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Activity-dependent plasticity is a fundamental requirement for human motor learning, which takes place at several stages of the motor system and involves various mechanisms in neuronal circuitry. Here, we investigate parameters of cortical and spinal excitability before and immediately after a single session of locomotion-like arm training (LMT) or sequential visuo-motor learning (VMT). Both training paradigms focused especially on mainly activating the flexor carpi radialis muscle (FCR). The activity-dependent change in the excitability of FCR-associated neurons was investigated using standard transcranial magnetic stimulation, including analysis of motor-evoked potentials (MEP) amplitude, short-interval intracortical inhibition and intracortical facilitation (ICF). Furthermore, spinal plasticity was also assessed by means of homosynaptic FCR H-reflex depression (HD). LMT decreased HD and ICF. In contrast, VMT had no significant effect on cortical and spinal parameters. There was a nonsignificant tendency of an increase in MEP amplitudes after both interventions. This implies that human locomotor-related learning involves spinal mechanisms. Despite the decreasing importance of quadrupedal coordination in the course of evolution, these changes in transsynaptic plasticity may reflect a persisting locomotor memory-encoding function in the spinal circuitry of the human upper extremities. Evaluating FCR HD might be helpful for the evaluation and development of locomotor rehabilitation strategies.

Titel:	Spinal and cortical activity-dependent plasticity following learning of complex arm movements in humans.
Autor/in / Beteiligte Person:	Winkler, T ; Mergner, B ; Szecsi, J ; Bender, A ; Straube, A
Link:	View record at Springer (Volltext)
Zeitschrift:	Experimental brain research, Jg. 219 (2012-06-01), Heft 2, S. 267-74
Veröffentlichung:	Berlin : Springer Verlag, 2012
Medientyp:	academicJournal
ISSN:	1432-1106 (electronic)
DOI:	10.1007/s00221-012-3086-8
Schlagwort:	Adult Evoked Potentials, Motor physiology Female H-Reflex physiology Humans Male Motor Activity physiology Arm physiology Learning physiology Motor Cortex physiology Movement physiology Neuronal Plasticity physiology Psychomotor Performance physiology Spinal Cord physiology
Sonstiges:	Nachgewiesen in: MEDLINE Sprachen: English Publication Type: Journal Article Language: English [Exp Brain Res] 2012 Jun; Vol. 219 (2), pp. 267-74. <i>Date of Electronic Publication: </i>2012 Apr 04. MeSH Terms: Arm / physiology ; Learning / physiology ; Motor Cortex / physiology ; Movement / physiology ; Neuronal Plasticity / physiology ; Psychomotor Performance / physiology ; Spinal Cord / *physiology ; Adult ; Evoked Potentials, Motor / physiology ; Female ; H-Reflex / physiology ; Humans ; Male ; Motor Activity / physiology References: Annu Rev Neurosci. 2001;24:807-43. (PMID: 11520919) ; Clin Neurophysiol. 2010 Oct;121(10):1655-68. (PMID: 20427232) ; J Neurosci Methods. 2008 Jun 15;171(1):1-12. (PMID: 18394711) ; Neurorehabil Neural Repair. 2009 Jun;23(5):505-14. (PMID: 19237734) ; Exp Brain Res. 1996 Mar;108(3):450-62. (PMID: 8801125) ; Neurorehabil Neural Repair. 2009 Jun;23(5):478-85. (PMID: 19190089) ; J Neurosci Methods. 2008 May 30;170(2):317-23. (PMID: 18377996) ; Neuropsychologia. 1999 Feb;37(2):207-17. (PMID: 10080378) ; Brain Stimul. 2008 Jul;1(3):183-91. (PMID: 20633384) ; J Neurophysiol. 2005 Oct;94(4):2844-55. (PMID: 16000519) ; Acta Physiol (Oxf). 2007 Feb;189(2):155-69. (PMID: 17250566) ; J Clin Neurophysiol. 2005 Jun;22(3):204-9. (PMID: 15933493) ; Exp Brain Res. 2004 Nov;159(2):197-205. (PMID: 15549279) ; Lancet. 2011 May 14;377(9778):1693-702. (PMID: 21571152) ; Exp Brain Res. 1989;78(1):28-32. (PMID: 2591515) ; Acta Physiol (Oxf). 2007 Feb;189(2):171-80. (PMID: 17250567) ; J Appl Physiol (1985). 2002 Jun;92(6):2309-18. (PMID: 12015341) ; Exp Brain Res. 2005 Oct;166(2):248-62. (PMID: 16078020) ; Hum Mov Sci. 2010 Oct;29(5):618-30. (PMID: 20356643) ; Muscle Nerve. 1996 Oct;19(10):1347-8. (PMID: 8808664) ; J Neurophysiol. 2006 Oct;96(4):1765-71. (PMID: 16760345) ; J Physiol. 2007 Mar 1;579(Pt 2):375-88. (PMID: 17170047) ; Clin Neurophysiol. 2006 Aug;117(8):1682-91. (PMID: 16793333) ; Eur J Appl Physiol Occup Physiol. 1993;66(2):116-21. (PMID: 8472692) ; J Appl Physiol (1985). 2005 Oct;99(4):1558-68. (PMID: 15890749) ; Exp Brain Res. 2004 Jan;154(1):1-10. (PMID: 14579004) ; Exp Brain Res. 2000 Jul;133(2):233-41. (PMID: 10968224) ; J Physiol. 2001 Dec 15;537(Pt 3):1047-58. (PMID: 11744776) ; J Neurophysiol. 2006 Feb;95(2):914-21. (PMID: 16251263) ; Neurosci Lett. 2010 Aug 2;479(3):307-11. (PMID: 20570604) ; Brain. 2003 Apr;126(Pt 4):866-72. (PMID: 12615644) ; Clin Neurophysiol. 2009 Oct;120(10):1859-65. (PMID: 19766535) ; Brain Res. 2007 Nov 7;1179:51-60. (PMID: 17889840) ; J Physiol. 2011 Jul 15;589(Pt 14):3545-58. (PMID: 21606115) ; Acta Physiol (Oxf). 2007 Apr;189(4):347-58. (PMID: 17263693) ; J Physiol. 1993 Nov;471:501-19. (PMID: 8120818) ; J Neurophysiol. 2007 Dec;98(6):3677-87. (PMID: 17942616) ; J Physiol. 2006 Sep 1;575(Pt 2):657-70. (PMID: 16825301) ; Brain. 2000 Aug;123 ( Pt 8):1688-702. (PMID: 10908198) ; Exp Brain Res. 2003 Sep;152(1):1-16. (PMID: 12879177) ; Trends Neurosci. 2002 Sep;25(9):462-7. (PMID: 12183207) ; J Neurophysiol. 1995 Sep;74(3):1037-45. (PMID: 7500130) ; Annu Rev Neurosci. 2000;23:393-415. (PMID: 10845069) ; Exp Brain Res. 2008 Feb;185(2):189-97. (PMID: 17932663) ; J Neurophysiol. 2010 May;103(5):2675-83. (PMID: 20237314) Entry Date(s): Date Created: 20120406 Date Completed: 20130311 Latest Revision: 20211021 Update Code: 20240513

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Spinal and cortical activity-dependent plasticity following learning of complex arm movements in humans.