Prediction of handgrip forces using surface EMG of forearm muscles.

Evaluation of handgrip forces constitutes an essential component of ergonomic evaluation (e.g. of hand tools), but is difficult to perform at the workplace. The present study describes a series of experiments on 8 healthy male subjects to determine the validity of linear regression models using the surface electromyography (EMG) of up to 6 forearm muscles to predict handgrip forces. For isometric gripping tasks, normalized EMG to grip force calibrations using a series of dynamic force bursts up to 300 N resulted in a valid prediction of grip forces based on the EMG of 6 forearm muscles. Absolute differences between observed and predicted grip force were small (between 27 and 41 N) which shows that the proposed method might be used for the ergonomic evaluation of the use of hand tools. The EMG - handgrip force model appeared to be minimally affected by grip width, i.e. a model for 67 mm grip width was able to validly predict grip forces for 59 and 75 mm grip widths. Furthermore, it was shown that of the 6 forearm muscles studied at least 3 have to be assessed to arrive at a sufficient level of validity, while it seems to be irrelevant which 3 of those 6 forearm muscles are assessed.

[1]  R W McGorry A system for the measurement of grip forces and applied moments during hand tool use. , 2001, Applied ergonomics.

[2]  G. J. Gouw,et al.  A study of hand grip pressure distribution and EMG of finger flexor muscles under dynamic loads. , 1995, Ergonomics.

[3]  Allard J. van der Beek,et al.  Assessment of exposure to pushing and pulling in epidemiological field studies: An overview of methods, exposure measures, and measurement strategies , 1999 .

[4]  R Kadefors,et al.  A cube model for the classification of work with hand tools and the formulation of functional requirements. , 1993, Applied ergonomics.

[5]  J Malchaire,et al.  Evaluation of handgrip force from EMG measurements. , 1995, Applied ergonomics.

[6]  R Kadefors,et al.  Tool design, user characteristics and performance: a case study on plate-shears. , 1993, Applied ergonomics.

[7]  T J Armstrong,et al.  Hand wrist cumulative trauma disorders in industry. , 1986, British journal of industrial medicine.

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

[9]  Maury A. Nussbaum,et al.  The Use of Standardized Forearm Emg Measures to Predict Single and Multi-Digit Forces , 2000 .

[10]  G M Hägg,et al.  Forearm extensor and flexor muscle exertion during simulated gripping work -- an electromyographic study. , 1997, Clinical biomechanics.

[11]  H F van der Molen,et al.  Evaluation of methods to assess push/pull forces in a construction task. , 2001, Applied ergonomics.

[12]  A Mital,et al.  Injuries due to handtools. Results of a questionnaire. , 1987, Applied ergonomics.

[13]  Amit Bhattacharya,et al.  Occupational ergonomics : theory and applications , 1996 .

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