Modulation of plasticity of the soleus area of the motor cortex using paired associative stimulation
Published in
Studies in sport, physical education and healthAuthors
Date
2015Discipline
Gerontologia ja biomekaniikkaPaired associative stimulation (PAS) repeatedly combines single somatosensory
nerve stimuli with single transcranial magnetic stimuli to induce bidirectional
changes in the excitability of the cortical projections to the target muscle. PAS
and motor training have been shown to share common neural mechanisms,
suggesting that PAS tests functionally relevant neuronal circuits. While PAS has
been used extensively to target the hand area of the motor cortex, few studies
have targeted the leg area of the motor cortex. The optimal interstimulus inter-
val (ISI) to induce plasticity in the cortical projections to lower limbs is still not
well established. Thus, the first purpose of this thesis was to define an optimal
ISI to induce long-term potentiation-like plasticity in the cortical projections to
the soleus muscle. Next, this PAS protocol was used as a tool to study the effect
of training background on motor cortex plasticity. The functionality of the ef-
fects following PAS was evaluated in the third experiment, by quantifying fa-
tigue resistance during a 15 s sustained maximal isometric contraction prior to
and after the PAS intervention. The fourth purpose of the thesis was to place
the principle of PAS in a more natural context by replacing electrical stimula-
tion with a natural stretch reflex volley (PASreflex). The optimal ISI for the PAS
intervention when targeting soleus muscle was the latency of somatosensory
evoked potential plus 18 ms (P32 plus 18 ms), which resulted in an 88 ± 105%
increase in amplitude of the soleus motor-evoked potential. With the optimal
PAS protocol, skill trained athletes exhibited significantly greater motor cortex
plasticity compared to endurance trained athletes. The reason for differential
motor cortex plasticity is likely related to the different training-induced adapta-
tions. On average, fatigue resistance did not change following PAS and conse-
quently, the functionality of PAS was not evident. However, PAS-induced ex-
citability changes correlated significantly with changes in fatigue resistance.
The effect of PASreflex was different immediately after and 30 min following the
cessation of the intervention, and thus there were most likely several different
phenomena taking place in the motor cortex due to the nature of the stretch re-
flex. In conclusion, the findings of this thesis will help to understand the behav-
ioral and neural signals that drive function and learning in the motor cortex.
...
Publisher
University of JyväskyläISBN
978-951-39-6406-1ISSN Search the Publication Forum
0356-1070Contains publications
- Artikkeli I: Kumpulainen S, Mrachacz-Kersting N, Peltonen J, Voigt M, Avela J. 2012. The optimal interstimulus interval and repeatability of paired associative stimulation when the soleus muscle is targeted. Experimental Brain Research. Sep;221(3):241-9. DOI 10.1007/s00221-012-3165-x
- Artikkeli II: Kumpulainen S, Avela J, Gruber M, Bergmann J, Voigt M, Linnamo V, Mrachacz-Kersting N. 2015. Differential modulation of motor cortex plasticity in skill- and endurance-trained athletes. European Journal of Applied Physiology. May;115(5):1107-15. 10.1007/s00421-014-3092-6
- Artikkeli III: Kumpulainen S, Peltonen J, Gruber M, Cresswell A, Peurala S, Linnamo V, Avela J. 2015. The effect of paired associative stimulation on fatigue resistance. Neuroscience Research. Jun;95:59-65. 10.1016/j.neures.2015.01.015
- Artikkeli IV: Kumpulainen S, Mrachacz-Kersting N, Peltonen J, Karczewska M, Fatela P, Mil-Homens P, Avela J. 2015 Repeated Pairing of Stretch Reflex and Transcranial Magnetic Stimulation to Induce Motor Cortex Plasticity Changes. Submitted for publication.
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