Article Text
Abstract
Objectives To evaluate whether safety climate items would be predictive of future physical and mental work ability among blue-collar workers.
Methods Blue-collar workers (n=3822) from the Danish Work Environment and Health study replied to questions on safety climate, physical and mental work ability, and health in 2012 and 2014. Using multivariate logistic regression, we estimated the association of number of safety climate items (0–5) in 2012 with physical and mental work ability in 2014. Potential confounders included sex, age, socioeconomic class, occupational group, lifestyle (smoking habits and body mass index) and previous accidents.
Results In the fully adjusted model, workers reporting two and three or more safety climate problems (reference: 0) had higher risk for reduced physical work ability at follow-up (OR 1.29 [95% CI 1.03 to 1.61] and OR 1.52 [95% CI 1.27 to 1.84], respectively). Similar outcomes were observed for mental work ability. Using number of safety climate items as a continuous variable, a doseresponse association existed both for physical and mental work ability (trend-test <0.0001).
Conclusion A dose–response association between the number of safety climate items at baseline and lower physical and mental work ability was detected after 2 years. Safety climate items should be highly prioritised in blue-collar companies.
- epidemiology
- health & safety
- organisational development
- risk management
- mental health
- occupational & industrial medicine
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- epidemiology
- health & safety
- organisational development
- risk management
- mental health
- occupational & industrial medicine
Strengths and limitations of this study
The prospective design enables implications of the relationship between reported safety climate items in 2012 and physical and mental work ability in 2014.
The study is based on self-reported questionnaire data rather than measurements that are more objective.
The present study was a questionnaire survey with volunteer participation; therefore, there might have been selection bias.
One limitation is the response rate since only 3822 of the 6249 participants who were invited to fill in the questionnaire in both 2012 and 2014 replied, and it is possible that some of the workers did not reply due to long-term sickness absence which could be related to physical and mental work ability, which might have resulted in more conservative estimates.
We did not take job changes from 2012 to 2014 into account; therefore, some of the blue-collar workers could have changed jobs during the period.
Introduction
Blue-collar workers as a group are exposed to manual physical work and experience problems related to increased risk of accidents, poor work ability and poor safety climate.1
Safety climate measurements have in recent years developed into a widely recognised predictor for accidents both at local organisational level2 3 and in the general working population.4 5 Originally developed by Israeli social scientist Dov Zohar,6 safety climate as a concept now has almost 40 years of tenure to its name. Whereas the focus for safety climate investigations has been on evaluating the construct’s capability to foresee the risk for accidents in work, the construct addresses a number of organisational issues, which may, in fact, have a wider impact on health and safety outcomes, which in turn are important for how the workers are able to perform their job.
For instance, a number of questions related to manager’s and worker’s orientations and practices regarding safety may in fact also be indicators of their orientations and practices concerning other aspects of health and safety, such as physically exerting work and low job control which over the long term can lead to loss of mental and physical work ability.7
Work ability is a measure of the worker’s capacity in relation to the physical and mental work demands.8 9 Poor work ability has been associated with long-term sickness absence, chronic disease, loss of productivity, all-cause mortality and early retirement,10–14 whereas good work ability has been shown to bolster against the negative effects of chronic diseases on long-term sickness absence.15
That the safety climate concept may be important for maintaining a good physical and mental work ability seems even further reasonable as earlier qualitative research has indicated that a number of cultural characteristics tied to safety culture within work16 are much the same as those tied to physical risk factor prevention.17 For example, managerial attention to as well as priority and support of preventive activities and practices are highly important in all areas of occupational health and safety.18 19 Thus, a good safety climate may be an important part of primary prevention to maintain a good work ability. If it is, in fact, the case, that safety climate questionnaire items are capable of predicting work ability outcomes of physical and mental character, this may provide an easily accessible indication of the potential benefits to work ability from improving the safety climate. This may be highly beneficial to both researchers, occupational health and safety professionals, organisations and society.
Hence, in this study, we evaluate whether safety climate items would be predictive of future physical and mental work ability among blue-collar workers.
Methods
Study design
This prospective cohort study uses questionnaire data on single-item safety climate and physical and mental work ability from the Danish Work Environment and Health study.20 21 The present analysis is part of a larger project, the Danish Work Environment & Health study, of which some articles have already been published.5 15 To secure consistency and transparency, the reporting of this study follows the ‘Strengthening the Reporting of Observational Studies in Epidemiology’ (STROBE) guideline22 and follows the STROBE Statement checklist for Cohort studies23
Ethics
The study was notified to and registered by the Danish Data Protection Agency (Datatilsynet; journal number 2015-57-0074). According to Danish law, questionnaire and register-based studies need neither approval by ethical and scientific committee nor informed consent. All data were processed and analysed anonymously.
Patient and public involvement
No patients were involved
Participants
Baseline characteristics are shown in table 1. The population for the study consisted of blue-collar workers who participated in both the 2012 and the 2014 wave of the DWECS,20 21 which served as baseline and follow-up, respectively. A random sample of 6249 blue-collar workers aged 18–64 years was invited to participate in the DWECS in both 2012 and 2014, that is, the same participants were followed during our time. In total, 3822 blue-collar workers participated in both 2012 and 2014 and serves as the study sample. A data manager of the research institute performed the data management and cleaning of data according to basic and standardised procedures.
Questionnaire variables
Safety climate
Five single items were selected from the Nordic Occupational Safety Climate Questionnaire (NOSACQ-50) and provided a short version of vital aspects of the safety climate concept.6 24–27 NOSACQ-50 is a reliable tool for measuring safety climate and valid for predicting safety motivation, perceived safety level and self-related safety behaviour.24 In this study, five items were selected to be particularly indicative of the safety climate, as they address the main themes concerned in the literature: managerial (questions 1–3) and employee commitment, participation and engagement (questions 4–5).6 24 27 The original NOSACQ-50 survey contains 50 items, but only five items were included in the DWECS survey: (1) ‘Management ensures that everyone receives the necessary information on safety’, (2) ‘Management encourages employees here to work in accordance with safety rules—even when the work schedule is tight’, (3) ‘Management involves employees in decisions regarding safety’, (4) ‘We who work here help each other to work safely’ and (5) ‘We who work here consider minor accidents as a normal part of our daily work’ (negated or reversed item). Each question was asked with four options on a 4-point scale of ‘strongly agree’, ‘agree’, ‘disagree’ or ‘strongly disagree’. Safety climate items are defined as a negative answer on the questions, that is, all responses of ‘disagree’ or ‘strongly disagree’ were interpreted as a safety climate item, except for question 5 (negated wording), where ‘agree’ or ‘strongly agree’ was interpreted as a safety climate item. For further analyses, a variable containing information on the number of safety climate items was generated ranging from 0 to ≥3 problems.
Work ability
Two single-item questions from the Work Ability Index questionnaire28 were used to evaluate work ability in regard to the physical and mental demands of the job: (1) ‘How do you rate your current work ability with respect to the physical demands of your work?’ (2) ‘How do you rate your current work ability with respect to the mental demands of your work?’.15 29 For each question, respondents replied on a 5-point Likert scale: ‘excellent’, ‘very good’, ‘good’, ‘fair’ or ‘poor’. Subsequently, these responses were dichotomised into good (excellent, very good and good) and poor (fair and poor) work ability to obtain more statistical power.15
Control variables
In the analyses, we adjusted for age (continuous), gender (male, female), socioeconomic class, occupational group, lifestyle and previous accidents in 2012. Furthermore, mental and physical work ability also served as a control variable. Based on registers from Statistics Denmark, the respondents were classified into two socioeconomic groups according to employment grade, job title and education.30 White collar workers included managers, academics, people with 3—4 years of vocational education and other salaried workers. Blue-collar workers comprised skilled, semiskilled or unskilled workers. In the present study, we included only blue-collar workers. Occupational group was coded and categorised (1–9) according to the 1988 revision of the Danish version of the International Standard Classification of Occupations register (D-ISCO 08): (1) management work, (2) work requiring knowledge at the highest level within the area concerned, (3) work that requires medium level knowledge, (4) regular office and customer service, (5) service and sales work, (6) work in agriculture, forestry and fishing (excluding assisting), (7) craftsmanship, (8) operator and assembly work as well as transport work, and 9) other manual work.
Lifestyle factors include smoking (never, ex-smoker, yes) and body mass index (kg/m2), which was determined from respondents’ self-reported height and weight.
Statistical analysis
Using general models (Proc Genmod) of SAS V.9.4, multivariate logistic regression was used to model the association between number of safety climate items in 2012 and work ability in 2014. Work ability was the dependent variable and number of safety climate items the independent variable. The first model was controlled for age and sex, and the second model was controlled for all the previously mentioned confounders. Estimates are reported as ORs and 95% CIs. Furthermore, to test the dose–response association, the number of safety climate items was introduced as a continuous variable in a separate trend test. Finally, we tested the association between each of the five single-item questions about safety climate and work ability using the same models as previously mentioned.
Results
Table 1 shows the demographics, lifestyle, socioeconomic class, D-ISCO categories as well as baseline safety climate, mental and physical work ability. In both 2012 and 2014, 6249 participants were invited to participate in the DWECS. Of these participants, 3822 answered the questions regarding physical work ability in both 2012 and 2014; therefore, the response rate was 3822/6249×100=61.2%.
Table 2 shows the number of safety climate items related to physical and mental work ability. Compared with participants with no safety climate items in 2012, participants reporting two safety problems in 2012 had a higher risk for reporting reduced physical work ability in 2014 (OR 1.29, CI 95% 1.03 to 1.61) and the risk was even higher for participants reporting three or more safety problems in 2012 (OR 1.52, CI 95% 1.27 to 1.84). The same picture was observed in the analyses with mental work ability as outcome measure. Using number of safety climate items as a continuous variable, a dose–response association existed both for physical and mental work ability (trend-test p<0.0001).
Of the five single safety climate questions, all had significantly increased OR for reduced mental work ability and all, except one: ‘We who work here consider minor accidents as a normal part of our daily work’ (negated or reversed item) with an OR of 1.05 (95% CI 0.90 to 1.22) (table 3).
Discussion
The results of the present study show a prospective dose–response association between the number of safety climate items and decreased physical and mental work ability after 2 years (from 2012 to 2014). Furthermore, the results suggest that safety climate items are generally important since all questions in the safety climate questionnaire: (1) ‘Management ensures that everyone receives the necessary information on safety’, (2) ‘Management encourages employees here to work in accordance with safety rules—even when the work schedule is tight’, (3) ‘Management involves employees in decisions regarding safety’, (4) ‘We who work here help each other to work safely’ and (5) ‘We who work here consider minor accidents as a normal part of our daily work’ (negated or reversed item) were related to a decrease mental work ability after 2 years. For physical work ability, all questions except (5) ‘We who work here consider minor accidents as a normal part of our daily work’ (negated or reversed item) were related to a decrease after 2 years.
The data in the present study are analysed using three models. Model 1 is adjusted to age and gender, while model 2 further is adjusted to socioeconomic class, D-ISCO group (Danish version of the International Standard Classification of Occupations), lifestyle (smoking habits and body mass index) and previous accident in 2012 (table 2). This stepwise adjustment for potential confounders did not change the odds estimates to any significant extent. It can be argued that those with previous accidents at baseline may be more prone to lose further work ability with time. Thus, adjusting for previous accidents may not be sufficient (model 2 of table 2). Consequently, we also performed a sensitivity analyses where we excluded those with previous accidents at baseline (model 3 of table 2). These results were largely similar, although the lowest category became non-significant. Thus, the results presented seem quite robust. Thus, it appears that job group, lifestyle and socioeconomic class does not have a large impact on the relationship between safety climate items and future work ability. The consequence of safety climate items on work ability, therefore, seem to be present across occupation and health behaviour (ie, lifestyle). Primary and secondary prevention of safety climate items at the workplace should be highly prioritised among all blue-collar workers.
The present study shows a clear dose–response association between the number of safety climate items and reduced physical and mental work ability. Work ability is typically assessed by self-report. Self-assessed work ability is a strong predictor of future disability pension.31 Even experiencing one safety climate item increases this risk significantly (table 2). In other words, the more safety climate items experienced, the higher the risk of reporting reduced physical and mental work ability after 2 years. The data for the five single safety climate questions (table 3) show an increased risk of experiencing a reduced work ability from all questions, and all except question 5 for mental and physical work ability, respectively. Together, the data from the present study suggest that it is not enough to bring focus to one safety climate item if the companies should have success in reducing the risk of affecting the physical and mental work ability of the workers. Rather, it is important to address each of the safety climate–related issues.
Measurements of safety climate instead of injury claims distinguish by the ability to predict the risks of injury and react before they actually occur, and thereby help workplaces with safety climate items to target their initiatives before they lead to injury.32 Safety climate items have previously been associated with increased risk of accidents among blue-collar workers5 and in the general working population.33 Therefore, it is important for companies to prioritise safety climate since it is associated with an increased risk of accidents and also lower physical and mental work ability.
Safety climate items have previously been associated with occupational accidents.5 The present study elaborates on this finding by showing that safety climate items predict risk of decreased work ability. Thus, it could be speculated that our measure of safety climate is a proxy measure for perceived overall working environment among blue-collar workers. Furthermore, measuring safety climate instead of actual accidents provides the advantage for the companies to focus on preventive measures by improving different aspects of the safety climate before an accident occurs32 and thereby further impacting work ability. This suggests that companies should bring safety climate into focus and implement initiatives that reduce the safety climate items.
Strengths and limitations
The present study has both strengths and limitations. A strength is the prospective design that enables implications of the relationship between reported safety climate items in 2012 and physical and mental work ability in 2014. Nevertheless, a limitation of the present study is that it is based on self-reported questionnaire data rather than measurements that are more objective. The results could, therefore, have been affected by recall bias. The present study was a questionnaire survey with volunteer participation; therefore, there might have been selection bias. Another limitation is the response rate since 3822 of the 6249 participants who were invited to fill in the questionnaire in both 2012 and 2014 replied. Therefore, it is possible that some of the workers did not reply due to long-term sickness absence which could be related to physical and mental work ability, which might have resulted in more conservative estimates. Furthermore, a limitation is that we did not take information regarding changes from 2012 to 2014 into account in, for example, job changes, changes in job position or company, safety training received, changes in the management personnel or witnessing work-related injuries; therefore, these variables could have influenced perceptions of safety climate. This present study is based on the five safety climate questions included in the DWECS. The DWECS is a survey with the purpose of continuously obtain knowledge about the physical and mental work environment of employees in Denmark and follow the development in their health over time. Since the DWECS is a large questionnaire survey which covers many factors within the working environment, it was—due to practical reasons—not possible to include all safety acclimate scales from the NOSACQ-50. This is a clear limitation since the NOSACQ-50 survey contains 50 items about safety climate. Future studies should evaluate if the safety climate can be evaluated by using the five single items used in the present study. However, as the present study evaluates whether safety climate items can be predictive of future physical and mental work ability among blue-collar workers, we believe that these five single questions provide knowledge about the safety climate and contributes good knowledge to practitioners on the workplaces. Importantly, the five single-item questionnaires have previously been used as a proxy for safety climate.5 Another limitation is that the five safety climate items in the present study combine organisational-level and group-level safety climate items without differentiating between these two levels. However, the five single items have been used in previous studies to show the association between safety climate and future accidents5 and the two single items from the work ability has been used to d evaluate the dose–response association between leisure time physical activity and work ability29 and association of multimorbidity and work ability with risk of long-term sickness absence.15 In the present study, we used a 4-point agree/disagree scale, as we were interested in knowing whether the participants agreed or disagreed this scale was dichotomised to ‘agree’ and ‘disagree’. Other potential scales could have been used, but we doubt that this would have changed the results as a 5-point Likert scale correlates strongly with a 4-point agree/disagree scale. Furthermore, we have previously validated (predictive validity) this scale.5
Conclusion
This study shows a prospective dose–response association between the number of safety climate items and future decrease in physical and mental work ability. Furthermore, the study shows that all safety climate items are important since all questions in the safety climate questionnaire (1) ‘Management ensures that everyone receives the necessary information on safety’, (2) ‘Management encourages employees here to work in accordance with safety rules—even when the work schedule is tight’, (3) ‘Management involves employees in decisions regarding safety’, (4) ‘We who work here help each other to work safely’ and (5) ‘We who work here consider minor accidents as a normal part of our daily work’ (negated or reversed item) were related to a decrease mental work ability after 2 years. For physical work ability, all questions except (5) ‘We who work here consider minor accidents as a normal part of our daily work’ (negated or reversed item) were related to a decrease after 2 years. Therefore, safety climate items should be highly prioritised in blue-collar companies since safety climate can predict physical and mental work ability.
References
Footnotes
Twitter @LarsLAndersen
Contributors MB, JZNA and LLA designed the study. LLA performed the statistical analysis. MB and JZNA wrote the initial draft for the article. ES and NMW contributed with valuable feedback and sparring on the interpretation of data. All authors provided feedback on the manuscript, before approving the final version.
Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.
Competing interests None declared.
Patient and public involvement Patients and/or the public were not involved in the design, or conduct, or reporting, or dissemination plans of this research.
Patient consent for publication Not required.
Provenance and peer review Not commissioned; externally peer reviewed.
Data availability statement Data are available on reasonable request.