Lower extremity functional electrical stimulation cycling promotes physical and functional recovery in chronic spinal cord injury

Abstract

Objective

To examine the effect of long-term lower extremity functional electrical stimulation (FES) cycling on the physical integrity and functional recovery in people with chronic spinal cord injury (SCI).

Design

Retrospective cohort, mean follow-up 29.1 months, and cross-sectional evaluation.

Setting

Washington University Spinal Cord Injury Neurorehabilitation Center, referral center.

Participants

Twenty-five people with chronic SCI who received FES during cycling were matched by age, gender, injury level, and severity, and duration of injury to 20 people with SCI who received range of motion and stretching.

Intervention

Lower extremity FES during cycling as part of an activity-based restorative treatment regimen.

Main outcome measure

Change in neurological function: motor, sensory, and combined motor–sensory scores (CMSS) assessed by the American Spinal Injury Association Impairment scale. Response was defined as ≥1 point improvement.

Results

FES was associated with an 80% CMSS responder rate compared to 40% in controls. An average 9.6 CMSS point loss among controls was offset by an average 20-point gain among FES subjects. Quadriceps muscle mass was on average 36% higher and intra/inter-muscular fat 44% lower, in the FES group. Hamstring and quadriceps muscle strength was 30 and 35% greater, respectively, in the FES group. Quality of life and daily function measures were significantly higher in FES group.

Conclusion

FES during cycling in chronic SCI may provide substantial physical integrity benefits, including enhanced neurological and functional performance, increased muscle size and force-generation potential, reduced spasticity, and improved quality of life.     

Changes in spasticity following functional electrical stimulation cycling in patients with spinal cord injury: A systematic review

Context: Spasticity is one of the most common secondary impairment after spinal cord injury (SCI). It can lead to an increase in the level of disability. The functional electrical stimulation cycling (FES-cycling) promotes recovery in patients with SCI. No systematic review has been published examining the influence of FES-cycling on the spasticity of lower extremities post-SCI.Objective: This review aimed to investigate the effects of the FES-cycling on the lower extremities spasticity in patients with SCI.Methods: PubMed, Scopus, PEDro, REHABDATA, Web of Science, and MEDLINE were searched until December 2019. The methodological quality was assessed using the Physiotherapy Evidence Database (PEDro) scale.Results: Ten studies were met the inclusion criteria. Two were randomized clinical trials, cohort study (n = 2), and pilot study (n=6). The scores on the PEDro scale ranged from one to nine, with a median score of three. The results showed evidence for the beneficial effects of FES-cycling on the spasticity of lower extremities in individuals with SCI.Conclusion: The FES-cycling intervention may reduce the lower extremities spasticity in patients with various injury levels of SCI. It is not a suitable intervention for medically unstable patients or with contraindication for lower extremities movement. Further randomized controlled trials with a large sample size strongly warranted to confirm our findings.     

Management of obesity after spinal cord injury: a systematic review

Context: Individuals with chronic spinal cord injury (SCI) are susceptible to central and visceral obesity and it’s metabolic consequences; consensus based guidelines for obesity management after SCI have not yet been stablished.

Objectives: To identify and compare effective means of obesity management among SCI individuals.

Methods: This systematic review included English and non-English articles, published prior to April 2017 found in the PubMed/Medline, Embase, CINAHL Psychinfo and Cochrane databases. Studies evaluating any obesity management strategy, alone or in combination, including: diet therapy, voluntary and involuntary exercise such as neuro-muscular electric stimulation (NMES), pharmacotherapy, and surgery, among individuals with chronic SCI were included. Outcomes of interest were reductions in waist circumference, body weight (BW), body mass index (BMI) and total fat mass (TFM) and increases in total lean body mass (TLBM) from baseline. From 3,553 retrieved titles and abstracts, 34 articles underwent full text review and 23 articles were selected for data abstraction. Articles describing weight loss due to inflammation, cancer or B12 deficiency were excluded. The Downs and Black reported poor to moderate quality of the studies.

Results: Bariatric surgery produced the greatest permanent weight reduction and BMI correction followed by combinations of physical exercise and diet therapy. Generally, NMES and pharmacotherapy improved TLBM and reduced TFM but not weight.

Conclusions: The greatest weight reduction and BMI correction was produced by bariatric surgery, followed by a combination of physical exercise and diet therapy. NMES and pharmacologic treatment did not reduce weight or TFM but increased in TLBM.     

A clinically meaningful training effect in walking speed using functional electrical stimulation for motor-incomplete spinal cord injury

Context/Objective: The study aimed to investigate the presence of a training effect for rehabilitation of walking function in motor-incomplete spinal cord injury (SCI) through daily use of functional electrical stimulation (FES).

Setting: A specialist FES outpatient centre.

Participants: Thirty-five participants (mean age 53, SD 15, range 18-80; mean years since diagnosis 9, range 5 months - 39 years) with drop foot and motor-incomplete SCI (T12 or higher, ASIA Impairment Scale C and D) able to ambulate 10 metres with the use of a walking stick or frame.

Interventions: FES of the peroneal nerve, glutei and hamstrings as clinically indicated over six months in the community.

Outcome Measures: The data was analysed for a training effect (difference between unassisted ten metre walking speed at baseline and after six months) and orthotic effects (difference between walking speed with and without FES) initially on day one and after six months. The data was further analysed for a minimum clinically important difference (MCID) (>0.06 m/s).

Results: A clinically meaningful, significant change was observed for initial orthotic effect (0.13m/s, CI: 0.04-0.17, P?=?0.013), total orthotic effect (0.11m/s, CI: 0.04-0.18, P?=?0.017) and training effect (0.09m/s, CI: 0.02-0.16, P?=?0.025).

Conclusion: The results suggest that daily independent use of FES may produce clinically meaningful changes in walking speed which are significant for motor-incomplete SCI. Further research exploring the mechanism for the presence of a training effect may be beneficial in targeting therapies for future rehabilitation.     

A report of anticipated benefits of functional electrical stimulation after spinal cord injury

Background

Functional electrical stimulation (FES) has been regularly used to offset several negative body composition and metabolic adaptations following spinal cord injury (SCI). However, the outcomes of many FES trials appear to be controversial and incoherent.

Objective

To document the potential consequences of several factors (e.g. pain, spasms, stress and lack of dietary control) that may have attenuated the effects on body composition and metabolic profile despite participation in 21 weeks of FES training.

Participant

A 29-year-old man with T6 complete SCI participated in 21 weeks of FES, 4 days per week.

Methods

Prior to and following training, the participant performed arm-crank-graded exercise testing to measure peak VO₂. Tests conducted included anthropometrics and dual energy X-ray absorptiometry body composition assessments, resting energy expenditure, plasma lipid profiles and intravenous glucose tolerance tests.

Results

The participant frequently reported increasing pain, stress and poor eating habits. VO₂ peak decreased by 2.4 ml/kg/minute, body mass increased by 8.5 kg, and body mass index increased from 25 to 28 kg/m². Waist and abdominal circumferences increased by 2–4 cm, while %fat mass increased by 5.5%. Absolute increases in fat mass and fat-free mass of 8.4 and 1 kg, respectively, were reported. Fasting and peak plasma glucose increased by 12 and 14.5%, while lipid panel profiles were negatively impacted.

Conclusion

Failure to control for the listed negative emerging factors may obscure the expected body composition and metabolic profile adaptations anticipated from FES training.     

Body composition modifications in people with chronic spinal cord injury after supervised physical activity

Background

Quantification of body composition variables is important for planning of better activities in relation to individuals with spinal cord injury (SCI).

Objectives

(1) To evaluate changes in body composition in patients with SCI after a supervised physical activity process; (2) To correlate total body fat with time since injury.

Design

Pre-post intervention.

Setting

Sarah Rehabilitation Hospital Network, Brazil.

Participants

Fifty-three men with SCI aged 18–52 years with duration of injury >3 years.

Interventions

The subjects were divided into three groups: tetraplegia (TT) (C5–C8), high paraplegia (HP) (T1–T6), and low paraplegia (LP) (T7–L2). Body composition was estimated in the first and last weeks of hospitalization.

Outcome measures

Body weight (kg), skinfolds sum (mm), absolute (kg), and relative (%) fat and lean body mass.

Results

Body weight increased in TT and decreased in HP (0.8 kg, 95%CI 0.1–1.5; and −1.0 kg, 95%CI −2.0 to 0.0, respectively; P < 0.05). Skinfolds sum decreased only in HP (−13.1 mm, 95%CI −20.7 to −5.5; P < 0.05). Absolute and relative body fat decreased significantly in the paraplegia groups. Lean body mass (LBM) percentage increased significantly in the paraplegia groups. Absolute LBM increased in TT and LP (0.8 kg, 95%CI 0.3–1.3; and 1.3 kg, 95%CI 0.8 to 1.8, respectively; P < 0.05). There was no correlation between time since injury and skinfolds sum for the three groups (P < 0.05).

Conclusion

TT, HP, and LP demonstrated favorable changes in body composition after 29 days of supervised physical activity. However, these changes were different in direction and magnitude.     

Body composition modifications in people with chronic spinal cord injury after supervised physical activity

Context

The Thoracolumbar Injury Classification System (TLICS) has been recently described to help surgeons in the decision-making process of thoracolumbar spinal trauma.

Objective

To analyze the potential relationships between the TLICS scores with the Arbeitsgemeinschaft für Osteosynthesefragen (AO) Spine System and patient''s neurological status.

Methods

Literature analysis of the potential scored injuries in the TLICS system, based on its individual scores, its total score, and its suggested proposed treatment, correlating these with the AO system and neurological status.

Results

Findings are presented according to the TLICS score. Patients with a TLICS 1–3 points, receiving conservative treatment, are AO type A injuries, generally neurologically intact. TLICS 4 group also included AO type A fractures, neurologically ranging from intact to complete spinal cord injury. TLICS 5–10 points includes AO type B and C injuries, regarding their neurological status, and burst fractures (AO type A) with concomitant neurological injury and most of the patients with incomplete deficits and cauda equina syndrome.

Conclusions

As a general overview, according to the TLICS, patients without neurological deficit and with AO type A injuries are conservatively treated. AO type B and C injuries are managed surgically, with regard to neurological status. Patients with cauda equina or incomplete injuries also received a higher severity score. Controversies still exist regarding the management of unstable burst fractures without neurological status. The role of the posterior ligamentous complex status and the magnetic resonance imaging in the decision-making process require more clinical evidence.     

Frequency of turning in bed at home in persons with chronic spinal cord injury

Objective: To determine the routine turning frequency of persons with chronic spinal cord injury (SCI) in bed at night in their home environment.Design: An online questionnaire consisting of 22 questions.Setting: Free standing SCI rehabilitation facility.Participants: Persons between ages 18–75 with a traumatic SCI for ≥3 months, and living at home.Interventions: None.Outcome measures: Questionnaire-based evaluation of turning frequency of persons with SCI.Results: 86 subjects (70 men) with traumatic SCI completed the survey; 66.3% with tetraplegia and 41.9% with a neurological complete SCI. Almost every participant (96%) recalled being counseled on the importance of turning in bed at night upon discharge from their rehabilitation facility with 48.4% recalling the frequency recommended as every 2 h. At present, 25.6% of subjects reported turning every 2 h, 15.1% every 3 h, 15.1% every 4 h, 3.5% every 6 h, and 40.7% of respondents stated that they do not turn regularly at night.Conclusion: Although frequently recommended for repositioning at night in bed every two hours for persons with chronic SCI, especially for those at risk for pressure injuries, only 25.6% of individuals report turning at this frequency and 40.7% report not turning at night time regularly. The reasons for limited turning may be multi-factorial, however, this finding may serve as a call to practitioners to best determine the most appropriate turning frequency that can meet compliance of the individual with SCI, as well as maintain skin protection in the chronic period after injury.     

Passive cycling in neurorehabilitation after spinal cord injury: A review

Context/Objective: Passive cycling (PC) may represent a potential alternative neurorehabilitation program for patients who are too weak or medically unstable to repeatedly practice active movements. We review here the most important animal and human studies addressing PC after spinal cord injury (SCI).

Methods: A MEDLINE search was performed using following terms: “passive”, “cycling”, “pedaling”, “pedalling”,“spinal cord injury”.

Results: Experimental studies revealed that PC modulated spinal reflex and reduced spasticity. PC also reduced autonomic dysreflexia and elicited cardio-protective effects. Increased levels of mRNA for brain-derived neurotrophic factor, glial cell line-derived neurotrophic factor and neurotrophin-4 were found. In contrast, human studies failed to show an effect of PC on spasticity reduction and did not support its application for prevention of cardiovascular disease-related secondary complications.

Conclusion: Available evidence to support the use of PC as standard treatment in patients with SCI is still rather limited. Since it is conceivable that PC motion could elicit sensory inputs to activate cortical structures and induce cortical plasticity changes leading to improved lower limb motor performance, further carefully designed prospective studies in subjects with SCI are needed.     

Comparison of training methods to improve walking in persons with chronic spinal cord injury: a randomized clinical trial

Objective

To compare two forms of device-specific training – body-weight-supported (BWS) ambulation on a fixed track (TRK) and BWS ambulation on a treadmill (TM) – to comprehensive physical therapy (PT) for improving walking speed in persons with chronic, motor-incomplete spinal cord injury (SCI).

Methods

Thirty-five adult subjects with a history of chronic SCI (>1 year; AIS ‘C’ or ‘D’) participated in a 13-week (1 hour/day; 3 days per week) training program. Subjects were randomized into one of the three training groups. Subjects in the two BWS groups trained without the benefit of additional input from a physical therapist or gait expert. For each training session, performance values and heart rate were monitored. Pre- and post-training maximal 10-m walking speed, balance, muscle strength, fitness, and quality of life were assessed in each subject.

Results

All three training groups showed significant improvement in maximal walking speed, muscle strength, and psychological well-being. A significant improvement in balance was seen for PT and TRK groups but not for subjects in the TM group. In all groups, post-training measures of fitness, functional independence, and perceived health and vitality were unchanged.

Conclusions

Our results demonstrate that persons with chronic, motor-incomplete SCI can improve walking ability and psychological well-being following a concentrated period of ambulation therapy, regardless of training method. Improvement in walking speed was associated with improved balance and muscle strength. In spite of the fact that we withheld any formal input of a physical therapist or gait expert from subjects in the device-specific training groups, these subjects did just as well as subjects receiving comprehensive PT for improving walking speed and strength. It is likely that further modest benefits would accrue to those subjects receiving a combination of device-specific training with input from a physical therapist or gait expert to guide that training.     

慢性脊髓压迫减压后的缺血再灌注损伤

目的探讨缺血再灌注损伤是否为慢性脊髓压迫症减压后不明脊髓功能丧失的致伤因素。方法成年新西兰白兔96只,随机分为A组（假手术组）,B组（缺血再灌注组）,C组（慢性压迫减压组）。于0h、0.5h、6h、12h、24h,48h各时间点每组分别取4只动物,检测MDA、CAT、SOD、GSH-Px表达水平;每组于0h及48h时各取4只动物取材行凋亡细胞计数。结果B组MDA、CAT、SOD、GSH-Px于0.5h、6h、12h、24h表达水平明显高于A组;C组MDA、CAT、SOD、GSH-Px于各时间点表达水平均明显高于A组,且C组组间各时间点表达水平无明显区别;C组0h及48h时TUNEL阳性细胞数量无明显差异。结论慢性脊髓压迫减压后减压局部并无明显缺血再灌注损伤标志,缺血再灌注并非减压后脊髓功能丧失的原因。     

功能训练促进颈脊髓损伤大鼠功能恢复的机制研究

目的：探讨大鼠颈脊髓不完全性损伤后前肢功能训练促进大鼠前肢功能恢复的机制.方法：在立体定位仪的引导下,致伤大鼠双侧红核和皮质脊髓背侧束后,对大鼠行前肢功能训练6周.免疫组化检测损伤脊髓节段脑源性神经生长因子（brain-derived neurotrophic factor,BDNF）的表达,皮质脊髓束投射神经元（corticospinal neurons,CSNs）中生长相关蛋白43（growth-associated protein 43,CAP43）和神经营养素共同受体P75（P75NTR）的表达,荧光金逆行示踪CSNs存活情况.结果：大鼠不完全性颈脊髓损伤后,前肢功能训练可上调脊髓前角神经元BDNF与CSNs中GAP43和P75NTR的表达,减少CSNs死亡.结论：大鼠颈脊髓不完全性损伤后,前肢功能训练通过上调脊髓前角神经元BDNF与CSNs中GAP43和P75NTR的表达以及减少CSNs的死亡等机制增加未损伤皮质脊髓腹侧束（vCST）的出芽,进而促进大鼠前肢功能恢复.     

Functional electrical stimulation cycling in youth with spinal cord injury: A review of intervention studies

Context

Preliminary research suggests that functional electrical stimulation cycling (FESC) might be a promising intervention for youth with spinal cord injury (SCI).

Objective

To review the evidence on FESC intervention in youth with SCI.

Methods

Systematic literature searches were conducted during December 2012. Two reviewers independently selected titles, abstracts, and full-text articles. Of 40 titles retrieved, six intervention studies met inclusion criteria and were assessed using American Academy for Cerebral Palsy and Developmental Medicine Levels of Evidence and Conduct Questions for Group Design.

Results

The study results were tabulated based on levels of evidence, with outcomes categorized according to the International Classification of Functioning, Disability, and Health framework. Evidence from the six included studies suggests that FESC is safe for youth with SCI, with no increase in knee/hip injury or hip displacement. Results from one level II randomized controlled trial suggest that a thrice weekly, 6-month FESC program can positively influence VO₂ levels when compared with passive cycling, as well as quadriceps strength when compared with electrical stimulation and passive cycling.

Conclusions

FESC demonstrates limited yet encouraging results as a safe modality to mitigate effects of inactivity in youth with SCI. More rigorous research involving a greater number of participants is needed before clinicians can be confident of its effectiveness.     

The impact of body mass index on one-year mortality after spinal cord injury

Objective: Evaluate the association between body mass index (BMI, kg/m²) and one-year mortality among people who survived the first 90 days after spinal cord injury (SCI).Design: Cohort study.Setting: Eighteen SCI Model Systems centers throughout the United States.Participants: 6640 participants (men, 79.6%; mean age, 42.8 ± 17.7y; Whites, 62.3%) who had an SCI between October 2006 and March 2017.Interventions: Not applicable.Outcome Measures: All-cause mortality and causes of death. Life table method was used to estimate mortality rates, while Cox proportional hazard model was conducted to assess the impact of BMI on mortality after adjusting for demographic and injury-related factors.Results: Based on BMI obtained during initial rehabilitation, participants were classified into underweight (4.2%), normal weight (41.2%), overweight (30.9%) and obese (23.8%) groups, and their corresponding one-year mortality rates were 2.6%, 1.8%, 3.1%, 3.5%, respectively (P = 0.002). After adjusting for potential confounding factors, people with obesity had a higher mortality risk than those with normal weight (hazard ratio, 1.51; 95% confidence interval, 1.00–2.28). The most frequent causes of death for people with obesity were infective and parasitic diseases and respiratory diseases, while respiratory diseases were the most frequent for people with other BMI statuses.Conclusion: People with obesity who incur an SCI need special attention to prevent early mortality. Future studies should explore factors that contribute to such a higher mortality after SCI, such as preexisting conditions and comorbidities. The effects of BMI on long-term mortality also deserve further investigation.     

Current barriers and ethical considerations for clinical implementation of epidural stimulation for functional improvement after spinal cord injury

Context/objective: To determine current barriers for clinical implementation of epidural stimulation for functional improvement after spinal cord injury and highlight applicable ethical constructs to approach future research.

Design: Survey of spinal cord injury medicine physicians, January 2019.

Setting: Spinal cord injury model systems hospital sites across the United States.

Participants: Spinal cord injury medicine physicians.

Interventions: NA.

Outcome measures: Physician-identified current barriers to clinical implementation of epidural stimulation.

Results: The response rate for the survey was 54.6% (n?=?42), with the majority of physicians (61.9%) having been asked by patients with spinal cord injuries about epidural stimulation. Numerous current barriers to clinical implementation were identified, including need for additional efficacy studies (92.9%), lack of clear guidelines on stimulation parameters (83.3%), and inability to identify which patients will benefit (76.2%).

Conclusions: With multiple barriers to clinical implementation currently identified, evaluating this research with an eye toward the ethical construct of equipoise is increasingly relevant. Addressing these barriers may require modifications in both physician expectations and how researchers approach this work.     

Pudendal nerve stimulation evokes reflex bladder contractions in persons with chronic spinal cord injury

AIMS: Although electrical stimulation of the pudendal nerve has been shown to evoke reflex micturition-like bladder contractions in both intact and spinalized cats, there is little evidence to suggest that an analogous excitatory reflex exists in humans, particularly those with spinal cord injury (SCI). We present two cases where electrical activation of pudendal nerve afferents was used to evoke excitatory bladder responses. SUBJECTS AND METHODS: A percutaneously placed catheter electrode was used to electrically stimulate the pudendal nerve trunk in two males with SCI. The response was quantified with recorded changes in detrusor pressure and EMG activity of the external anal sphincter. RESULTS: In both individuals, frequency specific (f = 20-50 Hz) activation of the pudendal nerve trunk evoked excitatory bladder contractions that also depended on the stimulus amplitude and bladder volume. CONCLUSION: The results suggest that selective activation of the perineal branches of the pudendal nerve may further augment the excitatory reflex evoked by electrical stimulation.     

大鼠脊髓损伤后Wnt信号分子的表达变化

目的:探讨大鼠脊髓损伤后不同时期Wnt信号分子Wnt-1、β-连锁蛋白(β-catenin)及糖原合成酶激酶-3β(GSK-3β)在脊髓损伤局部的表达情况.方法:50只成年雌性SD大鼠随机均分为对照组和实验组,麻醉下手术显露T9～T11椎板,切除T10全椎板,实验组大鼠用NYU打击器以10g×5cm的打击能量致伤T10脊髓,对照组只行全椎板切除,不致伤脊髓.分别于术后1d、3d、5d、7d、14d每组各取5只大鼠,取以损伤区为中心共15mm范围内(对照组取相应部位)脊髓组织,提取总RNA,采用半定量RT-PCR的方法检测脊髓组织中Wnt-1、β-catenin及GSK-3β的mRNA表达量.结果:脊髓损伤后1d和3d时Wnt-1和β-catenin出现高表达,5d后其表达逐渐减弱,14d左右其表达基本恢复到正常水平,而在脊髓损伤后1d和3d时GSK-3β呈低表达,5d后其表达逐渐增强,各时间点之间差异有显著性(P<0.05).对照组中Wnt-1和β-catenin及GSK-3β均呈低表达,各时间点表达无显著差异(P<0.05).结论:大鼠脊髓损伤后损伤局部脊髓组织中Wnt-1,β-catenin及GSK-3β的表达发生变化,提示Wnt信号在脊髓损伤后的早期被激活,其可能与脊髓损伤后的修复再生有关.     

Resting energy expenditure in male athletes with a spinal cord injury

Objective: To investigate whether there are differences in the resting energy expenditure (REE) and body composition of athletes with a spinal cord injury (SCI) compared to active able-bodied controls.

Design: In this cross sectional study, male athletes with a SCI were compared to active able-bodied controls matched for age, stretch stature and body mass. In addition, the accuracy of standard REE prediction equations in estimating REE was assessed.

Participants: Seven male wheelchair athletes with a SCI and six matched active able-bodied controls volunteered to participate.

Outcome measures: REE was measured using indirect calorimetry and estimated using population-specific prediction equations. Body composition (lean tissue mass, fat mass and bone mineral content) was measured by dual energy X-ray absorptiometry (DXA).

Results: While absolute and adjusted REE in the athletes with SCI was lower than controls, this difference was not significant (P?=?0.259). When adjusted for lean tissue mass (LTM), REE was significantly higher (P?=?0.038) in the athletes with SCI compared to the controls (146 ± 29kJ/kg LTM vs. 125 ± 8kJ/kg LTM). LTM was significantly lower in the athletes with SCI (44.35 ± 6.98?kg) compared to the able-bodied controls (56.02 ± 4.93?kg; P < 0.01). The differences between predicted and measured REE in the athletes with SCI were not statistically significant (except for the Owen equation), however there was no significant correlation between the measures.

Conclusion: This suggests that existing prediction equations used to estimate energy requirements may require modification for athletes with SCI.     

Sensory supported FES control in gait training of incomplete spinal cord injury persons

Sensory supported electrical stimulation of the peroneal nerve during treadmill walking is proposed as a gait-training modality in incomplete spinal cord injury (SCI) patients. A multisensor device provides information on the tilt of the shank during gait. The information provided significantly improves the triggering instant of the electrical stimulation. Simultaneously, swing-phase estimation serves as a reference to determine the required motor augmentation support. Both approaches, as well as triggering using intensity control of the functional electrical stimulation were applied on a healthy person and on an incomplete C4-5 SCI patient.     

Role of electrical stimulation for rehabilitation and regeneration after spinal cord injury: an overview

Structural discontinuity in the spinal cord after injury results in a disruption in the impulse conduction resulting in loss of various bodily functions depending upon the level of injury. This article presents a summary of the scientific research employing electrical stimulation as a means for anatomical or functional recovery for patients suffering from spinal cord injury. Electrical stimulation in the form of functional electrical stimulation (FES) can help facilitate and improve upper/lower limb mobility along with other body functions lost due to injury e.g. respiratory, sexual, bladder or bowel functions by applying a controlled electrical stimulus to generate contractions and functional movement in the paralysed muscles. The available rehabilitative techniques based on FES technology and various Food and Drug Administration, USA approved neuroprosthetic devices that are in use are discussed. The second part of the article summarises the experimental work done in the past 2 decades to study the effects of weakly applied direct current fields in promoting regeneration of neurites towards the cathode and the new emerging technique of oscillating field stimulation which has shown to promote bidirectional regeneration in the injured nerve fibres. The present article is not intended to be an exhaustive review but rather a summary aiming to highlight these two applications of electrical stimulation and the degree of anatomical/functional recovery associated with these in the field of spinal cord injury research.