1. Introduction
Musculoskeletal disorders (MSDs) are related to the tendons, muscles, joints, nerves, and circulatory systems that can affect body regions such as the neck, upper limbs, and back [
1]. Prevention of MSDs is a major concern for individuals, organizations, and governments because these disorders significantly impact workers’ health and productivity [
2]. Among the various populations, MSDs are common in shipbuilding workers [
3]. Shipyard work is ergonomically hazardous, commonly requiring repetitive handling of heavy or bulky materials, uncomfortable postures, and frequent bending and twisting work [
4,
5,
6].
Shipbuilding is a complicated business involving construction, mechanical engineering, electrical engineering, naval architecture, and ocean engineering [
4,
7]. Shipyard work consists of cutting, welding, grinding, painting, outfitting, installing, and testing [
8]. Shipyard workers contact various hazards during hectic and strenuous work [
7]. They perform a broad range of physical work and spend most of their time standing, walking, bending, and twisting parts of their body [
3]. They often work in uneven ground, confined spaces, heights, and outdoors [
5,
9]. Previous research on the shipbuilding industry has focused on occupational injuries [
4,
5,
7,
10]. Several results have emphasized age, work experience, occupation, and company size as factors of occupational injuries and illnesses [
5,
7,
10,
11].
Korea’s shipbuilding industry has developed it into a powerful shipbuilding country, but the industry has a lot of occupational injuries and illnesses [
5]. In the shipbuilding industry of South Korea in 2015, out of 233,730 workers working at 8438 shipbuilding workplaces, 1940 were confirmed as having accidents by the Industrial Accident Compensation Act [
12]. The occupational injury and illness rate of shipbuilding work per 1000 workers was 8.30, which was 1.279 times higher than that of 6.49 in the whole manufacturing industry [
12]. In particular, due to the shipbuilding industry’s recession in 2017, the number of workers in shipbuilding workshops decreased to 198,328. However, the number of accidents confirmed by the Industrial Accident Compensation Act increased to 1953 [
13]. As a result, the accident rate per 1000 persons accounted for 9.85, which was 2035 times higher than that of the whole industry [
13]. In the nationwide data confirmed in the shipbuilding industry, 5804 workers were confirmed as having work-related injuries and illnesses during the three years between 2015 and 2017, and 1165 were MSDs [
12,
13].
MSDs studies can be classified into questionnaire surveys using workers’ subjective pain or symptoms and actual MSDs studies using work-related injuries and illnesses compensation data. Studies using actual MSDs based on occupational injuries and illnesses compensation data have limitations in the type of the variable and the number of items because analysis must be performed only within the compensation database [
2,
5]. Additionally, MSDs that are weaker than the number of sick leaves of compensation criterion (4 days in South Korea) are not included. Therefore, it can be underestimated in the frequency of occurrence.
It is essential to understand the descriptive characteristics of types of MSDs according to occupation to prevent MSDs. However, there is a lack of descriptive studies on MSDs using actual work-related compensation databases in the shipbuilding industry [
3,
5]. This descriptive study uses cross-sectional MSDs data confirmed in the shipbuilding industry for 3 years. First, this study intends to derive the characteristics of MSDs by type of occupation using actual MSDs data. Additionally, this study attempts to find out the features of sick leave days according to types of occupation.
To effectively prevent MSDs, it is essential to investigate the distribution of MSDs and sick leave days by factors associated with MSDs according to the body region. Occupational injuries in the shipbuilding industry were associated with occupation, age, work experience, and company size [
3,
5,
7]. Second, this study investigates the descriptive characteristics and sick leave days on types of MSDs, occupation, age, work experience, and company size according to the body region of MSDs.
Finally, this study intends to derive which factors are related to MSDs in the specific body region and which conditions of the related factors have a relatively significant effect on the occurrence of MSDs within the particular body region. This study uses a (binary) logistic regression model and odds ratio to obtain the relationships.
3. Results
3.1. Distribution and Sick Leave Days of MSDs According to Occupation–Body Region–MSD Type
Table 1 presents the distribution and sick leave days of the MSDs according to occupation–body region–MSD type. ‘Electrician/plumber–low back–herniated disc’ (6.9%) was the form of MSDs with the highest frequency among total MSDs, followed by ‘welder–low back–herniated disc’ (6.4%), ‘fitter–shoulder–rupture’ (6.3%), and ‘electrician/plumber–shoulder–rupture’ (6.2%).
‘Crane–neck–herniated disc’ (500.5 days) represents the highest mean work-loss days, followed by ‘welder–neck–herniated disc’ (416.6 days) and ‘electrician/plumber–neck–herniated disc rupture’ (404.3 days).
3.2. Distribution and Sick Leave Days of Neck MSDs and Factors Associated Neck MSDs
Table 2 shows the distributions of total MSDs and neck MSDs and the mean and SD (standard deviation) of sick leave days by workers’ company size, occupation, age, MSD type, and work experience.
In the case of total MSDs according to occupations, electrician or plumber workers were most prevalent (259, 26.3%), followed by fitters (189, 19.2%), welders (183, 18.6%), installers (157, 15.9%), and painters (100, 10.2%). There was a significant difference in frequency distributions between neck MSDs and the other MSDs (χ2 = 30.389, p < 0.001). The ratio of neck MSDs was the highest in the crane operator (35.2%), followed by grinding workers (14.0%). The mean of sick leave days for neck MSDs was the highest in grinding workers (541.3 days), followed by crane operators (500.5 days). The crane operator and grinding worker had a small share of total MSDs, but the incidence of neck MSDs and the mean of sick leave days were high.
In the case of total MSDs according to worker’s age, workers in their 50s had a large portion (29.3%), followed by 40s (27.1%). The ratio of neck MSDs was the highest in workers in their 50s (15.9%). According to age, there was no difference in frequency distributions between neck MSDs and the other MSDs (χ2 = 5.250, p = 0.154). The mean of sick leave days for neck MSDs was the highest in workers in their 50s (450.5 days), followed by workers in ≥60 (408.2 days). In their 50s, the overall share of MSDs and the incidence of neck MSDs were high, and the average number of sick leave days was also high.
In the case of total MSDs according to MSD type, a rupture was the most prevalent type of injury (40.2%), followed by a herniated disc (38.6%) and sprain (21.2%). There was a significant difference in frequency distributions between neck MSDs and the other MSDs according to MSD type (χ2 = 221.696, p < 0.001). The neck MSDs only experienced herniated disc, and the mean of sick leave days was 402.2 days.
In the case of total MSDs according to the worker’s work experience, workers with ≥20 years of work experience had a large portion (38.2%). There was no difference in frequency distributions between neck MSDs and the other MSDs according to work experience (χ2 = 5.040, p = 0.283). The mean of sick leave days for neck MSDs was the highest in workers with 10–19 years of work experience (558.5 days).
In the case of total MSDs according to company size, companies with ≥1000 workers were the most frequent (63.1%), followed by companies with 100–999 workers (17.8%). The ratio of neck MSDs was the highest at companies with ≥1000 workers (13.8%), followed by companies with 100–999 workers (11.4%). According to company size, there was no difference in frequency distributions between neck MSDs and the other MSDs (χ2 = 4.048, p = 0.256). The larger the company size, the more MSDs occurred. The ratio of neck MSDs also showed a higher trend as the company size increased. The mean of sick leave days for neck MSDs was the highest at companies with <30 workers (483.4 days).
Table 2 also shows the binary logistic regression analysis result on neck MSDs with five predictors: company size, occupations, age, MSD type, and work experience. The factors significantly related to neck MSDs were occupation and age (classification table value = 88.6%). The logistic regression model was tested by the G value of the model coefficient (χ
2 = 302.760,
p < 0.001). The explanatory power of the dependent variable was the Nagelkerke value (0.502), and the fitness test for the variable was Hosmer and Lemeshow (
χ2 = 0.062,
p = 0.999 > 0.05). Therefore, it was found that the model and explanatory power were suitable.
In
Table 2, the OR and confidence interval (CI) describe the factors associated with the neck MSDs. Looking at the confirmed MSDs by occupation type, the likelihood that the crane operator will be confirmed as having a neck MSD is 5.473 times (95% CI = (2.179, 13.754)) higher than that of the welder.
In terms of age, the likelihood that workers with ≥60 years old (OR = 2.985, 95% CI = (1.371, 6.501)) or 50–59 years (OR = 3.549, 95% CI = (1.938, 6.497)) will be confirmed as a neck MSD is higher than that of workers with <40 years.
3.3. Distribution and Sick Leave Days of Low Back MSDs and Factors Associated with Low Back MSDs
Table 3 shows the distributions of total MSDs and low back MSDs and the mean and SD of sick leave days by workers’ occupation, age, MSD type, work experience, and company size.
According to occupations, there was a significant difference in frequency distributions between low back MSDs and the other MSDs (χ2 = 23.845, p < 0.001). The most prevalent occupation in low back MSDs was electricians or plumber workers (27.6%), followed by welders (22.6%) and installers (20.1%). The ratio of low back MSDs among total MSDs was the highest in installers (41.4%), followed by welders (39.9%) and electricians or plumber workers (34.4%). The mean of sick leave days for low back MSDs was the highest in grinding workers (330.1 days).
According to workers’ age, there was a significant difference in frequency distributions between low back MSDs and the other MSDs (χ2 = 125.504, p < 0.001). Workers < 40 years had a large portion in low back MSDs (43.3%), and the ratio of low back MSDs among total MSDs was the highest in workers < 40 years (58.8%). However, the mean of sick leave days for low back MSDs was the highest in workers ≥ 60 years (338.6 days). Low back MSDs occur most frequently in workers under 40 years of age and decrease with age. However, it was found that the average number of sick leave days due to low back MSDs increased with age.
There was a significant difference in frequency distributions between low back MSDs and the other MSDs according to MSD type (χ2 = 405.947, p < 0.001). In the case of low back MSDs, a herniated disc was the most prevalent type of injury, followed by a sprain. The average number of sick leave days of the herniated disc was 321.1 days.
There was a significant difference in frequency distributions between low back MSDs and the other MSDs according to workers’ work experience (χ2 = 59.097, p < 0.001). The ratio of low back MSDs among total MSDs was high in those with less than 10 years of work experience and decreased after that. However, the average number of sick leave days due to low back MSDs was high in 10–19 years of service.
According to company size, companies with ≥1000 workers had the most frequent low back MSDs (54.5%), followed by companies with 100–999 workers (21.7%). According to company size, there was a significant difference in frequency distributions between low back MSDs and the other MSDs (χ2 = 19.894, p < 0.001). The ratio of low back MSDs among total MSDs was the highest at companies with <30 workers (48.4%). The mean of sick leave days for low back MSDs was the highest at companies with 30–99 workers (318.4 days). The share of low back MSDs is high as the share of total MSDs of large companies, but the ratio of low back MSDs is the highest in small companies with <30 workers.
Table 3 also shows the result of the binary logistic regression analysis on the low back. The factors significantly associated with low back MSDs were company size, occupations, age, and MSD type (classification table value = 83.7%). The logistic regression model was tested by the G value of the model coefficient (χ
2 = 598.731,
p < 0.001). The explanatory power of the dependent variable was the Nagelkerke value (0.634), and the fitness test for the variable was the Hosmer and Lemeshow value (χ
2 = 8.224,
p = 0.412 > 0.05). Therefore, it was found that the model and explanatory power were suitable.
Looking at the occupation type, the possibility that the welders will be confirmed as having low back MSDs is higher than that of the grinding workers (4.237 times, 95% CI = (1.357, 13.333)), crane operators (2.979 times, 95% CI = (1.284, 6.897)), or painters (2.488 times, 95% CI = (1.153, 5.376)).
In terms of age, the likelihood that workers <40 years will be confirmed as having a low back MSD is higher than that of workers ≥ 60 years old (5.128 times, 95% CI = (2.732, 9.615)), 50–59 years (5.263 times, 95% CI = (3.106, 8.929)), or 40–49 years (2.849 times, 95% CI = (1.745, 4.673)).
In terms of MSD type, the possibility that a herniated disc will be confirmed as a low back MSD is 5.299 times (95% CI = (3.522, 7.971)) higher than that of a sprain.
In views of company size, the possibility that workers worked in a small company with <30 employees will be confirmed as having a low back MSD is 3.148 (=1/0.318) times (95% CI = (1.603, 6.173)) higher than that of workers worked in a large company with ≥1000 employees.
3.4. Distribution and Sick Leave Days of Shoulder MSDs and Factors Associated with Shoulder MSDs
Table 4 shows the distributions of total MSDs and shoulder MSDs and the mean and SD of sick leave days by workers’ occupation, age, MSD type, work experience, and company size.
According to occupations, there was a significant difference in frequency distributions between shoulder MSDs and the other MSDs (χ2 = 15.595, p = 0.016). Fitters (24.8%) and electrician or plumber workers (24.5%) had prevalent shoulders MSDs. The ratio of shoulder MSDs among total MSDs was the highest in fitters (39.2%), followed by painters (35.0%). However, the mean of sick leave days for shoulder MSDs was the highest in crane operators (412.7 days).
According to the worker’s age, there was a significant difference in frequency distributions between shoulder MSDs and the other MSDs (χ2 = 84.840, p < 0.001). Workers of 50–59 years had a large portion in shoulder MSDs (39.6%), and the ratio of shoulder MSDs among total MSDs was the highest in workers ≥ 60 years (47.1%). However, the mean of sick leave days for shoulder MSDs was the highest in workers of 50–59 years (357.0 days). In summary, the proportion of total shoulder MSDs and the ratio of shoulder MSDs among the total MSDs were higher in the 50 years and older.
There was a significant difference in frequency distributions between shoulder MSDs and the other MSDs according to MSD type (χ2 = 376.792, p < 0.001). In the case of shoulder MSDs, a rupture was the most prevalent type of injury (84.2%), followed by sprain (15.8%). The average number of sick leave days of rupture was 335.1 days.
There was a significant difference in frequency distributions between shoulder MSDs and the other MSDs according to workers’ work experience (χ2 = 48.742, p < 0.001). The proportion of total shoulder MSDs and the ratio of shoulder MSDs among the total MSDs were higher in those with ≥20 years of work experience, and the average number of sick leave days was also higher in those with ≥20 years of work experience.
According to company size, there was a significant difference in frequency distributions between shoulder MSDs and the other MSDs (χ2 = 5.743, p = 0.125). Companies with ≥1000 workers had the most frequent shoulder MSDs (68.5%), and the possibility of shoulder MSDs among total MSDs was also the highest at companies with ≥1000 workers (32.8%). The mean of sick leave days for shoulder MSDs was the highest at companies with 100–999 workers (351.3 days).
Table 4 also shows the result of the binary logistic regression analysis on shoulder MSDs. The factors significantly associated with shoulder MSDs were age and MSD type (classification table value = 81.1%). The logistic regression model was tested by the G value of the model coefficient (χ
2 = 489.584,
p < 0.001). The explanatory power of the dependent variable was the Nagelkerke value (0.554), and the fitness test for the variable was the Hosmer and Lemeshow value (χ
2 = 4.495,
p = 0.721 > 0.05). Therefore, it was found that the model and explanatory power were suitable.
In terms of age, the likelihood that workers ≥60 years old (3.438 times, 95% CI = (1.939, 6.096)), 50–59 years (3.149 times, 95% CI = (1.824, 5.437)), or 40–49 years (1.786 times, 95% CI = (1.008, 3.166)) will be confirmed as having a shoulder MSD is higher than that of workers < 40 years.
In terms of MSD type, the possibility that a rupture will be confirmed as a shoulder MSD is 5.301 times (95% CI = (3.579, 7.851)) higher than that of a sprain.
3.5. Distribution and Sick Leave Days of Elbow MSDs and Factors Associated with Elbow MSDs
Table 5 shows the distributions of total MSDs and elbow MSDs and the mean and SD of sick leave days by workers’ occupation, age, MSD type, work experience, and company size.
According to occupations, there was a significant difference in frequency distributions between elbow MSDs and the other MSDs (χ2 = 15.595, p = 0.016). Electricians or plumber workers (30.0%) were the most prevalent elbow MSDs, followed by the painters (20.0%) and installers (16.3%). The ratio of elbow MSDs among total MSDs was the highest in painters (16.0%). However, the mean of sick leave days for elbow MSDs was the highest in fitters (401.8 days).
According to workers’ age, there was a significant difference in frequency distributions between elbow MSDs and the other MSDs (χ2 = 12.863, p = 0.005). The proportion of total elbow MSDs and the ratio of elbow MSDs among the total MSDs were higher in workers of 40–49 years. However, the mean of sick leave days for elbow MSDs was the highest in workers < 40 years (321.0 days).
There was a significant difference in frequency distributions between elbow MSDs and the other MSDs according to MSD type (χ2 = 238.894, p < 0.001). In the case of elbow MSDs, a sprain was the most prevalent type of injury (88.8%), followed by rupture (11.3%). The average number of sick leave days of sprain was 281.7 days.
There was a significant difference in frequency distributions between elbow MSDs and the other MSDs according to workers’ work experience (χ2 = 5.198, p = 0.268). The proportion of total elbow MSDs was higher in those with ≥20 years of work experience (38.8%). The ratio of elbow MSDs among the total MSDs was higher in those with 10–19 years of work experience. The average number of sick leave days was higher in those with 1–4 years of work experience (373.3 days).
According to company size, there was a significant difference in frequency distributions between elbow MSDs and the other MSDs (χ2 = 5.663, p = 0.129). Companies with ≥1000 workers had the most frequent elbow MSDs (73.8%), and the possibility of elbow MSDs among total MSDs was also the highest at companies with ≥1000 workers (9.5%). The mean of sick leave days for shoulder MSDs was the highest at companies with 100–999 workers (459.3 days).
Table 5 also shows the result of the binary logistic regression analysis on elbow MSDs. The factors significantly associated with elbow MSDs were company size, occupation, age, and MSD type (classification table value = 92.8%). The logistic regression model was tested by the G value of the model coefficient (χ
2 = 234.238,
p < 0.001). The explanatory power of the dependent variable was the Nagelkerke value (0.491), and the fitness test for the variable was the Hosmer and Lemeshow value (χ
2 = 320.780,
p = 0.491 > 0.05). Therefore, it was found that the model and explanatory power were suitable.
Looking at occupation type, the possibility that grinding workers (7.612 times, 95% CI = (1.702, 34.041)) or painters (3.952 times, 95% CI = (1.385, 11.276)) will be confirmed as having elbow MSDs is higher than that of welders. In terms of age, the likelihood that workers with 40–49 years will be confirmed as having elbow MSD is 3.233 times (95% CI = (1.438, 7.269)) higher than that of workers with <40 years. In terms of MSD type, the possibility that a sprain will be confirmed as the elbow MSD is 27.027 times (95% CI = (12.658, 58.823)) higher than that of a rupture.
3.6. Distribution and Sick Leave Days of Knee MSDs and Factors Associated with Knee MSDs
Table 6 shows the distributions of total MSDs and knee MSDs and the mean and SD of sick leave days by workers’ company size, occupation, age, MSD type, and work experience. According to occupations, there was a significant difference in frequency distributions between knee MSDs and the other MSDs (χ
2 = 8.497,
p = 0.204). Fitters (24.1%) and electricians or plumber workers (24.1%) had prevalent knee MSDs. The ratio of knee MSDs among total MSDs was the highest in grinding workers (27.9%), followed by fitters (20.6%). However, the mean of sick leave days for knee MSDs was the highest in electricians or plumber workers (413.8 days).
According to the workers’ age, there was a significant difference in frequency distributions between knee MSDs and the other MSDs (χ2 = 4.690, p = 0.196). The proportion of total knee MSDs and the ratio of knee MSDs among the total MSDs were higher in workers of 50–59 years. The mean of sick leave days for knee MSDs was also the highest in workers of 50–59 years (435.0 days).
There was a significant difference in frequency distributions between knee MSDs and the other MSDs according to MSD type (χ2 = 169.541, p < 0.001). In the case of knee MSDs, a rupture was the most prevalent type of injury (84.0%), followed by sprain (16.0%). The average number of sick leave days of sprain was 405.1 days.
There was a significant difference in frequency distributions between knee MSDs and the other MSDs according to the worker’s work experience (χ2 = 7.582, p = 0.108). The proportion of total knee MSDs was higher in those with ≥20 years of work experience (41.4%), and the average number of sick leave days was also higher in those with ≥20 years of work experience (414.0 days).
According to company size, there was a significant difference in frequency distributions between knee MSDs and the other MSDs (χ2 = 5.137, p = 0.162). Companies with ≥1000 workers had the most frequent knee MSDs (59.9%), and the possibility of knee MSDs among total MSDs was also high in companies with 30–99 workers (20.6%) or companies with 100–999 workers (20.0%). The mean of sick leave days for knee MSDs was the highest at companies with ≥1000 workers (366.5 days).
Table 6 also shows the result of the binary logistic regression analysis on knee MSDs. The factor most significantly associated with knee MSDs was the MSD type (classification table value = 83.6%). The logistic regression model was tested by the G value of the model coefficient (χ
2 = 221.724,
p < 0.001). The explanatory power of the dependent variable was the Nagelkerke value (0.341), and the fitness test for the variable was the Hosmer and Lemeshow test (χ
2 = 0.522,
p = 0.991 > 0.05). Therefore, it was found that the model and explanatory power were suitable.
In terms of MSD type, the possibility that a rupture will be confirmed as a knee MSD is 3.699 times (95% CI = (2.327, 5.878)) higher than that of a sprain.
4. Discussions
This study examined the factors associated with musculoskeletal disorders (MSDs) according to body region and analyzed the frequency and sick leaves of MSDs for prioritizing MSD prevention information.
This study showed that low back MSDs (28.9%) were the most common in shipbuilding workers. Heavy physical work, excessive force, and bending and twisting were associated with low back disorders [
1,
15,
16]. Shipyard workers, such as welders, electricians/plumbers, installers, and fitters, have ergonomically hazardous jobs, commonly requiring repetitive handling of heavy materials, frequent bending and twisting work, and excessive force [
6,
17]. Awkward work postures are often caused by restrictions in vertical or lateral spaces, such as the work of electricians/plumbers or installers. These prolonged stooping or kneeling postures increase severe low back pain [
18]. Low back MSDs were common in electricians or plumbers, followed by welders or installers.
The shoulder MSDs were the second most common injury (27.7%) in shipbuilding workers approved by work-related compensation insurance. Previous studies implicated working with arms above shoulder level as one of the predisposing factors of shoulder MSDs [
19,
20]. Other studies indicate that the risk factors include working with awkward postures, repetitive forceful movements of the upper limbs, conducting the same activity for a prolonged period, carrying loads supported by the shoulder, and hand–arm vibrations [
8,
21]. Shoulder disorders were common in shipyard welders [
22]. Shipbuilding workers, such as fitters, electricians/plumbers, welders, grinding workers, and painters, have jobs that involve repetitive forceful movements of the upper limbs, heavy lifting, the prolonged elevation of the arms above the shoulders, and overhead work with outstretched arms [
17,
22].
In logistic regression analyses, age was associated with MSDs in the neck, low back, shoulder, and elbow regions. Previous findings indicated that age increased the risk of MSDs [
23,
24]. However, in a questionnaire study based on self-reported symptoms, there was a ‘survivor bias’ with no positive correlation between MSD risk and aging [
7,
25]. In this study, the neck or shoulder MSDs was increased with age. This result is consistent with findings [
15] that neck and shoulder MSDs are more common in skilled workers. For neck MSDs, only the herniated disc was covered by industrial accident insurance, and the likelihood that a herniated disc will be confirmed as a low back MSD is 5.299 times higher than that of a sprain. The mean of sick leave days was 402.2 days for herniated neck disc and 321.1 days for the low back herniated disc. In contrast, the likelihood that a rupture will be confirmed as a shoulder MSD or knee MSD is higher than that of a sprain. The mean of sick leave days was 335.1 days for shoulder rupture, 318.8 days for knee rupture, and 255.4 days for elbow rupture. In summary, the mean of sick leave days in the neck or shoulder was large, which is in line with the result [
26] that older workers who have performed excessive and repetitive activities for a long time may experience more severe MSDs.
However, the likelihood of low back MSDs did not increase with age in this study, which is in line with the NIOSH results [
1]. The likelihood that workers < 40 years will be confirmed as having a low back MSD is higher than workers ≥ 60 years. The likelihood of confirmation of workers who worked in a small company with <30 employees is also higher than that of workers in a large company with ≥1000 employees. The results of this study can be explained by previous results [
15] that ergonomic risks and manual workers are the major work-related risk factors for lower back injuries. Large companies have not been hiring young workers due to the recession in the shipbuilding industry. On the other hand, because the workers’ retirement age is guaranteed, the average age is over 40 years. Because large shipbuilding companies have improved in manual material handling, the incidence of low back MSDs is relatively small. However, there are frequent neck or shoulder MSDs in older workers, because of performing overhead work or working with arms above shoulder level for more than 20 years. Older workers are exposed to long-term risk factors, resulting in long work-loss days. On the other hand, small subcontracting companies, with relatively poor working conditions, are frequently exposed to low back MSDs. This means that efforts to improve the working environment should be made continuously in the small-sized companies.
In the frequency analysis of the MSDs according to occupation–body region–MSD type, ‘electrician/plumber–low back–herniated disc’ (6.9%) was the form of MSD with the highest frequency among total MSDs, followed by ‘welder–low back–herniated disc’ (6.4%), ‘fitter–shoulder–rupture’ (6.3%), and ‘electrician/plumber–shoulder–rupture’ (6.2%). While ‘crane–neck–herniated disc’ (500.5 days) had the highest mean sick leave days, followed by ‘welder–neck–herniated disc’ (414.0 days) and ‘welder–neck–herniated disc’ (404.3 days).
The MSDs problem of older workers is a critical issue to be solved in the shipbuilding industry in terms of the quality of life of the worker and the cost of compensation for industrial accidents, and systematic measures are required. There should be continuous efforts to expand the current notion of ‘universal design’, which regards ease of life for the elderly, into ‘universal safety and design’, which allows elderly workers to do their job in comfort and safety [
27,
28]. It makes sense to maintain health and prevent MSDs in older workers who are still physically and mentally fit from the social perspective since they are a primary source of the workforce in the era of an aged population.
This study has some limitations. First, this study analyzed only the MSDs of male shipbuilding workers. Therefore, there may be differences in the characteristics of the MSDs incurred by female workers. Second, the MSDs reported in this study resulted in more than 4 days of absence from work, and MSDs with sick leave of less than 3 days or pains were not included in the analysis. Hence, the results may be lower than other countries’ MSDs rates. Third, there is a limitation of not considering various factors associated with MSDs, such as exposure to ergonomic hazard factors and psychological factors, because it is a retrospective study. Therefore, further research is expected that reflects more research into various other factors. Fourth, the sample of this study is a group of workers that all had MSDs. Thus, the concept of odds of this study is not of getting an injury (compared to no injury) but compared to getting one injury over another injury. Additionally, the result of the binary logistic regression model may vary depending on the choice of predictors and reference scales. Since it is different from the typical outcome, it is necessary to be careful about the interpretation of the odds and OR.
5. Conclusions
This study identified the characteristics of MSDs in the shipbuilding industry. The low back MSDs (28.9%) were the most common, followed by shoulder MSDs (27.7%), knee MSDs (16.2%), neck MSDs (11.3%), and elbow MSDs (7.2%).
The ratio of low back MSDs to total MSDs was highest in welders (39.9%), those under 40 years, or those in a company with less than 30 employees. The ratio of shoulder MSDs to total MSDs was high in fitters (39.2%) and painters (35.0%) and was high in those aged 60 years or older (47.1%), those with rupture (63.4), or those with more than 20 years of work experience (43.1%). Crane operators had the highest neck MSDs compared to total MSDs, and all approved neck MSDs were herniated discs. The ratio of knee MSDs to total MSDs was highest in grinding workers (27.9%) and the highest in rupture injuries (34.3%).
In the occupation-related MSDs, ‘electrician/plumber–lumbar–disc’ was the highest frequency, followed by ‘welder–lumbar–disc’, ‘fitter–shoulder–rupture’, ‘electrician/plumber–shoulder–rupture’, and ‘welder–shoulder–rupture’. ‘Crane–neck–disc’ represents the highest average of sick leave days, followed by ‘welder–neck–disc’ and ‘electrician/plumber–neck–disc’.
In the logistic regression analysis, age was positively associated with MSDs in the neck, shoulder, or elbow regions, while low back MSDs were not positively associated with age. Large companies with >1000 employees were highly associated with neck MSDs, while small companies with <30 employees were related to the low back MSDs.