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H-reflex v závislosti na poloze kloubu / Angle in the joint and H-reflexStiborová, Pavla January 2010 (has links)
Title: H-reflex, depending on the position of the joint Aim: The aim of this study is to determine whether the position of the ankle joint influences the parameters of the soleus muscle H-reflex. We are interested in a change of amplitude, latency and threshold of the H-reflex. Method: To measure H-reflex, we have used surface elektromygraphy. We examined two different positions of the foot in probands lying on the bed on their stomach. The first position was with the feet out of bed, around 90 degrees at the ankle joint (rest position). At the second position, the foot moved the bed and was in position in plantar flexion. Stimulation were performed over the tibial nerve in the popliteal fossa. The response, we recorded the surface electrode over the soleus muscle. Results: By changing the position of the ankle from rest to plantar flexion there was no statistically significant changes in amplitude, latency or threshold of the H-reflex. In plantar flection, we found a reduction of Hmax/Mmax ratio, which is probably due to reduced excitability alpha motoneurons through reciprocal ihibition from stretched muscle of the leg. Keywords: H-reflex, soleus muscle, joint position, surface EMG
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Náborová křivka H-reflexu v diagnostice radikulárních syndromů / Recruitment curve of H reflex in dignastics of radiculopathies.Hrušková, Marcela January 2012 (has links)
Název práce: Náborová křivka H-reflexu v diagnostice radikulárních syndromů Cíle práce: Ověření spolehlivosti vyšetření náborové křivky H-reflexu a M-vlny diagnostice kompresivní radikulopatie Metody práce: U 24 osob s jednostranným kořenový syndromem S1 byl vyšetřen H-reflex m. soleus oboustranně bipolární stimulací n.tibialis v popliteální jamce. Elektromyografický signál byl digitalizován a následně byla hodnocena data pro asymptomatickou a symptomatickou končetinu. Hodnoceny byly prahy pro vyvolání H-reflexu a M-vlny, latence a amplitudy H-reflexu a M-vlny, strmost náborové křivky, její maxima Hmax. a Mmax. a poměr Hmax/Max . Tyto hodnoty pro symptomatickou stranu a asymptomatickou stranu byly statisticky porovnány. Výsledky: Výsledky měření potvrdily, že vyšetření náborové křivky H-reflexu je vhodnou diagnostickou metodou k objektivizaci radikulopatie S1. Na symptomatické straně došlo k signifikantnímu poklesu Mmax., Hmax, poměru Hmax/Mmax a sklonu náborové křivky H-reflexu. Klíčová slova: radikulopatie, EMG, H-reflex, M-vlna, náborová křivka
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Rhythmic arm cycling differentially modulates stretch and H-reflex amplitudes in soleus musclePalomino, Andres Felipe 08 July 2011 (has links)
During rhythmic arm cycling soleus H-reflex amplitudes are reduced by modulation of group Ia presynaptic inhibition (Frigon et al, 2004). This reflex suppression is graded with the frequency of arm cycling (Loadman & Zehr 2007; Hundza & Zehr 2009) and 0.8 Hz is the minimum frequency to significantly reduce the soleus H-reflex (Hundza & Zehr 2009). Despite the data on modulation of the soleus H-reflex amplitude induced by rhythmic arm cycling, comparatively little is known about the modulation of stretch reflexes due to remote limb movement. Therefore, the present study was intended to explore the effect of arm cycling on stretch and H-reflex amplitudes in the soleus muscle. In so doing, additional information on the mechanism of action during rhythmic arm cycling would be revealed. Although both reflexes share the same afferent pathway, we hypothesized that stretch reflex amplitudes would be less suppressed by arm cycling because they are less inhibited by presynaptic inhibition (Morita et al, 1998). Failure to reject this hypothesis would add additional strength to the argument that Ia presynaptic inhibition is the mechanism modulating soleus H-reflex amplitude during rhythmic arm cycling. Participants were seated in a customized chair with feet strapped to footplates. Three motor tasks were performed: static control trials and arm cycling at 1 and 2 Hz. Soleus H-reflexes were evoked using single 1 ms pulses of electrical stimulation delivered to the tibial nerve at the popliteal fossa. A constant M-wave and ~6% MVC activation of soleus was maintained across conditions. Stretch reflexes were evoked using a vibratory shaker (ET-126; Labworks Inc). The shaker was placed over the triceps surae tendon and controlled by a custom written LabView program (single sinusoidal pulse at 100Hz). Results demonstrated that rhythmic arm cycling that was effective for conditioning soleus H-reflexes did not show a suppressive effect on the amplitude of the soleus stretch reflex. We suggest this indicates that stretch reflexes are less sensitive to conditioning by rhythmic arm movement, as compared to H-reflexes, due to the relative insensitivity of Ia presynaptic inhibition. / Graduate
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Focal Wrist Cooling Does Not Alter Indices of Spinal Excitability in the Flexor Carpi Radialis MuscleCameron, Shawn P. 26 July 2011 (has links)
No description available.
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On the nature of stopping a voluntary actionMcGarry, James Timothy 05 1900 (has links)
The stopping of an earlier intended action is best explained in a race between a go process and a
stop process (Logan & Cowan, 1984). The finish line, to which each process races, has been likened
to a point of no return, specifically one that marks the onset of a final ballistic (unstoppable) process.
Of note is the typical relation of reduced go probabilities and faster go latencies at shorter signal
onset asynchronies (SOAs). (The SOA is the time interval between presentation of the go signal and
presentation of the stop signal.) We report, in some cases, sub-maximal surface electromyograms
(EMGs) at onset when trying to stop a maximal speeded action. These data indicate reduced
synaptic drive to reach the motor pools as a result of earlier stopping effects and, as such, hold
important implications for a theory of control. First, we interpret these data to suggest that the point
of no return is phantom. Sub-maximal EMGs indicate a point in the control stream beyond which
some EMG will be later observed but, importantly, they fail to mark the onset of a final ballistic
process if, once breached, the same process remains subject to further effects of stopping. The
alternative interpretation, however, that of a final ballistic process that receives sub-maximal input
which results in sub-maximal output (i.e., EMG onset) cannot be ruled out from these data. We used
the Hoffmann (H) reflex to probe further the mechanism of control for stopping a voluntary action.
The H-reflex, an involuntary reflex that is taken as an index of spinal control, is relevant to the
control of stopping because it is typically facilitated a short time before EMG onset. In other words,
it provides a window of control within which a final ballistic process would otherwise be expected
to locate. Thus, we interpret the effects of stopping on the H-reflex before EMG onset as strong
evidence against a final ballistic process. Second, while the race model can explain the relation
between the go probabilities, the go latencies and the SOAs, it fails to explain the sub-maximal EMG
onsets that describe that same action in some cases. We submit a mechanism of excitatory-inhibitory
interaction at all times up to the motor pool to explain both sets of empirical data. The viability of
this theory is demonstrated using computer analyses.
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Effect of Weight Bearing on the Soleus H-reflex During Upright Standing Under the Head-out Water Immersion Condition in HumansEgawa, Ken'ichi, Oida, Yukio, Kitabatake, Yoshinori, Mano, Tadaaki, Iwase, Satoshi, Kamiya, Atsunori, Michikami, Daisaku 12 1900 (has links)
国立情報学研究所で電子化したコンテンツを使用している。
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On spinal mechanisms for reflex control in man : modulation of Ia-afferent excitation with changes in muscle length, activation level and fatigue /Nordlund, Maria M., January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.
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AGE-RELATED NEURO-MECHANICAL CHANGE DURING STAIR LOCOMOTIONJohannsson, Johanna 25 October 2018 (has links)
Stair locomotion is one of the most difficult and challenging type of locomotion for older adults, with a high risk of fall and injuries. A major reason is that the neuromuscular system undergoes various changes through the aging process. The aim of this doctoral thesis is to study the age-related neuro-mechanical adjustments associated with stair locomotion and more specifically to investigate the interaction between neural and muscular changes in the plantarflexor muscles. To that aim, three main projects have been performed. The first two projects investigated the influence of age on spinal and supraspinal excitability when individuals stood at the bottom and the top of a 3-steps staircase and spinal excitability during stair locomotion. The third one focused on the age-related influence on the muscle-tendon behavior during stair locomotion. The result of the first project indicate a lower dependence on spinal pathway to control soleus motoneurons with a similar change observed in both age groups suggesting that healthy older adults preserved their ability to adjust postural control to environmental demands. The second project is the first to report the modulation of H-reflex amplitude in the plantarflexor muscles during stair ascent and descent in healthy young and older adults. This modulation likely reflects an increased role of descending inputs in controlling plantarflexor muscle activation during the stair gait cycle. However, similarly to the first project the modulation of the net excitatory inputs from group I afferents during the stair gait cycle does not seem to be influenced by healthy aging. The third project suggest that length changes of the Achilles tendon and lateral gastrocnemius (LG) fascicles favour the storage and recovery the tendon elastic strain energy over the muscle work, improving thereby the mechanical efficiency of stair ascent in young adults. In older adults, it seems that a different behavior is used to maintain a mechanical efficiency during stair ascent. In contrast, during stair descent, no difference was observed between age groups regarding the LG muscle-complex behavior despite some kinematics changes. In conclusion, this doctoral thesis indicates that despite some age-related structural and functional changes of the neuromuscular system, similar neural modulations occur during stair locomotion in young and healthy older adults. During stair ascent, a similar global pattern of change in length for the fascicle’s length and the modulation of the H reflex can be observed. However, during stair descent, H reflex modulation cannot be simply explained by the pattern of muscle length change. / Doctorat en Sciences de la motricité / info:eu-repo/semantics/nonPublished
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On the nature of stopping a voluntary actionMcGarry, James Timothy 05 1900 (has links)
The stopping of an earlier intended action is best explained in a race between a go process and a
stop process (Logan & Cowan, 1984). The finish line, to which each process races, has been likened
to a point of no return, specifically one that marks the onset of a final ballistic (unstoppable) process.
Of note is the typical relation of reduced go probabilities and faster go latencies at shorter signal
onset asynchronies (SOAs). (The SOA is the time interval between presentation of the go signal and
presentation of the stop signal.) We report, in some cases, sub-maximal surface electromyograms
(EMGs) at onset when trying to stop a maximal speeded action. These data indicate reduced
synaptic drive to reach the motor pools as a result of earlier stopping effects and, as such, hold
important implications for a theory of control. First, we interpret these data to suggest that the point
of no return is phantom. Sub-maximal EMGs indicate a point in the control stream beyond which
some EMG will be later observed but, importantly, they fail to mark the onset of a final ballistic
process if, once breached, the same process remains subject to further effects of stopping. The
alternative interpretation, however, that of a final ballistic process that receives sub-maximal input
which results in sub-maximal output (i.e., EMG onset) cannot be ruled out from these data. We used
the Hoffmann (H) reflex to probe further the mechanism of control for stopping a voluntary action.
The H-reflex, an involuntary reflex that is taken as an index of spinal control, is relevant to the
control of stopping because it is typically facilitated a short time before EMG onset. In other words,
it provides a window of control within which a final ballistic process would otherwise be expected
to locate. Thus, we interpret the effects of stopping on the H-reflex before EMG onset as strong
evidence against a final ballistic process. Second, while the race model can explain the relation
between the go probabilities, the go latencies and the SOAs, it fails to explain the sub-maximal EMG
onsets that describe that same action in some cases. We submit a mechanism of excitatory-inhibitory
interaction at all times up to the motor pool to explain both sets of empirical data. The viability of
this theory is demonstrated using computer analyses. / Education, Faculty of / Kinesiology, School of / Graduate
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Neuromuscular adaptations induced by long-term motor skill trainingDiedrichs, Robin 11 October 2018 (has links)
No description available.
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