Fatigue effects on tracking performance and muscle activity.

It has been suggested that fatigue affects proprioception and consequently movement accuracy, the effects of which may be counteracted by increased muscle activity. To determine the effects of fatigue on tracking performance and muscle activity in the M. extensor carpi radialis (ECR), 11 female participants performed a 2-min tracking task with a computer mouse, before and immediately after a fatiguing wrist extension protocol. Tracking performance was significantly affected by fatigue. Percentage time on target was significantly lower in the first half of the task after the fatigue protocol, but was unaffected in the latter half of the task. Mean distance to target and the standard deviation of the distance to target were both increased after the fatigue protocol. The changed performance was accompanied by higher peak EMG amplitudes in the ECR, whereas the static and the median EMG levels were not affected. The results of this study showed that subjects changed tracking performance when fatigued in order to meet the task instruction to stay on target. Contrary to our expectations, this did not lead to an overall higher muscle activity, but to a selective increase in peak muscle activity levels of the ECR.

[1]  T. Armstrong,et al.  A conceptual model for work-related neck and upper-limb musculoskeletal disorders. , 1993, Scandinavian journal of work, environment & health.

[2]  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.

[3]  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.

[4]  G. Sjøgaard,et al.  Motor unit recruitment and rate coding in response to fatiguing shoulder abductions and subsequent recovery , 2000, European Journal of Applied Physiology.

[5]  Epilogue: an integrated model for chronic work-related myalgia "Brussels Model" , 2003 .

[6]  Peter J Beek,et al.  Impedance modulation and feedback corrections in tracking targets of variable size and frequency. , 2006, Journal of neurophysiology.

[7]  C. Ghez,et al.  Loss of proprioception produces deficits in interjoint coordination. , 1993, Journal of neurophysiology.

[8]  Hans-Jörg Bullinger,et al.  Human-computer interaction : ergonomics and user interfaces , 1999 .

[9]  G. Hagg,et al.  Interpretation of EMG spectral alterations and alteration indexes at sustained contraction. , 1992 .

[10]  G. Sjøgaard,et al.  Effect of speed and precision demands on human shoulder muscle electromyography during a repetitive task , 1998, European Journal of Applied Physiology and Occupational Physiology.

[11]  L Finsen,et al.  Acute response to precision, time pressure and mental demand during simulated computer work. , 2000, Scandinavian journal of work, environment & health.

[12]  W A Spencer,et al.  Biathlon shooting performance after exercise of different intensities. , 1992, International journal of sports medicine.

[13]  Mindy F Levin,et al.  Differences in multi-joint kinematic patterns of repetitive hammering in healthy, fatigued and shoulder-injured individuals. , 2005, Clinical biomechanics.

[14]  J. Basmajian Biofeedback: Principles and practice for clinicians , 1979 .

[15]  Karin Harms-Ringdahl,et al.  Effect of arm-shoulder fatigue on carpenters at work , 2004, European Journal of Applied Physiology and Occupational Physiology.

[16]  Gerard P. van Galen,et al.  Fitts' law as the outcome of a dynamic noise filtering model of motor control , 1995 .

[17]  H. Johansson,et al.  Position sense acuity is diminished following repetitive low-intensity work to fatigue in a simulated occupational setting , 2000, European Journal of Applied Physiology.

[18]  T. Mulder,et al.  Motor Control Impairment of the Contralateral Wrist in Patients with Unilateral Chronic Wrist Pain , 2002, American journal of physical medicine & rehabilitation.

[19]  G Sjøgaard,et al.  Muscle injury in repetitive motion disorders. , 1998, Clinical orthopaedics and related research.

[20]  Vincent Nougier,et al.  The effects of muscular fatigue on the coordination of a multijoint movement in human , 1998, Neuroscience Letters.

[21]  Håkan Westerblad,et al.  Functional significance of Ca2+ in long-lasting fatigue of skeletal muscle , 2000, European Journal of Applied Physiology.

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

[23]  U Bergqvist,et al.  National Institute for Working Life Ergonomic Expert Committee Document No 1Visual Display Unit Work and Upper Extremity Musculoskeletal DisordersA Review of Epidemiological Findings , 1997 .

[24]  G. Borg Psychophysical bases of perceived exertion. , 1982, Medicine and science in sports and exercise.

[25]  H Johansson,et al.  Localized muscle fatigue decreases the acuity of the movement sense in the human shoulder. , 1999, Medicine and science in sports and exercise.

[26]  Laure Fernandez,et al.  Effects of biomechanical and task constraints on the organization of movement in precision aiming , 2004, Experimental Brain Research.

[27]  Roger M Enoka,et al.  Changes in muscle activation can prolong the endurance time of a submaximal isometric contraction in humans. , 2003, Journal of applied physiology.

[28]  T J Ebner,et al.  Kinematic analysis of manual tracking in monkeys: characterization of movement intermittencies during a circular tracking task. , 2004, Journal of neurophysiology.

[29]  Nicolas Vuillerme,et al.  Can vision compensate for a lower limbs muscular fatigue for controlling posture in humans? , 2001, Neuroscience Letters.

[30]  D. Altman,et al.  A note on the use of the intraclass correlation coefficient in the evaluation of agreement between two methods of measurement. , 1990, Computers in biology and medicine.

[31]  M. Smeulders,et al.  Fine motor assessment in chronic wrist pain: the role of adapted motor control , 2001, Clinical rehabilitation.

[32]  D Rempel,et al.  Risk factors for musculoskeletal disorders among computer users. , 1999, Occupational medicine.

[33]  K Roeleveld,et al.  EMG amplitude distribution changes over the upper trapezius muscle are similar in sustained and ramp contractions , 2006, Acta physiologica.

[34]  Peter J. Beek,et al.  Impedance is modulated to meet accuracy demands during goal-directed arm movements , 2006, Experimental Brain Research.

[35]  Harold Bekkering,et al.  Time delays prior to movement alter the drawing kinematics of elderly adults. , 2003, Human movement science.

[36]  Paul L Gribble,et al.  Role of cocontraction in arm movement accuracy. , 2003, Journal of neurophysiology.

[37]  Bengt Jonsson,et al.  The static load component in muscle work , 2004, European Journal of Applied Physiology and Occupational Physiology.

[38]  Rachel K Evans,et al.  Upper body fatiguing exercise and shooting performance. , 2003, Military medicine.

[39]  Nicolas Forestier,et al.  Effects of distal and proximal arm muscles fatigue on multi-joint movement organization , 2006, Experimental Brain Research.