Abstract
The present study was designed to examine the finger-pinch force control, digit force sharing and digit coupling relations of 13 young and 14 older adults. Subjects performed four isometric tri-digit finger-pinch force production conditions reflecting all combinations of mean force level (20 and 40% MVC) and target shape (constant and sinusoidal). Older adults had significantly reduced force control, as indicated by their greater levels of absolute and relative force variability and targeting error than young adults. The age-related loss of relative force control was more pronounced at low (20% MVC) than high (40% MVC) forces, and to a lesser extent, in sinusoidal than constant force conditions. Older adults had significantly greater peak and proportional power below 1.5 Hz than young adults, with this especially pronounced in constant force conditions. Digit force sharing results indicated that the index finger’s contribution to total force was increased and the middle finger’s contribution reduced in older than young adults. The results of the cross-correlation analyses revealed that older subjects had a significantly reduced level of coupling between the middle finger and the target force, thumb force and EMG signals, with longer time lags in comparison to young adults. These differences in force sharing and middle finger force coupling were more pronounced in sinusoidal than constant force conditions. Overall, these results suggest that the older adults’ reduced force control reflected age-related differences in the sharing and coupling of the finger forces. The results also highlighted that tasks of this nature display a degree of task-dependency, with these overall differences in digit force output and coupling not consistently observed across all force conditions.
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References
Allum JH, Dietz V, Freund H-J (1978) Neuronal mechanisms underlying physiological tremor. J Neurophysiol 41:557–571
Blank R, Heizer W, von Vob H (1999) Externally guided control of static grip forces by visual feedback—age and task effects in 3–6 year old children and in adults. Neurosci Lett 271:41–44
Carmeli E, Patish H, Coleman R (2003) The aging hand. J Gerontol Med Sci 58A:M146–M152
Christou EA, Jakobi JM, Critchlow A, Fleshner M, Enoka RM (2004) The 1- to 2-Hz oscillations in muscle force are exacerbated by stress, especially in older adults. J Appl Physiol 97:225–235
Cole KJ (1991) Grasp force control in older adults. J Motor Behav 23:251–258
Cole KJ, Beck CL (1994) The stability of precision grip force in older adults. J Motor Behav 26:171–177
Cole KJ, Rotella DL (2002) Old age impairs the use of arbitrary visual cues for predictive control of fingertip forces during grasp. Exp Brain Res 143:35–41
Cole KJ, Rotella DL, Harper JG (1998) Tactile impairments cannot explain the effect of age on a grasp and lift task. Exp Brain Res 121:263–269
Cole KJ, Rotella DL, Harper JG (1999) Mechanisms of age-related changes in fingertip forces during precision gripping and lifting in adults. J Neurosci 19:3238–3247
Enoka RM, Christou EA, Hunter SK, Kornatz KW, Semmler JG, Taylor AM, Tracy BL (2003) Mechanisms that contribute to differences in motor performance between young and old adults. J Electromyogr Kinesiol 13:1–12
Erim Z, Beg MF, Burke DT, De Luca CJ (1999) Effects of age on motor-unit control properties. J Neurophysiol 82:2081–2091
Francis KL, Spirduso WW (2000) Age differences in the expression of manual asymmetry. Exp Aging Res 26:169–180
Freund H-J, Hefter H (1993) The role of basal ganglia in rhythmic movement. In: Narabayashi H, Nagatsu T, Yanagisawa N, Mizuno Y (eds) Advances in neurology, vol 60. Raven Press, New York, pp 88–92
Galganski ME, Fuglevand AJ, Enoka RM (1993) Reduced control of motor output in a human hand muscle of elderly subjects during submaximal contractions. J Neurophysiol 69:2108–2115
Hackel ME, Wolfe GA, Bang SM, Canfield JS (1992) Changes in hand function in the aging adult as determined by Jebsen test of hand function. Phys Ther 72:373–377
Jordan K, Newell KM (2004) Task goal and grip force dynamics. Exp Brain Res 156:451–457
Kamen G, Du DCC (1999) Independence of motor unit recruitment and rate modulation during precision force control. Neuroscience 88:643–653
Keen DA, Yue GH, Enoka RM (1994) Training-related enhancement in the control of motor output in elderly humans. J Appl Physiol 77:2648–2658
Kinoshita H, Francis PR (1996) A comparison of prehension force control in young and elderly individuals. Eur J Appl Physiol 74:450–460
Kunesch E, Binkofski F, Freund H-J (1989) Invariant temporal characteristics of manipulative hand movements. Exp Brain Res 78:539–546
Laidlaw DH, Bilodeau M, Enoka RM (2000) Steadiness is reduced and motor unit discharge is more variable in old adults. Muscle Nerve 23:600–612
Lazarus JC, Haynes JM (1997) Isometric pinch force control and learning in older adults. Exp Aging Res 23:179–199
Li ZM, Zatsiorsky VM, Latash ML (2000) Contribution of the extrinsic and intrinsic hand muscles to the movements in finger joints. Clin Biomech 15:203–211
Miall RC, Weir DJ, Stein JF (1985) Visuomotor tracking with delayed visual feedback. Neuroscience 16:511–520
Morrison S, Newell KM (1998) Interlimb coordination as a function of isometric force output. J Motor Behav 30:323–342
Mueller MJ (1996) Identifying patients with diabetes mellitus who are at risk for lower-extremity complications. Phys Ther 76:68–71
Newell KM (1986) Constraints on the development of coordination. In: Wade MG, Whiting HTA (eds) Motor development in children: aspect of coordination and control. Martinus Nijhoff, Dordrecht, pp 341–360
Newell KM, McDonald PV (1994) Information, coordination modes and control in a prehensile force task. Hum Mov Sci 13:375–391
Provins KA (1997) The specificity of motor skill and manual asymmetry: A review of the evidence and its implications. J Motor Behav 29:183–192
Ranganathan VK, Siemionow V, Saghal V, Yue G (2001a) Effects of aging on hand function. J Am Geriatr Soc 49:1478–1484
Ranganathan VK, Siemionow V, Saugen E, Liu JZ, Yue GH (2001b) Skilled finger movement improves hand function. J Gerontol Med Sci 56A:M518–M522
Santello M, Soechting JF (2000) Force synergies for multifingered grasping. Exp Brain Res 133:457–467
Schieber MH, Santello M (2004) Hand function: peripheral and central constraints on performance. J Appl Physiol 96:2293–2300
Seki K, Narusawa M (1996) Firing rate modulation of human motor units in different muscles during isometric contraction with various forces. Brain Res 719:1–7
Semmler JG, Kornatz KW, Enoka RM (2003) Motor-unit coherence during isometric contractions is greater in a hand muscle of older adults. J Neurophysiol 90:1346–1349
Sharp WE, Newell KM (2000) Coordination of grip configurations as a function of force output. J Motor Behav 32:73–82
Shim JK, Lay B, Zatsiorsky VM, Latash ML (2004) Age-related changes in finger coordination during static prehension tasks. J Appl Physiol 97:213–224
Slifkin AB, Vaillancourt DE, Newell KM (2000) Intermittency in the control of continuous force production. J Neurophysiol 84:1708–1718
Sosnoff J, Jordan K, Newell K (2005) Information and force level interact in regulating force output during two and three digit grip configurations. Exp Brain Res 167:76–85
Sosnoff JJ, Vaillancourt DE, Newell KM (2004) Aging and rhythmical force output: loss of adaptive control of multiple neural oscillators. J Neurophysiol 91:172–181
Tracy BL, Mehoudar PD, Ortega JD, Enoka RM (2002) The steadiness of isometric contractions is similar between upper and lower extremity muscle groups. Med Sci Sports Exerc 34:S19
Vaillancourt DE, Larsson L, Newell KM (2003) Effects of aging on force variability, single motor unit discharge patterns, and the structure of 10, 20 and 40 Hz EMG activity. Neurobiol Aging 24:25–35
Vaillancourt DE, Newell KM (2003) Aging and the time and frequency structure of force output variability. J Appl Physiol 94:903–912
Vaillancourt DE, Slifkin AB, Newell KM (2001a) Intermittency in the visual control of force in Parkinson’s disease. Exp Brain Res 138:118–127
Vaillancourt DE, Slifkin AB, Newell KM (2001b) Regularity of force tremor in Parkinson’s disease. Clin Neurophysiol 112:1594–1603
Vaillancourt DE, Slifkin AB, Newell KM (2002) Inter-digit individuation and force variability in the precision grip of young, elderly, and Parkinson’s disease participants. Motor Control 6:113–128
Visser B, de Looze MP, Veeger DH, Douwes M, Groenesteijn L, de Korte E, van Dieen JH (2003) The effects of precision demands during a low intensity pinching task on muscle activation and load sharing of the fingers. J Electromyogr Kinesiol 13:149–157
Acknowledgements
The first author wishes to acknowledge the International Society of Biomechanics who supported this research by awarding a Matching Dissertation Grant. The authors also thank Mr Justin Kavanagh for his assistance.
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Keogh, J., Morrison, S. & Barrett, R. Age-related differences in inter-digit coupling during finger pinching. Eur J Appl Physiol 97, 76–88 (2006). https://doi.org/10.1007/s00421-006-0151-7
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DOI: https://doi.org/10.1007/s00421-006-0151-7