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Revista de investigación clínica

versión On-line ISSN 2564-8896versión impresa ISSN 0034-8376

Rev. invest. clín. vol.71 no.3 Ciudad de México may./jun. 2019  Epub 12-Abr-2021

https://doi.org/10.24875/ric.18002694 

Original articles

Factors Predicting the Stretching Exercise Behaviors of Office Employees Working in the Shahid Beheshti University of Medical Sciences in Tehran, Iran

Mohammad Hossein-Delshad1 

Sedigheh Sadat-Tavafian1  * 

Anoshirvan Kazemnejad2 

1Department of Health Education and Health Promotion, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran

2Department of Biostatistics, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran


Abstract

Background

Office employees of all ages are at risk for non-communicable diseases such as musculoskeletal disorders (MSDs) due to physical inactivity. Stretching exercise (SE) behavior could help office employees prevent MSDs. This research aimed to study the predictors of SE among office employees working in Shahid Beheshti University of Medical Sciences (SBUMS) of Iran through a health promotion model (HPM).

Methods

In the present study, 430 eligible office employees were randomly selected. To assess the predictors of SE, all the HPM constructs were examined as risk factors to determine whether they influence the probability of SE behavior occurrence and were interpreted through odds ratio (OR). SPSS version 19 was used to analyze the data.

Results

A total of 420 office employees with mean age of 37.1±8.03 years took part in the study. This study showed that perceived barriers to action could prevent participants from engaging in SE (OR [95%CI]: 0.875 [0.815-0.939], p < 0.001). However, perceived self-efficacy (OR [95%CI]: 1.248 [1.137-1.370], p < 0.001), commitment to a plan of action (OR [95%CI]: 1.189 [1.033-1.367], p = 0.016), and interpersonal influences (OR [95%CI]: 1.104 [1.041-1.217], p = 0.003) were significant predictors for SE behavior.

Conclusions

This study showed that the office employees who were more confident and committed to a plan of action, and perceived fewer barriers, were more likely to engage in SE behavior.

Key words Health promotion model; Stretching exercise; Office employee

INTRODUCTION

Globally, one-third of the general population suffers from some kind of chronic pain1, among which the most prevalent health problem is work-related musculoskeletal disorders (WRMSDs), with severe long-term pain and physical disability2. Clinical practice guidelines, such as those of the International Association for the Study of Pain3, recommend that physical activity be an integral component of pain rehabilitation services. Although exercise programs have been shown to benefit individuals with chronic pain4,5, physical inactivity is one of the most crucial factors for WRMSDs worldwide6. In Iran, insufficient physical activity has been reported in 33.5% of adults, increasing in recent years7. The World Health Organization has predicted that physical inactivity will reduce by up to 10% by 20258. Stretching exercise (SE) is a kind of physical exercise in which a specific muscle is flexed or stretched to achieve better muscle tone as well as improved muscle control, flexibility, and motion9. The previous studies have shown that performing SE could help individuals’ muscles to stretch and flex better and, finally, could improve musculoskeletal disorders (MSDs)10.

The office employees in Iranian universities sit at their desk during working hours without engaging in SE11. Despite the mentioned benefits of SE11, issues related to a lack of adherence to this activity or motivational factors are poorly understood1. Therefore, to predict and explain the factors influencing SE behavior is crucial to many researchers and professionals who are engaged in designing proper interventions to improve and promote this beneficial activity among office employees12.

Health promotion model (HPM) is one of the comprehensive models by which the factors influencing an individual to follow healthy behaviors could be predicted through its eight constructs, shown in figure 113. Pender et al. believed that worksite health promotion programs could help employees to develop healthy behaviors that could lead to lower health-care costs and enhanced productivity. However, before designing the programs based on the HPM, the efficacy of this model on SE behavior and predicted effective factors should be considered. In this regard, the present study aimed to assess whether HPM constructs predict SE behavior among office employees working in the Shahid Beheshti University of Medical Sciences (SBUMS) in Teheran, Iran.

Figure 1 Schematic representation of health promotion model (HPM) (Pender, 201513). The HPM framework is based on the HPM by which health behavior predicting factors have been shown. 

METHODS

Gemini study and participants

This study was done among the office employees who were working in the three health networks of North, East, and Shemiranat region of Tehran and were affiliated to SBUMS in Tehran, Iran, from May to September 2017. All ethical issues were considered in this research. After explaining the aims and procedures of the study, all participants agreed to be studied and voluntarily signed the written consent form. The Research Ethics Committee of Tarbiat Modares University approved the study in May 2016 (ID 52/1115 IR.TMU.REC.1395.329).

In the present study, 430 eligible office employees were randomly selected. Figure 2 shows the procedure of participation sampling. Inclusion criteria were to be working in the SBUMS as an employee and working on the computer at the workplace. Exclusion criteria were to have any disability or illness that prevented the employee from doing SE or not being allowed to do SE due to his or her physician’s recommendation. To assess the predictors of SE, all the HPM constructs (Fig. 1) were examined as risk factors, which could influence the probability of occurrence of SE and were interpreted through odds ratio (OR)14. Based on the existing reference, the sample size was estimated assuming five individuals for each item15. Therefore, for a 77-item questionnaire, a sample size of 77 × 5 = 385 was calculated.

Figure 2 Flow diagram of participation sampling among office employees working in three health networks of North, East, and Shemiranat region of Tehran, Iran. 

Study design

In this cross-sectional study, a demographic questionnaire, self-administered questionnaires based on HPM, and checklists regarding SE behaviors were used. The questionnaire regarding HPM constructs was developed by the researchers based on the existing literature and interview with key persons. The HPM constructs questionnaire included eight subscales according to HPM constructs (Fig. 1). The questionnaire based on HPM constructs is shown in Supplementary Table 1; in addition, this figure shows the barriers which were perceived by the studied employees. The SE behavior checklist was assessed using a 10-item questionnaire. Participants also answered a two-option question about performing specific SE for stretching neck, shoulder, and back muscles.

Table 1 Sociodemographic characteristics of the studied office employees 

Studied variables and constructs Sufficient n (%) Mean (SD)
Age, years 21-24 26 (6.2) 37.1±8.03
25-29 45 (10.7)
30-34 106 (25.2)
35-39 78 (18.6)
40-44 97 (23.1)
≥ 45 68 (16.2)
Years of education 12 45 (10.7) 4.3±0.8
14 258 (61.4)
16 (Bachelor) 60 (14.3)
18 (Master) 57 (13.6)
Work experience (years) ≤ 5 157 (37.4) 2.4±1.4
5-10 69 (16.4)
11-15 71 (16.9)
16-20 78 (18.6)
≥ 20 45 (10.7)
Suffering from WRMSD pain Yes 154 (36.6) –
No 266 (63.6)
Marital status Single 120 (28.6)
Married 289 (68.8)
Widowed 5 (1.2)
Divorced 6 (1.4)
Perceived benefits of action 17.90±5.05
Perceived barriers to action 20.85±6.03
Perceived Self efficacy 17.15±3.71
Activity-related affect 16.27±2.45
Interpersonal influences 11.55±4.64
Commitment to plan of action 16.82±4.28
Immediate competing demands and preferences 11.70±2.80
Situational influences 14.64±4.59
Stretching exercise (TE) Yes 191 (45.47) –
No 229 (54.53)

Mean (SD): mean (Standard deviation)

Sufficient stretching was defined as a stretched position for each muscle for 10-30 s to be repeated 3 or 4 times every 20 min for 5 days a week16-19. Qualitative and quantitative approaches were applied by 15 office employees to assess facial validity of the HPM constructs questionnaire through which all their recommendations were inserted into the questionnaire. To confirm the content validity of the questionnaire, the expert panel, including 15 specialists in different fields of health education, psychology, psychometric, physical medicine, nursing, pain management, neurology, and orthopedics, checked all the survey items by which 9 of 86 questions did not obtain the minimum agreement of necessity and were omitted. Finally, 77 items were approved. The reliability was determined through Cranach’s alpha coefficient that was in an acceptable range of 0.7-0.88.

Statistical analyses

To determine the relationship between different HPM constructs with each other and with SE behavior, R Spearman was used because the K-S test showed that the data were non-parametric. To predict the factors influencing SEs, logistic regression analysis was applied. In logistic regression, the regression coefficient (b1) is the estimated increase in the log odds of SE occurrence per unit increase in the value of the HPM constructs. Moreover, in this study, the OR represents the odds of SE occurring given exposures such as HPM constructs, compared to the odds of SE occurring in the absence of HPM constructs. OR = 1 means that exposure does not affect odds of SE; OR > 1 means exposure associated with higher odds of SE; and OR < 1 means exposure associated with lower odds of SE. p <0.05 was considered statistically significant.

RESULTS

Sociodemographic variables

Of a total of 430 office employees recruited, 420 took part in the study and filled the questionnaires (response rate 97.2%). Mean age of participants was 37.1 years (SD = 8.03) and most of them (25.2%) were between 30 and 34 years old. Overall, 154 employees (36.6%) were suffering from MSDs. Table 1 shows sociodemographic data as well as the mean (SD) of all studied variables based on HPM.

Spearman’s correlation tests were used to evaluate the relevance between the constructs of HPM with each other and with SE behavior (Table 2). As this table shows, there was a significant inverse correlation between SE and perceived barriers to action so that the office employees who perceived more barriers to action were significantly less likely to have SE behavior (p < 0.001).

Table 2 Correlation matrix of the constructs of health promotion model in stretching exercise in office employees 

Variables 1 2 3 4 5 6 7 8 9
1. Perceived benefits of action 1
2. Perceived barriers to action r = −0.383** 1
3. Perceived self-efficacy r = 0.423** r = 0.660** 1
4. Activity-related affect r = 0.371** r = 0.113 r = 0.342** 1
5. Interpersonal influences r = 0.453** r = 0.585** r = 0.583** r = 0.282** 1
6. Commitment to plan of action r = 0.730** r = 0.509** r = 0.709** r = 0.510** r = 0.627** 1
7. Immediate competing demands and preferences r = 0.050 r = 0.040 r = 0.003 r = 0.021 r = 0.130** r = 0.073 1
8. Situational influences r = 0.129** r = 0.008 r = 0.98** r = 0.092** r = 0.145** r = 0.197** r = 0.065 1
9. Stretching exercise r = 0.327** r = 0.523** r = 0.581** r = 0.208** r = 0.540** r = 0.558** r = 0.076 r = 0.107* 1

**Spearman’s correlation is meaningful at 0.01 levels (two-sided).

*Correlation is meaningful at the 0.05 level (two-sided).

As table 3 shows, perceived barriers to action were a negative predictor for engaging in SE (OR [95% CI]: 0.8755 [0.8151-0.9391], p < 0.001). Furthermore, the results of this study showed that perceived self-efficacy (OR [95% CI]: 1.248 [1.137-1.370], p < 0.001), interpersonal influences (OR [95% CI]: 1.126 [1.041-1.217], p = 0.003), and commitment to a plan of action (OR [95% CI]: 1.118 [1.033-1.367], p = 0.016) were positive predictors for the SE behavior.

Table 3 Predictors of stretching exercise behavior based on health promotion model through logistic regression analysis 

Independent variable B SE p OR (95% CI)
Perceived benefits of action −0.031 0.043 0.471 0.970 (0.892-1.054)
Perceived barriers to action -0.134 0.036 <0.001 0.875 (0.815-0.939)
Perceived self-efficacy 0.222 0.048 <0.001 1.248 (1.1371-1.370)
Activity-related affect -0.116 0.073 0.112 0.890 (0.771-1.028)
Interpersonal influences 0.099 0.04 0.003 1.104 (1.041-1.217)
Commitment to plan of action 0.173 0.072 0.016 1.189 (1.033-1.367)
Immediate competing demands and preferences 0.017 0.053 0.741 1.018 (0.918-1.129)
Situational influences −0.057 0.04 0.158 0.945 (0.874-1.022)

DISCUSSION

To understand better why adult individuals do not engage in SE is important to professionals who develop behavior-changing interventions20. Our study was carried out to address this challenge through the identification of predicting factors for SE behavior among Iranian office employees of a large university center; according to our results, self-efficacy was the most important predictor. These results agree with those from a previous study21, by which the motivational phase, the role of action planning, and self-efficacy were determined as influencing factors for SE behavior. Furthermore, the results of the present study are completely in the line of theoretical assumptions of the health action process approach20. Moreover, in accordance with our study, numerous studies have shown that perceived self-efficacy has been the best predictor variable for actual exercise activity22-24. Therefore, strategies for enhancing efficacy in practice, such as strengthening self-efficacy through motivational counseling interviews and focus group discussions, could lead to more effective health promotion programs for Iranian office employees and should be considered in future interventions25. These programs could propose that highly self-efficacious individuals exerted greater efforts to master health-promoting behaviors and persist longer in the face of obstacles to such behaviors. Perceived self-efficacy acknowledges the human self-regulation capacity and competencies in specific behavioral domains such as SE. Perceived self-efficacy is not only among the skills one should acquire but is also a belief about what one can do under different situations26. Laffrey reported in his research that Bandura noted that the perception of self-efficacy influences one’s thoughts, emotional arousal, and actions, and the higher one’s perceived efficacy for a behavior is that it is more likely that she/he will accomplish such behavior23. In this study, the variables of perceived barriers that had a negative association were demonstrated to be significant predictors for SE among office employees. This finding is supported by several previous studies, in which individuals who perceived more barriers to the performance of exercise were less likely to engage in this behavior24,27.

Pender et al. focused on a perceived barrier as an essential mediator of the motivational readiness of individuals to developing a healthy behavior13. In the present study, the barriers for engaging in SE were measured using a 9-item scale in which each item stated one barrier. Justine et al. stated that the perceived barriers to physical activity consisted of both internal factors such as individual sociodemographic features, health and motivation precedence for exercise and physical activity, as well as external factors such as the influence of peers and family, lack of time, inaccessibility, and high cost of facilities27. According to this finding, a problem-solving approach for overcoming barriers to physical activity should be considered in exercise intervention programs. To promote SE, it is necessary to solve the perceived barriers which were predictive. In other studies28,29, perceived barriers predicted physical activity behavior.

The findings of this study showed the beneficial effects of commitment to a plan of action on SE. The previous evidence has revealed the relationship between action planning and maintaining self-efficacy, on the one hand, and exercise behavior on the other30. Experimental and field studies have supported the idea that action planning refers to designing detailed plans regarding when, where, and how to exercise, and predicts exercise beyond goal intention31.

In the current study, there was also a relationship between interpersonal influences and SE. Moreover, there was also a relationship between situational influences and commitment to a plan of action. Similar to the present study, commitment to a plan of action and perceived barriers to action were the most predictive factors of the exercise behavior. These results are consistent with previous studies29,32, which have shown that interpersonal influences are related to the studied behavior29.

The current study revealed that perceived self-efficacy, perceived barriers, and commitment to a plan of action as well as interpersonal influences among office employees should be given more attention for improving SE behavior. There are several limitations to this study. First, the data used were gathered through self-report that might interfere with the results. Furthermore, the office employees included were randomly selected from one university. Although a number of key factors including a large sample size and the diversity of the subgroups were considered to ensure the representation of the population under study, precautions should be taken if the results of this study were to be extended to office employees from other worksites. All three health networks were affiliated to the same university (SHBUMS), and local work conditions appear to be similar. On the other hand, these three networks were in the same geographical region in Tehran city. However, the possible influences of local conditions in the different networks were not assessed in this study and this limitation should be considered in future studies. In this study, psychological tests for the participants were not done. Therefore, it is suggested to consider these evaluations in future studies to determine whether there could be some correlations with the prediction of the behavior. However, despite the mentioned limitations, this study has strong points to demonstrate the factors that could influence SE among office employees in Iran.

Findings of this study revealed that perceived barriers by the office employees may prevent them from engaging in SE while being self-efficient causes them to engage in exercising. Moreover, commitment to a plan of action as well as interpersonal influences could have an effect on performing SE. Therefore, we suggest further studies be done to confirm these findings, and consequently, proper interventions based on these predictors be designed for the office employees to engage more in SE behavior.

ACKNOWLEDGMENTS

The authors would like to thank all volunteers who participated in the study. The authors also thank research deputy of Tarbiat Modares University for its financial support for this study.

SUPPLEMENTARY DATA

Supplementary data are available at Revista de Investigación Clínica online (www.clinicalandtranslationalinvestigation.com). These data are provided by the corresponding author and published online for the benefit of the reader. The contents of supplementary data are the sole responsibility of the authors.

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Received: August 03, 2018; Accepted: November 14, 2018

* Corresponding author: Sedigheh Sadat-Tavafian Department of Health Education and Health Promotion Faculty of Medical Sciences Tarbiat Modares University Ghisa St., Jalae Ale Ahmd Ave. No 212 P.O. BOX: 14115-111, Tehran, Iran E-mail: tavafian@modares.ac.ir

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