Dose–Response Relationship between Physical Workload and Specific Shoulder Diseases—A Systematic Review with Meta-Analysis

Several epidemiological studies have found an association between shoulder-loaded work activities and specific shoulder diseases. No study has derived the dose-response relationship and resulting doubling dose, important for the recognition of occupational diseases. This systematic review is an update of the van der Molen et al. (2017) review. Based on its methodologies, we identified new studies published up to November 2018. The dose-response relationship between physical occupational demands (hands at/above shoulder level, repetitive movements, forceful work, hand-arm vibrations) and specific shoulder diseases (defined as ICD-10 M 75.1-5: rotator cuff syndrome, bicipital tendinitis, calcific tendinitis, impingement, and bursitis) was derived. No evidence for sex-specific differences in the dose-response relationship was found. If there were at least two studies with comparable exposures, a meta-analysis was carried out. The pooled analysis resulted in a 21% risk increase (95% CI 4–41%) per 1000 h of work with hands above shoulder level. A meta-analysis was not possible for other occupational burdens due to the low number of studies and differing exposure measurements; an estimate of the doubling dose was made based on the cohort study of Dalbøge et al. (2014). To conclude, the present systematic review with meta-analysis contributes to knowledge of the level of exposure at which specific shoulder diseases—particularly rotator cuff lesions—should be recognized as an occupational disease.

[1]  Reference Document , 2020, Definitions.

[2]  J. H. Andersen,et al.  Exposure–response relationships between cumulative occupational shoulder exposures and different diagnoses related to surgery for subacromial impingement syndrome , 2019, International Archives of Occupational and Environmental Health.

[3]  E. Viikari-Juntura,et al.  Physical and psychosocial work exposures as risk factors for disability retirement due to a shoulder lesion , 2019, Occupational and Environmental Medicine.

[4]  Sanne Pagh Møller,et al.  Risk of subacromial shoulder disorder in airport baggage handlers: combining duration and intensity of musculoskeletal shoulder loads , 2018, Ergonomics.

[5]  J. H. Andersen,et al.  Surgery for subacromial impingement syndrome in relation to intensities of occupational mechanical exposures across 10-year exposure time windows , 2017, Occupational and Environmental Medicine.

[6]  Monique H W Frings-Dresen,et al.  Work-related risk factors for specific shoulder disorders: a systematic review and meta-analysis , 2017, Occupational and Environmental Medicine.

[7]  J. H. Andersen,et al.  Surgery for subacromial impingement syndrome in relation to occupational exposures, lifestyle factors and diabetes mellitus: a nationwide nested case–control study , 2017, Occupational and Environmental Medicine.

[8]  I. Janszky,et al.  BMI and all cause mortality: systematic review and non-linear dose-response meta-analysis of 230 cohort studies with 3.74 million deaths among 30.3 million participants , 2016, British Medical Journal.

[9]  Sanne Pagh Møller,et al.  Subacromial shoulder disorders among baggage handlers: an observational cohort study , 2016, International Archives of Occupational and Environmental Health.

[10]  J. H. Andersen,et al.  Cumulative occupational shoulder exposures and surgery for subacromial impingement syndrome: a nationwide Danish cohort study , 2014, Occupational and Environmental Medicine.

[11]  Johan Hviid Andersen,et al.  Risk of surgery for subacromial impingement syndrome in relation to neck-shoulder complaints and occupational biomechanical exposures: a longitudinal study. , 2013, Scandinavian journal of work, environment & health.

[12]  A. Seidler,et al.  Night-shift work and breast cancer--a systematic review and meta-analysis. , 2013, Scandinavian journal of work, environment & health.

[13]  M. Vézina,et al.  Predictors of chronic shoulder pain after 5years in a working population , 2012, PAIN®.

[14]  Yves Roquelaure,et al.  Risk factors for incidence of rotator cuff syndrome in a large working population. , 2012, Scandinavian journal of work, environment & health.

[15]  Andreas Seidler,et al.  Work-related lesions of the supraspinatus tendon: a case–control study , 2011, International archives of occupational and environmental health.

[16]  G. Guyatt,et al.  GRADE guidelines: 1. Introduction-GRADE evidence profiles and summary of findings tables. , 2011, Journal of clinical epidemiology.

[17]  A. Barr,et al.  Exposure‐dependent increases in IL‐1β, substance P, CTGF, and tendinosis in flexor digitorum tendons with upper extremity repetitive strain injury , 2009, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[18]  A. Barr,et al.  Serum and tissue cytokines and chemokines increase with repetitive upper extremity tasks , 2008, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[19]  David Bonauto,et al.  Rotator Cuff Syndrome: Personal, Work-Related Psychosocial and Physical Load Factors , 2008, Journal of occupational and environmental medicine.

[20]  D. Rempel,et al.  Effect of repetition rate on the formation of microtears in tendon in an in vivo cyclical loading model , 2007, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[21]  Esko Toppila,et al.  Hand-arm vibration syndrome with use of anti-vibration chain saws: 19-year follow-up study of forestry workers , 2006, International archives of occupational and environmental health.

[22]  Sander Greenland,et al.  Generalized Least Squares for Trend Estimation of Summarized Dose–response Data , 2006 .

[23]  D. Rempel,et al.  Evidence of tendon microtears due to cyclical loading in an in vivo tendinopathy model , 2005, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[24]  Eira Viikari-Juntura,et al.  A population study on differences in the determinants of a specific shoulder disorder versus nonspecific shoulder pain without clinical findings. , 2005, American journal of epidemiology.

[25]  Svend Erik Mathiassen,et al.  Work above shoulder level and degenerative alterations of the rotator cuff tendons: a magnetic resonance imaging study. , 2004, Arthritis and rheumatism.

[26]  J P Bonde,et al.  Work related shoulder disorders: quantitative exposure-response relations with reference to arm posture , 2004, Occupational and Environmental Medicine.

[27]  J. Gaughan,et al.  Chronic repetitive reaching and grasping results in decreased motor performance and widespread tissue responses in a rat model of MSD , 2003, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[28]  L. Soslowsky,et al.  Rotator Cuff Tendinosis in an Animal Model: Role of Extrinsic and Overuse Factors , 2002, Annals of Biomedical Engineering.

[29]  R. Kadefors,et al.  Intramuscular pressure of the infra- and supraspinatus muscles in relation to hand load and arm posture , 2000, European Journal of Applied Physiology.

[30]  L. Soslowsky,et al.  Neer Award 1999. Overuse activity injures the supraspinatus tendon in an animal model: a histologic and biomechanical study. , 2000, Journal of shoulder and elbow surgery.

[31]  J. H. Andersen,et al.  Shoulder impingement syndrome in relation to shoulder intensive work. , 1999, Occupational and environmental medicine.

[32]  T. Whipple,et al.  Anatomic relationships in the shoulder impingement syndrome. , 1993, Clinical orthopaedics and related research.

[33]  P. Herberts,et al.  Intramuscular pressure and electromyography in four shoulder muscles , 1991, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[34]  C Backman,et al.  Chronic achilles paratenonitis with tendinosis: An experimental model in the rabbit , 1990, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[35]  R Kadefors,et al.  Intramuscular pressure and electromyography in the supraspinatus muscle at shoulder abduction. , 1989, Clinical orthopaedics and related research.

[36]  R Kadefors,et al.  Intramuscular pressure in the supraspinatus muscle , 1988, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[37]  M Hagberg,et al.  Electromyographic signs of shoulder muscular fatigue in two elevated arm positions. , 1981, American journal of physical medicine.

[38]  I Petersén,et al.  Muscular reaction to welding work: an electromyographic investigation. , 1976, Ergonomics.

[39]  R Kadefors,et al.  A study of painful shoulder in welders. , 1976, Acta orthopaedica Scandinavica.

[40]  Oliver Kuss,et al.  Physical workload and accelerated occurrence of lumbar spine diseases: risk and rate advancement periods in a German multicenter case-control study. , 2011, Scandinavian journal of work, environment & health.

[41]  L. Soslowsky,et al.  Inflammatory and angiogenic mRNA levels are altered in a supraspinatus tendon overuse animal model. , 2005, Journal of shoulder and elbow surgery.

[42]  Peter Herberts,et al.  Intramuscular pressure and muscle blood flow in supraspinatus , 2004, European Journal of Applied Physiology and Occupational Physiology.

[43]  Sigurd Mikkelsen,et al.  Risk of shoulder tendinitis in relation to shoulder loads in monotonous repetitive work. , 2002, American journal of industrial medicine.