Abstract
Motor imagination is an alternative rehabilitation strategy for people who cannot execute real movements. However it is still a matter of debate to which degree it involves activation of deeper muscle structures, which cannot be detected by surface electromyography (SEMG). Eighteen able bodied participants performed cue based isometric ankle plantar flexion (active movement) followed by active relaxation under four conditions: executed movements with two levels of muscle contraction (fully executed and attempted movements, EM and AM) and motor imagination with and without detectable muscle twitches (IT and I). Most prominent peaks and distinctive phases of Movement Related Cortical Potential (MRCP) were compared between conditions. Ultrasound imagining (USI) and SEMG were used to detect movements. IT showed spatially distinctive significant difference compared to both I and AM during active movement preparation and re-afferentation phase; further wide spread differences were found between IT and AM during active movement execution and posteriorly during preparation for active relaxation. EM and AM showed largest difference frontally during active movement planning and posteriorly during executing of active relaxation. Movement preparation positivity P1 showed significant difference in amplitude between IT and AM but not between IT and I. USI can detect subliminal movements (twitches) better than SEMG. MRCP is a biomarker sensitive to different levels of muscle contraction and relaxation. IT is a motor condition distinguishable from both I and AM. EEG biomarkers of movements could be used to identify pathological conditions, that manifest themselves during either active contraction or active relaxation.
Highlights
Different types of overt and covert motor actions are defined by distinctive levels of activation of corticospinal tract and proprioceptive afferent feedback, related to motor planning/execution and evaluation of a real or simulated actions [1]
The analysis of contraction and twitches detected by ultrasound imaging (USI), surface electromyography (SEMG), and force platform (FP) data are presented first, followed by the analysis of movement-related cortical potential (MRCP) during isometric contraction/plantar flexion and relaxation
Muscle twitches were detected during attempted movements (AM) (2.35% USI and 0.62% USI and SEMG) and during executed movements (EM) (0.12% USI and SEMG)
Summary
Different types of overt and covert motor actions are defined by distinctive levels of activation of corticospinal tract and proprioceptive afferent feedback, related to motor planning/execution and evaluation of a real or simulated actions [1]. The afferent contribution of a motor action is typically assessed by measuring the accompanied muscular activity by surface electromyography (SEMG). SEMG cannot provide information about the activity of deeper muscular structures and cannot always detect subliminal muscle activity, that is, muscle twitches, which may accompany covert motor actions, such as motor imagery (MI). The popularity of ultrasound imaging (USI) of muscular activity has increased due to the availability of portable and inexpensive ultrasound devices [2, 3] and realtime USI has been used to teach patients to control the activity of the deep muscles that might be hard to consciously control in isolation from other muscles [4]. USI is frequently interpreted by specialists, an automated method of USI analysis enables unbiased quantitative analysis, similar to the analysis of SEMG [5].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
