nach oben

European Journal of Applied Physiology

Erschienen in:

21.12.2016 | Original Article

Aging effect on muscle synergies in stepping forth during a forward perturbation

verfasst von: Yun Wang, Kazuhiko Watanabe, Tadayoshi Asaka

Erschienen in: European Journal of Applied Physiology | Ausgabe 1/2017

Einloggen, um Zugang zu erhalten

Abstract

Purpose

We explored changes in muscle interactions during healthy aging as a window into neural control strategies of postural preparation to action/perturbation. In particular, we quantified the strength of multi-muscle synergies stabilizing the center of pressure (COP) displacement during the preparation for making a step associated with support surface translations.

Methods

Young and elderly subjects were required to make a step in response to support surface perturbations. Surface muscle activity of 11 leg and trunk muscles was analyzed to identify sets of 4 muscle modes (M-modes). Linear combinations of M-modes and their relationship to changes in the COP displacement in the anterior–posterior direction were then determined. Uncontrolled manifold analysis was performed to determine variance components in the M-mode space and indices of M-mode synergy stabilizing COP displacement.

Results

Prior to the step initiation, the older subjects showed strong synergies that stabilized COP displacement to forward perturbation of the support surface. However, the synergy indices were significantly lower than those of the young subjects during preparation for making a step. The timings of early postural adjustment (EPA) and anticipatory postural adjustment (APA) were consistently earlier in the young subjects as compared to the older subjects. For both groups, the timing of EPA did not change across tasks, while APA showed delayed timing in response to the support surface translations.

Conclusions

We infer that changes in the indices of synergies with age may present challenges for the control of postural preparation to external perturbation in older adults. They may lead to excessive muscle co-contractions and low stability of COP displacement. The results reported here could have clinical relevance when identifying the risk of making a step, which has been linked to an increased risk of falls among the elderly.

Asaka T, Wang Y, Fukushima J, Latash ML (2008) Learning effects on muscle modes and multi-mode postural synergies. Exp Brain Res 184(3):323–338CrossRefPubMed

Belen’kii VE, Gurfinkel VS, Pal’tsev EI (1967) Control elements of voluntary movements. Biofizika 12(1):135–141PubMed

Benjuya N, Melzer I, Kaplanski J (2004) Aging-induced shifts from a reliance on sensory input to muscle cocontraction during balanced standing. J Gerontol A Biol Sci Med Sci 59:166–171CrossRefPubMed

Bertucco M, Cesari P, Latash ML (2013) Fitts’ law in early postural adjustments. Neuroscience 231:61–69CrossRefPubMed

Dinse HR (2006) Cortical reorganization in the aging brain. Prog Brain Res 157:57–80CrossRefPubMed

Eisen A, Entezari-Taher M, Stewart H (1996) Cortical projections to spinal motoneurons: changes with aging and amyotrophic lateral sclerosis. Neurol 46:1396–1404CrossRef

Elble RJ, Moody C, Leffler K, Sinha R (1994) The initiation of normal walking. Mov Disord 9:139–146CrossRefPubMed

Hatzitaki V, Amiridis IG, Arabatzi F (2005) Aging effects on postural responses to self-imposed balance perturbations. Gait Posture 22:250–257CrossRefPubMed

Hicks GE, Shardell M, Alley DE (2012) Absolute strength and loss of strength as predictors of mobility decline in older adults: The InCHIANTI study. J Gerontol A Biol Sci Med Sci 67A(1):66–73CrossRef

Iosa M, Fusco A, Morone G, Paolucci S (2014) Development and decline of upright gait stability. Front Aging Neurosci 6:14CrossRefPubMedPubMedCentral

Ito T, Azuma T, Yamashita N (2003) Anticipatory control in the initiation of a single step under biomechanical constraints in humans. Neurosci Lett 352(3):207–210CrossRefPubMed

Kilby MC, Slobounov SM, Newell KM (2014) Aging and the recovery of postural stability from taking a step. Gait Posture 40(4):701–706CrossRefPubMed

Klous M, Danna-dos-Santos A, Latash ML (2010) Multi-muscle synergies in a dual postural task: evidence for the principle of superposition. Exp Brain Res 202:457–471CrossRefPubMedPubMedCentral

Klous M, Mikulic P, Latash ML (2011) Two aspects of feed-forward postural control: anticipatory postural adjustments and anticipatory synergy adjustments. J Neurophysiol 105(5):2275–2288CrossRefPubMedPubMedCentral

Krishnamoorthy V, Goodman S, Zatsiorsky V, Latash ML (2003) Muscle synergies during shifts of the center of pressure by standing persons: identification of muscle modes. Biol Cybern 89:152–161CrossRefPubMed

Krishnan V, Aruin AS, Latash ML (2011) Two stages and three components of the postural preparation to action. Exp Brain Res 212(1):47–63CrossRefPubMedPubMedCentral

Krishnan V, Latash ML, Aruin AS (2012) Early and late components of feed-forward postural adjustments to predictable perturbations. Clin Neurophysiol 123:1016–1026CrossRefPubMed

Latash ML (2010) Motor synergies and the equilibrium-point hypothesis. Mot Control 14(3):294–322CrossRef

Latash ML, Scholz JP, Schöner G (2007) Toward a new theory of motor synergies. Mot Control 11:276–308CrossRef

Massion J (1992) Movement, posture and equilibrium—interaction and coordination. Prog Neurobiol 38:35–56CrossRefPubMed

Nachshon I, Denno D, Aurand S (1983) Lateral preference of hand, eye and foot: relation to cerebral dominance. Int J Neurosci 18(1–2):1–9CrossRefPubMed

Papegaaij S, Taube W, Baudry S, Otten E, Hortobágyi T (2014) Aging causes a reorganization of cortical and spinal control of posture. Front Aging Neurosci 6:28PubMedPubMedCentral

Robert T, Zatsiorsky VM, Latash ML (2008) Multi-muscle synergies in an unusual postural task: quick shear force production. Exp Brain Res 187(2):237–253CrossRefPubMedPubMedCentral

Rogers MW, Kukulka CG, Soderberg GL (1992) Age-related changes in postural responses preceding rapid self-paced and reaction time arm movements. J Gerontol 47:M159–M165CrossRefPubMed

Sabatini AM (2002) Identification of neuromuscular synergies in natural upper-arm movements. Biol Cybern 86:253–262CrossRefPubMed

Shumway-Cook A, Woollacott M (2000) Motor control: theory and practical applications, 2nd edn. Lippincott Williams & Wilkins, Philadelphia

Ting LH (2007) Dimensional reduction in sensorimotor systems: a framework for understanding muscle coordination of posture. Prog Brain Res 165:299–321CrossRefPubMedPubMedCentral

Tresch MC, Cheung VC, D’Avella A (2006) Matrix factorization algorithms for the identification of muscle synergies: evaluation on simulated and experimental data sets. J Neurophysiol 95(4):2199–2212CrossRefPubMed

Tsai YC, Hsieh LF, Yang S (2014) Age-related changes in posture response under a continuous and unexpected perturbation. J Biomech 47(2):482–490CrossRefPubMed

Wang Y, Asaka T (2008) Muscle synergies involved in shifts of the center of pressure while standing on a narrow support. Brain Res Bull 76(1–2):16–25CrossRefPubMed

Wang Y, Zatsiorsky VM, Latash ML (2005) Muscle synergies involved in shifting the center of pressure while making a first step. Exp Brain Res 167(2):196–210CrossRefPubMed

Wang Y, Zatsiorsky VM, Latash ML (2006) Muscle synergies involved in preparation to a step made under the self-paced and reaction time instructions. Clin Neurophysiol 117:41–56CrossRefPubMed

Wang Y, Asaka T, Watanabe K (2013) Multi-muscle synergies in elderly individuals: preparation to a step made under the self-paced and reaction time instructions. Exp Brain Res 226(4):463–472CrossRefPubMed

Wang Y, Watanabe K, Asaka T, Wan FT (2014) Muscle synergies in preparation to a step made with and without obstacle. Eur J Appl Physiol 114(12):2561–2569CrossRefPubMed

Wang Y, Watanabe K, Asaka T (2015a) Age effects on multi-muscle modes during voluntary body sway. Res Sports Med 23(1):88–101CrossRefPubMed

Wang Y, Watanabe K, Asaka T (2015b) Muscle synergies in preparation to a step made with obstacle in elderly individuals. J Neuroeng Rehabil 12:10CrossRefPubMedPubMedCentral

Wang Y, Watanabe K, Asaka T (2016) Muscle synergies underlying control of taking a step during support surface translation. Eur J Appl Physiol 116(2):301–309CrossRefPubMed

Woollacott MH, Manchester DL (1993) Anticipatory postural adjustments in older adults: are changes in response characteristics due to changes in strategy? J Gerontol 48:M64–M70CrossRefPubMed

Titel: Aging effect on muscle synergies in stepping forth during a forward perturbation
verfasst von: Yun Wang
Kazuhiko Watanabe
Tadayoshi Asaka
Publikationsdatum: 21.12.2016
Verlag: Springer Berlin Heidelberg
Erschienen in: European Journal of Applied Physiology / Ausgabe 1/2017
Print ISSN: 1439-6319
Elektronische ISSN: 1439-6327
DOI: https://doi.org/10.1007/s00421-016-3514-8

Neu im Fachgebiet Arbeitsmedizin

Elterliches Belastungserleben, Unaufmerksamkeits‑/Hyperaktivitätssymptome und elternberichtete ADHS bei Kindern und Jugendlichen: Ergebnisse aus der KiGGS-Studie

Open Access ADHS Leitthema

Die Aufmerksamkeitsdefizit‑/Hyperaktivitätsstörung (ADHS) ist eine der häufigsten psychischen Störungen im Kindes- und Jugendalter [ 1 ]. In Deutschland beträgt die Prävalenz einer elternberichteten ADHS-Diagnose bei Kindern und Jugendlichen 4,4 % …

Substanzkonsum und Nutzung von sozialen Medien, Computerspielen und Glücksspielen unter Auszubildenden an beruflichen Schulen

Open Access Leitthema

Die Begrenzung von Schäden durch Substanzkonsum und andere abhängige Verhaltensweisen von Jugendlichen und jungen Erwachsenen ist ein wichtiges Anliegen der öffentlichen Gesundheit. Der Übergang von der Adoleszenz zum jungen Erwachsenenalter ist …

Berufsbelastung und Stressbewältigung von weiblichen und männlichen Auszubildenden

Leitthema

In der Öffentlichkeit wird die berufliche Ausbildung oftmals unter ökonomischen Gesichtspunkten diskutiert: Mit den geburtenstarken Jahrgängen gehen erfahrene Fachkräfte in Rente und von nachfolgenden Generationen rücken zu wenige Arbeitskräfte …

Rauschtrinken in der frühen Adoleszenz

COVID-19 Leitthema

Alkohol ist in Deutschland die mit Abstand am häufigsten konsumierte psychoaktive Substanz. Mehr als 2 Drittel aller Erwachsenen im Alter von 18 bis 64 Jahren (70,5 %) hat 2021 in den letzten 30 Tagen Alkohol konsumiert [ 1 ]. Von diesen …

Springer Medizin

Abstract

Purpose

Methods

Results

Conclusions

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 1/2017

Ultrasound and magnetic resonance imaging are not interchangeable to assess the Achilles tendon cross-sectional-area

Changes in stiffness of the dorsal scapular muscles before and after computer work: a comparison between individuals with and without neck and shoulder complaints

Shear wave elastography reveals different degrees of passive and active stiffness of the neck extensor muscles

Separate and combined effects of exposure to heat stress and mental fatigue on endurance exercise capacity in the heat

Arterial stiffness in young adult swimmers

Left ventricular twist mechanics during incremental cycling and knee extension exercise in healthy men

Neu im Fachgebiet Arbeitsmedizin

Elterliches Belastungserleben, Unaufmerksamkeits‑/Hyperaktivitätssymptome und elternberichtete ADHS bei Kindern und Jugendlichen: Ergebnisse aus der KiGGS-Studie

Substanzkonsum und Nutzung von sozialen Medien, Computerspielen und Glücksspielen unter Auszubildenden an beruflichen Schulen

Berufsbelastung und Stressbewältigung von weiblichen und männlichen Auszubildenden

Rauschtrinken in der frühen Adoleszenz