Effects of exercise breaks on performance, muscular load, and perceived discomfort in data entry and cognitive tasks

An effective work-rest schedule is an economical way to potentially reduce physical and psychological problems associated with computer usage. In this study, three different work-rest schedules were investigated: 60-min work/10-min rest, 30-min work/5-min rest, and for the third schedule (15/micro), the participants received four breaks from each hour in addition to a 14-min break after 2 h (three of these breaks were 30 s in length and the fourth break was 3 min in length). The study also considered the effect of the type of task. Participants were asked to enter alphanumeric data as a data entry task and to solve addition/subtraction problems as a cognitive task.The results indicated that the effect of work-rest schedule was significant on various perceived discomfort categories and the performance of the subjects. Similarly, the type of task had significant effects on discomfort, performance, and muscular load levels. The 15/micro schedule was superior to the other schedules in terms of discomfort levels of the neck, back, and elbow/arm, eyestrain, speed, accuracy, and performance for both tasks. The lowest levels of trapezius muscle tension for data entry and flexor carpi radialis (FCR) for cognitive tasks obtained with the 15/micro schedule. The cognitive task resulted in a higher psychological discomfort (nervousness, tiredness, dizziness, and headache), but lower physical discomfort and performance than the data entry task. The results of the study suggest that the 15/micro schedule is preferable to the longer and infrequent rest break schedules considering upper extremity discomfort, eyestrain, speed, accuracy, and performance of participants.

[1]  Steven L. Sauter,et al.  Promoting health and productivity in the computerized office , 1991 .

[2]  Fereydoun Aghazadeh,et al.  Risk Factors and their Interactions in VDT Workstation Systems , 1996 .

[3]  E SheedyJames VDTs and vision complaints , 1992 .

[4]  A Mital,et al.  The effect of different work-rest schedules on fatigue and performance of a simulated directory assistance operator's task. , 1994, Ergonomics.

[5]  J. Winkel,et al.  Towards optimizing physical activity in VDT/office work , 1991 .

[6]  E N Corlett,et al.  A technique for assessing postural discomfort. , 1976, Ergonomics.

[7]  C S Gao,et al.  The effects of VDT data entry work on operators. , 1990, Ergonomics.

[8]  Gavriel Salvendy,et al.  Social, Ergonomic and Stress Aspects of Work with Computers, Proceedings of the Second International Conference on Human-Computer Interaction, Honolulu, Hawaii, USA, August 10-14, 1987, Volume 1 , 1987, HCI.

[9]  M Hagberg,et al.  Discomfort and load on the upper trapezius muscle when operating a wordprocessor. , 1986, Ergonomics.

[10]  B. Knave,et al.  Eye discomfort and work with visual display terminals. , 1994 .

[11]  G. Borg Psychophysical scaling with applications in physical work and the perception of exertion. , 1990, Scandinavian journal of work, environment & health.

[12]  L. Fine,et al.  Elements Of Ergonomics Programs: A Primer Based On Workplace Evaluations Of Musculoskeletal Disorders , 1997 .

[13]  Kimberly C. Parsons,et al.  Work with display units1215 May 1986, Stockholm , 1986 .

[14]  E Gunnarsson,et al.  Eye strain resulting from VDT work at the Swedish telecommunications administration. , 1983, Applied ergonomics.

[15]  Joseph R. Sligo,et al.  EMPIRICAL COMPARISON OF UNIVARIATE AND MULTIVARIATE ANALYSIS OF VARIANCE PROCEDURES , 1971 .

[16]  M. Dainoff,et al.  Visual Fatigue and Occupational Stress in VDT Operators , 1981, Human factors.

[17]  David A. Thompson Effect of exercise breaks on musculoskeletal strain among data-entry operators: a case study , 1991 .

[18]  D. Rempel,et al.  VDT-related musculoskeletal symptoms: interactions between work posture and psychosocial work factors. , 1994, American journal of industrial medicine.

[19]  E Michael Shanahan Repetitive strain injuries , 1997, The Lancet.

[20]  Michael J. Smith,et al.  Human factors issues in VDT use: Environmental and workstation design considerations , 1984, IEEE Computer Graphics and Applications.

[21]  Steven L. Sauter,et al.  Promoting health and productivity in the computerized office : models of successful ergonomic interventions , 1990 .

[22]  R. Floru,et al.  Psychophysiological changes during a VDU repetitive task. , 1985, Ergonomics.

[23]  I. Lie,et al.  VDT work, oculomotor strain, and subjective complaints: an experimental and clinical study. , 1994, Ergonomics.

[24]  P. Padmos,et al.  Determinants of the VDU operator's well-being , 1987 .

[25]  Elaine Asfour Strategies For The Design Of Work Day For Users Of Vdt's , 1987 .

[26]  Michael J. Smith The Physical, Mental, and Emotional Stress Effects of VDT Work , 1984, IEEE Computer Graphics and Applications.

[27]  Aura C. Matias,et al.  Carpal tunnel syndrome causation among VDT operators , 1998 .

[28]  Wolfram Boucsein,et al.  Recovery from Strain under Different Work/Rest Schedules , 1995 .

[29]  Hongzheng Lu,et al.  Modeling of VDT Workstation System Risk Factors. , 1994 .

[30]  Charles C. Adams,et al.  Development of a Work-Rest Schedule for VDT Work , 1987, HCI.

[31]  J. Hurrell,et al.  A field study of supplementary rest breaks for data-entry operators , 2000, Ergonomics.

[32]  Pascale Carayon,et al.  An Integrated Approach to Cumulative Trauma Disorders in Computerized Offices: The Role of Psychosocial Work Factors, Psychological Stress and Ergonomic Risk Factors , 1993, HCI.

[33]  V. Hopkin Book reviewErgonomic aspects of visual display terminals: Edited by E. Grandjean, E. Vigliani Taylor and Francis Ltd, 1980, pp x + 300, £18 , 1981 .

[34]  E. Grandjean Ergonomics and health in modern offices , 1984 .

[35]  Ken Compton Biasing CRT guns , 1992 .

[36]  D Colombini,et al.  An observational method for classifying exposure to repetitive movements of the upper limbs. , 1998, Ergonomics.

[37]  A. Sonnino,et al.  Longitudinal Survey of Ocular Disorders and General Complaints in VDU Operators , 1993, HCI.

[38]  Svein Magnussen,et al.  VDU work, contrast adaptation, and visual fatigue , 1992 .

[39]  K Lee,et al.  A review of physical exercises recommended for VDT operators. , 1992, Applied ergonomics.

[40]  J Jeyaratnam,et al.  Musculoskeletal disorders among operators of visual display terminals. , 1995, Scandinavian journal of work, environment & health.

[41]  R A Henning,et al.  Frequent short rest breaks from computer work: effects on productivity and well-being at two field sites. , 1997, Ergonomics.

[42]  T Kuczek,et al.  Predictive models of carpal tunnel syndrome causation among VDT operators. , 1998, Ergonomics.

[43]  Michael Weisberg Ergonomic Guidelines for Designing Effective and Healthy Learning Environments for Interactive Technologies. , 1993 .

[44]  Lee Watkins,et al.  Technical marketing case study: using displays for market differentiation , 1988 .

[45]  P. Buckle,et al.  Current techniques for assessing physical exposure to work-related musculoskeletal risks, with emphasis on posture-based methods. , 1999, Ergonomics.

[46]  W Karwowski,et al.  The effects of computer interface design on human postural dynamics. , 1994, Ergonomics.

[47]  A. Yassi Repetitive strain injuries , 1997, The Lancet.

[48]  Steven L. Sauter,et al.  The design of rest breaks for video display terminal work: A review of the relavant literature , 1990 .