F. “ Dynamics of mu - rhythm suppression(passive) caused byF. “ Dynamics of mu - rhythm suppression

Juha Huttunen Dynamics of mu - rhythm suppression(passive) caused byJuha Huttunen Dynamics of mu - rhythm suppression

Linkenkaer - Hansen , K ; Wikstrom , H ; Kesaniemi , M ; Antonova , EV ; Ilmoniemi , RJ ; Huttunen , J Dynamics of mu - rhythm suppression(passive) caused byLinkenkaer - Hansen , K ; Wikstrom , H ; Kesaniemi , M ; Antonova , EV ; Ilmoniemi , RJ ; Huttunen , J Dynamics of mu - rhythm suppression

in multiphasic potentials recorded from all 4 recording sitesresultedin multiphasic potentials recorded from all 4 recording sites

atrial electrical remodelling and inflammation in a canine model with rapid atrial pacing ConclusionsThe effects of MNS on atrial electrical remodellingpreventsatrial electrical remodelling and inflammation in a canine model with rapid atrial pacing ConclusionsThe effects of MNS on atrial electrical remodelling

cortical responses of two kinds ... an N20 wave with a latency of 20 ms and an EEG burstcausescortical responses of two kinds ... an N20 wave with a latency of 20 ms and an EEG burst

the arrival of somatosensory volleys(passive) triggered bythe arrival of somatosensory volleys

high frequency oscillations(passive) are triggered byhigh frequency oscillations

to a distinct modulation of cortical oscillationsleadsto a distinct modulation of cortical oscillations

significant central nervous system activationcausessignificant central nervous system activation

corticocortical ( or thalamocortical ) afferents(passive) triggered bycorticocortical ( or thalamocortical ) afferents

clinical symptoms(passive) caused byclinical symptoms

in a pleasant tingling sensation in the first three fingers with relief of her painresultedin a pleasant tingling sensation in the first three fingers with relief of her pain

cortical neurons(passive) triggered bycortical neurons

the left thalamus(passive) caused bythe left thalamus

Poststimulus time histograms ( PSTHs(passive) triggered byPoststimulus time histograms ( PSTHs

an increase in the loudness of the tinnitus in 4 par- ticipants ( 2 severe , 1 moderate , and 1 mild tin- nitus ) , a decrease in 6 participants ( 4 with severe , 1 moderate , and 1 mild tinnituscausedan increase in the loudness of the tinnitus in 4 par- ticipants ( 2 severe , 1 moderate , and 1 mild tin- nitus ) , a decrease in 6 participants ( 4 with severe , 1 moderate , and 1 mild tinnitus

small electrical signal in brain N20 responses not influenced by mod sedation or metabolic abnormalitiescausessmall electrical signal in brain N20 responses not influenced by mod sedation or metabolic abnormalities

a PEDtriggereda PED

muscle stimulationwill causemuscle stimulation

in significantly greater short - latency SEP amplitudes in racquetball players compared to non - athletes ... demonstrating that long - term training may induce neuroplastic changes to the neural circuit and excitability of S1resultedin significantly greater short - latency SEP amplitudes in racquetball players compared to non - athletes ... demonstrating that long - term training may induce neuroplastic changes to the neural circuit and excitability of S1

short and long latency reflexes(passive) caused byshort and long latency reflexes

an increase in the power of the 10 and 20 Hz oscillations [ 49to triggeran increase in the power of the 10 and 20 Hz oscillations [ 49

in flexion and sensation of the first three and one half fingers , opposition of the thumb , and sensation of the palm ( Figure 8)resultsin flexion and sensation of the first three and one half fingers , opposition of the thumb , and sensation of the palm ( Figure 8)

in which of following actionswould resultin which of following actions

in hemodynamic changes in the median nerve territory of SI as confirmed with electrocorticography ( ECOGresultedin hemodynamic changes in the median nerve territory of SI as confirmed with electrocorticography ( ECOG

considerable increments in CPPcausedconsiderable increments in CPP