Wrist postures in the general population of computer users during a computer task.

Computer activities have commonly been linked to the development of musculoskeletal disorders (MSDs) in the upper limbs. However, to understand the effects computer use has on such disorders, it is necessary to identify and classify the movements involved in performing common computer tasks, one of these being typing. Motion analysis techniques were adopted to determine the movements involved during a typing task. This involved markers being placed on the knuckles, wrists and forearms of participants. This marker configuration allowed for the flexion, extension, radial deviation, ulnar deviation and a combination of these movements to be calculated. The results in one plane of motion show a mean extension|flexion and radial|ulnar deviation of 18.825° ± 10.013° and 5.228° ± 11.703° respectively. The most common position in two planes of motion was 20° extension with a simultaneous 20° ulnar deviation (10.72%). The results depict an alternative method of categorizing wrist positions in two planes during computer use. Coincident wrist postures should be addressed as opposed to motion in a single plane as these postures may result in different ergonomic risk factors developing.

[1]  D. Rempel,et al.  Upper Extremity Mononeuropathy Among Engineers , 2005, Journal of occupational and environmental medicine.

[2]  Alan Barr,et al.  The effect of six keyboard designs on wrist and forearm postures , 2007 .

[3]  A. Viera,et al.  Management of carpal tunnel syndrome. , 2003, American family physician.

[4]  Richard W Marklin,et al.  Effect of computer keyboard slope on wrist position and forearm electromyography of typists without musculoskeletal disorders. , 2003, Physical therapy.

[5]  E R Serina,et al.  Wrist and forearm postures and motions during typing. , 1999, Ergonomics.

[6]  J T Dennerlein,et al.  Effect of horizontal position of the computer keyboard on upper extremity posture and muscular load during computer work , 2007, Ergonomics.

[7]  D Rempel,et al.  Workplace use of an adjustable keyboard: adjustment preferences and effect on wrist posture. , 1999, American Industrial Hygiene Association journal.

[8]  G S Rash,et al.  A demonstration of validity of 3-D video motion analysis method for measuring finger flexion and extension. , 1999, Journal of biomechanics.

[9]  A. Aydeniz,et al.  Upper Extremity Musculoskeletal Disorders among Computer Users , 2008 .

[10]  J. Lublin,et al.  Carpal tunnel syndrome: a review of initial diagnosis and treatment for the ob/gyn , 1998 .

[11]  Jack T Dennerlein,et al.  Different computer tasks affect the exposure of the upper extremity to biomechanical risk factors , 2006, Ergonomics.

[12]  Robin Burgess-Limerick,et al.  The effect of wrist rests and forearm support during keyboard and mouse use , 2004 .

[13]  L Straker,et al.  The impact of computer display height and desk design on 3D posture during information technology work by young adults. , 2008, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[14]  Shrawan Kumar,et al.  The training effect on typing on two alternative keyboards , 2005 .