Prediction of trapezius muscle activity and shoulder, head, neck, and torso postures during computer use: results of a field study

BackgroundDue to difficulties in performing direct measurements as an exposure assessment technique, evidence supporting an association between physical exposures such as neck and shoulder muscle activities and postures and musculoskeletal disorders during computer use is limited. Alternative exposure assessment techniques are needed.MethodsWe predicted the median and range of amplitude (90th-10th percentiles) of trapezius muscle activity and the median and range of motion (90th-10th percentiles) of shoulder, head, neck, and torso postures based on two sets of parameters: the distribution of keyboard/mouse/idle activities only (“task-based” predictions), and a comprehensive set of task, questionnaire, workstation, and anthropometric parameters (“expanded model” predictions). We compared the task-based and expanded model predictions based on R2 values, root mean squared (RMS) errors, and relative RMS errors calculated compared to direct measurements.ResultsThe expanded model predictions of the median and range of amplitude of trapezius muscle activity had consistently better R2 values (range 0.40-0.55 compared to 0.00-0.06), RMS errors (range 2-3%MVC compared to 3-4%MVC), and relative RMS errors (range 10-14%MVC compared to 16-19%MVC) than the task-based predictions. The expanded model predictions of the median and range of amplitude of postures also had consistently better R2 values (range 0.22-0.58 compared to 0.00-0.35), RMS errors (range 2–14 degrees compared to 3–22 degrees), and relative RMS errors (range 9–21 degrees compared to 13–42 degrees) than the task-based predictions.ConclusionsThe variation in physical exposures across users performing the same task is large, especially in comparison to the variation across tasks. Thus, expanded model predictions of physical exposures during computer use should be used rather than task-based predictions to improve exposure assessment for future epidemiological studies. Clinically, this finding also indicates that computer users will have differences in their physical exposures even when performing the same tasks.

[1]  F. Gerr,et al.  Keyboard use and musculoskeletal outcomes among computer users , 2006, Journal of Occupational Rehabilitation.

[2]  N. Kawakami,et al.  The Job Content Questionnaire (JCQ): an instrument for internationally comparative assessments of psychosocial job characteristics. , 1998, Journal of occupational health psychology.

[3]  L S Mark,et al.  Postural dynamics and the preferred critical boundary for visually guided reaching. , 1997, Journal of experimental psychology. Human perception and performance.

[4]  Jack T Dennerlein,et al.  A single video camera postural assessment system to measure rotation of the shoulder during computer use. , 2012, Journal of applied biomechanics.

[5]  Kay Teschke,et al.  Measuring posture for epidemiology: Comparing inclinometry, observations and self-reports , 2009, Ergonomics.

[6]  Jack T Dennerlein,et al.  Using “Exposure Prediction Rules” for Exposure Assessment: An Example on Whole-Body Vibration in Taxi Drivers , 2004, Epidemiology.

[7]  Bart Visser,et al.  Pathophysiology of upper extremity muscle disorders. , 2006, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[8]  References , 1971 .

[9]  S. Mathiassen,et al.  Motor variability in occupational health and performance. , 2012, Clinical biomechanics.

[10]  Maaike A Huysmans,et al.  Software-recorded and self-reported duration of computer use in relation to the onset of severe arm–wrist–hand pain and neck–shoulder pain , 2010, Occupational and Environmental Medicine.

[11]  A J van der Beek,et al.  The influence of work characteristics on the need for recovery and experienced health: a study on coach drivers. , 1999, Ergonomics.

[12]  W Jones,et al.  Computer users' postures and associations with workstation characteristics. , 2000, AIHAJ : a journal for the science of occupational and environmental health and safety.

[13]  F. Gerr,et al.  Epidemiology of musculoskeletal disorders among computer users: lesson learned from the role of posture and keyboard use. , 2004, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[14]  B. Efron,et al.  A Leisurely Look at the Bootstrap, the Jackknife, and , 1983 .

[15]  Jack T Dennerlein,et al.  The effect of over-commitment and reward on trapezius muscle activity and shoulder, head, neck, and torso postures during computer use in the field. , 2013, American journal of industrial medicine.

[16]  S J Starr,et al.  Relating posture to discomfort in VDT use. , 1985, Journal of occupational medicine. : official publication of the Industrial Medical Association.

[17]  Fredric Gerr,et al.  A prospective study of computer users: II. Postural risk factors for musculoskeletal symptoms and disorders. , 2002, American journal of industrial medicine.

[18]  Mary F. Barbe,et al.  Inflammation and the pathophysiology of work-related musculoskeletal disorders , 2006, Brain, Behavior, and Immunity.

[19]  Willem van Mechelen,et al.  Test-retest reliability and concurrent validity of a web-based questionnaire measuring workstation and individual correlates of work postures during computer work. , 2008, Applied ergonomics.

[20]  Jack T Dennerlein,et al.  The effect of overcommitment and reward on muscle activity, posture, and forces in the arm-wrist-hand region--a field study among computer workers. , 2013, Scandinavian journal of work, environment & health.

[21]  Xu Xu,et al.  Two linear regression models predicting cumulative dynamic L5/S1 joint moment during a range of lifting tasks based on static postures , 2012, Ergonomics.

[22]  Krishna R. Asundi,et al.  Variance in direct exposure measures of typing force and wrist kinematics across hours and days among office computer workers , 2012, Ergonomics.

[23]  P Madeleine,et al.  On functional motor adaptations: from the quantification of motor strategies to the prevention of musculoskeletal disorders in the neck–shoulder region , 2010, Acta physiologica.

[24]  Svend Erik Mathiassen,et al.  Task-based estimation of mechanical job exposure in occupational groups. , 2005, Scandinavian journal of work, environment & health.

[25]  M Methner,et al.  Field Application of the Nanoparticle Emission Assessment Technique (NEAT): Task-Based Air Monitoring During the Processing of Engineered Nanomaterials (ENM) at Four Facilities , 2012, Journal of occupational and environmental hygiene.

[26]  Margit L Bleecker,et al.  Exposure to keyboard/mouse use = keystrokes + mouse clicks + POSTURE: a missing variable that cannot be overstated , 2011, Occupational and Environmental Medicine.

[27]  Allard J. van der Beek,et al.  The relative contribution of work exposure, leisure time exposure, and individual characteristics in the onset of arm–wrist–hand and neck–shoulder symptoms among office workers , 2011, International Archives of Occupational and Environmental Health.

[28]  A J van der Beek,et al.  Assessment of mechanical exposure in ergonomic epidemiology. , 1998, Occupational and environmental medicine.

[29]  R. D. de Bie,et al.  Non-traumatic arm, neck and shoulder complaints: prevalence, course and prognosis in a Dutch university population , 2013, BMC Musculoskeletal Disorders.

[30]  David R. Anderson,et al.  Multimodel Inference , 2004 .

[31]  Jack T. Dennerlein,et al.  Developing a Framework for Predicting Upper Extremity Muscle Activities, Postures, Velocities, and Accelerations During Computer Use: The Effect of Keyboard Use, Mouse Use, and Individual Factors on Physical Exposures , 2012, Journal of occupational and environmental hygiene.

[32]  M. van Veldhoven,et al.  Measurement quality and validity of the “need for recovery scale” , 2003, Occupational and environmental medicine.

[33]  Lin Zeng,et al.  Noise exposure assessment with task-based measurement in complex noise environment. , 2011, Chinese medical journal.

[34]  Jens Wahlström,et al.  Ergonomics, musculoskeletal disorders and computer work. , 2005, Occupational medicine.

[35]  Jack T Dennerlein,et al.  A Wide Range of Activity Duration Cutoffs Provided Unbiased Estimates of Exposure to Computer Use , 2008, Journal of occupational and environmental hygiene.

[36]  T. Chandola,et al.  The measurement of effort-reward imbalance at work: European comparisons. , 2004, Social science & medicine.

[37]  J P Bonde,et al.  Task based exposure assessment in ergonomic epidemiology: a study of upper arm elevation in the jobs of machinists, car mechanics, and house painters , 2004, Occupational and Environmental Medicine.

[38]  Svend Erik Mathiassen,et al.  Efficient assessment of exposure to manual lifting using company data. , 2013, Applied ergonomics.

[39]  R. D. de Bie,et al.  Prevalence of complaints of arm, neck and shoulder among computer office workers and psychometric evaluation of a risk factor questionnaire , 2007, BMC musculoskeletal disorders.

[40]  Jack T Dennerlein,et al.  Upper extremity biomechanics in computer tasks differ by gender. , 2009, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[41]  J H van Dieën,et al.  Observed differences in upper extremity forces, muscle efforts, postures, velocities and accelerations across computer activities in a field study of office workers , 2012, Ergonomics.

[42]  S E Mathiassen,et al.  Assessment of physical work load in epidemiologic studies: concepts, issues and operational considerations. , 1994, Ergonomics.

[43]  M Hagberg,et al.  Measuring and characterizing force exposures during computer mouse use. , 2000, Scandinavian journal of work, environment & health.

[44]  D. Kleinbaum,et al.  A prospective study of computer users: I. Study design and incidence of musculoskeletal symptoms and disorders. , 2002, American journal of industrial medicine.

[45]  A. J. van der Beek,et al.  Should office workers spend fewer hours at their computer? A systematic review of the literature , 2006, Occupational and Environmental Medicine.

[46]  Stefan IJmker,et al.  Loss of Productivity Due to Neck/Shoulder Symptoms and Hand/Arm Symptoms: Results from the PROMO-Study , 2007, Journal of Occupational Rehabilitation.

[47]  C. Jensen,et al.  The influence of electrode position on bipolar surface electromyogram recordings of the upper trapezius muscle , 2004, European Journal of Applied Physiology and Occupational Physiology.

[48]  S. Mathiassen,et al.  Cluster-based exposure variation analysis , 2013, BMC Medical Research Methodology.

[49]  A. Katsarou,et al.  A GLOBAL MEASURE OF PERCEIVED STRESS , 2012 .

[50]  Alex Burdorf,et al.  An evaluation of methods assessing the physical demands of manual lifting in scaffolding. , 2005, Applied ergonomics.