Musculoskeletal disorders and their associations with health- and work-related factors: a cross-sectional comparison between Swedish air force personnel and army soldiers

Musculoskeletal disorders (MSD) are a widespread problem in armed forces worldwide [1], especially in air force personnel [2‐4] and army soldiers [5‐8]. Recently it was reported that MSD have increased over time among Swedish deployed soldiers (DS) [9] and Dutch Air Force personnel [10]. This trend is worrisome given that MSD may negatively affect performance of military personnel [11]. Further, the presence of pain may affect motor control [12] and can be seen as a safety issue [13]. Prevention of MSD is therefore crucial to maintaining a high readiness of armed forces and strategies to reduce the high rates of MSD in the Swedish Armed Forces have been developed for army soldiers.

One such preventive strategy is the implementation of the Musculoskeletal Screening Protocol (MSP) in Swedish Armed Forces for army soldiers. The MSP involves screening soldiers for established risk factors and early signs of MSD [14]. This includes a questionnaire and physical tests mainly focusing on the lower extremities and general physical performance tests [15, 16]. Together, the questionnaire and the tests identify soldiers needing early rehabilitation and/or an individual physical training program to improve their functional ability. The MSP evaluates musculoskeletal pain or problems in 10 anatomical regions, lifestyle factors and functional limitations. The tests of function include measures of passive muscle flexibility as well as muscular strength and endurance. Soldiers who report pain are referred to medical care and soldiers who are not sufficiently strong or flexible, or do not show optimal sensorimotor control of the knees, receive individually-tailored intervention programs based on their screening outcomes. In a study including 862 Swedish Armed Forces soldiers, the implementation of MSP reduced the discharge rate from basic military training by approximately 50% [14]. Therefore, all Swedish soldiers now undergo screening when entering basic military training and prior to deployment to international missions according to the MSP since its implementation in 2010. A similar system for the Swedish Air Force (AF) personnel has not been implemented but is under development. In order to develop the MSP for the Swedish AF, based on the successful protocol for army soldiers, the extent and burden of MSD among AF personnel needs to be established and related to the extent among army soldiers. Studies comparing the prevalence of MSD between the Swedish AF and other military occupations are, however, lacking.

To develop the MSP so that it can also capture risk factors for the development of MSD and enable individualized treatment also for personnel in the AF, similarities and differences between personnel in the AF and the Army need to be examined. So far, research has shown increased odds for neck pain among pilots compared to army officers in NATO countries [17]. Also in military pilots, exposure to various work-related and individual factors has been suggested as increasing the risk for developing MSD [18]. For neck pain, these include high accelerations [19], helmet-mounted equipment [20‐22], disadvantageous postures or work tasks [23] and head movements in the cockpit [24]. Factors associated with low back pain include ergonomics of the cockpit and work posture [10, 25] and individual factors such as back muscle function [26] and age [3]. Associated factors related to the high rates of low back pain among army soldiers [5‐7, 27] include previous injuries, anthropometrics and level of fitness training [6, 28]. Further, regarding work-related psychosocial factors, specifically a low self-reported mental health or being mentally unprepared, has been associated with premature discharge from military service in Sweden [14, 16]. Also, lack of support from leaders and mental stress have been associated with low-back pain among Danish deployed soldiers [27], thus supporting the multifactorial origins of MSD.

The present study aimed to investigate the prevalence of MSD in Swedish AF and army soldiers. Further, we aimed to investigate associated individual, health- and work-related factors with MSD.

This is the first study to present prevalence of MSD in both the Swedish AF and Swedish army DS and to describe differences and similarities between cohorts. Despite a generally healthy lifestyle, approximately 80% of AF reported occasional or more persistent complaints/injuries in their bodies during the previous year. The most commonly affected region was the upper quarter of the body, with a prevalence of approximately 60%. Thus, our findings are in accordance with previous reports of high rates of neck pain among FP [2, 31, 32] and HP [4, 18, 33], as well as among RC [4, 23]. In line with a meta-analysis including FP, HP and transportation pilots, where no differences in prevalence of neck pain, back pain or degenerative findings were found [19], our AF cohort showed no statistically significant differences in prevalence and distribution of MSD between fighter pilots, helicopter pilots and rear crew.

Over 70% of DS reported MSD in the last year, with the lower extremities accounting for 44%. This supports previous studies which included Swedish army conscripts [16] and marines (51%) [6], where the lower extremities were found to be the most common location for MSD. This is indeed a well-known problem in many other countries, where it has been shown that the lower limbs of British infantry soldiers are commonly affected by MSD [34]. With high loads on the lower extremities in service, overload and acute injuries naturally affect this region in army soldiers. Running and performing sports seem to be common mechanisms for both acute and overload injuries, but combat training is also a common activity performed while being injured [34, 35]. Regarding the lumbar region, the one-year prevalence among our DS cohort was 22% and is comparable to Danish deployed soldiers (26%) [27], but lower compared to Swedish marines (36.0%) [6]. The high rates of back pain among Swedish marines might be due to high loads during combat training [6]. Further, regarding the upper quarter of the body (26%), prevalence among our cohort was slightly lower than that (33%) in the Swedish marines [6].

Regarding comparisons between the DS and AF, the prevalence of lower extremity MSD was surprisingly not significantly higher for DS (44%) compared to AF (35%) in our study. The lack of difference between groups may be partly explained by the somewhat higher than expected prevalence among our AF cohort when compared to that reported for Austrian helicopter pilots and crew [4]. Another important reason for the lack of difference may be the implementation of the MSP for the Swedish army. Aside from the lower extremities, the one-year and point prevalence of MSD, respectively, were significantly higher among AF compared to DS in the upper quarter and lumbar regions. Further, as well as a higher prevalence, self-rated pain intensity was significantly higher for both the upper quarter and lumbar regions among our AF cohort. The prevalence difference may be partly be explained by their older age [3]. The older age was, however, no coincidence since it takes several years of training in the handling of the aircraft and associated systems before they complete their pilot education. Further, HP were significantly older than RC and FP, and had significantly more flight hours logged during their career compared to FP, who had significantly more flight hours logged compared to RC. This difference in age and flight hours were, however, not associated with higher prevalence of MSD within the AF cohort. Different external factors to explain the reported upper quarter MSD in air force cohorts have been suggested. One such factor for neck pain among fighter pilots is the G-forces experienced during flying [19]. Another risk factor is the use of helmet-mounted equipment among helicopter pilots [18, 20] and fighter pilots [22, 36]. The use of helmet-mounted equipment increases the load on the neck and has been linked to increased strain on neck muscles in static laboratory situations [37] and in controlled centrifuge measures [21]. Further, the exposure to disadvantageous postures or work tasks in helicopters has been associated with neck pain in Dutch helicopter pilots and rear crew [23]. Movements, such as neck rotation during G-manoeuvres, were associated with flight-related neck pain in Norwegian fighter pilots [24]. These suggested factors likely contribute to the almost double one-year and point prevalence of upper quarter MSD in AF (54.8 and 31.3%) compared to DS (26.1 and 13.6%) in our study. For the lumbar region, AF (38.0 and 18.7%) reported significantly higher values than DS (22.2 and 7.1%) for both one-year and point prevalence. The prevalence in AF is, however, lower compared to Finnish fighter pilots (71%) [26] and US helicopter pilots and rear crew (77.8%) [3]. One further reason behind the lower prevalence of MSD in DS compared to AF could be that the MSP has already been implemented for the Swedish army. The lower prevalence of MSD might be an effect of the preventive program.

In the logistic regression analyses we included demographic, health- and work-related factors from the MSP questionnaire previously used in studies on Swedish army soldiers and conscripts [14, 16] as potential independent factors related to MSD. The reason for the selection of these possible factors was that previous MSD, physical inactivity, smoking and self-reported lower ratings of mental health have been shown to be important risk factors for premature discharge from service for Swedish conscripts [16]. Our results revealed that being part of the AF (OR 3.22) and rating the state of their physical health to be less than excellent (OR 1.94) were significantly associated with having upper quarter MSD. Being part of the AF (OR 2.07), older age (OR 1.03), taller body height (OR 1.05), and rating the state of their physical health to be less than excellent (1.94) were significantly associated with MSD in the lumbar region. The interpretation of age and body height is that the odds of having MSD increases with 3% for each year and with 5% for each centimetre, respectively. The MSP questionnaire is used as a screening tool to identify individuals with ongoing or past MSD and low health status. The questionnaire may therefore be sub-optimal in determining risk factors in regression analyses. One must always consider the potential for residual confounders in regression analyses [38]. However, we wanted to use the already implemented questionnaire in this study as it is used in daily practice. None of the associated independent factors were considered to confound the results of the logistic regressions in this study.

In line with an earlier study [16], questions about self-rated health, previous and present MSD and work-related factors are important to include in a screening process and should therefore also be included for air force personnel. Also, it is important to notice that being part of the AF was associated with higher prevalence of upper quarter MSD. Together, our findings and those from earlier studies stress the importance of a systematic screening program for air force personnel. The reduced discharge rate from basic military training in Swedish conscripts by screening recruits using a questionnaire and physical tests [14] indicates benefits of yearly musculoskeletal screening also among Swedish AF. We suggest that screening of air force personnel using the MSP should include questions about general health and prevalence of MSD in specific body regions.

The physical load on the spinal structures of pilots has increased due to an increase in the length of missions, greater levels of G-forces and development of head-worn equipment. Earlier interventions for pilots have included exercise programs that aim to improve flexibility, strength and/or sensorimotor control of the neck muscles [32, 39, 40]. The fact that there is still a high prevalence of MSD in the upper quarter of the body, and that the MSP has been found to be effective in reducing prevalence of MSD in the lower extremities in the army, further strengthens the importance of developing a protocol also for the AF. Importantly, however, since the upper quarter and lumbar regions were the most commonly reported body regions for experiencing pain among the AF, the MSP has to be adapted to AF with other tests for these regions. We suggest that for the AF, tests of muscular flexibility, strength, endurance and of sensorimotor control targeting the upper quarter as well as the lumbar regions should be used in future studies. These studies should establish whether functional limitations in these regions can be detected and which tests, if any, should be added to a protocol aiming to reduce the high numbers of MSD in Swedish AF.

Despite a generally healthy lifestyle, most of the Swedish AF and army DS reported MSD. Considering that the implementation of the MSP for Swedish air force personnel is absent but is under development, the results of this study indicate that the MSP can be a meaningful tool to prevent MSD in air force personnel.