39 research outputs found
Abdominal functional electrical stimulation to improve respiratory function after spinal cord injury: a systematic review and meta-analysis
Objectives: Abdominal functional electrical stimulation (abdominal FES) is the application of a train of electrical pulses to the abdominal muscles, causing them to contract. Abdominal FES has been used as a neuroprosthesis to acutely augment respiratory function and as a rehabilitation tool to achieve a chronic increase in respiratory function after abdominal FES training, primarily focusing on patients with spinal cord injury (SCI). This study aimed to review the evidence surrounding the use of abdominal FES to improve respiratory function in both an acute and chronic manner after SCI.
Settings: A systematic search was performed on PubMed, with studies included if they applied abdominal FES to improve respiratory function in patients with SCI.
Methods: Fourteen studies met the inclusion criteria (10 acute and 4 chronic). Low participant numbers and heterogeneity across studies reduced the power of the meta-analysis. Despite this, abdominal FES was found to cause a significant acute improvement in cough peak flow, whereas forced exhaled volume in 1 s approached significance. A significant chronic increase in unassisted vital capacity, forced vital capacity and peak expiratory flow was found after abdominal FES training compared with baseline.
Conclusions: This systematic review suggests that abdominal FES is an effective technique for improving respiratory function in both an acute and chronic manner after SCI. However, further randomised controlled trials, with larger participant numbers and standardised protocols, are needed to fully establish the clinical efficacy of this technique
Modulation of spinal excitability following neuromuscular electrical stimulation superimposed to voluntary contraction
Purpose. Neuromuscular electrical stimulation (NMES) superimposed on voluntary muscle contraction has been recently
shown as an innovative training modality within sport and rehabilitation, but its effects on the neuromuscular system are
still unclear. The aim of this study was to investigate acute responses in spinal excitability, as measured by the Hoffmann
(H) reflex, and in maximal voluntary contraction (MVIC) following NMES superimposed to voluntary isometric
contractions (NMES+ISO) compared to passive NMES only and to voluntary isometric contractions only (ISO). Method.
Fifteen young adults were required to maintain an ankle plantar-flexor torque of 20% MVC for 20 repetitions during each
experimental condition (NMES+ISO, NMES and ISO). Surface electromyography was used to record peak-to-peak Hreflex and motor waves following percutaneous stimulation of the posterior tibial nerve in the dominant limb. An
isokinetic dynamometer was used to assess maximal voluntary contraction output of the ankle plantar flexor muscles.
Results. H-reflex amplitude was increased by 4.5% after the NMES+ISO condition (p < 0.05), while passive NMES and
ISO conditions showed a decrease by 7.8% (p < 0.05) and no change in reflex responses, respectively. There was no
change in amplitude of maximal motor wave and in MVIC torque during each experimental condition. Conclusion. The
reported facilitation of spinal excitability following NMES+ISO could be due to a combination of greater motor neuronal
and corticospinal excitability, thus suggesting that NMES superimposed onto isometric voluntary contractions may
provide a more effective neuromuscular stimulus and, hence, training modality compared to NMES alone
Neuromuscular electrical stimulation of completely paralyzed abdominal muscles in spinal cord-injured patients: A pilot study
Study Design: Prospective placebo-controlled. Objective: The effect of abdominal neuromuscular electrical stimulation (NMES) in patients with spinal cord injury. The principal parameters observed in this study are lung capacity, colonic transit, patient satisfaction of used method and of aesthetics effect on abdominal wall. Settings: Centre de Traumatologie et de Réadaptation, Brussels, Belgium. Methods: A total of 10 volunteers participated in this study and were assigned to two groups - the effective electrical stimulation group (ESG) and the placebo-controlled group (PG). NMES of abdominal muscles was performed 25 min per day for 8 weeks. Results: NMES significantly decreased forced vital capacity (FVC) in ESG but not in PG. In ESG, colonic transit was accelerated in ascending, transverse and descending colon but transit in rectosigmoideum was not affected. In PG, no variations in colonic transit were observed. Satisfaction scale shows a better influence on aesthetics effect in ESG than in PG. Conclusion: This pilot study shows that NMES of paralyzed abdominal muscles positively affects colonic transit except in rectosigmoideum segment and negatively affects FVC. It could be a simple self-used method to regulate colonic transfer with considerably good cosmetic effect on abdominal wall. However, regular verification of FVC will probably be necessary. © 2008 International Spinal Cord Society All rights reserved.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
Polypropylene ankle foot orthoses to overcome drop-foot gait in central neurological patients: a mechanical and functional evaluation
The aim of this study was to assess the functional effects and mechanical contribution of Ankle Foot Orthoses (AFO) prescribed to overcome drop-foot gait. We hypothesized that poor functional effects of the AFO relate to insufficient mechanical contribution of the AFO during the swing phase, or unwanted constraining of the ankle during the stance phase. In seven patients with Stroke or Multiple Sclerosis, we determined changes in energy cost of walking resulting from wearing an AFO, as a measure of the functional effects. In addition, an instrumented gait analysis was performed, and the mechanical AFO properties were measured, to calculate the mechanical contribution of the AFO. The AFO was sufficiently stiff to effectively support the foot in swing, without hampering the ankle during stance. For the whole group, there was a significant improvement in walking speed and energy cost (12). However, the AFO had no functional benefit in terms of a reduced energy cost of walking for three patients, who coherently demonstrated no pathological plantar flexion during swing without their AFO. We conclude that functional benefit from the AFO was only found when the mechanical AFO characteristics met the need to support the patients' mechanical deficiencies. © 2010 ISPO