Listar GI-NEURO - Congresos, conferencias, etc. por título
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Changes in excitability at the level of M1, spinal cord and muscle during 3 minutes of finger tapping at the maximal possible rate
(Springer, 2018-10-16)[Abstract] Linear mixed effects models were used to describe the dynamics of M1, spinal and muscle excitability during index finger tapping at the maximal possible rate, for 3 min. Our results show that tapping rate and ... -
Daily upper limb use of children with hemiparesis; perspectives of families through a qualitative study
(2023-09-09)[Abstract] Performance of activities of daily living is fundamental in supporting participation across school, home and community environments and it is a high priority for parents because the lack of them is considered ... -
Digital Teddy: a tool to assess children´s selective attention
(2023-09-09)[Abstract] Selective attention is essential in daily life and plays an important role in childhood as it facilitates the development of movement or cognition. However, there are not enough standardized tools that are ... -
Effects of transcranial static magnetic stimulation over the left DLPFC on gait induced fatigue in young and elderly people
(2023-09)[Abstract] Gait-induced fatigue increases the risk of falls during human walking1. In this process, fatigue seems to increase the variability of gait rhythmicity, which is already higher in the elderly2. On the other hand, ... -
Effects of walking-induced fatigue on postural balance and risk of falls in young and older people
(2023-09-09)[Abstract] Gait-induced fatigue increases the variability of gait rhythmicity, which increases the risk of falls,2. However, in addition to rhythmic components, gait also has postural components. Therefore, it is relevant ... -
M1 inhibition dependency on slowing of muscle relaxation after brief and fast fatiguing repetitive movements: preliminary results
(Springer, 2018-10-16)[Abstract] This work presents preliminary results on the association between central and peripheral expressions of muscle fatigue induced by unresisted repetitive movements. We tested cortico-spinal excitability and ... -
New tools for old problems: magnetic stimulation to study (and help) the brain
(Springer Nature, 2017)[Abstract] Magnetic stimulation techniques, either repetitive TMS (rTMS) or Static Magnetic Fields, allow to modulate brain activity through the skull in a non invasive and painless way. When rTMS is used, low frequencies ...