Load and grip force coordination in static bimanual manipulation tasks in multiple sclerosis.

The aim of the study was to reveal specific aspects of impaired hand function in mildly affected multiple sclerosis (MS) patients. Static manipulation tasks were tested in 13 mildly impaired (EDSS 1.5-4) MS patients and 13 age and gender matched controls. The tasks were based either on presumably visually (i.e., feedback) controlled tracing of depicted patterns of load force (LF; produced by symmetric bimanual tension and/or compression applied against an externally fixed device) or on predominantly feed-forward controlled amplitudes of sinusoidal patterns of LF. The task variables (based on accuracy of exerting the required LF pattern) suggested poor performance of MS subjects in feedback, but not in the feed-forward controlled tasks. The patients also revealed higher GF/LF ratio in all tasks. However, the coordination of GF and LF appeared to be comparable in the two groups. These results continue to support the chosen experimental paradigm and suggest that in mildly affected MS patients, sensorimotor deficits and overgripping precede the decoupling of grip and load forces observed in more severely affected patients.

[1]  W. Helsen,et al.  Intention tremor during manual aiming: a study of eye and hand movements , 2003, Multiple sclerosis.

[2]  Vladimir M. Zatsiorsky,et al.  Motor control goes beyond physics: differential effects of gravity and inertia on finger forces during manipulation of hand-held objects , 2005, Experimental Brain Research.

[3]  H. Topka,et al.  Deficits of predictive grip force control during object manipulation in acute stroke , 2003, Journal of Neurology.

[4]  Peter R. Francis,et al.  A comparison of prehension force control in young and elderly individuals , 1996, European Journal of Applied Physiology and Occupational Physiology.

[5]  Kimatha Oxford Grice,et al.  Adult norms for a commercially available Nine Hole Peg Test for finger dexterity. , 2003, The American journal of occupational therapy : official publication of the American Occupational Therapy Association.

[6]  W. Helsen,et al.  Effect of visual information on step-tracking movements in patients with intention tremor due to multiple sclerosis , 2003, Multiple Sclerosis.

[7]  Roland S. Johansson,et al.  Sensorimotor interactions between pairs of fingers in bimanual and unimanual manipulative tasks , 1999, Experimental Brain Research.

[8]  J. Kurtzke Rating neurologic impairment in multiple sclerosis , 1983, Neurology.

[9]  Joachim Hermsdörfer,et al.  Grip force behavior during object manipulation in neurological disorders: Toward an objective evaluation of manual performance deficits , 2005, Movement disorders : official journal of the Movement Disorder Society.

[10]  Mark L. Latash,et al.  A study of a bimanual synergy associated with holding an object , 1998 .

[11]  Slobodan Jaric,et al.  Coordination of hand grip and load forces in uni- and bidirectional static force production tasks , 2005, Neuroscience Letters.

[12]  Slobodan Jaric,et al.  Evaluation of a method for bimanual testing coordination of hand grip and load forces under isometric conditions. , 2005, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[13]  L. D. De Souza The development of a scale of the Guttman type for the assessment of mobility disability in multiple sclerosis. , 1999, Clinical rehabilitation.

[14]  J. Flanagan,et al.  Coupling of grip force and load force during arm movements with grasped objects , 1993, Neuroscience Letters.

[15]  S. Swinnen,et al.  Interaction between eye and hand movements in multiple sclerosis patients with intention tremor , 2005, Movement disorders : official journal of the Movement Disorder Society.

[16]  R. Johansson,et al.  Coordinated isometric muscle commands adequately and erroneously programmed for the weight during lifting task with precision grip , 2004, Experimental Brain Research.

[17]  A. Breitenbach,et al.  Human development of grip force modulation relating to cyclic movement-induced inertial loads , 2001, Experimental Brain Research.

[18]  S. Folstein,et al.  "Mini-mental state". A practical method for grading the cognitive state of patients for the clinician. , 1975, Journal of psychiatric research.

[19]  C. Whitacre Sex differences in autoimmune disease , 2001, Nature Immunology.

[20]  A. Wing,et al.  Predictive and reactive co‐ordination of grip and load forces in bimanual lifting in man , 2003, The European journal of neuroscience.

[21]  M. Wiesendanger,et al.  Control of manipulative forces during unimanual and bimanual tasks in patients with Huntington’s disease , 2002, Experimental Brain Research.

[22]  H. Forssberg,et al.  Coordination of Manipulative Forces in Parkinson's Disease , 1997, Experimental Neurology.

[23]  S. Jaric,et al.  Interlimb and within limb force coordination in static bimanual manipulation task , 2005, Experimental Brain Research.

[24]  A. Fugl-Meyer,et al.  The post-stroke hemiplegic patient. 1. a method for evaluation of physical performance. , 1975, Scandinavian journal of rehabilitation medicine.

[25]  Andrew M. Gordon,et al.  Coordination of fingertip forces in object transport during locomotion , 2003, Experimental Brain Research.

[26]  N. Mai,et al.  Closed‐ and open‐loop handwriting performance in patients with multiple sclerosis , 2000, European journal of neurology.

[27]  R. S. Johansson,et al.  Roles of glabrous skin receptors and sensorimotor memory in automatic control of precision grip when lifting rougher or more slippery objects , 2004, Experimental Brain Research.

[28]  D. Nowak,et al.  Grip force control during object manipulation in cerebral stroke , 2003, Clinical Neurophysiology.

[29]  J. Noth,et al.  Precision grip and Parkinson's disease. , 1998, Brain : a journal of neurology.

[30]  Mario Wiesendanger,et al.  Dissociation of grip/load-force coupling during a bimanual manipulative assignment , 2001, Experimental Brain Research.

[31]  J. Flanagan,et al.  The stability of precision grip forces during cyclic arm movements with a hand-held load , 1990, Experimental Brain Research.

[32]  R. C. Oldfield The assessment and analysis of handedness: the Edinburgh inventory. , 1971, Neuropsychologia.

[33]  T. Lejeune,et al.  Importance of cutaneous feedback in maintaining a secure grip during manipulation of hand-held objects. , 2003, Journal of neurophysiology.

[34]  P Ketelaer,et al.  Validity of the TEMPA for the measurement of upper limb function in multiple sclerosis , 2002, Clinical rehabilitation.