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Reply to “The effects of functional electrical stimulation on upper extremity function and cortical plasticity in chronic stroke patients”
I appreciate the very important and developed suggestions by Dr. Cecatto for our article (). The proposals on the reasons why EMG-controlled FES (EMG–FES) could shift the brain hemispheric-dominant perfusion in our study provided our study further development and progress. The motor output and corresponding muscle and joint proprioceptive feedback may be tightly coupled and coordinated with movement by EMG–FES. As Dr. Cecatto proposed, these neural reorganisation mechanisms should be explored. The sensory components of large afferent fibre activation, proprioceptive input and increased cognitive sensory attention are a...
Source: Clinical Neurophysiology - February 10, 2014 Category: Neuroscience Authors: Yukihiro Hara Tags: Letters to the Editor Source Type: research

IS 12. Plasticity in stroke patients: Why brain stimulation may (not) work
Advances in brain imaging techniques allow us to study not just what the brain looks like but how it works. When applied to people who have suffered a stroke this technology has demonstrated reorganization of the way surviving brain regions function. These findings give hope to the idea that new treatments can be designed and more effectively targeted towards individual patients.So how can we measure these changes in organization in the human brain? Brain imaging techniques such as functional magnetic resonance imaging (fMRI) have developed to the point where a detailed appreciation of the damage to brain structures and th...
Source: Clinical Neurophysiology - September 1, 2013 Category: Neuroscience Authors: N. Ward Tags: Society Proceedings Source Type: research

IS 27. Brain stimulation in stroke therapy
Non-invasive brain stimulation has shown its potential to modulate brain plasticity and enhance the effects of training in humans (Zimerman et al., Ann Neurol; 2012). Endeavour has been made to utilize brain stimulation in neurological diseases to enhance adaptive processes and prevent potential maladaptive ones. First studies presented evidence that non-invasive brain stimulation might not only transiently improve functions of the paretic hand, but can also modulate processes of learning (Zimerman et al., Stroke; 2012), a basis to achieve longer lasting effects. Based on this enhancement of functional recovery of both, se...
Source: Clinical Neurophysiology - September 1, 2013 Category: Neuroscience Authors: F.C. Hummel Tags: Society Proceedings Source Type: research

P 155. Serial anodal tDCS over V1 induces long-term effects on colour discrimination in V4 measured in the unimpaired hemifield of patients with occipital stroke
Conclusion: Long-term modulation in colour perception following serial anodal tDCS may represent evidence of inducible long-term plasticity in distantly connected components of the visual system (V1 and V4) in patients with occipital stroke measured in the unimpaired hemifield. This builds on studies describing the immediate effects of tDCS in the visual system in healthy volunteers. The temporal dynamics of serial anodal tDCS seem to interact with learning processes, and may yield potential support for neuroplastic adaptation processes following cerebral lesions. Future studies should examine the long-term outcomes and dy...
Source: Clinical Neurophysiology - September 1, 2013 Category: Neuroscience Authors: R. Dargie, M. Olma, J. Behrens, A. Kraft, K. Irlbacher, M. Fahle, S. Brandt Tags: Society Proceedings Source Type: research

P 168. TMS neurophysiology and interventional rTMS in children with perinatal stroke: Safety and tolerability in the PLASTIC CHAMPS trial
Introduction/Question: Perinatal stroke causes hemiplegic cerebral palsy and lifelong disability. TMS can define neurophysiology and central therapeutic targets while rTMS carries therapeutic potential in adult stroke but have not been applied to the more plastic developing brain. Ipsilateral projections from the unlesioned hemisphere to the affected hand are prominent in this population and the effects of non-lesioned inhibitory rTMS are unknown.Methods: PLASTIC CHAMPS is a randomized, blinded, factorial clinical trial of rTMS and constraint therapy (CIMT) to enhance upper extremity function in children (6–18years) with...
Source: Clinical Neurophysiology - September 1, 2013 Category: Neuroscience Authors: T. Rajapakse, O. Kirton, J. Roe, A. Kirton Tags: Society Proceedings Source Type: research

P 240. Improvement of language functions in a chronic non-fluent post-stroke aphasic patient following sequential bilateral non-invasive neuromodulation by theta burst magnetic stimulation
Conclusions: Described sequential bilateral physiologically balanced TMS modulation of activation of the language related areas of both hemispheres may result in considerable and rather fast language benefits in chronic nfA patients. Whether this approach is better than usual unilateral stimulation requires further studies.
Source: Clinical Neurophysiology - September 1, 2013 Category: Neuroscience Authors: S. Filipovic, V. Stevanovic, I. Avramovic, M. Jelic, I. Avramovic, A. Jeremic, K. Kacar, S. Milanovic, L. Konstantinovic, J. Vuksanovic Tags: Society Proceedings Source Type: research

IS 27. Brain stimulation in stroke therapy
Non-invasive brain stimulation has shown its potential to modulate brain plasticity and enhance the effects of training in humans (Zimerman et al., Ann Neurol; 2012). Endeavour has been made to utilize brain stimulation in neurological diseases to enhance adaptive processes and prevent potential maladaptive ones. First studies presented evidence that non-invasive brain stimulation might not only transiently improve functions of the paretic hand, but can also modulate processes of learning (Zimerman et al., Stroke; 2012), a basis to achieve longer lasting effects. Based on this enhancement of functional recovery of both, se...
Source: Clinical Neurophysiology - September 19, 2013 Category: Neuroscience Authors: F.C. Hummel Tags: Society Proceedings Source Type: research

P 155. Serial anodal tDCS over V1 induces long-term effects on colour discrimination in V4 measured in the unimpaired hemifield of patients with occipital stroke
Conclusion: Long-term modulation in colour perception following serial anodal tDCS may represent evidence of inducible long-term plasticity in distantly connected components of the visual system (V1 and V4) in patients with occipital stroke measured in the unimpaired hemifield. This builds on studies describing the immediate effects of tDCS in the visual system in healthy volunteers. The temporal dynamics of serial anodal tDCS seem to interact with learning processes, and may yield potential support for neuroplastic adaptation processes following cerebral lesions. Future studies should examine the long-term outcomes and dy...
Source: Clinical Neurophysiology - September 19, 2013 Category: Neuroscience Authors: R. Dargie, M. Olma, J. Behrens, A. Kraft, K. Irlbacher, M. Fahle, S. Brandt Tags: Society Proceedings Source Type: research

P 168. TMS neurophysiology and interventional rTMS in children with perinatal stroke: Safety and tolerability in the PLASTIC CHAMPS trial
Introduction/Question: Perinatal stroke causes hemiplegic cerebral palsy and lifelong disability. TMS can define neurophysiology and central therapeutic targets while rTMS carries therapeutic potential in adult stroke but have not been applied to the more plastic developing brain. Ipsilateral projections from the unlesioned hemisphere to the affected hand are prominent in this population and the effects of non-lesioned inhibitory rTMS are unknown.Methods: PLASTIC CHAMPS is a randomized, blinded, factorial clinical trial of rTMS and constraint therapy (CIMT) to enhance upper extremity function in children (6–18years) with...
Source: Clinical Neurophysiology - September 19, 2013 Category: Neuroscience Authors: T. Rajapakse, O. Kirton, J. Roe, A. Kirton Tags: Society Proceedings Source Type: research

P 240. Improvement of language functions in a chronic non-fluent post-stroke aphasic patient following sequential bilateral non-invasive neuromodulation by theta burst magnetic stimulation
Conclusions: Described sequential bilateral physiologically balanced TMS modulation of activation of the language related areas of both hemispheres may result in considerable and rather fast language benefits in chronic nfA patients. Whether this approach is better than usual unilateral stimulation requires further studies.
Source: Clinical Neurophysiology - September 19, 2013 Category: Neuroscience Authors: S. Filipovic, V. Stevanovic, I. Avramovic, M. Jelic, I. Avramovic, A. Jeremic, K. Kacar, S. Milanovic, L. Konstantinovic, J. Vuksanovic Tags: Society Proceedings Source Type: research

The effect of transcranial direct current stimulation on motor sequence learning and upper limb function after stroke
Stroke is a leading cause of adult disability and many people are left with impairments and are dependent on others for activities of daily living (Dobkin, 2005; DOH, 2007; Veerbeek et al., 2011). Strategies to improve plasticity and enhance motor learning are needed. One potential approach is to use transcranial direct current stimulation (tDCS) to enhance the effect of physical therapy.
Source: Clinical Neurophysiology - March 30, 2017 Category: Neuroscience Authors: Melanie K Fleming, John C Rothwell, Laszlo Sztriha, James T Teo, Di J Newham Source Type: research

Behavioral and neurophysiological mechanisms underlying motor skill learning in patients with post-stroke hemiparesis
Skilled actions of daily life such as reaching across a busy table to pick a coffee mug are often performed with accurate, yet fast and efficient arm movements. Such complex skilled actions require optimization of speed and accuracy; and rely on efficient planning and execution (Begliomini et al., 2014; Fang et al., 2015; Orban de Xivry et al., 2017; Stewart et al., 2013). Following a neurological insult such as stroke, skilled arm movements are greatly impaired in the paretic (weaker) arm such that task performance is slow, inaccurate and fragmented (Cirstea et al., 2003; Levin, 1996; Liu et al., 2013; Shaikh et al., 2014...
Source: Clinical Neurophysiology - October 25, 2017 Category: Neuroscience Authors: Shailesh Kantak, Robert McGrath, Nazaneen Zahedi, Dustin Luchmee Source Type: research

P 181. Impact of offline transcranial direct current stimulation on consolidation of motor sequence learning in healthy elderly subjects
Conclusions: Offline application of anodal tDCS over M1 post training improves consolidation of motor sequence learning in elderly subjects until at least 22h post training. Further studies are needed to investigate the potential benefit of offline-tDCS in motor learning in healthy elderly and stroke patients.
Source: Clinical Neurophysiology - September 1, 2013 Category: Neuroscience Authors: M. Wegscheider, J.-J. Rumpf, C. Fricke, D. Weise, J. Classen Tags: Society Proceedings Source Type: research

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