Your search keyword '"Knee dynamometer"' showing total 5 results

1. Standardizing fatigue-resistance testing during electrical stimulation of paralysed human quadriceps muscles, a practical approach.

Author

Schmoll M, Le Guillou R, Lobato Borges D, Fattal C, Fachin-Martins E, and Azevedo Coste C

Subjects

Adult, Electrodes, Humans, Isometric Contraction physiology, Male, Paralysis etiology, Paralysis physiopathology, Quadriceps Muscle physiopathology, Spinal Cord Injuries complications, Spinal Cord Injuries physiopathology, Electric Stimulation Therapy methods, Electric Stimulation Therapy standards, Muscle Fatigue physiology, Paralysis rehabilitation, Spinal Cord Injuries rehabilitation

Abstract

Background: Rapid onset of muscular fatigue is still one of the main issues of functional electrical stimulation (FES). A promising technique, known as distributed stimulation, aims to activate sub-units of a muscle at a lower stimulation frequency to increase fatigue-resistance. Besides a general agreement on the beneficial effects, the great heterogeneity of evaluation techniques, raises the demand for a standardized method to better reflect the requirements of a practical application., Methods: This study investigated the fatigue-development of 6 paralysed quadriceps muscles over the course of 180 dynamic contractions, evaluating different electrode-configurations (conventional and distributed stimulation). For a standardized comparison, fatigue-testing was performed at 40% of the peak-torque during a maximal evoked contraction (MEC). Further, we assessed the isometric torque for each electrode-configuration at different knee-extension-angles (70°-170°, 10° steps)., Results: Our results showed no significant difference in the fatigue-index for any of the tested electrode-configurations, compared to conventional-stimulation. We conjecture that the positive effects of distributed stimulation become less pronounced at higher stimulation amplitudes. The isometric torque produced at different knee-extension angles was similar for most electrode-configurations. Maximal torque-production was found at 130°-140° knee-extension-angle, which correlates with the maximal knee-flexion-angles during running., Conclusion: In most practical applications, FES is intended to initiate dynamic movements. Therefore, it is crucial to assess fatigue-resistance by using dynamic contractions. Reporting the relationship between produced torque and knee-extension-angle can help to observe the stability of a chosen electrode-configuration for a targeted range-of-motion. Additionally, we suggest to perform fatigue testing at higher forces (e.g. 40% of the maximal evoked torque) in pre-trained subjects with SCI to better reflect the practical demands of FES-applications.

Published

2021

2. Stimulation of paralysed quadriceps muscles with sequentially and spatially distributed electrodes during dynamic knee extension.

Author

Laubacher M, Aksoez EA, Brust AK, Baumberger M, Riener R, Binder-Macleod S, and Hunt KJ

Subjects

Adult, Electrodes, Female, Humans, Knee Joint physiopathology, Male, Quadriceps Muscle physiopathology, Young Adult, Electric Stimulation Therapy methods, Muscle Fatigue physiology, Paralysis physiopathology, Spinal Cord Injuries physiopathology

Abstract

Background: During functional electrical stimulation (FES) tasks with able-bodied (AB) participants, spatially distributed sequential stimulation (SDSS) has demonstrated substantial improvements in power output and fatigue properties compared to conventional single electrode stimulation (SES). The aim of this study was to compare the properties of SDSS and SES in participants with spinal cord injury (SCI) in a dynamic isokinetic knee extension task simulating knee movement during recumbent cycling., Method: Using a case-series design, m. vastus lateralis and medialis of four participants with motor and sensory complete SCI (AIS A) were stimulated for 6 min on both legs with both electrode setups. With SES, target muscles were stimulated by a pair of electrodes. In SDSS, the distal electrodes were replaced by four small electrodes giving the same overall stimulation frequency and having the same total surface area. Torque was measured during knee extension by a dynamometer at an angular velocity of 110 deg/s. Mean power of the left and right sides (P meanL,R ) was calculated from all stimulated extensions for initial, final and all extensions. Fatigue is presented as an index value with respect to initial power from 1 to 0, whereby 1 means no fatigue., Results: SDSS showed higher P meanL,R values for all four participants for all extensions (increases of 132% in participant P1, 100% in P2, 36% in P3 and 18% in P4 compared to SES) and for the initial phase (increases of 84%, 59%, 66%, and 16%, respectively). Fatigue resistance was better with SDSS for P1, P2 and P4 but worse for P3 (0.47 vs 0.35, 0.63 vs 0.49, 0.90 vs 0.82 and 0.59 vs 0.77, respectively)., Conclusion: Consistently higher P meanL,R was observed for all four participants for initial and overall contractions using SDSS. This supports findings from previous studies with AB participants. Fatigue properties were better in three of the four participants. The lower fatigue resistance with SDSS in one participant may be explained by a very low muscle activation level in this case. Further investigation in a larger cohort is warranted.

Published

2019

3. Power output and fatigue properties using spatially distributed sequential stimulation in a dynamic knee extension task.

Author

Laubacher M, Aksöz AE, Riener R, Binder-Macleod S, and Hunt KJ

Subjects

Adult, Humans, Male, Movement, Muscle Contraction, Muscle, Skeletal physiology, Random Allocation, Electric Stimulation methods, Electric Stimulation Therapy methods, Knee physiology, Muscle Fatigue, Muscle Strength

Abstract

Purpose: The low power output and fatigue resistance during functional electrical stimulation (FES) limits its use for functional applications. The aim of this study was to compare the power output and fatigue properties of spatially distributed sequential stimulation (SDSS) against conventional single electrode stimulation (SES) in an isokinetic knee extension task simulating knee movement during recumbent cycling., Methods: M. vastus lateralis and m. vastus medialis of eight able-bodied subjects were stimulated for 6 min on both legs with both setups. In the SES setup, target muscles were each stimulated by a pair of electrodes. In SDSS, four small electrodes replaced the SES active electrodes, but reference electrodes were the same. Torque was measured during knee extension movement by a dynamometer at an angular velocity of 110°/s. Mean power (P mean ) was calculated from stimulated extensions for the first 10 extensions, the final 20 extensions and overall. Fatigue is presented as an index, calculated as the decrease with respect to initial power., Results: P mean was significantly higher for SDSS than for SES in the final phase (9.9 ± 4.0 vs. 7.4 ± 4.3 W, p = 0.035) and overall (11.5 ± 4.0 vs. 9.2 ± 4.5 W, p =  0.037). With SDSS, the reduction in P mean was significantly smaller compared to SES (from 14.9 to 9.9 vs. 14.6 to 7.4 W, p = 0.024). The absolute mean pulse width was substantially lower with SDSS (62.5 vs. 90.0 µs)., Conclusion: Although less stimulation was applied, SDSS showed a significantly higher mean power output than SES. SDSS also had improved fatigue resistance when compared to conventional stimulation. The SDSS approach may provide substantial performance benefits for cyclical FES applications.

Published

2017

4. Standardizing fatigue-resistance testing during electrical stimulation of paralysed human quadriceps muscles, a practical approach

Author

Schmoll, Martin, Le Guillou, Ronan, Lobato Borges, David, Fattal, Charles, Fachin-Martins, Emerson, Azevedo Coste, Christine, Université de Montpellier (UM), Contrôle Artificiel de Mouvements et de Neuroprothèses Intuitives (CAMIN), Inria Sophia Antipolis - Méditerranée (CRISAM), Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria), Universidade de Brasilia [Brasília] (UnB), Centre de Rééducation et de Réadaptation Fonctionnelles de La Chataigneraie [Menucourt] (CRRF), and This study was funded by the National Institute for Research in Digital Science and Technology (INRIA, France) and supported by the Federal District Research Support Foundation (FAPDF, Brazil) and Coordination for the Improvement of Higher Education Personnel (CAPES, Brazil).

Subjects

Adult, Male, Research, Distributed stimulation, Electric Stimulation Therapy, Spinal cord injury, Dynamic movement, Fatigue testing, Knee dynamometer, lcsh:RC321-571, Quadriceps Muscle, [SPI.AUTO]Engineering Sciences [physics]/Automatic, Isometric Contraction, Muscle Fatigue, Functional electrical stimulation, Humans, Paralysis, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Electrodes, Spinal Cord Injuries

Abstract

International audience; Background: Rapid onset of muscular fatigue is still one of the main issues of functional electrical stimulation (FES). A promising technique, known as distributed stimulation, aims to activate sub-units of a muscle at a lower stimulation frequency to increase fatigue-resistance. Besides a general agreement on the beneficial effects, the great heterogeneity of evaluation techniques, raises the demand for a standardized method to better reflect the requirements of a practical application. Methods: This study investigated the fatigue-development of 6 paralysed quadriceps muscles over the course of 180 dynamic contractions, evaluating different electrode-configurations (conventional and distributed stimulation). For a standardized comparison, fatigue-testing was performed at 40% of the peak-torque during a maximal evoked contraction (MEC). Further, we assessed the isometric torque for each electrode-configuration at different kneeextension-angles (70°-170°, 10° steps).Results: Our results showed no significant difference in the fatigue-index for any of the tested electrode-configurations, compared to conventional-stimulation. We conjecture that the positive effects of distributed stimulation become less pronounced at higher stimulation amplitudes. The isometric torque produced at different knee-extension angles was similar for most electrode-configurations. Maximal torque-production was found at 130°-140° kneeextension-angle, which correlates with the maximal knee-flexion-angles during running. Conclusion: In most practical applications, FES is intended to initiate dynamic movements. Therefore, it is crucial to assess fatigue-resistance by using dynamic contractions. Reporting the relationship between produced torque and knee-extension-angle can help to observe the stability of a chosen electrode-configuration for a targeted range-ofmotion. Additionally, we suggest to perform fatigue testing at higher forces (e.g. 40% of the maximal evoked torque) in pre-trained subjects with SCI to better reflect the practical demands of FES-applications.

Published

2021

5. Power output and fatigue properties using spatially distributed sequential stimulation in a dynamic knee extension task

Author

Laubacher, Marco, Aksöz, Anil Efe, Riener, Robert, Binder-Macleod, Stuart, and Hunt, Kenneth J.

Subjects

Adult, Male, Spatially distributed sequential stimulation, Power output, Movement, Electric Stimulation Therapy, Knee dynamometer, Electric Stimulation, Functional electrical stimulation, Fatigue, Random Allocation, Muscle Fatigue, Humans, Original Article, Knee, Muscle Strength, Muscle, Skeletal, Muscle Contraction

Abstract

Purpose The low power output and fatigue resistance during functional electrical stimulation (FES) limits its use for functional applications. The aim of this study was to compare the power output and fatigue properties of spatially distributed sequential stimulation (SDSS) against conventional single electrode stimulation (SES) in an isokinetic knee extension task simulating knee movement during recumbent cycling. Methods M. vastus lateralis and m. vastus medialis of eight able-bodied subjects were stimulated for 6 min on both legs with both setups. In the SES setup, target muscles were each stimulated by a pair of electrodes. In SDSS, four small electrodes replaced the SES active electrodes, but reference electrodes were the same. Torque was measured during knee extension movement by a dynamometer at an angular velocity of 110°/s. Mean power (Pmean) was calculated from stimulated extensions for the first 10 extensions, the final 20 extensions and overall. Fatigue is presented as an index, calculated as the decrease with respect to initial power. Results Pmean was significantly higher for SDSS than for SES in the final phase (9.9 ± 4.0 vs. 7.4 ± 4.3 W, p = 0.035) and overall (11.5 ± 4.0 vs. 9.2 ± 4.5 W, p = 0.037). With SDSS, the reduction in Pmean was significantly smaller compared to SES (from 14.9 to 9.9 vs. 14.6 to 7.4 W, p = 0.024). The absolute mean pulse width was substantially lower with SDSS (62.5 vs. 90.0 µs). Conclusion Although less stimulation was applied, SDSS showed a significantly higher mean power output than SES. SDSS also had improved fatigue resistance when compared to conventional stimulation. The SDSS approach may provide substantial performance benefits for cyclical FES applications., European Journal of Applied Physiology, 117 (9), ISSN:1439-6319, ISSN:0301-5548, ISSN:1439-6327

Published

2017