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Intramuscular Electrodes (intramuscular + electrode)

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Medical Sciences	100%

Selected Abstracts

Clinical Application of Peroneal Nerve Stimulator System Using Percutaneous Intramuscular Electrodes for Correction of Foot Drop in Hemiplegic Patients

NEUROMODULATION, Issue 4 2006
Yoichi Shimada MD
Abstract Objective., To assess the orthotic effect of a functional electrical stimulation device (Akita Heel Sensor System; AHSS) in the treatment of hemiplegic gait with foot drop. Materials and Methods., In the AHSS, a heel sensor is attached to a small plastic heel brace, and the peroneal nerve is stimulated via percutaneous intramuscular electrodes. During the swing phase of the hemiplegic gait, the common peroneal nerve is stimulated by the AHSS. Eight patients in chronic stages of hemiplegia participated in this study. Walking speeds and step cadences on a 10-m course were compared between walking with stimulation and walking without stimulation. Results., Mean walking speed (± SD) was 0.50 ± 0.26 m/sec without stimulation and 0.64 ± 0.31 m/sec with stimulation. The mean percentage increase in walking speed with stimulation was 30.1%. Mean step cadence was 31 ± 7 steps/10 m without stimulation and 27 ± 7 steps/10 m with stimulation. By correcting foot drop, the AHSS significantly increased walking speed and decreased cadence (p < 0.05). Conclusion., The AHSS can significantly improve walking in hemiplegic patients with foot drop. [source]

Immediate effect of percutaneous intramuscular stimulation during gait in children with cerebral palsy: a feasibility study

DEVELOPMENTAL MEDICINE & CHILD NEUROLOGY, Issue 10 2005
Margo N Orlin PT PhD PCS
The feasibility of percutaneous intramuscular functional electrical stimulation (P-FES) in children with cerebral palsy (CP) for immediate improvement of ankle kinematics during gait has not previously been reported. Eight children with CP (six with diplegia, two with hemiplegia; mean age 9 years 1 month [SD 1y 4mo; range 7y 11mo to 11y 10mo]) had percutaneous intramuscular electrodes implanted into the gastrocnemius (GA) and tibialis anterior (TA) muscles of their involved limbs. Stimulation was provided during appropriate phases of the gait cycle in three conditions (GA only, TA only, and GA/TA). Immediately after a week of practice for each stimulation condition, a gait analysis was performed with and without stimulation. A significant improvement in peak dorsiflexion in swing for the more affected extremity and dorsiflexion at initial contact for the less affected extremity were found in the GA/TA condition. Clinically meaningful trends were evident for improvements in dorsiflexion kinematics for the more and less affected extremities in the TA only and GA/TA conditions. The results suggest that P-FES might immediately improve ankle kinematics in children with CP. [source]

Differential activity patterns in the masseter muscle under simulated clenching and grinding forces

JOURNAL OF ORAL REHABILITATION, Issue 8 2005
H. J. SCHINDLER
summary, The aim of this study was to investigate (i) whether the masseter muscle shows differential activation under experimental conditions which simulate force generation during clenching and grinding activities; and (ii) whether there are (a) preferentially active muscle regions or (b) force directions which show enhanced muscle activation. To answer these questions, the electromyographic (EMG) activity of the right masseter muscle was recorded with five intramuscular electrodes placed in two deep muscle areas and in three surface regions. Intraoral force transfer and force measurement were achieved by a central bearing pin device equipped with three strain gauges (SG). The activity distribution in the muscle was recorded in four different mandibular positions (central, left, right, anterior). In each position, maximum voluntary contraction (MVC) was exerted in vertical, posterior, anterior, medial and lateral directions. The investigated muscle regions showed different amount of EMG activity. The relative intensity of the activation, with respect to other regions, changed depending on the task. In other words, the muscle regions demonstrated heterogeneous changes of the EMG pattern for the various motor tasks. The resultant force vectors demonstrated similar amounts in all horizontal bite directions. Protrusive force directions revealed the highest relative activation of the masseter muscle. The posterior deep muscle region seemed to be the most active compartment during the different motor tasks. The results indicate a heterogeneous activation of the masseter muscle under test conditions simulating force generation during clenching and grinding. Protrusively directed bite forces were accompanied by the highest activation in the muscle, with the posterior deep region as the most active area. [source]

Dynamic graciloplasty for fecal incontinence

MICROSURGERY, Issue 6 2001
Cor G.M.I. Baeten M.D.
Fecal incontinence is a socially incapacitating condition with associated high treatment costs. The most common cause of fecal incontinence is trauma during childbirth followed by surgical interventions. After unsuccessful conventional treatment, muscle transposition is the next treatment option. Two local muscles are used for this purpose: the gluteus and the gracilis muscles. With both muscles, long-term muscle contractions are difficult to maintain due to muscle fatigue. The gracilis muscle, however, is technically much easier to transfer and most activities of daily living and even sports are still possible. Experimental studies have shown that electrical stimulation of skeletal muscles can transform fatigue-prone muscles into fatigue-resistant muscles. In 1986, we started to perform graciloplasty procedures with intramuscular electrodes connected to an electrical stimulator. To date, 200 patients have been treated in our institution using dynamic graciloplasty. All patients had severe incontinence without control of liquid or solid feces, most of them had previously received unsuccessful treatment using other techniques. The mean age was 48 years, the average time that patients had been incontinent was 12.4 years, and the cause of incontinence were trauma (n = 99), congenital (n = 28), pudendopathy (n = 58), and low motor neurological lesions (n = 15). Of these patients, 76% were considered to have successful outcomes. Patients whose cause of incontinence was trauma or pudendopathy tended to respond better to this treatment than patients with anal atresia. © 2001 Wiley-Liss, Inc. MICROSURGERY 21:230,234 2001. [source]

Intestinal anti-nociceptive behaviour of NK3 receptor antagonism in conscious rats: evidence to support a peripheral mechanism of action

NEUROGASTROENTEROLOGY & MOTILITY, Issue 4 2003
J. Fioramonti
Abstract The involvement of neurokinin receptors in visceral nociception is well documented. However, the role and localization of NK3 receptors is not clearly established. This study was designed to determine whether NK3 receptor antagonists crossing (talnetant) or not (SB-235375) the blood,brain barrier reduce the nociceptive response to colo-rectal distension (CRD) and whether NK3 antagonism reduces inflammation- or stress-induced hypersensitivity to rectal distension. Isobaric CRD and isovolumic rectal distensions were performed in rats equipped with intramuscular electrodes to record abdominal muscle contractions. In controls, CRD induced a pressure-related (15,60 mmHg) increase in the number of abdominal contractions. Both talnetant and SB-235375 [50 mg kg,1, per oral (p.o.)], which had no effect on colo-rectal tone, reduced the number of contractions associated with CRDs from 30 to 60 mmHg. Three days after rectal instillation of TNBS, abdominal contractions were increased for rectal distension volume of 0.4 mL. This effect was not modified by talnetant (30 mg kg,1, p.o.). Partial restraint stress increased abdominal contractions at all distension volumes (0,1.2 mL). Talnetant (10 mg kg,1, p.o.) abolished the increase observed for 0.8 and 1.2 mL. These results indicate that peripheral NK3 receptor antagonism reduced nociception associated with CRD and hypersensitivity induced by stress but not inflammation. [source]

Clinical Application of Peroneal Nerve Stimulator System Using Percutaneous Intramuscular Electrodes for Correction of Foot Drop in Hemiplegic Patients

Feasibility of Gait Event Detection Using Intramuscular Electromyography in the Child with Cerebral Palsy

NEUROMODULATION, Issue 3 2004
Richard T. Lauer PhD
Abstract The objective of this study was to develop and test the feasibility of a model that employs electromyographic (EMG) signals to predict the occurrence of gait events in the child with cerebral palsy (CP). This model could be the basis of a future functional electrical stimulation (FES) control system to assist gait. Two children were implanted with bifilar intramuscular electrodes into the quadriceps muscle bilaterally. Muscle activity and gait parameters were recorded, and a fuzzy inference system was used to correlate EMG to five distinct gait events. For nine of the 10 gait events evaluated, the model predicted gait events to within 82 ms on average, as referenced to the VICON motion analysis system. For eight of the 10 events, prediction errors were 0.3% or less. Results indicate that EMG from the proximal musculature could be used to predict the occurrence of gait events in these two children with CP. [source]