Tibialis Anterior Tendon Reconstruction Utilizing Split Tendon Turn-down: A Case Report and Technique Guide

Tibialis anterior tendon (TAT) ruptures are rare, equating to less than 1% of all musculotendinous injuries. These injuries can be acute or atraumatic, with the latter often associated with chronic degenerative tendinopathy. Surgical repair is indicated when conservative measures fail in meeting functional demands. Direct end-to-end repair is the preferred method for TAT ruptures but may not be feasible with a large tendon defect. Various surgical techniques have been described to address this pathology, including allograft tendon interposition or extensor hallucis longus (EHL) transfer. The authors present a unique technique utilizing a minimal incision TAT turn-down with dermal matrix allograft augmentation, and, in addition, a case implementing this technique in a patient with a large insertional defect. The patient's postoperative course and outcomes were favorable, with improvements in pain, satisfaction, functional scores, and strength. The surgical technique offers versatility and can be adapted to different tendon defect sizes. It also allows for minimal-incision exposure, beneficial for patients with comorbidities or compromised skin integrity. In conclusion, the authors present a case report and surgical technique for the management of large-deficit, chronic TAT ruptures using split TAT turn-down. This technique provides a potential solution for cases where direct end-to-end repair is not feasible.Level of Evidence: Level V.

Can inertial measurement unit sensors evaluate foot kinematics in drop foot patients using functional electrical stimulation?

The accuracy of inertial measurement units (IMUs) in measuring foot motion in the sagittal plane has been previously compared to motion capture systems for healthy and impaired participants. Studies analyzing the accuracy of IMUs in measuring foot motion in the frontal plane are lacking. Drop foot patients use functional electrical stimulation (FES) to improve walking and reduce the risk of tripping and falling by improving foot dorsiflexion and inversion-eversion. Therefore, this study aims to evaluate if IMUs can estimate foot angles in the frontal and sagittal planes to help understand the effects of FES on drop foot patients in clinical settings. Two Gait Up sensors were used to estimate foot dorsi-plantar flexion and inversion-eversion angles in 13 unimpaired participants and 9 participants affected by drop foot while walking 6 m in a straight line. Unimpaired participants were asked to walk normally at three self-selected speeds and to simulate drop foot. Impaired participants walked with and without FES assistance. Foot angles estimated by the IMUs were compared with those measured from a motion capture system using curve RMSE and Bland Altman limits of agreement. Between participant groups, overall errors of 7.95° ± 3.98°, -1.12° ± 4.20°, and 1.38° ± 5.05° were obtained for the dorsi-plantar flexion range of motion, dorsi-plantar flexion at heel strike, and inversion-eversion at heel strike, respectively. The between-system comparison of their ability to detect dorsi-plantar flexion and inversion-eversion differences associated with FES use on drop foot patients provided limits of agreement too large for IMUs to be able to accurately detect the changes in foot kinematics following FES intervention. To the best of the authors' knowledge, this is the first study to evaluate IMU accuracy in the estimation of foot inversion-eversion and analyze the potential of using IMUs in clinical settings to assess gait for drop foot patients and evaluate the effects of FES. From the results, it can be concluded that IMUs do not currently represent an alternative to motion capture to evaluate foot kinematics in drop foot patients using FES.

Ipsilateral Foot Drop After Leg Traction on Fracture Table for Mid-Shaft Femur Fracture Nailing: A Rare Case Report

Femoral shaft fracture, one of the most common orthopaedic injuries, is usually treated with intramedullary nailing. During the operative procedure patients are placed on a traction table. Traction tables facilitate the procedure but are associated with some risk. Here we are sharing a case of a 35-year-old male healthy young patient who sustained a foot drop post nailing of femoral shaft fracture on a traction table. This patient has had some recovery in six weeks but is still not fully recovered. We think traction tables are a very helpful tool but carry some risks that should be kept on mind for every surgeon, and for the patients too.

Distal Nerve Transfers in High Peroneal Nerve Lesions: An Anatomical Feasibility Study

The peroneal nerve is one of the most commonly injured nerves of the lower extremity. Nerve grafting has been shown to result in poor functional outcomes. The aim of this study was to evaluate and compare anatomical feasibility as well as axon count of the tibial nerve motor branches and the tibialis anterior motor branch for a direct nerve transfer to reconstruct ankle dorsiflexion. In an anatomical study on 26 human body donors (52 extremities) the muscular branches to the lateral (GCL) and the medial head (GCM) of the gastrocnemius muscle, the soleus muscle (S) as well as the tibialis anterior muscle (TA) were dissected, and each nerve's external diameter was measured. Nerve transfers from each of the three donor nerves (GCL, GCM, S) to the recipient nerve (TA) were performed and the distance between the achievable coaptation site and anatomic landmarks was measured. Additionally, nerve samples were taken from eight extremities, and antibody as well immunofluorescence staining were performed, primarily evaluating axon count. The average diameter of the nerve branches to the GCL was 1.49 ± 0.37, to GCM 1.5 ± 0.32, to S 1.94 ± 0.37 and to TA 1.97 ± 0.32 mm, respectively. The distance from the coaptation site to the TA muscle was 43.75 ± 12.1 using the branch to the GCL, 48.31 ± 11.32 for GCM, and 19.12 ± 11.68 mm for S, respectively. The axon count for TA was 1597.14 ± 325.94, while the donor nerves showed 297.5 ± 106.82 (GCL), 418.5 ± 62.44 (GCM), and 1101.86 ± 135.92 (S). Diameter and axon count were significantly higher for S compared to GCL as well as GCM, while regeneration distance was significantly lower. The soleus muscle branch exhibited the most appropriate axon count and nerve diameter in our study, while also reaching closest to the tibialis anterior muscle. These results indicate the soleus nerve transfer to be the favorable option for the reconstruction of ankle dorsiflexion, in comparison to the gastrocnemius muscle branches. This surgical approach can be used to achieve a biomechanically appropriate reconstruction, in contrast to tendon transfers which generally only achieve weak active dorsiflexion.

Proximal Tibiofibular Joint Arthrodesis Due to Recurrent Giant Ganglion Cyst Causing Peroneal Nerve Palsy

Ganglion cysts are masses that we encounter frequently in our daily practice, usually in the upper extremity, less frequently in the lower extremities, and rarely cause compression symptoms. We present a case of a massive ganglion cyst of the lower limb causing peroneal nerve compression, managed with excision and proximal tibiofibular joint arthrodesis to prevent recurrence. Examination and radiological imaging of a 45-year-old female patient who was admitted to our clinic showed new-onset weakness in right foot movements and numbness on the dorsum of the foot and lateral cruris, a mass consistent with a ganglion cyst expanding the muscle was detected in the peroneus longus muscle. In the first surgery, the cyst was carefully resected. After three months, the patient came with a repeated mass on the lateral side of the knee. After confirmation of the ganglion cyst with clinical examination and MRI, a second surgery was planned for the patient. In this stage, we performed a proximal tibiofibular arthrodesis for the patient. Her symptoms recovered during the early follow-up period and no recurrence occurred during the two years of the follow-up period. Although the treatment of ganglion cysts seems easy, it can sometimes be challenging. We think that arthrodesis may be a good treatment option in recurrent cases.

"Fine synergies" describe motor adaptation in people with drop foot in a way that supplements traditional "coarse synergies"

Synergy analysis via dimensionality reduction is a standard approach in biomechanics to capture the dominant features of limb kinematics or muscle activation signals, which can be called "coarse synergies." Here we demonstrate that the less dominant features of these signals, which are often explicitly disregarded or considered noise, can nevertheless exhibit "fine synergies" that reveal subtle, yet functionally important, adaptations. To find the coarse synergies, we applied non-negative matrix factorization (NMF) to unilateral EMG data from eight muscles of the involved leg in ten people with drop-foot (DF), and of the right leg of 16 unimpaired (control) participants. We then extracted the fine synergies for each group by removing the coarse synergies (i.e., first two factors explaining ≥ 85% of variance) from the data and applying Principal Component Analysis (PCA) to those residuals. Surprisingly, the time histories and structure of the coarse EMG synergies showed few differences between DF and controls-even though the kinematics of drop-foot gait is evidently different from unimpaired gait. In contrast, the structure of the fine EMG synergies (as per their PCA loadings) showed significant differences between groups. In particular, loadings for Tibialis Anterior, Peroneus Longus, Gastrocnemius Lateralis, Biceps and Rectus Femoris, Vastus Medialis and Lateralis muscles differed between groups ( p < 0.05 ). We conclude that the multiple differences found in the structure of the fine synergies extracted from EMG in people with drop-foot vs. unimpaired controls-not visible in the coarse synergies-likely reflect differences in their motor strategies. Coarse synergies, in contrast, seem to mostly reflect the gross features of EMG in bipedal gait that must be met by all participants-and thus show few differences between groups. However, drawing insights into the clinical origin of these differences requires well-controlled clinical trials. We propose that fine synergies should not be disregarded in biomechanical analysis, as they may be more informative of the disruption and adaptation of muscle coordination strategies in participants due to drop-foot, age and/or other gait impairments.

Evaluating Acute Bilateral Foot Drop: A Case Report

We illustrate the case of an 84-year-old Caucasian female who presented with complaints of bilateral lower extremity weakness and ambulation difficulties complicated by a unilateral deep venous thrombosis. Physical examination on hospital admission revealed an acute onset of bilateral foot drop with pes cavus deformity. Bilateral foot drop has been associated with a more chronic presentation due to metabolic, neurologic, and musculoskeletal etiologies. Acute onset of bilateral foot drop has been poorly defined in the literature and is considered a rare pathologic phenomenon, requiring additional investigation into the underlying cause of the presentation. We hypothesize that a spinal cord compression at the T12-L1 level resulted in L5 nerve root compression, resulting in our patient's presentation. Definitive treatment has not been established for this condition; however, studies have been completed to evaluate surgical versus conservative approaches to help restore patients' ambulatory function. Our aim is to incorporate this case report into the limited current literature on acute bilateral foot drop as well as outline possible treatment methods to restore impaired functionality.

The efficiency of mirror therapy on drop foot in Multiple Sclerosis Patients

INTRODUCTION

Although the effectiveness of mirror therapy (MT) has been proved in stroke persons, there is no scientific evidence about the results in people with multiple sclerosis. The aim was to investigate whether adding MT to exercise training and neuromuscular electrical stimulation (NMES) has any effect on clinical measurements, mobility, and functionality in people with multiple sclerosis (MS).

METHODS

Ambulatory people with MS, with unilateral drop foot, were included. MT group (n = 13) applied bilateral ankle exercise program with mirror following NMES for 3 days a week at hospital and exercise program for 2 days a week at home. Control group (n = 13) performed same treatment without mirror box (6 weeks). The later 6 weeks both groups performed only exercise program. Clinical measurements included proprioception, muscle tone of plantar flexor muscles (MAS), muscle strength of dorsiflexor, ankle angular velocity, and range of motion (ROM) of ankle. Functionality (Functional Independence Measurement-FIM), mobility (Rivermead Mobility Index-RMI), ambulation (Functional Ambulation Scale-FAS), duration of stair climb test, and 25-foot walking velocity were assessed at the beginning, in 6th and 12th weeks.

RESULTS

More positive improvements were obtained in MT group than control group in terms of range of motion (0.012), muscle strength (0.008), proprioception (0.001), 25 feet walking duration (0.015), step test duration (0.001), FAS (0.005), RMI (0.001), and FIM (0.001) after 6 weeks treatment. It was seen that this improvement maintained to 12th week on all clinical and functional measurements (p < .05).

CONCLUSION

The trial revealed that adding MT to exercise training and NMES has more beneficial effects on clinical measurements, mobility, and functionality in people with multiple sclerosis with unilateral drop foot.

Long-term results following electrical stimulation of the peroneal nerve using the ActiGait® system in 33 patients with central drop foot

Objective

Direct electrical stimulation of the peroneal nerve, using the implantable ActiGait® system, enables a therapy of the centrally caused drop foot, to improve the gait of the patients. In this paper, we present long-term results at 36-month follow-up post implantation.

Method

A total of 33 patients, 27 stroke and six multiple sclerosis (MS) patients, suffering from spastic drop foot were implanted in our center and assessed in terms of gait endurance, speed, risk of fall, and life quality at baseline and 36 months following implantation.

Results

The six min gait endurance test increased significantly from 202 ± 41 m without walking aids to 380 ± 30 m (p=0.038), while using the implant. Moreover, the time in the gait speed measured over 20 m decreased from 31.8 ± 10.2 s without to 18.5 ± 4.6 s by using the ActiGait® system (p=0.039). Similarly, gait steadiness, measured by the Timed Up and Go (TUG) test improved by 36.6%, with patients demonstrating a reduced time from 18.6 ± 5.5 to 11.2 ±  3.8 s (p=0.041) upon implant activation. Most importantly, 31 of 33 patients reported remarkable improvements of their quality of life following direct electrical nerve stimulation.

Conclusion

Our findings confirm previously published efficacy data at 12 months after implantation and underline the long-lasting effect of the ActiGait® system.

A Missed Bilateral, Acute Anterior Exertional Compartment Syndrome of the Leg

A 26-year-old male athlete presented to our hospital with bilateral leg pain after intense training. He had a history of transient numbness and pain with rigorous exercise but this time pain persisted and drop foot developed. Unfortunately, the diagnosis of acute exertional compartment syndrome was delayed due to late presentation of the patient in our department. He underwent three consecutive surgeries for decompression and debridement. At 13 months follow-up, he is ambulatory with bilateral ankle-foot orthosis. This case presents a bilateral, acute anterior exertional compartment syndrome of the leg and highlights the need for high clinical suspicion and early treatment of the acute exertional compartment syndrome.

[Kinematic gait pattern with silicone ankle-foot ortesis in patients with drop foot]

INTRODUCTION

The Drop foot is a condition that is usually handled with short orthosis, usually made of polypropylene. It has also been described as being treated with silicon orthosis, little studied but which seem to improve the kinematic pattern of gait and, given its comfort, be more accepted by patients. Our study describes the kinematic characteristics of gait and patient satisfaction when using a silicon foot ankle orthosis, and compares this pattern to the non-use of the orthosis, in patients with a drop foot.

MATERIAL AND METHODS

Pseudo-experimental descriptive study in patients with dropped feet from 2010 to 2012, in which the kinematic variables of the gait pattern were evaluated from gait laboratories and in addition to the satisfaction of subjects with silicon orthosis and non-use of them.

RESULTS

Five patients with a drop foot were the subject of the study. Gait analysis of patients using the orthosis found an improvement in ankle position at initial contact, average walking speed and step length, as well as increased cadence. However, in terms of comfort compared to the non-use of the orthosis, the result was meager.

CONCLUSIONS

Silicon foot ankle orthosis improve the position of the ankle in the initial contact, as well as the temporo-spatial parameters of the gait.

Percutaneous Discectomy Followed by CESI Might Improve Neurological Disorder of Drop Foot Patients Due to Chronic LDH

(1) Introduction: Epiconus and conus medullary syndromes that consisted of drop foot, pain, numbness, bladder or bowel dysfunction are serious problems might be caused by lumbar disc(s) herniation (LDH) compression. (2) Objective: To evaluate percutaneous discectomy effectivity for decompressing LDH lesions. (3) Case Report: Three patients suffered from drop feet, numbness, and bowel and bladder problems due to LDH compression. Patient #1 is a male (35 years old, basal metabolism index (BMI) = 23.9), point 1 on manual muscle test (MMT), with protrusion on L3 to S1 discs; Patient #2 is a female (62 years old, BMI = 22.4), point 3 on MMT, with protrusion on L2-4 and L5-S1 discs; Patient #3 is a female (43 years old, BMI = 26.6), point 4 on MMT, with extrusion on T12-L1 and L1-2 and L3-4 protruded discs. Six months follow-up showed of stand and walkability improvement with Patient #1 and #2. Patient #3 showed improvement in bowel and bladder problems within 10 weeks, without suffering of postoperative pain syndromes. (4) Discussion: Patient #1 and #2 showed better outcomes than Patient #3 who affected epiconus and cauda equina syndromes. Triamcinolone and lidocaine have analgesic and anti-inflammatory properties for improving intraepidural circulation adjacent to the lesion sites. (5) Conclusion: Drop foot caused by mechanical compression of LDH ought to be treated immediately. Lateral or posterolateral compression has better outcomes associated with anatomical structures. Discectomy through transforaminal approach that is followed by caudal epidural steroid injection (CESI) under fluoroscopic guidance is a safer and minimally invasive treatment with promising outcomes.

Acute bilateral drop foot as a complication of prolonged squatting due to haemorrhoid

Drop foot is defined as difficulty of dorsiflexion of the foot and ankle due to weak anterior tibial, extensor hallucis longus and extensor digitorum longus muscles. Cauda equina syndrome, local peroneal nerve damage due to trauma, nerve entrapment, compartment syndrome and tumors are common etiologies. A 32-year-old male patient was applied with difficulty in dorsiflexion of both of his toes, feet and ankles after he had squatted in toilette for 6-7 hours (because of his haemorrhoid) after intense alcohol intake 2 weeks before. Acute, partial, demyelinating lesion in head of fibula segment of peroneal nerves was diagnosed by electromyography. This case was reported since prolonged squatting is an extremely rare cause of acute bilateral peroneal neuropathy. This type of neuropathy is mostly demyelination and has good prognosis with physical therapy and mechanical devices, but surgical intervention may be required due to axonal damage. People such as workers and farmers working in the squatting position for long hours should be advised to change their position as soon as the compression symptoms (numbness, tingling) appear.

A Case Report of A Drop Foot Developed After Common Femoral Artery Cannulation for Venoarterial Extracorporeal Membrane Oxygenation

The drop foot cases that are associated with developing neuropathies as a result of acute compartment syndrome or femoral artery ischemia after having cannulation for venoarterial extracorporeal membrane oxygenation (VA-ECMO) have been reported rarely in literature. In this case report, female patients who are 21 years old and developed drop foot depending on ECMO during the process of lung transplantation will be presented as both to be one of the rare neurological complications connected to ECMO and its possible causes will be analyzed.

Management of Isolated Anterior Tibial Tendon Rupture: A Systematic Review and Meta-Analysis

Rupture of the tibialis anterior tendon is a rare condition reported to occur most often spontaneously in patients >45 years of age. Diagnosis is often delayed due to transient pain at the time of rupture and the ability of the long extensors to compensate for the lost action of the tibialis anterior. Treatment has been proposed to be based on the activity level of the individual; however, no consensus has been reached on the optimal treatment modality for this rare condition. A systematic review and meta-analysis were performed to determine outcomes obtained with conservative and surgical management. Twenty-four references (155 cases) were identified. Conservative management (21 cases, 13.55%) was associated with poorer outcomes (odds ratio [OR] 0.68; I² = 61%) because of pain and functional limitations related to ankle dorsiflexory weakness. Surgical intervention (134 cases, 86.45%) had a better chance for good outcome (OR 8.40; I² = 63%). Use of an ipsilateral split/turn-down ipsilateral tibialis anterior tendon graft (OR 32.15; I² = 0%) semitendinous autograft (OR 15.25; I² = 44%), or direct repair (OR 12.57; I² = 0%) provided the best postoperative outcomes, whereas extensor hallucis longus autograft was associated with the worst (OR 0.27, I² = 34%). The most common postoperative finding was objective mild dorsiflexory weakness (4/5 muscle strength), which did not translate to subjective functional limitation. Good functional results were found to occur regardless of patient age at the time of intervention. Results of this systematic review and meta-analysis suggests that surgical intervention provides better functional outcomes than conservative management. Use of an extensor hallucis longus autograft is not recommended if surgical intervention is performed.

Effects of timing parameter changes on the gait of functional electrical stimulation users with drop foot

Introduction

Functional electrical stimulation uses clinician-set parameters to modify stimulation. This study aimed to investigate whether timing parameters in the ODFS Pace functional electrical stimulation device have an effect on the gait of the general population of functional electrical stimulation users who have a foot drop.

Methods

Twelve functional electrical stimulation users with foot drop resulting from upper motor neurone disorders were recruited from the functional electrical stimulation Service in Leeds, UK. A crossover trial design was used, comparing adjusted values of rising ramp, delay and extension. Instrumented gait analysis was carried out to measure ankle dorsiflexion during the swing phase of gait, foot clearance from the ground, and speed of ankle plantarflexion at initial contact. The effect of timing parameters on gait kinematics was studied.

Results

No statistically significant effects on the measured parts of gait were found for any of the timing parameters. Trends were identified in average mid-swing ground clearance and dorsiflexion associated with the delay and rising ramp timing parameters.

Conclusions

Further work in this area should use larger numbers of participants. Based on these results, the effects of ramping and delay would be of particular interest for further study.

Shape Memory Ankle-Foot Orthoses

Electrically actuated ankle-foot orthoses (AFOs) were designed and prototyped using shape memory textile composites. Acrylic copolymers were synthesized as the matrix to demonstrate shape memory effects, whereas electrothermal fabrics were embedded to generate uniform heat as a trigger. Superior to conventional polymeric orthoses, shape memory AFOs (SM-AFOs) could be repeatedly programmed at least 20 times with stable shape fixity and recovery. Evidenced by clinical practice, SM-AFOs were effectively actuated at 10 V, allowing the correction of ankle angles with 10° plantarflexion. Ultimately, we envision a smart orthopedic system that can advance progressive rehabilitation with manipulation under safe and convenient conditions.

Football APP based on smart phone with FES in drop foot rehabilitation

BACKGROUND

Long-term, sustained progress is necessary in drop foot rehabilitation. The necessary inconvenient body training movements, the return trips to the hospital and repetitive boring training using functional electrical stimulation (FES) often results in the patient suspending their training. The patient's drop foot rehabilitation will not progress if training is suspended.

OBJECTIVE

A fast spread, highly portable drop foot rehabilitation training device based on the smart phone is presented. This device is combined with a self-made football APP and feedback controlled FES. The drop foot patient can easily engage in long term rehabilitation training that is more convenient and interesting.

METHODS

An interactive game is established on the smart phone with the Android system using the originally built-in wireless communications. The ankle angle information is detected by an external portable device as the game input signal. The electrical stimulation command to the external device is supplemented with FES stimulation for inadequate ankle efforts.

RESULTS

After six-weeks training using six cases, the results indicated that this training device showed significant performance improvement (p< 0.05) in the patient's ankle dorsiflexion strength, ankle dorsiflexion angle, control timing and Timed Up and Go.

CONCLUSIONS

Preliminary results show that this training device provides significant positive help to drop foot patients. Moreover, this device is based on existing and universally popular mobile processing, which can be rapidly promoted. The responses of clinical cases also show this system is easy to operate, convenient and entertaining. All of these features can improve the patient's willingness to engage in long term rehabilitation.

Review of Drop Hallux: Assessment and Surgical Repair

Peroneal nerve palsy is common. The hallmark clinical manifestation of peroneal nerve palsy is drop foot. In the drop foot condition, the ankle cannot flex, and the foot does not clear the ground during the swing phase of gait. Spontaneous nerve repair can yield complete or incomplete resolution of drop foot. Some patients with incomplete resolution are left with a drop hallux condition, in which the ankle can dorsiflex, but the hallux remains unable to dorsiflex. This has not been thoroughly discussed in the past, regarding surgical repair. In the present report, we have reviewed the drop hallux condition and an effective surgical repair option (extensor hallucis longus to tibialis anterior tendon anastomosis). Our case report presents a healthy 27-year-old male who had persistent drop hallux after drop foot resolution, 3 years after external fixation of a closed, proximal tibia-fibula fracture.

Thyrotoxicosis Presenting as Unilateral Drop Foot

Neuromuscular disorders associated with hyperthyroidism have several variations in their clinical phenotype, such as ophthalmopathy, periodic paralysis, and thyrotoxic myopathy. We herein report an unusual case of thyrotoxic myopathy presenting as unilateral drop foot. Histopathological examinations of the left tibialis anterior muscle showed marked variation in the fiber size, mild inflammatory cell infiltration, and necrotic and regenerated muscle fibers with predominantly type 1 fiber atrophy. Medical treatment with propylthiouracil resulted in complete improvement of the left drop foot. This case expands the phenotype of thyrotoxicosis and suggests that thyrotoxicosis be considered as a possible cause of unilateral drop foot.

ActiGait implantable drop foot stimulator in multiple sclerosis: a new indication

OBJECTIVE Direct stimulation of the peroneal nerve by the ActiGait implantable drop foot stimulator is a potent therapy that was described previously for stroke-related drop foot. The authors report here successful long-term application of the ActiGait implantable drop foot stimulator in patients with multiple sclerosis (MS). METHODS Six patients with MS and 2 years of persisting central leg paresis received an implantable ActiGait drop foot stimulator after successful surface test stimulation. Ten weeks and 1 year after surgery, their gait speed, endurance, and safety were evaluated. Patient satisfaction was assessed with a questionnaire. RESULTS In the 20-m gait test, stimulation with the ActiGait stimulator significantly reduced the time needed, on average, by approximately 23.6% 10 weeks after surgery, and the time improved further by 36.3% after 1 year. The median distance covered by patients with the stimulator after 6 minutes of walking increased significantly from 217 m to 321 m and remained stable for 1 year; the distance covered by patients after surface stimulation was 264 m. Patients with an implanted ActiGait stimulator noticed pronounced improvement in their mobility, social participation, and quality of life. CONCLUSIONS The ActiGait implantable drop foot stimulator improved gait speed, endurance, and quality of life in all patients over a period of 1 year. It may serve as a new therapeutic option for patients with MS-related drop foot.

Restoration of ankle movements with the ActiGait implantable drop foot stimulator: a safe and reliable treatment option for permanent central leg palsy

OBJECT The ActiGait drop foot stimulator is a promising technique for restoration of lost ankle function by an implantable hybrid stimulation system. It allows ankle dorsiflexion by active peroneal nerve stimulation during the swing phase of gait. In this paper the authors report the outcome of the first prospective study on a large number of patients with stroke-related drop foot. METHODS Twenty-seven patients who experienced a stroke and with persisting spastic leg paresis received an implantable ActiGait drop foot stimulator for restoration of ankle movement after successful surface test stimulation. After 3 to 5 weeks, the stimulator was activated, and gait speed, gait endurance, and activation time of the system were evaluated and compared with preoperative gait tests. In addition, patient satisfaction was assessed using a questionnaire. RESULTS Postoperative gait speed significantly improved from 33.9 seconds per 20 meters to 17.9 seconds per 20 meters (p < 0.0001), gait endurance from 196 meters in 6 minutes to 401 meters in 6 minutes (p < 0.0001), and activation time from 20.5 seconds to 10.6 seconds on average (p < 0.0001). In 2 patients with nerve injury, surgical repositioning of the electrode cuff became necessary. One patient showed a delayed wound healing, and in another patient the system had to be removed because of a wound infection. Marked improvement in mobility, social participation, and quality of life was confirmed by 89% to 96% of patients. CONCLUSIONS The ActiGait implantable drop foot stimulator improves gait speed, endurance, and quality of life in patients with stroke-related drop foot. Regarding gait speed, the ActiGait system appears to be advantageous compared with foot orthosis or surface stimulation devices. Randomized trials with more patients and longer observation periods are needed to prove the long-term benefit of this device.

Bridle procedure combined with a subtalar implant: a case series and review of the literature

BACKGROUND

The bridle procedure is a tritendon anastomosis between the tibialis posterior, peroneus longus, and tibialis anterior, utilized in the treatment of drop foot. Concerned about the potential for acquired flatfoot deformity following the bridle procedure, the authors hypothesized that placing a sinus tarsi implant would prevent this potential sequela.

MATERIALS AND METHODS

Over a 10-year period, 15 patients (16 feet) were treated with a bridle procedure for drop foot, and 9 of these feet also had a subtalar arthroereisis implanted; 8 patients (9 feet) positively responded to requests for long-term follow-up evaluation and returned for subjective evaluation with the American Orthopaedic Foot and Ankle Society (AOFAS) Hindfoot Scale and Short Form (SF)-36 forms and objective clinical and radiographic measurements.

RESULTS

At an average follow-up of 61 months, the 8 patients (9 feet) who returned for long-term evaluation maintained a plantigrade foot, were able to dorsiflex above neutral both actively and passively, and did not develop a flatfoot deformity at long-term follow-up. There were no significant differences between those who had a sinus tarsi implant (6 feet) and those who did not (3 feet). Although 7 of the 9 feet evaluated in this study wore a brace preoperatively, none continued to use a brace after surgery. The major complaints were occasional pain at the subtalar arthroereisis site and a feeling that the great toe was dragging.

CONCLUSION

The bridle procedure provided excellent outcomes in patients with drop foot, with patients achieving long-term success in being free from brace wear. The ability to actively dorsiflex the foot during gait was also restored, reestablishing a normal heel-to-toe gait pattern.

LEVELS OF EVIDENCE

Therapeutic, Level IV: Case series.

FES for abnormal movement of upper limb during walking in post-stroke subjects

BACKGROUND

Hemiplegia can cause accidental falls, as the patients place their arms in front of their chests or next to the hips when they walk. This is due to limitations in the ability to swing their arms during walking.

OBJECTIVE

This study proposes a functional electrical stimulator approach in order to improve the foot drop and abnormal movement of the upper limbs during walking. The goal of this study is to verify the feasibility of improving the foot drop and arm swing problems of hemiplegic patients using electrical stimulators in a clinical trial.

METHODS

The present study utilizes a functional electrical stimulator found on the market. The stimulator is controlling the gait and arm swing of the patient while the patient is walking. It can help him or her restore regular gait cycles and arm swings. The FES device can also train the patient to walk safely and regain control of his or her arm swing. After the four-week training, the subjects had to walk 10 meters without the FES system. The step length, step time, and joint goniograms were recorded in order to determine whether there was any improvement.

RESULTS

After the four-week training was concluded, the three post-stroke patients showed an improvement in arm swing angle when walking. The improvement was found to be 7.16% in the first patient, 43.06% in the second, and 54.66% in the third. These results are all statistically significant. The t-test had a p-value 0.012 (p< 0.05), which demonstrated that the method used in the present study had the potential to significantly improve the arm swing of post-stroke patients.

CONCLUSIONS

The present study showed that a traditional foot drop functional electrical stimulator providing stimulation also to the patient's upper limbs, while being triggered by a foot switch under his or her heel, can help the patient to swing the arms and reduce the foot drop. The method has significant effect on traditional foot drop therapy. The subjects' high degree of acceptance and willingness to commit to long-term use showed that the method is indeed worthy of further research.

Effect of a foot-drop stimulator and ankle-foot orthosis on walking performance after stroke: a multicenter randomized controlled trial

BACKGROUND

Studies have demonstrated the efficacy of functional electrical stimulation in the management of foot drop after stroke.

OBJECTIVE

To compare changes in walking performance with the WalkAide (WA) foot-drop stimulator and a conventional ankle-foot orthosis (AFO).

METHODS

Individuals with stroke within the previous 12 months and residual foot drop were enrolled in a multicenter, randomized controlled, crossover trial. Subjects were assigned to 1 of 3 parallel arms for 12 weeks (6 weeks/device): arm 1 (WA-AFO), n = 38; arm 2 (AFO-WA), n = 31; arm 3 (AFO-AFO), n = 24. Primary outcomes were walking speed and Physiological Cost Index for the Figure-of-8 walking test. Secondary measures included 10-m walking speed and perceived safety during this test, general mobility, and device preference for arms 1 and 2 for continued use. Walking tests were performed with (On) and without a device (Off) at 0, 3, 6, 9, and 12 weeks.

RESULTS

Both WA and AFO had significant orthotic (On-Off difference), therapeutic (change over time when Off), and combined (change over time On vs baseline Off) effects on walking speed. An AFO also had a significant orthotic effect on Physiological Cost Index. The WA had a higher, but not significantly different therapeutic effect on speed than an AFO, whereas an AFO had a greater orthotic effect than the WA (significant at 12 weeks). Combined effects on speed after 6 weeks did not differ between devices. Users felt as safe with the WA as with an AFO, but significantly more users preferred the WA.

CONCLUSIONS

Both devices produce equivalent functional gains.