical examinations (24). Perceived fear-avoidance beliefs, catastrophic thinking, and perceived disability make the symptoms more severe than they really are. Therefore, psychological interventions in both groups with specific and non-specific chronic low-back pain (CLBP) can be useful (7, 25).

The first finding of the current study suggesting that cognitive behavioral education (CBE) increases pain self-efficacy in the experimental group is in line with some previous studies (26, 27) that indicated the role this approach in increasing the efficacy, active coping strategies, and psychological flexibility in people with CLBP. In explaining this finding, we can point to the impressionability of the individual’s cognitive evaluations in the area of bodily information, attention diversion from potentially threatening bodily information, increased resistance against disturbing bodily information, changes in explanation and interpretation of body sensations and hence, increased pain self-efficacy (8). The second finding also suggests that awareness and acceptance, commitment and absorption, transcendence and advancement, and personal growth, as the dimensions of self-discovery, increased in the experimental group. This finding conforms to a study that emphasized the role of self-discovery and the ability to distinguish between the “self” and the body; the study also indicated that the pain-related thoughts and feelings played a very important role in pain self-management education and enhanced self-compassion in patients with CLBP (28). Increased self-awareness and self-acceptance in patients is also in agreement with a previous study that indicated the role of CBE in increasing mindfulness in patients with chronic pain (29). In explaining this finding, we can point to the role CBE in reducing the avoidance strategies, decreasing the disparity between the actual and the ideal self of the patient (30) and therefore, enhancing self-awareness and self-acceptance.

As the second self-discovery dimension, commitment and absorption also increased in the experimental group. This finding conforms to a survey in which CBE positively influenced active coping with the problem, solving the programmed problem, reevaluating the problem, and accepting responsibility for the problem (31).

In fact, the lack of complete success in daily living activities prevents the increased entanglement of the “self” and pain, and the individual experiences greater commitment and attraction to the personal life through accepting pain as a life event and by refusing to focus excessively on the body as a painful object (13).

In the present study, education increased transcendence and advancement as the third self-discovery dimension in the experimental group. This finding agrees with a study that investigated the effects of CBE on developing newer capabilities and skills for adapting to conditions. We can explain this finding through the effect of CBE on reevaluating the new goals and concentrating on behaviors to reach these goals, thus enabling CLBP patients to experience less damage to their self-concept, transcendence, and advancement (32).

As the last self-discovery dimension, personal growth increased in the experimental group. This finding is in agreement with studies of the effect of CBE on increasing self-direction, the incentive to collect information regarding oneself, self-confidence, time spent for oneself, and concentration on treatment quality in patients with CLBP (33). In fact, CBE can prepare the ground for personal growth in patients by influencing information processing, acceptance of facts, and continuous learning and self-sufficiency (15, 34).

The last finding of the present study suggests that education had a positive effect on reducing pain assessment perception among the other dimensions of pain assessment.

Studies conforming to the present study (35-37) also emphasized the effect of CBE on reducing the pain assessment perception. It seems that approaches like neurofeedback and emotion-focused approach together with CBE are appropriate complements for influencing the sensory and affective perception of pain.

By employing the educational aspect of CBE as a distinctive feature, the present study indicated that CBE was more effective on CLBP compared to cognitive-behavioral treatment in patients who did not necessarily belong to the upper social classes. It also increased physical performance, reduced pain level, and even decreased depression in this group of people (38). Moreover, most domestic studies have not examined the processes centered on “self” to even influence the cognitive and affective aspects of CLBP, while recent research in other countries on CLBP places greater emphasis on reconstructing processes centered on “self” (39).

5.1. Conclusions

Based on the fear-avoidance model, fear of movement in patients with CLBP can increase their inefficiency in coping with pain and pain severity (39). Furthermore, losing the feelings of control, self-determination, and identity of the “self” as an efficient human being creates the feeling in a person with CLBP that his whole life is under attack. Therefore, psychological interventions like CBE for chronic pain can enhance self-rediscovery in people, along with increasing pain self-efficacy and reducing pain perception. The impossibility of studying the stability of the effects of CBE and the fact that patients with various types of low back pain (specific, non-specific, persistent chronic, and recurrent) were not separately assessed to compare the results were among the limitations of the study. Research in other areas related to pain can be useful.

Acknowledgments

The researchers would like to express their gratitude to the staff of Rasoul-e-Akram pain clinic of Iran University of Medical Sciences. This paper was derived from an MSc. thesis in general psychology and approved by both authors. The authors confirm the honesty in the work.

Footnotes

Conflict of Interests: As researchers and authors of this paper, we have no conflict of interests in the design, implementation, analysis, or publication of our work.

Ethical Approval: It is not declared by the authors.

Funding/Support: This study was funded by the authors.

Patient Consent: It is not declared by the authors.

Contributor Information

Zahra Mirbolook Jalali, Email: zmjalali56@gmail.com.

Azadeh Farghadani, Email: edalataz@gmail.com.

Maryam Ejlali-Vardoogh, Email: ejlalimaryam90@yahoo.com.

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