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surface emg data  (PLUX Biosignals SA)


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    PLUX Biosignals SA surface emg data
    Surface Emg Data, supplied by PLUX Biosignals SA, used in various techniques. Bioz Stars score: 93/100, based on 117 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 93 stars, based on 117 article reviews
    surface emg data - by Bioz Stars, 2026-05
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    Image Search Results


    FIGURE 1 Study setup: electrical stimulation device, plugs and pads, and surface electromyography sensors. Participants received electrical stimulation through electrode adhesive pads placed on both proximal and distal gastrocnemius muscles using a bio-electric stimulation technology R⃝

    Journal: Frontiers in medicine

    Article Title: Safety and efficacy of electrical stimulation for lower-extremity muscle weakness in intensive care unit 2019 Novel Coronavirus patients: A phase I double-blinded randomized controlled trial.

    doi: 10.3389/fmed.2022.1017371

    Figure Lengend Snippet: FIGURE 1 Study setup: electrical stimulation device, plugs and pads, and surface electromyography sensors. Participants received electrical stimulation through electrode adhesive pads placed on both proximal and distal gastrocnemius muscles using a bio-electric stimulation technology R⃝

    Article Snippet: Equipment for muscular assessment and data analysis Surface Electromyography (sEMG, Delsys Trigno Wireless EMG System, MA, USA) was recorded bilaterally from the proximal lateral GNM (Figure 1) according to the Surface Electromyography for a Non-Invasive Assessment of Muscles (SENIAM) guidelines (28).

    Techniques: Adhesive, Muscles

    FIGURE 2 A typical case comparison between a maximum voluntary contraction and involuntary contraction of the gastrocnemius muscle assessed via surface electromyogram. (A) Three 5–10 s dorsiflexion maximum voluntary contractions. (B) Three 5–10 s intervals of electrical stimulation set at 50 V. Both panels having a 5–10 s relaxation period between contractions.

    Journal: Frontiers in medicine

    Article Title: Safety and efficacy of electrical stimulation for lower-extremity muscle weakness in intensive care unit 2019 Novel Coronavirus patients: A phase I double-blinded randomized controlled trial.

    doi: 10.3389/fmed.2022.1017371

    Figure Lengend Snippet: FIGURE 2 A typical case comparison between a maximum voluntary contraction and involuntary contraction of the gastrocnemius muscle assessed via surface electromyogram. (A) Three 5–10 s dorsiflexion maximum voluntary contractions. (B) Three 5–10 s intervals of electrical stimulation set at 50 V. Both panels having a 5–10 s relaxation period between contractions.

    Article Snippet: Equipment for muscular assessment and data analysis Surface Electromyography (sEMG, Delsys Trigno Wireless EMG System, MA, USA) was recorded bilaterally from the proximal lateral GNM (Figure 1) according to the Surface Electromyography for a Non-Invasive Assessment of Muscles (SENIAM) guidelines (28).

    Techniques: Comparison

    FIGURE 4 Comparison of outcomes within and between groups through time. Ankles, ankle strength; kg, kilograms; GNMe, gastrocnemius muscle endurance; iEMG, integrated electromyography unit; MFS, Morse Fall Risk Scale. (A) Comparison of Ankles, and (B) GNMe within and between groups at 3 days from baseline. (C) Comparison of GNMe within and between groups at 9 days from baseline. (D) Comparison of MFS within and between groups at the time of intensive care unit (ICU) discharge (18.00 ± 10.19 days) from baseline; severity is proportional to high score. P-value and Cohen’s d effect size are noted from time group interaction at each determined time point.

    Journal: Frontiers in medicine

    Article Title: Safety and efficacy of electrical stimulation for lower-extremity muscle weakness in intensive care unit 2019 Novel Coronavirus patients: A phase I double-blinded randomized controlled trial.

    doi: 10.3389/fmed.2022.1017371

    Figure Lengend Snippet: FIGURE 4 Comparison of outcomes within and between groups through time. Ankles, ankle strength; kg, kilograms; GNMe, gastrocnemius muscle endurance; iEMG, integrated electromyography unit; MFS, Morse Fall Risk Scale. (A) Comparison of Ankles, and (B) GNMe within and between groups at 3 days from baseline. (C) Comparison of GNMe within and between groups at 9 days from baseline. (D) Comparison of MFS within and between groups at the time of intensive care unit (ICU) discharge (18.00 ± 10.19 days) from baseline; severity is proportional to high score. P-value and Cohen’s d effect size are noted from time group interaction at each determined time point.

    Article Snippet: Equipment for muscular assessment and data analysis Surface Electromyography (sEMG, Delsys Trigno Wireless EMG System, MA, USA) was recorded bilaterally from the proximal lateral GNM (Figure 1) according to the Surface Electromyography for a Non-Invasive Assessment of Muscles (SENIAM) guidelines (28).

    Techniques: Comparison

    Participants completed a four-day protocol using combined audiovisual and sensorimotor biofeedback. Audiovisual biofeedback on soleus activity was provided unilaterally on the more-affected limb whereas sensorimotor biofeedback was administered bilaterally using a resistive ankle exoskeleton. Each session was separated into baseline (1 minute), biofeedback (2, 10-minute bouts), and washout (1 minute) phases. The nominal torque value of the ankle exoskeleton was set at 0.1 Nm/kg during the first bout of the first session and incrementally adjusted by 0.025 Nm/kg over the subsequent bouts, according to the schedule shown. Overground walking data were collected pre- and post-intervention. A licensed physical therapist also performed a full physical examination at the pre-intervention session. Motion capture data were collected during at the pre- and post-intervention sessions and electromyography (EMG) data were collected bilaterally from the vastus lateralis, semitendinosus, soleus, and tibialis anterior across all sessions.

    Journal: PLOS ONE

    Article Title: Multi-session adaptation to audiovisual and sensorimotor biofeedback is heterogeneous among adolescents with cerebral palsy

    doi: 10.1371/journal.pone.0313617

    Figure Lengend Snippet: Participants completed a four-day protocol using combined audiovisual and sensorimotor biofeedback. Audiovisual biofeedback on soleus activity was provided unilaterally on the more-affected limb whereas sensorimotor biofeedback was administered bilaterally using a resistive ankle exoskeleton. Each session was separated into baseline (1 minute), biofeedback (2, 10-minute bouts), and washout (1 minute) phases. The nominal torque value of the ankle exoskeleton was set at 0.1 Nm/kg during the first bout of the first session and incrementally adjusted by 0.025 Nm/kg over the subsequent bouts, according to the schedule shown. Overground walking data were collected pre- and post-intervention. A licensed physical therapist also performed a full physical examination at the pre-intervention session. Motion capture data were collected during at the pre- and post-intervention sessions and electromyography (EMG) data were collected bilaterally from the vastus lateralis, semitendinosus, soleus, and tibialis anterior across all sessions.

    Article Snippet: Bilateral surface electromyography (EMG) data were recorded for the tibialis anterior (TA), medial gastrocnemius (GAS), vastus lateralis (VL), and semitendinosus (ST) across all sessions (Noraxon; Scottsdale, AZ; 1000 Hz).

    Techniques: Activity Assay

    Surface electromyography data were obtained from sixteen shoulder muscles while participants generated eight 3D isometric shoulder torques in five two-dimensional arm postures bilaterally. On the dominant arm, only upper trapezius activity differed between the groups (A). On the non-dominant arm, the sternocostal fiber region of the PM and upper trapezius activity differed between the groups (B). Bars represent mean ± standard error. Significant differences are visualized by colored bars and * signifies a significant group difference at p < 0.05.

    Journal: Journal of biomechanics

    Article Title: Neuromuscular Compensation Strategies Adopted at the Shoulder Following Bilateral Subpectoral Implant Breast Reconstruction

    doi: 10.1016/j.jbiomech.2021.110348

    Figure Lengend Snippet: Surface electromyography data were obtained from sixteen shoulder muscles while participants generated eight 3D isometric shoulder torques in five two-dimensional arm postures bilaterally. On the dominant arm, only upper trapezius activity differed between the groups (A). On the non-dominant arm, the sternocostal fiber region of the PM and upper trapezius activity differed between the groups (B). Bars represent mean ± standard error. Significant differences are visualized by colored bars and * signifies a significant group difference at p < 0.05.

    Article Snippet: Data Analyses Surface electromyography data were analyzed in MATLAB 2017a (Mathworks Inc, Natick, MA).

    Techniques: Muscles, Generated, Activity Assay

    Surface Electromyography Electrode and Accelerometer placement on the three heads of the TB muscle for posterior right upper extremity; A. Long Head; B. Lateral Head; C. Medial Head; D. Ground Reference; E. Accelerometer.

    Journal: Acta Orthopaedica et Traumatologica Turcica

    Article Title: The different role of each head of the triceps brachii muscle in elbow extension

    doi: 10.1016/j.aott.2018.02.005

    Figure Lengend Snippet: Surface Electromyography Electrode and Accelerometer placement on the three heads of the TB muscle for posterior right upper extremity; A. Long Head; B. Lateral Head; C. Medial Head; D. Ground Reference; E. Accelerometer.

    Article Snippet: Muscle activation of the TB long head, lateral head, and medial head were recorded with Surface Electromyography (Biopac MP150A-CE Data Acquisition System, Biopac System Inc., CA).

    Techniques: