Abstract
The purpose was to determine the influence of movement variability and level of muscle activation on the accuracy of targeted movements performed with the index finger by young and older adults. Twelve young (27.4 ± 4.4 years) and 12 older adults (74.5 ± 8.9 years) attempted to match the end position of an index finger movement to a target position when lifting and lowering a light load (10% of the maximum). Visual feedback was provided after each trial. Movement error was calculated as the absolute distance from the target. Movement variability was quantified as the standard deviation of finger acceleration and the variability of end position across trials. The EMG activity of first dorsal interosseus (FDI) and second palmar interosseus (SPI) muscles was measured with intramuscular electrodes. Older adults exhibited greater spatial and temporal errors and greater variability in finger acceleration and end position during both the lifting and lowering tasks. Older adults lifted the load by activating FDI less but SPI the same as young adults, whereas they lowered the load by activating SPI less and FDI the same as young adults. In addition, older adults exhibited lower variability across trials in SPI activation when lifting the load and lower variability for FDI activation when lowering the load. The findings demonstrate that the decrease in spatial and temporal accuracy observed in older adults when lifting and lowering a light load to a target position was due to greater movement variability and differences in antagonistic muscle activity.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Berardelli A, Hallett M, Rothwell JC, Agostino R, Manfredi M, Thompson PD, Marsden CD (1996) Single-joint rapid arm movements in normal subjects and in patients with motor disorders. Brain 119:661–674
Burnett RA, Laidlaw DH, Enoka RM (2000) Coactivation of the antagonist muscle does not covary with steadiness in old adults. J Appl Physiol 89:61–71
Chao EYS, An KN, Cooney WP, Linschied RL (1989) Biomechanics of the hand. A basic research study. World Scientific, Teaneck
Christou EA, Carlton LG (2001) Old adults exhibit greater motor output variability than young adults only during rapid discrete isometric contractions. J Gerontol A Biol Sci Med Sci 56:B524–B532
Christou EA, Carlton LG (2002a) Age and contraction type influence motor output variability in rapid discrete tasks. J Appl Physiol 93:489–498
Christou EA, Carlton LG (2002b) Motor output is more variable during eccentric compared with concentric contractions. Med Sci Sports Exerc 34:1773–1778
Christou EA, Tracy BL (2005) Aging and motor output variability. In: Davids K, Bennett S, Newell K (eds) Movement system variability. Human Kinetics, Champaign, pp 199–215
Christou EA, Tracy BL, Enoka RM (2002) The steadiness of lengthening contractions. In: Latash ML (ed) Progress in motor control, volume II: structure–function relations in voluntary movements. Human Kinetics, Champaign, pp 195–207
Christou EA, Shinohara M, Enoka RM (2003) Fluctuations in acceleration during voluntary contractions lead to greater impairment of movement accuracy in old adults. J Appl Physiol 95:373–384
Christou EA, Poston B, Enoka JA, Enoka RM (2007) Different neural adjustments improve endpoint accuracy with practice in young and old adults. J Neurophysiol 97:3340–3350
Corcos DM, Gottlieb GL, Agarwal GC (1989) Organizing principles for single-joint movements. II. A speed-sensitive strategy. J Neurophysiol 62:358–368
Darling WG, Cooke JD, Brown SH (1989) Control of simple arm movements in elderly humans. Neurobiol Aging 10:149–157
Dinse HR (2006) Cortical reorganization in the aging brain. Prog Brain Res 157:57–80
Duchateau J, Enoka RM (2008) Neural control of shortening and lengthening contractions: influence of task constraints. J Physiol 586:5853–5864
Eisen A, Entezari-Taher M, Stewart H (1996) Cortical projections to spinal motoneurons: changes with aging and amyotrophic lateral sclerosis. Neurology 46:1396–1404
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
Faisal AA, Selen LP, Wolpert DM (2008) Noise in the nervous system. Nat Rev Neurosci 9:292–303
Franklin DW, Wolpert DM (2008) Specificity of reflex adaptation for task-relevant variability. J Neurosci 28:14165–14175
Ghez C, Gordon J (1987) Trajectory control in targeted force impulses. I. Role of opposing muscles. Exp Brain Res 67:225–240
Gottlieb GL, Latash ML, Corcos DM, Liubinskas TJ, Agarwal GC (1992) Organizing principles for single joint movements: V. Agonist–antagonist interactions. J Neurophysiol 67:1417–1427
Graves AE, Kornatz KW, Enoka RM (2000) Older adults use a unique strategy to lift inertial loads with the elbow flexor muscles. J Neurophysiol 83:2030–2039
Green SB, Salkind NJ (2002) Using SPSS for the windows and Macintosh: analyzing and understanding data. Prentice Hall, Upper Saddle River
Gribble PL, Mullin LI, Cothros N, Mattar A (2003) Role of cocontraction in arm movement accuracy. J Neurophysiol 89:2396–2405
Hamilton AF, Jones KE, Wolpert DM (2004) The scaling of motor noise with muscle strength and motor unit number in humans. Exp Brain Res 157:417–430
Harris CM, Wolpert DM (1998) Signal-dependent noise determines motor planning. Nature 394:780–784
Henderson G, Tomlinson BE, Gibson PH (1980) Cell counts in human cerebral cortex in normal adults throughout life using an image analysing computer. J Neurol Sci 46:113–136
Jones LA, Lederman SJ (2006) Human hand function. Oxford University Press, Oxford
Kornatz KW, Christou EA, Enoka RM (2005) Practice reduces motor unit discharge variability in a hand muscle and improves manual dexterity in old adults. J Appl Physiol 98:2072–2080
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
Li ZM, Pfaeffle HJ, Sotereanos DG, Goitz RJ, Woo SL (2003) Multi-directional strength and force envelope of the index finger. Clin Biomech (Bristol, Avon) 18:908–915
Marmon AR, Pascoe MA, and Enoka RM (2010) Associations among strength, steadiness, and hand function across the adult life span. Med Sci Sports Exerc (in press). doi:10.1249/MSS.0b013e3181f3f3ab
Masakado Y, Noda Y, Nagata MA, Kimura A, Chino N, Akaboshi K (1994) Macro-EMG and motor unit recruitment threshold: differences between the young and the aged. Neurosci Lett 179:1–4
Merletti R, Rainoldi A, Farina D (2001) Surface electromyography for noninvasive characterization of muscle. Exerc Sport Sci Rev 29:20–25
Narici MV, Maffulli N, Maganaris CN (2008) Ageing of human muscles and tendons. Disab Rehab 30:1548–1554
Negro F, Holobar A, Farina D (2009) Fluctuations in isometric muscle force can be described by one linear projection of low-frequency components of motor unit discharge rates. J Physiol 587:5925–5938
Oldfield RC (1971) The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia 9:97–113
Olney SJ, Winter DA (1985) Predictions of knee and ankle moments of force in walking from EMG and kinematic data. J Biomech 18:9–20
Osu R, Franklin DW, Kato H, Gomi H, Domen K, Yoshioka T, Kawato M (2002) Short- and long-term changes in joint co-contraction associated with motor learning as revealed from surface EMG. J Neurophysiol 88:991–1004
Rao G, Amarantini D, Berton E (2009) Influence of additional load on the moments of the agonist and antagonist muscle groups at the knee joint during closed chain exercise. J Electromyogr Kinesiol 19:459–466
Roos MR, Rice CL, Vandervoort AA (1997) Age-related changes in motor unit function. Muscle Nerve 20:679–690
Scott SH (2008) Inconvenient truths about neural processing in primary motor cortex. J Physiol 586:1217–1224
Seidler-Dobrin RD, He J, Stelmach GE (1998) Coactivation to reduce variability in the elderly. Mot Control 2:314–330
Selen LP, Beek PJ, Dieen JH (2005) Can co-activation reduce kinematic variability? A simulation study. Biol Cybern 93:373–381
Todorov E, Jordan MI (2002) Optimal feedback control as a theory of motor coordination. Nat Neurosci 5:1226–1235
Tracy BL, Enoka RM (2002) Older adults are less steady during submaximal isometric contractions with the knee extensor muscles. J Appl Physiol 92:1004–1012
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
van Beers RJ, Haggard P, Wolpert DM (2004) The role of execution noise in movement variability. J Neurophysiol 91:1050–1063
Zijdewind I, Kernell D (1994) Index finger position and force of the human first dorsal interosseus and its ulnar nerve antagonist. J Appl Physiol 77:987–997
Acknowledgments
Awards to Evangelos Christou (AG024662, AG031769) and Roger Enoka (AG09000) from the National Institute of Aging supported this work.
Author information
Authors and Affiliations
Corresponding author
About this article
Cite this article
Christou, E.A., Enoka, R.M. Aging and movement errors when lifting and lowering light loads. AGE 33, 393–407 (2011). https://doi.org/10.1007/s11357-010-9190-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11357-010-9190-4