Rehabilitation of spinal cord injuries

Mechanisms and Therapeutic Prospects of Microglia-Astrocyte Interactions in Neuropathic Pain Following Spinal Cord Injury

Neuropathic pain is a prevalent and debilitating condition experienced by the majority of individuals with spinal cord injury (SCI). The complex pathophysiology of neuropathic pain, involving continuous activation of microglia and astrocytes, reactive gliosis, and altered neuronal plasticity, poses significant challenges for effective treatment. This review focuses on the pivotal roles of microglia and astrocytes, the two major glial cell types in the central nervous system, in the development and maintenance of neuropathic pain after SCI. We highlight the extensive bidirectional interactions between these cells, mediated by the release of inflammatory mediators, neurotransmitters, and neurotrophic factors, which contribute to the amplification of pain signaling. Understanding the microglia-astrocyte crosstalk and its impact on neuronal function is crucial for developing novel therapeutic strategies targeting neuropathic pain. In addition, this review discusses the fundamental biology, post-injury pain roles, and therapeutic prospects of microglia and astrocytes in neuropathic pain after SCI and elucidates the specific signaling pathways involved. We also speculated that the extracellular matrix (ECM) can affect the glial cells as well. Furthermore, we also mentioned potential targeted therapies, challenges, and progress in clinical trials, as well as new biomarkers and therapeutic targets. Finally, other relevant cell interactions in neuropathic pain and the role of glial cells in other neuropathic pain conditions have been discussed. This review serves as a comprehensive resource for further investigations into the microglia-astrocyte interaction and the detailed mechanisms of neuropathic pain after SCI, with the aim of improving therapeutic efficacy.

Activity limitations, participation restrictions, and environmental barriers among persons with traumatic spinal cord injury in Kenya

PURPOSE

Spinal cord injury (SCI) is a life-changing condition, almost always leading to disability. The aim was to determine the period-prevalence of activity limitations, participation restrictions, and environmental barriers in community-dwelling persons with traumatic spinal cord injury (TSCI) in Kenya.

METHODS

A cross-sectional survey of 90 community-dwelling adult persons living with TSCI for more than 1 year, recruited from the database of the only specialised rehabilitation, in-patient, facility in Kenya. Modules of the International Spinal Cord Injury community survey (InSCI) used were demographic and injury characteristics; activity and participation; and environmental factors.

RESULTS

Most prevalent activity limitations and participation restrictions in the total sample were using public transportation (90%), standing unsupported (83%), getting to destination (76%), and toileting (76%). The top environmental barriers were inadequate finances (96%), inaccessibility of public places (92%), and problems with long distance transportation (90%). Participants with tetraplegia were more affected with activity limitations and participation restrictions than those with paraplegia.

CONCLUSION

Functioning problems and environmental barriers are prevalent among adults living with TSCI in Kenya. Although this is the best-case scenario with respect to healthcare services, where individuals received inpatient rehabilitation previously, a need exists to examine the principles and models of rehabilitation and explore the value proposition of primary care/community level rehabilitation to further optimise independence and functioning.

Rehabilitation Perspectives in Spinal Cord Ischemia After Major Vascular Surgery: A Case Series

OBJECTIVES

This observational study aims to summarize the disability profile, rehabilitation strategies, and six-month outcomes in patients with Spinal Cord Ischemia (SC-ischemia) following Major Vascular Surgeries (MVS) at our institution.

METHODS

Retrospective data were collected from seven patients who underwent MVS between April 2016 and March 2020.

RESULTS

All patients were male, with a mean age of 68.7 years. SC-ischemia affected predominantly Th10 (six patients) and Th12 (one patient), resulting in severe motor paralysis in six patients and moderate paralysis in one. The average intensive care unit stay was 19.6 days, with delayed mobility observed (9.6 days to sit upright, 14.9 days to sit in a wheelchair). Patients had a prolonged hospital stay (average 70.6 days) and showed minimal improvement in activities of daily living (median Barthel Index of 10). At six months, two patients regained walking ability, while five showed little improvement.

CONCLUSION

Recovery post-MVS-associated SC-ischemia is inconsistent and often limited. Future research should focus on optimizing rehabilitation strategies for these patients suffering from this catastrophic complication.

Mindfulness- and acceptance-based interventions for people with spinal cord injury: a scoping review

STUDY DESIGN

Scoping review.

OBJECTIVE

To synthesize the effects of mindfulness- and acceptance-based interventions (MABIs) on health-related outcomes of individuals with spinal cord injury.

SETTING

The included studies were conducted across four countries: The United States, Iran, China, and The United Kingdom.

METHODS

This review followed the Arksey and O'Malley framework and the Preferred Reporting Items for Systematic Reviews and Meta-Analyses Extension for Scoping Reviews guideline. Seven databases were searched until November 2024 to identify studies published in English-language that evaluated MABIs' effects on health-related outcomes in people with spinal cord injury. Literature screening, data extraction, and quality assessment were conducted by two reviewers independently. A narrative data synthesis was conducted.

RESULTS

Of 2389 records, nine studies were included with designs of randomized controlled trials (n = 4), quasi-experimental studies (n = 3), and case studies (n = 2). Acceptance commitment therapy (n = 4) and mindfulness-based interventions (n = 5) were employed. MABIs demonstrated significant improvements in psychological health outcomes (depression, n = 3; anxiety, n = 3; stress, n = 2) with medium-to-large effect sizes (η p 2 = 0.112 - 0.223 ) and other health-related outcomes (chronic pain, n = 1; functional independence, n = 1; engagement in meaningful activities, n = 1; and quality of life, n = 1). Participants found the MABIs to be acceptable and satisfactory. Study quality varied from weak (n = 6) to strong (n = 2).

CONCLUSIONS

The findings generally support the acceptability and effectiveness of MABIs for improving the overall well-being of individuals with SCI. Future research directions regarding designing MABIs and exploring effectiveness mechanisms were recommended for maximizing its benefits.

The beneficial effects of the herbal medicine Di-Huang-Yin-Zi on patients with traumatic cauda equina injury: A randomized, double-blind, placebo-controlled study

OBJECTIVE

This study aimed to investigate the safety and efficacy of Di-Huang-Yin-Zi (DHYZ), also known as Rehmanniae Yin-Zi, a traditional Chinese medicinal formula used for treating of neurological disorders in patients with traumatic cauda equina injury (TCEI).

METHODS

In this double-blind, placebo-controlled study, TCEI patients with American Spinal Injury Association (ASIA) impairment grades C were randomized to receive either DHYZ (n = 30) or placebo (n = 30) for 8 weeks. Both groups also received rehabilitation therapy and oral mecobalamine therapy during the treatment. Motor and sensory functions, as well as walking ability, were assessed biweekly.

RESULTS

At the end of the treatment, the DHYZ group exhibited significantly higher scores in sensory and motor function, as well as walking ability, compared to the placebo group (all P < 0.05). Additionally, no serious side effects were reported.

CONCLUSION

DHYZ has the potential to accelerate nerve repair and may serve as an effective adjuvant therapy to enhance the recovery of nerve function in patients with TCEI.

Integrated oral care for patients with spinal cord injuries: perceptions of non-dental professionals

PURPOSE

To understand the oral health attitudes, knowledge, and practices among non-dental professionals caring for patients with spinal cord injuries, as well as the barriers and facilitators to oral care across acute and rehabilitation hospital settings.

MATERIALS AND METHODS

This study was a descriptive qualitative study. Nine focus groups with spinal cord injury clinicians from two Sydney hospitals were conducted (n = 35). A thematic analysis was undertaken.

RESULTS

Four themes were constructed: understanding the impact of spinal cord injuries on oral health and wellbeing; limited support in the spinal cord injury unit to promote oral care; strategies that enable oral care promotion; and recommendations to expand scope in oral care and education. Although most clinicians considered oral health to be important there was a lack of guidelines to support standardised oral care practices. Barriers included lack of time, limited oral care resources, low priority and difficulty in accessing treatment. Staff were receptive to an integrated, multidisciplinary approach to oral care.

CONCLUSION

This Australian first study provides insight into spinal cord injury clinicians' knowledge and practices of oral care. The findings will help guide future research in developing appropriate models of care to promote oral health among patients with spinal cord injuries.

Early functional proprioceptive stimulation in high spinal cord injury: a pilot study

Introduction

The first months following a spinal cord injury (SCI) are crucial for promoting recovery. However, patients with high SCIs often require prolonged stays in intensive care units (ICUs), delaying optimal rehabilitation due to limited resources. This study examined the safety, feasibility, and effects on spasticity and muscle atrophy of an early rehabilitation technique using non-invasive sensory stimulation and called functional proprioceptive stimulation (FPS).

Materials and methods

Ten SCI patients were included in this randomized pilot study, with five receiving early FPS and five receiving sham stimulation. Both groups were treated using the Vibramoov, consisting of 12 computer-synchronized vibrators placed on the lower limbs. Treatment sessions lasted 30 min, four times a week, for up to 8 weeks. Spasticity was assessed using the Modified Ashworth Scale, Tardieu Scale, Spinal Cord Assessment Tool for Spastic Reflexes, and a patient self-evaluation with a visual analog scale. Muscle atrophy was evaluated through ultrasonography of rectus femoris thickness and cross-sectional area. The duration of the follow-up period ranged from 6 months to 1 year.

Results

Treatment began early, with a median of 4 days post-injury for both groups. The number of adverse events was similar between groups, with none linked to the intervention. No medium-term effects on spasticity or muscle atrophy could be identified. However, our results show a tendency toward a beneficial short-term effect of FPS on spasticity, observed for all spasticity measurements.

Discussion

This pilot study shows that early FPS is feasible and safe for SCI as early as the intensive care unit stage. We demonstrated that FPS induced a transient relaxation and spasticity reduction that could potentially enhance a rehabilitation session administered shortly after it, but larger studies are needed to determine the medium and long-term effects.

Clinical Trial Registration

ClinicalTrials.gov, identifier (NCT05094752).

A comprehensive transcriptional reference for severity and progression in spinal cord injury reveals novel translational biomarker genes

Spinal cord injury (SCI) is a devastating condition that leads to motor, sensory, and autonomic dysfunction. Current therapeutic options remain limited, emphasizing the need for a comprehensive understanding of the underlying SCI-associated molecular mechanisms. This study characterized distinct SCI phases and severities at the gene and functional levels, focusing on biomarker gene identification. Our approach involved a systematic review, individual transcriptomic analysis, gene meta-analysis, and functional characterization. We compiled a total of fourteen studies with 273 samples, leading to the identification of severity- and phase-specific biomarker genes that allow the precise classification of transcriptomic profiles. We investigated the potential transferability of severity-specific biomarkers and identified a twelve-gene signature that predicted injury prognosis from human blood samples. We also report the development of MetaSCI-app - an interactive web application designed for researchers - that allows the exploration and visualization of all generated results ( https://metasci-cbl.shinyapps.io/metaSCI ). Overall, we present a transcriptomic reference and provide a comprehensive framework for assessing SCI considering severity and time perspectives, all integrated into a user-friendly tool.

Physicochemical Characterization of Hyaluronic Acid-Methylcellulose Semi-Gels for Mitochondria Transplantation

Traumatic spinal cord injury (SCI) presents a significant medical challenge due to its intricate nature and treatment complexities. SCI can cause physical impairments by affecting neural and motor functions as well as initiating a series of pathophysiological events exacerbating the initial trauma. Leakage from ruptured neurons and vessels disrupt ionic balance and induces excitotoxicity, leading to progressive cellular degeneration. Introducing mitochondria to the SCI lesion has shown potential in attenuating secondary injury. Mitochondria transplantation improves cellular bioenergetics and reduces concentration of reactive oxygen species achieving homeostasis and neuroprotection. Nonetheless, keeping mitochondria viable outside cell environment for a time longer than a few minutes proves to be challenging. Additionally, localized delivery to the injury site has also been limited by other factors including flow rate of cerebrospinal fluid that washes away mobilized organelle from the compromised tissue site. Previously we showed that using hyaluronic acid-methylcellulose semi-gels (HAMC) as a biocompatible, erodible thermogelling delivery vehicle helped to overcome some of these challenges. HAMC allows for controlled release at and around the injury site, utilizing the reverse thermogelling property of MC. Sustained release of mitochondria at slower rate can increase their uptake in spinal tissue. To better optimize the semi-gel delivery of mitochondria requires a more complete understanding of the physicochemical properties of the HAMC semi-gels. We have used ultraviolet-visible spectroscopy to measure optical density of HAMC semi-gels for different HA to MC ratios and examine the temperature dependent gelation properties above their low critical solution temperature (LCST). The viscosity and degree of crystallinity of the resulting HAMC semi-gels were also assessed. Semi-gel erosion and mitochondrial release over time were studied using a fluorescence microplate reader. Lastly, seahorse assay was used to study released mitochondria respiration and viability after incubation in HAMC semi-gel.

Navigating the Journey: Transitioning Spinal Cord Injuries from Acute Care to Rehabilitation

PM&R plays an essential role in managing the individual with a spinal cord injury (SCI). Receiving care at an acute hospital and a rehabilitation center familiar with SCIs is critical. PM&R can guide the health care team and the patient/family through such a potentially life-changing event. Early consultation can help prevent complications and decrease stay length and mortality. A life-long relationship with the rehabilitation team is often recommended; team members such as navigators and multiple inpatient rehabilitation stays can help enhance care and opportunities for individuals with SCI.

Choosing non-pharmacological treatments for neuropathic pain in spinal cord injury: a qualitative study

PURPOSE

The aims of this study were to explore (1) the considerations of people with spinal cord injury (SCI) in choosing to use non-pharmacological treatments (N-PTs) for neuropathic pain (NP), (2) which factors influence their decision and who is involved in this choice.

MATERIALS AND METHODS

Eleven individuals with SCI and NP were interviewed. Interviews were transcribed verbatim, transcripts were analysed through thematic coding, following an inductive content analysis approach.

RESULTS

A journey towards finding and choosing N-PTs emerged. Key phases in this journey were: motives, strategy and practical considerations. Pain and its impact on their life led participants to consider N-PTs. Motives were participants' negative attitudes towards regular medication, willingness to try everything and disappointment and frustration with the guidance from their health care provider (HCP). The search strategies often involved third parties and the internet. This led them to choose a specific N-PT. The journey was influenced by one's attitude, previous personal experience, experience of HCPs, financial considerations, availability and convenience of the treatment.

CONCLUSIONS

The journey individuals with SCI and NP go through to find N-PTs to manage pain is difficult and often lonely. Findings highlight the importance of HCPs accompanying people with SCI in finding N-PTs.

Evolution of Lipid Metabolism in the Injured Mouse Spinal Cord

Following spinal cord injury (SCI), there is a short-lived recovery phase that ultimately plateaus. Understanding changes within the spinal cord over time may facilitate targeted approaches to prevent and/or reverse this plateau and allow for continued recovery. Untargeted metabolomics revealed distinct metabolic profiles within the injured cord during recovery (7 days postinjury [DPI]) and plateau (21 DPI) periods in a mouse model of severe contusion SCI. Alterations in lipid metabolites, particularly those involved in phospholipid (PL) metabolism, largely contributed to overall differences. PLs are hydrolyzed by phospholipases A2 (PLA2s), yielding lysophospholipids (LPLs) and fatty acids (FAs). PL metabolites decreased between 7 and 21 DPI, whereas LPLs increased at 21 DPI, suggesting amplified PL metabolism during the plateau phase. Expression of various PLA2s also differed between the two time points, further supporting dysregulation of PL metabolism during the two phases of injury. FAs, which can promote inflammation, mitochondrial dysfunction, and neuronal damage, were increased regardless of time point. Carnitine can bind with FAs to form acylcarnitines, lessening FA-induced toxicity. In contrast to FAs, carnitine and acylcarnitines were increased at 7 DPI, but decreased at 21 DPI, suggesting a loss of carnitine-mediated mitigation of FA toxicity at the later time point, which may contribute to the cessation of recovery post-SCI. Alterations in oxidative phosphorylation and tricarboxylic acid cycle metabolites were also observed, indicating persistent although dissimilar disruptions in mitochondrial function. These data aid in increasing our understanding of lipid metabolism following SCI and have the potential to lead to new biomarkers and/or therapeutic strategies.

Development of a machine learning model and a web application for predicting neurological outcome at hospital discharge in spinal cord injury patients

BACKGROUND

Spinal cord injury (SCI) is a devastating condition with profound physical, psychological, and socioeconomic consequences. Despite advances in SCI treatment, accurately predicting functional recovery remains a significant challenge. Conventional prognostic methods often fall short in capturing the complex interplay of factors influencing SCI outcomes. There is an urgent demand for more precise and comprehensive prognostic tools that can guide clinical decision-making and improve patient care in SCI.

PURPOSE

This study aims to develop and validate a machine learning (ML) model for predicting American Spinal Injury Association (ASIA) Impairment Scale (AIS) at discharge in SCI patients. We also aim to convert this model into an open-access web application.

STUDY DESIGN/SETTING

This was a retrospective cohort study enrolling traumatic SCI patients from 1991 to 2015, analyzed in 2023. Data were obtained from the Japan Rehabilitation Database (JARD), a comprehensive nationwide database that includes SCI patients from specialized SCI centers and rehabilitation hospitals across Japan.

PATIENTS SAMPLE

4,108 SCI cases from JARD were reviewed, excluding 405 cases, patients caused by nontraumatic injuries, patients who were graded as AIS E at admission, and patients without data of AIS at discharge, resulting in 3,703 cases being included in the study. Patient demographics and specific SCI injury characteristics at admission were utilized for model training and prediction.

OUTCOME MEASURES

Model performance was evaluated based on R2, accuracy, and the weighted Kappa coefficient. Shapley additive explanations (SHAP) values highlighted significant features influencing the model's output.

METHODS

The primary outcome was AIS at discharge, treated as a continuous variable (0-4) to capture the ordinal nature and clinical significance of potential misclassifications. Data preprocessing included multicollinearity removal, feature selection using the Boruta algorithm, and iterative imputation for missing data. The dataset was split using the hold-out method with a 7:3 ratio resulting in 2,592 cases for training and 1,111 cases for testing the regression model. A best performing model was defined as the highest R2 using PyCaret's automated model comparison. Final predictions of regression model were discretized to the original AIS categories for clinical interpretation.

RESULTS

The Gradient Boosting Regressor (GBR) was identified as the optimal model. The GBR model showed an R² of 0.869, accuracy of 0.814, and weighted Kappa of 0.940. Eleven key variables, including AIS at admission, the day from injury to admission, and the motor score of L3, were identified as significant based on SHAP values. This model was then adapted into a web application via Streamlit.

CONCLUSIONS

We developed a high-accuracy ML model for predicting the AIS at discharge, which effectively captures the ordinal nature of the AIS scale, using 11 key variables. This model demonstrated its performance to provide reliable prognostic information. The model has been integrated into a user-friendly, open-access web application (http://3.138.174.54:8502/). This tool has the potential to aid in resource allocation and enhance treatment for each patient.

Anterior cervical discectomy and fusion for subaxial cervical spine injuries; management challenges and early outcome in a neurosurgical center

Background

Anterior cervical discectomy and fusion (ACDF) is an effective technique in managing subaxial cervical spine injury (SCSI). The study highlights the experience and challenges of ACDF for SCSI in a subSaharan neurosurgical center.

Methods

The medical records of the patients who had ACDF for SCSI over 6 years in Memfys Hospital, Southeast Nigeria were reviewed. Relevant data collated include patient demographics, clinical presentation, radiologic images, operative management, and complications. All patients had right-sided ACDF after resuscitation. The follow-up period was at least 3 months.

Results

Eighty-one patients had ACDF, with male preponderance (8:1) and a mean age of 38.9 ± 12.4 years. Motor vehicular accident was the most common injury mechanism (71.6%), and the majority (59.5%) were ASIA A. C5/6 was the most common level of injury (40.7%), and the mean subaxial cervical spine injury classification system (SLIC) score was 7.8 ± 1.40. Fifty-eight (71.6%) patients presented late (>48 h after injury). ASIA A injuries, high SLIC score, and late presentation were associated with higher complication rates (P = 0.02, 0.000, and 0.0001). Dysphagia was the most common complication and was self-limiting. Improvement in neurological status was 84.75% and 10.4% for incomplete and complete injuries, respectively. Only 5% had access to onsite emergency medical services, three patients had comprehensive insurance, and rehabilitation services were available to 35.8% on discharge. The 30-day mortality was 8.6%.

Conclusion

ACDF for SCSI is associated with good outcomes in patients with incomplete spinal cord injury. Challenges in management in our setting were related to poor emergency medical services, late presentation, low insurance coverage, and limited rehabilitation services.

Amantadine modulates novel macrophage phenotypes to enhance neural repair following spinal cord injury

BACKGROUND

Spinal cord injury (SCI) triggers a complex inflammatory response that impedes neural repair and functional recovery. The modulation of macrophage phenotypes is thus considered a promising therapeutic strategy to mitigate inflammation and promote regeneration.

METHODS

We employed microarray and single-cell RNA sequencing (scRNA-seq) to investigate gene expression changes and immune cell dynamics in mice following crush injury at 3 and 7 days post-injury (dpi). High-dimensional gene co-expression network analysis (hdWGCNA) and slingshot trajectory analysis were employed to identify key gene modules and macrophage differentiation pathways. Subsequently, immunofluorescence staining, flow cytometry, and western blotting were performed to validate the identified effects of amantadine on macrophage differentiation and inflammation.

RESULTS

To elucidate the molecular mechanisms underlying the injury response at the transcriptional level, we performed a microarray analysis followed by gene set enrichment analysis (GSEA). The results revealed that pathways related to phagocytosis and macrophage activation are significantly involved post-injury, shedding light on the regulatory role of macrophages in SCI repair. To further investigate macrophage dynamics within the injured spinal cord, we conducted scRNA-Seq, identifying three distinct macrophage subtypes: border-associated macrophages (BAMs), inflammatory macrophages (IMs), and chemotaxis-inducing macrophages (CIMs). Trajectory analysis suggested a differentiation pathway from Il-1b+ IMs to Mrc1+ BAMs, and subsequently to Arg1+ CIMs, indicating a potential maturation process. Given the importance of these pathways in the injury response, we utilized molecular docking to hypothesize that amantadine might modulate this process. Subsequent in vitro and in vivo experiments demonstrated that amantadine reduces Il-1b+ IMs and facilitates the transition to Mrc1+ BAMs and Arg1+ CIMs, likely through modulation of the HIF-1α and NF-κB pathways. This modulation promotes neural regeneration and enhances functional recovery following SCI.

CONCLUSIONS

Amantadine modulates macrophage phenotypes following SCI, reduces early inflammatory responses, and enhances neural function recovery. These findings highlight the therapeutic potential of amantadine as a treatment for SCI, and provide a foundation for future translational research into its clinical applications.

Efficacy analysis of acupuncture and rehabilitation for traumatic spinal cord injury

BACKGROUND

This study investigates the role and efficacy of acupuncture combined with rehabilitation therapy during the recovery phase of patients with traumatic spinal cord injury. Patients hospitalized in the acupuncture department of our center between December 1, 2019, and December 1, 2021, were enrolled.

METHODS

Participants were divided into an observation group (acupuncture and rehabilitation therapy) and a control group (rehabilitation therapy alone) based on their treatment sequence. Initially, 15 patients were allocated to each group; however, 3 patients in the observation group and 4 in the control group withdrew, leaving 11 and 12 patients in the respective groups. The observation group received combined acupuncture and rehabilitation therapy, while the control group received conventional rehabilitation therapy. Outcomes were evaluated using the American Spinal Injury Association score and classification, urodynamic data, SF-36 scale, Functional Independence Measure, and Barthel Index, analyzed through data mining techniques.

RESULTS

Posttreatment assessments revealed significant improvements in residual urine volume and detrusor pressure in the observation group (P < .05), whereas no significant changes were noted in the control group (P > .05). Both groups demonstrated improved motor function after treatment (P < .05), with the observation group showing significantly greater improvement (P < .05). Quality of life evaluations indicated substantial enhancement in physical pain, energy levels, general health, social functioning, perceived health changes, and mental health in both groups (P < .05).

CONCLUSION

Acupuncture combined with rehabilitation therapy offers significant clinical benefits for patients with traumatic spinal cord injury. This approach effectively alleviates urinary and bowel dysfunction, accelerates motor function recovery, and improves overall quality of life, making it a valuable treatment option worthy of wider adoption.

Motion tracking with automated pose estimator can enhance ankle-foot-orthoses alignment

BACKGROUND

Ankle-foot orthoses are commonly prescribed to address motor impairments in individuals with neurological disorders. Proper alignment of Ankle-foot orthoses, commonly assessed by the ground reaction force in relation to the knee joint center and the shank-to-vertical angle, is crucial for their effectiveness but is time-consuming. This study validates automated pose estimator DeepLabCut on measuring these metrics using 2D videos with force vector overlay in individuals with neurological disorders wearing ankle-foot orthoses.

METHODS

Thirty subjects with neurological disorders wearing ankle-foot orthoses participated. DeepLabCut's performance was compared to 3D gait analysis (Vicon). Subjects were randomly divided into three groups to train (20 subjects) and evaluate (10 subjects) DeepLabCut models. The number of subjects with untrackable points of interests in their videos was determined. The mean difference, root mean square error, intraclass correlation and repeatability coefficient between DeepLabCut and Vicon were computed for videos with trackable points of interest.

FINDINGS

Only two subjects for ground reaction force distance to the knee and four subjects for the shank-to-vertical angle had untrackable points of interest. Excellent agreement between DeepLabCut and Vicon was found for the ground reaction force distance to the knee (mean difference 0.1 mm, root mean square error 6.7 mm, intraclass correlation 0.99, repeatability coefficient 6.7 mm) and shank-to-vertical angle (mean difference 0.7°, root mean square error 1.8°, intraclass correlation 0.99, repeatability coefficient 1.6°).

INTERPRETATION

This study demonstrates that DeepLabCut can accurately and efficiently assess ankle-foot orthosis alignment parameters, paving the way for a simple and straightforward 2D video setup with a force-vector overlay for automated ankle-foot orthosis alignment.

Exploring therapeutic alliance in spinal cord injury rehabilitation: Control, identity, and liminality

BACKGROUND

The therapeutic alliance (TA) has emerged as a key principle in enhancing the quality of health and rehabilitation services.

PURPOSE

This study aimed to explore patient perspectives on the influence of TAs with practitioners during inpatient rehabilitation following spinal cord injury (SCI).

METHODS

Using a qualitative methodology, (n = 18) in-depth interviews were conducted with inpatient participants. Interviews were transcribed verbatim and analyzed using reflective thematic analysis. The study was grounded in a social constructionist epistemology, employing theories of liminality and psychotherapy as theoretical frameworks.

RESULTS

Patient narratives suggest TAs are central to the rehabilitation experience. Additionally, analysis of patient stories revealed that patients entered a state of liminality upon admission. The primary theme, "Control as Enabling: Transition, the Marge," highlighted during rehabilitation, patients navigated an identity separation and transition phase central to liminal spaces. Where practitioners accommodated patients' identity journeys, meaningful TAs were established, enhancing rehabilitation. Conversely, when control was constrained, TAs weakened, increasing identity risks. TAs were found to be instrumental in protecting and preserving pre-SCI identity as well as facilitating movement through the liminal phase.

CONCLUSION

This research underscores the significance of TAs in SCI rehabilitation, demonstrating their role in enabling patient control, safeguarding identity, and facilitating the potential exit from liminality. To address the unique needs of SCI patients, it is recommended that SCI practitioners receive specialized TA training and professional development.

A multi-feature fusion graph attention network for decoding motor imagery intention in spinal cord injury patients

Objective.Electroencephalogram (EEG) signals exhibit temporal-frequency-spatial multi-domain feature, and due to the nonplanar nature of the brain surface, the electrode distributions follow non-Euclidean topology. To fully resolve the EEG signals, this study proposes a temporal-frequency-spatial multi-domain feature fusion graph attention network (GAT) for motor imagery (MI) intention recognition in spinal cord injury (SCI) patients.Approach.The proposed model uses phase-locked value (PLV) to extract spatial phase connectivity information between EEG channels and continuous wavelet transform to extract valid EEG information in the time-frequency domain. It then models as a graph data structure containing multi-domain information. The gated recurrent unit and GAT learn EEG's dynamic temporal-spatial information. Finally, the fully connected layer outputs the MI intention recognition results.Main results.After 10 times 10-fold cross-validation, the proposed model can achieve an average accuracy of 95.82%. Furthermore, this study analyses the event-related desynchronization/event-related synchronization and PLV brain network to explore the brain activity of SCI patients during MI.Significance.This study confirms the potential of the proposed model in terms of EEG decoding performance and provides a reference for the mechanism of neural activity in SCI patients.

Cortical intermittent theta burst stimulation on gait pathomechanics and urinary tract dysfunction in incomplete spinal cord injury patients: Protocol for a randomized controlled trial

Gait impairment and neurogenic bladder are co-existing common findings in incomplete spinal cord injury (iSCI). Repetitive transcranial magnetic stimulation (rTMS), evident to be a promising strategy adjunct to physical rehabilitation to regain normal ambulation in SCI. However, there is a need to evaluate the role of Intermittent theta burst stimulation (iTBS), a type of patterned rTMS in restoring gait and neurogenic bladder in SCI patients. The aim of the present study is to quantify the effect of iTBS on spatiotemporal, kinetic, and kinematic parameters of gait and neurogenic bladder dyssynergia in iSCI. After maturing all exclusion and inclusion criteria, thirty iSCI patients will be randomly divided into three groups: Group-A (sham), Group-B (active rTMS) and Group-C (active iTBS). Each group will receive stimulation adjunct to physical rehabilitation for 2 weeks. All patients will undergo gait analysis, as well assessment of bladder, electrophysiological, neurological, functional, and psychosocial parameters. All parameters will be assessed at baseline and 6th week (1st follow-up). Parameters except urodynamics and gait analysis will also be assessed after the end of the 2 weeks of the intervention (post-intervention) and at 12th week (2nd follow-up). Appropriate statistical analysis will be done using various parametric and non-parametric tests based on results.

Immersive virtual reality for learning exoskeleton-like virtual walking: a feasibility study

PURPOSE

Virtual Reality (VR) has proven to be an effective tool for motor (re)learning. Furthermore, with the current commercialization of low-cost head-mounted displays (HMDs), immersive virtual reality (IVR) has become a viable rehabilitation tool. Nonetheless, it is still an open question how immersive virtual environments should be designed to enhance motor learning, especially to support the learning of complex motor tasks. An example of such a complex task is triggering steps while wearing lower-limb exoskeletons as it requires the learning of several sub-tasks, e.g., shifting the weight from one leg to the other, keeping the trunk upright, and initiating steps. This study aims to find the necessary elements in VR to promote motor learning of complex virtual gait tasks.

METHODS

In this study, we developed an HMD-IVR-based system for training to control wearable lower-limb exoskeletons for people with sensorimotor disorders. The system simulates a virtual walking task of an avatar resembling the sub-tasks needed to trigger steps with an exoskeleton. We ran an experiment with forty healthy participants to investigate the effects of first- (1PP) vs. third-person perspective (3PP) and the provision (or not) of concurrent visual feedback of participants' movements on the walking performance - namely number of steps, trunk inclination, and stride length -, as well as the effects on embodiment, usability, cybersickness, and perceived workload.

RESULTS

We found that all participants learned to execute the virtual walking task. However, no clear interaction of perspective and visual feedback improved the learning of all sub-tasks concurrently. Instead, the key seems to lie in selecting the appropriate perspective and visual feedback for each sub-task. Notably, participants embodied the avatar across all training modalities with low cybersickness levels. Still, participants' cognitive load remained high, leading to marginally acceptable usability scores.

CONCLUSIONS

Our findings suggest that to maximize learning, users should train sub-tasks sequentially using the most suitable combination of person's perspective and visual feedback for each sub-task. This research offers valuable insights for future developments in IVR to support individuals with sensorimotor disorders in improving the learning of walking with wearable exoskeletons.

Global Research Trends on Gait Rehabilitation in Individuals With Spinal Cord Injury- A Bibliometric Analysis

STUDY DESIGN

Bibliometric analysis.

OBJECTIVE

The study aims to comprehensively assess the literature related to gait rehabilitation for individuals with spinal cord injury (SCI) to identify significant contributors, and to explore the collaborations and emerging themes in the field.

METHODS

Original and review articles in English using relevant keywords were searched in the Clarivate Web of Science database. The data from the selected articles were imported into R software. Bibliometric indicators were assessed to determine author contributions, country affiliations, journal sources, and thematic trends.

RESULTS

A total of 1313 relevant articles were identified. The USA, followed by Canada and Switzerland were the most prolific countries contributing to gait rehabilitation research in SCI. The most relevant journals were Spinal Cord, Archives of Physical Medicine and Rehabilitation, Journal of Spinal Cord Medicine, Journal of NeuroEngineering, and Journal of Neurotrauma. The highest contributions came from Northwestern University, the University of Miami, and the University of Alberta. The analysis revealed an increase in research interest in gait rehabilitation after 2000, with a focus on interdisciplinary approaches and emerging technologies like robotics, exoskeletons, and neuromodulation.

CONCLUSION

The analysis demonstrates the importance of collaborative and interdisciplinary research in gait rehabilitation. The results indicate a shift in research focus from traditional methods to the integration of technology. The impact of publications from the USA and Europe is a notable finding. The study highlights the growth of articles related to technology-driven approaches and understanding neuroplasticity in gait rehabilitation.

Unmet needs to admission in physical and rehabilitation inpatient department in Low and Middle Income Countries in 2023

BACKGROUND

Determining the needs to access to rehabilitation structures is essential for developing effective improvement strategies. The objective of this study was to determine the percentage of unmet needs to admission to rehabilitation and their associated factors.

METHODS

It is a cross sectional study in the inpatient rehabilitation department Sahloul Hospital of Sousse, tertiary care center including all requests to admission. Patient demographics, diagnoses, admission decisions, and post-decision outcomes were collected for each request.

RESULTS

Of 329 admission requests, 316 were eligible. The mean patient age was 45 years, with a male-to-female ratio of 0.84. Most requests originated from the hospital's outpatient department, neurology, and orthopedics. Among all requests, 40.5% were not admitted. Non-neurological diagnoses and patient residency were associated with non-admission. Patients with non-neurological conditions and those residing outside the city had twice the risk of non-admission. At one month, 63% of non-admitted patients experienced functional decline, and 18% were lost to follow-up.

CONCLUSION

Unmet needs to admission in rehabilitation structures is high due to lack of beds. This is leading of inequity of access to such important phase of care more. This study highlighted throwing the example of physical and rehabilitation department the gap of needs and the capacity of inpatient rehabilitation facilities. Healthcare policies should prioritize increasing rehabilitation bed availability in all regions of the country.

Evaluation of Rehabilitation Outcomes in Patients with Chronic Neurological Health Conditions Using a Machine Learning Approach

Background: Over one billion people worldwide suffer from neurological conditions that cause mobility impairments, often persisting despite rehabilitation. Chronic neurological disease (CND) patients who lack access to continuous rehabilitation face gradual functional decline. The International Classification of Functioning, Disability, and Health (ICF) provides a comprehensive framework for assessing these patients. Objective: This study aims to evaluate the outcomes of a non-hospitalized neuromotor rehabilitation project for CND patients in Italy using the Barthel Index (BI) as the primary outcome measure. The rehabilitation was administered through an Individual Rehabilitation Plan (IRP), tailored by a multidisciplinary team and coordinated by a physiatrist. The IRP involved an initial comprehensive assessment, individualized therapy administered five days a week, and continuous adjustments based on patient progress. The secondary objectives include assessing mental status and sensory and communication functions, and identifying predictive factors for BI improvement using an artificial neural network (ANN). Methods: A retrospective observational study of 128 CND patients undergoing a rehabilitation program between 2018 and 2023 was conducted. Variables included demographic data, clinical assessments (BI, SPMSQ, and SVaMAsc), and ICF codes. Data were analyzed using descriptive statistics, linear regressions, and ANN to identify predictors of BI improvement. Results: Significant improvements in the mean BI score were observed from admission (40.28 ± 29.08) to discharge (42.53 ± 30.02, p < 0.001). Patients with severe mobility issues showed the most difficulty in transfers and walking, as indicated by the ICF E codes. Females, especially older women, experienced more cognitive decline, affecting rehabilitation outcomes. ANN achieved 86.4% accuracy in predicting BI improvement, with key factors including ICF mobility codes and the number of past rehabilitation projects. Conclusions: The ICF mobility codes are strong predictors of BI improvement in CND patients. More rehabilitation sessions and targeted support, especially for elderly women and patients with lower initial BI scores, can enhance outcomes and reduce complications. Continuous rehabilitation is essential for maintaining progress in CND patients.

Quantifying Treatments as Usual and with Technologies in Neurorehabilitation of Individuals with Spinal Cord Injury

Several technologies have been introduced into neurorehabilitation programs to enhance traditional treatment of individuals with Spinal Cord Injury (SCI). Their effectiveness has been widely investigated, but their adoption has not been properly quantified. The aim of this study is to assess the distribution of conventional (Treatment As Usual-TAU) and technology-aided (Treatment With Technologies-TWT) treatments conveniently grouped based on different therapeutic goals in a selected SCI unit. Data from 104 individuals collected in 29 months were collected in a custom database and categorized according to both the conventional American Impairment Scale classification and a newly developed Multifactor (MF) clustering approach that considers additional sources of information (the lesion level, the level of independence in the activities of daily living, and the hospitalization duration). Results indicated an average technology adoption of about 30%. Moreover, the MF clusters were less overlapped, and the differences in TWT adoption were more pronounced than in AIS-based clustering. MF clustering was capable of grouping individuals based both on neurological features and functional abilities. In particular, individuals with motor complete injuries were grouped together, whereas individuals with sensorimotor incomplete SCI were collected separately based on the lesion level. As regards TWT adoption, we found that in the case of motor complete SCI, TWT for muscle tone control and modulation was mainly selected (about 90% of TWT), while the other types of TWT were seldom adopted. Even for individuals with incomplete SCI, the most frequent rehabilitation goal was muscle tone modulation (about 75% of TWT), regardless of the AIS level, and technologies to improve walking ability (about 12% of TWT) and balance control (about 10% of TWT) were mainly used for individuals with thoracic or lumbar lesions. Analyzing TAU distribution, we found that the highest adoption of muscle tone modulation strategies was reported in the case of individuals with motor complete SCI (about 42% of TAU), that is, in cases when almost no gait training was pursued (about 1% of TAU). In the case of cervical motor incomplete SCI, compared to thoracic and lumbar incomplete SCI, there was a greater focus on muscle tone control and force recruitment in addition to walking training (38% and 14% of TAU, respectively) than on balance training. Overall, the MF clustering provided more insights than the traditional AIS-based classification, highlighting differences in TWT adoption. These findings suggest that a wider overview that considers both neurological and functional characteristics of individuals after SCI based on a multifactor analysis could enhance the personalization of neurorehabilitation strategies.

Rehabilitation to Improve Outcomes after Cervical Spine Surgery: Narrative Review

PURPOSE

The increasing elderly patient population is contributing to the rising worldwide load of cervical spinal disorders, which is expected to result in a global increase in the number of surgical procedures in the foreseeable future. Cervical rehabilitation plays a crucial role in optimal recovery after cervical spine surgeries. Nevertheless, there is no agreement in the existing research regarding the most suitable postsurgical rehabilitation program. Consequently, this review assesses the ideal rehabilitation approach for adult patients following cervical spine operations.

MATERIALS AND METHODS

This review covers activities of daily living and encompasses diverse treatment methods, including physiotherapy, specialized tools, and guidance for everyday activities. The review is organized under three headings: (1) historical perspectives, (2) patient-reported functional outcomes, and (3) general and disease-specific rehabilitation.

RESULTS

Rehabilitation programs are determined on the basis of patient-reported outcomes, performance tests, and disease prognosis. CSM requires strengthening of the neck and shoulder muscles that have been surgically invaded. In contrast, the CCI requires mobility according to the severity of the spinal cord injury and functional prognosis. The goal of rehabilitation for CCTs, as for CCIs, is to achieve ambulation, but the prognosis and impact of cancer treatment must be considered.

CONCLUSIONS

Rehabilitation of the cervical spine after surgery is essential for improving physical function and the ability to perform daily activities and enhancing overall quality of life. The rehabilitation process should encompass general as well as disease-specific exercises. While current rehabilitation protocols heavily focus on strengthening muscles, they often neglect the crucial aspect of spinal balance. Therefore, giving equal attention to muscle reinforcement and the enhancement of spinal balance following surgery on the cervical spine is vital.

Effect of a soft exosuit on daily life gait performance in people with incomplete spinal cord injury: study protocol for a randomized controlled trial

BACKGROUND

People with incomplete spinal cord injury (iSCI) often have gait impairments that negatively affect daily life gait performance (i.e., ambulation in the home and community setting) and quality of life. They may benefit from light-weight lower extremity exosuits that assist in walking, such as the Myosuit (MyoSwiss AG, Zurich, Switzerland). A previous pilot study showed that participants with various gait disorders increased their gait speed with the Myosuit in a standardized environment. However, the effect of a soft exosuit on daily life gait performance in people with iSCI has not yet been evaluated.

OBJECTIVE

The primary study objective is to test the effect of a soft exosuit (Myosuit) on daily life gait performance in people with iSCI. Second, the effect of Myosuit use on gait capacity and the usability of the Myosuit in the home and community setting will be investigated. Finally, short-term impact on both costs and effects will be evaluated.

METHODS

This is a two-armed, open label, randomized controlled trial (RCT). Participants will be randomized (1:1) to the intervention group (receiving the Myosuit program) or control group (initially receiving the conventional program). Thirty-four people with chronic iSCI will be included. The Myosuit program consists of five gait training sessions with the Myosuit at the Sint Maartenskliniek. Thereafter, participants will have access to the Myosuit for home use during 6 weeks. The conventional program consists of four gait training sessions, followed by a 6-week home period. After completing the conventional program, participants in the control group will subsequently receive the Myosuit program. The primary outcome is walking time per day as assessed with an activity monitor at baseline and during the first, third, and sixth week of the home periods. Secondary outcomes are gait capacity (10MWT, 6MWT, and SCI-FAP), usability (D-SUS and D-QUEST questionnaires), and costs and effects (EQ-5D-5L).

DISCUSSION

This is the first RCT to investigate the effect of the Myosuit on daily life gait performance in people with iSCI.

TRIAL REGISTRATION

Clinicaltrials.gov NCT05605912. Registered on November 2, 2022.

Learning to Control Complex Robots Using High-Dimensional Body-Machine Interfaces

When individuals are paralyzed from injury or damage to the brain, upper body movement and function can be compromised. While the use of body motions to interface with machines has shown to be an effective noninvasive strategy to provide movement assistance and to promote physical rehabilitation, learning to use such interfaces to control complex machines is not well understood. In a five session study, we demonstrate that a subset of an uninjured population is able to learn and improve their ability to use a high-dimensional Body-Machine Interface (BoMI), to control a robotic arm. We use a sensor net of four inertial measurement units, placed bilaterally on the upper body, and a BoMI with the capacity to directly control a robot in six dimensions. We consider whether the way in which the robot control space is mapped from human inputs has any impact on learning. Our results suggest that the space of robot control does play a role in the evolution of human learning: specifically, though robot control in joint space appears to be more intuitive initially, control in task space is found to have a greater capacity for longer-term improvement and learning. Our results further suggest that there is an inverse relationship between control dimension couplings and task performance.

The changing epidemiology of traumatic spine injuries: a trends analysis of 26 years of patients at a major level 1 trauma center in the United States

BACKGROUND CONTEXT

Traumatic spinal injuries (TSI) are associated with high morbidity, mortality, and resource utilization. The epidemiology of TSI varies greatly across different countries and regions and is impacted by national income levels, infrastructure, and cultural factors. Further, there may be changes over time. It is essential to investigate TSI to gain useful epidemiologic information. However, there have been no recent studies on trends for TSI in the US, despite the changing population demographics, healthcare policy, and technology. As a result, reexamination is warranted to reflect how the modern era has affected the epidemiology of US spine trauma patients and their management.

PURPOSE

To determine epidemiologic trends in traumatic spine injuries over time.

STUDY DESIGN/SETTING

Retrospective analysis; level 1 trauma center in the United States.

PATIENT SAMPLE

A total of 21,811 patients, between the years of 1996 and 2022, who presented with traumatic spine injury.

OUTCOME MEASURES

Age, sex, race, Injury Severity Score, mechanism of injury, injury diagnosis, injury level, rate of operative intervention, hospital length of stay, intensive care unit length of stay, discharge disposition, in-hospital mortality.

METHODS

Data was collected from our institutional trauma registry over a 26-year period. Inclusion criteria involved at least one diagnosis of vertebral fracture, spinal cord injury, spinal subluxation, or intervertebral disc injury. Exclusion criteria consisted of patients with no diagnosed spine injury or a diagnosis of strain only. A total of 21,811 patients were included in the analysis. Descriptive statistics were tabulated and ordinary least squares linear regression was conducted for trends analysis.

RESULTS

Regression analysis showed a significant upward trend in patient age (+13.83 years, β=+0.65/year, p<.001), female sex (+2.7%, β=+0.18%/year, p=.004), falls (+10.5%, β=+0.82%/year, p<.001), subluxations (+12.8%, β=+0.35%/year, p<.001), thoracic injuries (+1.5%, β=+0.28%/year, p<.001), and discharges to subacute rehab (+15.9%, β=+0.68%/year, p<.001). There was a significant downward trend in motor vehicle crashes (-7.8%, β=-0.47%/year, p=.016), firearms injuries (-3.4%, β=-0.19%/year, p<.001), sports/recreation injuries (-2.9%, β=-0.18%/year, p<.001), spinal cord injuries (-11.25%, β=-0.37%, p<.001), complete spinal cord injuries (-7.6%, β=-0.24%/year, p<.001), and discharges to home (+4.5%, β=-0.27%/year, p=.011).

CONCLUSIONS

At our institution, the average spine trauma patient has trended toward older females. Falls represent an increasing proportion of the mechanism of injury, on a trajectory to become the most common cause. With time, there have been fewer spinal cord injuries and a lower proportion of complete injuries. At discharge, there has been a surge in the utilization of subacute rehabilitation facilities. Overall, there has been no significant change in injury severity, rate of operative intervention, length of stay, or mortality.

A qualitative study of the perceived benefits of participating in a spinal cord rehabilitation intervention in a low-middle income country

PURPOSE

Improving quality of life (QoL) is a major goal of rehabilitation following spinal cord injury (SCI). However, people with disabilities in resource constrained contexts have limited access to rehabilitation and poorer health outcomes, including QoL. There is a paucity of qualitative research on the experiences of persons with SCI involved in rehabilitation programmes in low-middle income countries. This study aimed to assess participants' perceptions of the benefits of a 24-week SCI rehabilitation programme delivered as part of a pilot randomized controlled trial (RCT) in South Africa.

MATERIALS AND METHODS

Sixteen participants, with chronic motor-incomplete tetraplegia, were enrolled in a two-arm pilot RCT involving robotic locomotor training, a novel technology, and standard activity-based training (Pan African Clinical Trial Registry (PACTR201608001647143)). Data were collected via in-depth interviews and analysed using thematic analysis.

RESULTS

Participants described several improvements in QoL, including enhanced functional independence; reduced secondary complications; and improved psychosocial and emotional well-being.

CONCLUSIONS

The holistic approach to rehabilitation calls for the involvement of individuals' views about what matters to them to inform clinical practice and to highlight the role that physical activity and the perceived successes play in shaping the lived experiences after SCI.

TRIAL REGISTRATION

Pan African Clinical Trial Registry (PACTR201608001647143), registration date (21st May 2016), study start date (30th Nov 2016)https://pactr.samrc.ac.za/TrialDisplay.aspx?TrialID=1647.

What affects implementation of the UK major trauma rehabilitation prescription? A survey informed by the behaviour change wheel

OBJECTIVE

Major trauma 'Rehabilitation Prescriptions' aim to facilitate continuity of care and describe patient needs following discharge from UK Major Trauma Centre (MTCs), however research suggests rehabilitation prescriptions are not being implemented as intended. We aimed to identify factors influencing completion and use of rehabilitation prescriptions using the Behaviour Change Wheel (BCW) and Theoretical Domains Framework (TDF).

DESIGN

Online survey informed by the TDF and BCW.

SETTING

UK trauma rehabilitation pathway.

POPULATION

Rehabilitation and trauma service providers involved in completing and/or using rehabilitation prescriptions (n = 78).

ANALYSIS

Mean scores were calculated for TDF behavioural domains, identifying facilitators (score ≥5) and barriers (≤3.5) to rehabilitation prescription implementation. Thematic analysis of free text data informed by the BCW/TDF identified further facilitators and barriers, plus potential behaviour change strategies.

RESULTS

Most respondents worked in UK MTCs (n = 63) and were physiotherapists (n = 34), trauma rehabilitation coordinators (n = 16) or occupational therapists (n = 15). 'Social/professional role and identity', 'knowledge' and 'emotion' (the highest-scoring TDF domains) were facilitators to implementing rehabilitation prescriptions. Qualitative data identified barriers to rehabilitation prescription completion, including 'seen as tick-box exercise','not a priority', lack of resources (IT and workforce), poor inter-service communication, limited knowledge/training. Facilitators included therapist buy-in, standardised training, easy inter-service rehabilitation prescription transfer, usefulness for sharing patient needs.

CONCLUSIONS

Although rehabilitation prescriptions are valued by some service providers, their effectiveness is hindered by negative attitudes, limited knowledge and poor communication. Uncertainties exist about whether rehabilitation prescriptions achieve their goals, particularly in documenting patient needs, engaging patients in rehabilitation, and informing onward referrals following MTC discharge. Improving IT systems, empowering patients, redirecting funding, and providing training might improve their usage. Further research should explore service provider and patient perspectives, and prospective long-term follow-up on outcomes of rehabilitation prescription recommendations.

Restoring initial steps by intermittent theta burst stimulation in complete spinal cord injury patient: a case report

INTRODUCTION

Spinal cord injury (SCI) causes damage to neurons and results in motor and sensory dysfunction. Intermittent theta burst stimulation (iTBS) has been used to induce neuronal and synaptic plasticity by applying a magnetic field in the brain. The plasticity induced in the cortex has an imperative role in the recovery of motor and sensory functioning. However, the effect of iTBS in complete SCI patients is still elusive.

CASE PRESENTATION

We report here the case of a 27-year-old female who sustained an L1 complete spinal cord injury (SCI) with an ASIA score of A. The patient lost all the sensory and motor functions below the level of injury. Intermittent theta burst stimulation (iTBS) was administered at 80% of the resting motor threshold over the M1 motor cortex, along with intensive rehabilitation training to promote sensorimotor function.

DISCUSSION

There was a partial recovery in functional, electrophysiological, and neurological parameters. The case report also demonstrates the safety and efficacy of iTBS in complete SCI patients. No adverse event has been observed in the patient during intervention sessions.

Mindfulness for health and wellbeing in adults with spinal cord injury: A scoping review

CONTEXT

Individuals with spinal cord injury (SCI) require resources to prevent or self-manage complications in order to maintain optimum functioning and well-being. Rehabilitation literature suggests that mindfulness as an internal psychological resource can play a crucial role in promoting self-management and improving health and well-being.

OBJECTIVES

We sought to identify and synthesize existing evidence on the role of mindfulness and mindfulness-based interventions in health and well-being outcomes among adults with SCI.

METHODS

We conducted a scoping review, searching evidence across four electronic databases, CINAHL, PubMed, PsycINFO, and Web of Science, for articles published between 2000 and 2023. Additional articles were searched from the reference list of identified articles.

RESULTS

Of 354 articles identified in the search, 20 were included in the scoping review. Thirteen studies were interventional in design, while the other seven included cross-sectional and qualitative designs. Some interventional studies examined mindfulness as the major component of the interventions, whereas other studies integrated mindfulness as one component of the intervention program. Overall, mindfulness and mindfulness-based interventions were associated with a range of health and well-being outcomes among individuals with SCI.

CONCLUSIONS

Mindfulness and mindfulness-based interventions appear to positively impact health and well-being in adults with SCI. However, mindfulness interventions were inconsistent in terms of content, delivery frequency, and duration. It is essential to develop multifaceted, tailored mindfulness interventions utilizing a consumer-based approach and established theories of mindfulness and mindfulness-based practices for adults with SCI.

Anterior Spinal Artery Syndrome in a Patient With Multilevel Cervical Disc Disease: A Case Report

Anterior spinal artery syndrome (ASAS) is a rare form of spinal cord infarction, making its incidence and prevalence difficult to determine. We present the case of a 60-year-old woman with multiple vascular risk factors who experienced a sudden onset of severe lower limb weakness, raising immediate concerns about spinal cord ischemia. Diagnostic evaluations confirmed ASAS, although the exact cause and mechanism of her spinal cord infarction remained undetermined. The potential presence of significant cervical disc disease suggests fibrocartilaginous embolism (FCE) as a possible underlying mechanism, despite the lack of direct evidence. This case underscores the importance of clinical awareness and timely intervention in patients with similar symptoms and vascular risk factors. Early recognition, cause identification, and appropriate management are crucial for improving outcomes in spinal cord ischemia, guiding specific treatment strategies, and potentially preventing recurrence.

A Structured Literature Review on the Research and Design of Rehabilitation Environments

AIM

This literature review is conducted to identify knowledge gaps and shape a framework for the development of guidelines and future research on programming and design of rehabilitation environments.

BACKGROUND

Patients suffering from trauma, stroke, neurological or cardiopulmonary conditions, or recovering from surgery or cancer treatment require rehabilitation services. A comprehensive rehabilitation program can support continuum of care for inpatient and outpatient groups. However, within most facilities, rehabilitation environments are found to be outdated and undersized compared to other programs or lack the correct adjacencies within the facility. Unfortunately, this deficiency is echoed by limited guidelines on programming, planning, and design of these environments. General guidelines derived from healthcare environments research is not adaptable to rehabilitation environments, because the paradigm used in most healthcare environment research does not address specific needs of rehabilitation patients in regaining confidence or relearning daily life skills.

METHOD

We conducted a structured literature review, using Preferred Reporting Items for Systematic Reviews and Meta-Analyses as a basis for reporting the available body of work on evidence-based research in rehabilitation environments.

RESULT AND CONCLUSION

Through analysis of the limited literature, specific mediators such as patient confidence and motivation were identified. An environment that creates a balance between privacy and social interaction can promote these mediators. Creating enriched environments through elements that engage the senses and encourage more social and physical interaction is essential for recovery. Finally, accessibility and wayfinding are of great importance in these environments due to potential limited mobility or cognitive impairments of patients.

Invasive Brain Computer Interface for Motor Restoration in Spinal Cord Injury: A Systematic Review

STUDY DESIGN

Systematic review of the literature.

OBJECTIVES

In recent years, brain-computer interface (BCI) has emerged as a potential treatment for patients with spinal cord injury (SCI). This is the first systematic review of the literature on invasive closed-loop BCI technologies for the treatment of SCI in humans.

MATERIALS AND METHODS

A comprehensive search of PubMed MEDLINE, Web of Science, and Ovid EMBASE was conducted following Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines.

RESULTS

Of 8316 articles collected, 19 studies met all the inclusion criteria. Data from 21 patients were extracted from these studies. All patients sustained a cervical SCI and were treated using either a BCI with intracortical microelectrode arrays (n = 18, 85.7%) or electrocorticography (n = 3, 14.3%). To decode these neural signals, machine learning and statistical models were used: support vector machine in eight patients (38.1%), linear estimator in seven patients (33.3%), Hidden Markov Model in three patients (14.3%), and other in three patients (14.3%). As the outputs, ten patients (47.6%) underwent noninvasive functional electrical stimulation (FES) with a cuff; one (4.8%) had an invasive FES with percutaneous stimulation, and ten (47.6%) used an external device (neuroprosthesis or virtual avatar). Motor function was restored in all patients for each assigned task. Clinical outcome measures were heterogeneous across all studies.

CONCLUSIONS

Invasive techniques of BCI show promise for the treatment of SCI, but there is currently no technology that can restore complete functional autonomy in patients with SCI. The current techniques and outcomes of BCI vary greatly. Because invasive BCIs are still in the early stages of development, further clinical studies should be conducted to optimize the prognosis for patients with SCI.

Efficacy of Walking Adaptability Training on Walking Capacity in Ambulatory People With Motor Incomplete Spinal Cord Injury: A Multicenter Pragmatic Randomized Controlled Trial

BACKGROUND AND OBJECTIVE

Balance and walking capacity are often impaired in people with motor incomplete spinal cord injury (iSCI), frequently resulting in reduced functional ambulation and participation. This study aimed to assess the efficacy of walking adaptability training compared to similarly dosed conventional locomotor and strength training for improving walking capacity, functional ambulation, balance confidence, and participation in ambulatory people with iSCI.

METHODS

We conducted a 2-center, parallel-group, pragmatic randomized controlled trial. Forty-one people with iSCI were randomized to 6 weeks of (i) walking adaptability training (11 hours of Gait Real-time Analysis Interactive Lab (GRAIL) training-a treadmill in a virtual reality environment) or (ii) conventional locomotor and strength training (11 hours of treadmill training and lower-body strength exercises). The primary measure of walking capacity was maximal walking speed, measured with an overground 2-minute walk test. Secondary outcome measures included the Spinal Cord Injury Functional Ambulation Profile (SCI-FAP), the Activities-specific Balance Confidence (ABC) scale, and the Utrecht Scale for Evaluation of Rehabilitation-Participation (USER-P).

RESULTS

No significant difference in maximal walking speed between the walking adaptability (n = 17) and conventional locomotor and strength (n = 18) training groups was found 6 weeks after training at follow-up (-0.05 m/s; 95% CI = -0.12-0.03). In addition, no significant group differences in secondary outcomes were found. However, independent of intervention, significant improvements over time were found for maximal walking speed, SCI-FAP, ABC, and USER-P restrictions scores. Conclusions. Our findings suggest that walking adaptability training may not be superior to conventional locomotor and strength training for improving walking capacity, functional ambulation, balance confidence, or participation in ambulatory people with iSCI.

TRIAL REGISTRATION

Dutch Trial Register; Effect of GRAIL training in iSCI.

Adipose-derived stem cell therapy for spinal cord injuries: Advances, challenges, and future directions

Spinal cord injury (SCI) has limited treatment options for regaining function. Adipose-derived stem cells (ADSCs) show promise owing to their ability to differentiate into multiple cell types, promote nerve cell survival, and modulate inflammation. This review explores ADSC therapy for SCI, focusing on its potential for improving function, preclinical and early clinical trial progress, challenges, and future directions. Preclinical studies have demonstrated ADSC transplantation's effectiveness in promoting functional recovery, reducing cavity formation, and enhancing nerve regrowth and myelin repair. To improve ADSC efficacy, strategies including genetic modification and combination with rehabilitation are being explored. Early clinical trials have shown safety and feasibility, with some suggesting motor and sensory function improvements. Challenges remain for clinical translation, including optimizing cell survival and delivery, determining dosing, addressing tumor formation risks, and establishing standardized protocols. Future research should focus on overcoming these challenges and exploring the potential for combining ADSC therapy with other treatments, including rehabilitation and medication.

Immersive VR for upper-extremity rehabilitation in patients with neurological disorders: a scoping review

BACKGROUND

Neurological disorders, such as stroke and chronic pain syndromes, profoundly impact independence and quality of life, especially when affecting upper extremity (UE) function. While conventional physical therapy has shown effectiveness in providing some neural recovery in affected individuals, there remains a need for improved interventions. Virtual reality (VR) has emerged as a promising technology-based approach for neurorehabilitation to make the patient's experience more enjoyable. Among VR-based rehabilitation paradigms, those based on fully immersive systems with headsets have gained significant attention due to their potential to enhance patient's engagement.

METHODS

This scoping review aims to investigate the current state of research on the use of immersive VR for UE rehabilitation in individuals with neurological diseases, highlighting benefits and limitations. We identified thirteen relevant studies through comprehensive searches in Scopus, PubMed, and IEEE Xplore databases. Eligible studies incorporated immersive VR for UE rehabilitation in patients with neurological disorders and evaluated participants' neurological and motor functions before and after the intervention using clinical assessments.

RESULTS

Most of the included studies reported improvements in the participants rehabilitation outcomes, suggesting that immersive VR represents a valuable tool for UE rehabilitation in individuals with neurological disorders. In addition, immersive VR-based interventions hold the potential for personalized and intensive training within a telerehabilitation framework. However, further studies with better design are needed for true comparison with traditional therapy. Also, the potential side effects associated with VR head-mounted displays, such as dizziness and nausea, warrant careful consideration in the development and implementation of VR-based rehabilitation programs.

CONCLUSION

This review provides valuable insights into the application of immersive VR in UE rehabilitation, offering the foundation for future research and clinical practice. By leveraging immersive VR's potential, researchers and rehabilitation specialists can design more tailored and patient-centric rehabilitation strategies, ultimately improving the functional outcome and enhancing the quality of life of individuals with neurological diseases.

Intensive support does not improve positive-airway pressure use in spinal cord injury/disease: a randomized clinical trial

STUDY OBJECTIVE

Treatment of sleep-disordered breathing (SDB) with positive airway pressure (PAP) therapy has unique clinical challenges in individuals living with spinal cord injuries and diseases (spinal cord injury [SCI]/D). Interventions focused on increasing PAP use have not been studied in this population. We aimed to evaluate the benefits of a program to increase PAP use among Veterans with SCI/D and SDB.

METHODS

Randomized controlled trial comparing a behavioral Intervention (n = 32) and educational control (n = 31), both including one face-to-face and five telephone sessions over 3 months. The intervention included education about SDB and PAP, goal setting, troubleshooting, and motivational enhancement. The control arm included non-directive sleep education only.

RESULTS

Primary outcomes were objective PAP use (nights ≥4 hours used within 90 days) and sleep quality (Pittsburgh Sleep Quality Index [PSQI] at 3 months). These did not differ between intervention and control (main outcome timepoint; mean difference 3.5 [-9.0, 15.9] nights/week for PAP use; p = .578; -1.1 [-2.8, 0.6] points for PSQI; p = .219). Secondary outcomes included fatigue, depression, function, and quality of life. Only fatigue improved significantly more in the intervention versus the control group (p = .025). Across groups, more PAP use was associated with larger improvements in sleep quality, insomnia, sleepiness, fatigue, and depression at some time points.

CONCLUSIONS

PAP use in Veterans with SCI/D and SDB is low, and a 3-month supportive/behavioral program did not show significant benefit compared to education alone. Overall, more PAP use was associated with improved symptoms suggesting more intensive support, such as in-home assistance, may be required to increase PAP use in these patients.

CLINICAL TRIALS INFORMATION

Title: "Treatment of Sleep Disordered Breathing in Patients with SCI." Registration number: NCT02830074. Website: https://clinicaltrials.gov/study/NCT02830074?cond=Sleep%20Apnea&term=badr&rank=5.

Combined rehabilitation therapy with botulinum toxin to the upper limbs for acute spinal cord injury: A case report

INTRODUCTION

Patients with spinal cord injury (SCI) and incomplete paralysis may experience muscle immobilization due to functional impairment of agonist and antagonist muscles. This can induce spasticity and pain, with the risk of contracture increasing as the period of immobilization increases. This could be aggravated by pain, which interferes with rehabilitation. There is no established treatment for pain and joint contractures caused by acute SCI. Botulinum therapy plays a role in relieving muscle tension. Here, we report a case of acute SCI in which botulinum therapy was administered.

CASE PRESENTATION

The patient experienced a C5-cervical SCI due to a road traffic accident, with marked paralysis in the upper and lower limbs below the C5 level. The patient had persistent elbow flexion since the SCI and complained of excruciating pain, making adequate rehabilitation difficult. Botulinum toxin was administered to the biceps and brachialis muscles 15 days after the SCI. After administration, the patient experienced a reduction in pain with relaxation of the elbow flexor muscles, and rehabilitation treatment was resumed. This patient's contracture did not worsen, his pain decreased, and he was able to initiate self-feeding training.

DISCUSSION

In this case, occupational and physical therapy was administered with botulinum therapy. Together, they successfully reduced pain. Botulinum therapy provides analgesia and muscle relaxation and may lead to functional recovery, and we believe that treatment can be considered even in the acute phase.

Evaluation of a new assistive technology: the StandBar

PURPOSE

Evaluate the potential of a wheelchair assistive technology (StandBar) to promote power wheelchair users' ability to safely stand independently from their power wheelchair and determine the impact of the device use on psychological well-being for both power wheelchair users and their caregivers.

MATERIALS AND METHODS

A convenience sample of 11 power wheelchair users and caregiver dyads provided study data. Participants included power wheelchair users who were existing StandBar users or currently in training with the StandBar as part of their rehabilitation. Assessments were conducted at baseline and at six-month follow-up and included physiological assessments and functional testing with and without the StandBar. Monthly follow-up phone calls were completed to collect information on adverse events (e.g., falls, hospitalizations, and skin breakdown). A qualitative interview assessed StandBar users' and caregivers' perception at six-month follow-up.

RESULTS AND CONCLUSIONS

StandBar use provided power wheelchair users a higher level of independence, confidence, and safety. All participants highly recommended StandBar use to others with similar levels of functional impairment. StandBar use allowed many participants the ability to complete functional tasks that were otherwise not possible without assistance. Qualitative interviews reported improved independence and psychological well-being for StandBar users as well as reduced levels of anxiety and burden of care by caregivers. The StandBar is a cost-effective assistive technology that promotes independence and functionality for power wheelchair users and improves the psychological well-being of users and their caregivers. Implications for RehabilitationStandBar allows power wheelchair users to:Minimize negative effects of immobilization.Increase independence for activities of daily living (grooming, hygiene, toileting, transfers) and instrumental activities of daily living (social experiences).Improve their quality of life through increasing independence and confidence.Reduce need for assistance and corresponding caregiver burden.

Hospital Course and Complications of Subaxial Cervical Trauma Patients With Tetraplegia or Paraplegia: A Case Series and Literature Review

STUDY DESIGN

A single-institution, retrospective cohort study.

OBJECTIVE

The objective was to present demographic characteristics, mechanism of injuries, lengths of stay, intensive care unit (ICU) days, discharge locations, and causes of 90-day readmission for patients with subaxial spinal cord injuries resulting in paraplegia or tetraplegia.

SUMMARY OF BACKGROUND DATA

Spinal cord injuries resulting in paraplegia or tetraplegia are rare injuries with debilitating outcomes. Numerous advances have occurred in caring for these patients, but patients still experience multiple complications. The severity of these injuries and numerous complications result in prolonged hospital stays and the need for extensive rehabilitation.

METHODS

Twelve patients with subaxial spinal cord injury resulting in paraplegia or tetraplegia from a level 1 adult trauma center were reviewed. The primary outcomes included hospital length of stay, ICU days, intrahospital complications, 90-day readmission rates, and discharge location. We reviewed the literature for these outcomes in spinal cord injuries.

RESULTS

For patients with subaxial spinal cord injuries resulting in paraplegia and tetraplegia, the average age was 36.0 years, and most were male [91.7% (11/12)]. The most common mechanism of injury was gunshot wounds[41.7% (5/12)]. Patients spent an average of 46.3 days in the hospital and 30.7 days in the ICU. Respiratory complications were the most common (9 patients). Fifty percent of patients (6/12) were discharged to the inpatient spinal cord rehab center, and 16.7% (2/12) expired while in the hospital. Two patients (20.0%) were readmitted within 90 days of discharge.

CONCLUSIONS

Most patients with subaxial spinal cord injuries resulting in paraplegia or tetraplegia were young males with high-energy traumas. Many patients had intrahospital complications, and most were discharged to the hospital spinal rehab center. These findings likely stem from the severity of paraplegia and tetraplegia injuries and the need for rehabilitation.

Assessments and interventions on body functions, structures and activity to prepare adults with acute spinal cord injury or disease for participation: a scoping review

Introduction

In the acute phase after a spinal cord injury or disease (SCI/D), various therapeutic assessments and interventions are applied with the goal of restoring structures, preventing complications and preparing the patient as best as possible for further activity and finally participation. The goal was to identify and evaluate the available evidence on assessments and interventions for body functions and structures to prepare adults with acute spinal cord SCI/D for activity and participation during the first 14 days.

Methods

A scoping review was conducted. The search was performed on June 19, 2023 using the databases PubMed, PEDro, Cochrane library and Embase. These were screened for studies including patients with acute SCI/D and physiotherapeutic or occupational therapy assessments and interventions. Only studies in English or German published between 2012 and 2023 were included.

Results

Twelve publications met the inclusion criteria, namely three systematic reviews, two randomized controlled trials, two observational studies and five clinical practice guidelines. Assessments as the Spinal Cord Independence Measure, as well as exercises such as daily passive mobilization of body structures against contractures were used in the entire population, while others were only applied in subgroups of SCI/D such as the Graded Redefined Assessment of Strength, Sensation and Prehension or functional electrical stimulation with and without additional movements. The methodological quality of the studies found varied greatly from good to very poor.

Discussion

Heterogeneity in research design and study population as well as lack of high-quality studies do not cover the standard of clinical management in the acute phase and further comprehensive research is needed.

"Are we there yet?" expectations and experiences with lower limb robotic exoskeletons: a qualitative evaluation of the therapist perspective

PURPOSE

Lower limb robotic exoskeletons can assist movement, however, clinical uptake in neurorehabilitation is limited. The views and experiences of clinicians are pivotal to the successful clinical implementation of emerging technologies. This study investigates therapist perspectives of the clinical use and future role of this technology in neurorehabilitation.

METHODS

Australian and New Zealand-based therapists with lower limb exoskeleton experience were recruited to complete an online survey and semi-structured interview. Survey data were transposed into tables and interviews transcribed verbatim. Qualitative data collection and analysis were guided by qualitative content analysis and interview data were thematically analysed.

RESULTS

Five participants revealed that the use of exoskeletons to deliver therapy involves the interplay of human elements - experiences and perspectives of use, and mechanical elements - the device itself. Two overarching themes emerged: the "journey", with subthemes of clinical reasoning and user experience; and the "vehicle" with design features and cost as subthemes, to explore the question "Are we there yet?"

CONCLUSION

Therapists expressed positive and negative perspectives from their experiences with exoskeletons, giving suggestions for design features, marketing input, and cost to enhance future use. Therapists are optimistic that this journey will see lower limb exoskeletons integral to rehabilitation service delivery.

REPORT-SCS: minimum reporting standards for spinal cord stimulation studies in spinal cord injury

Objective.Electrical spinal cord stimulation (SCS) has emerged as a promising therapy for recovery of motor and autonomic dysfunctions following spinal cord injury (SCI). Despite the rise in studies using SCS for SCI complications, there are no standard guidelines for reporting SCS parameters in research publications, making it challenging to compare, interpret or reproduce reported effects across experimental studies.Approach.To develop guidelines for minimum reporting standards for SCS parameters in pre-clinical and clinical SCI research, we gathered an international panel of expert clinicians and scientists. Using a Delphi approach, we developed guideline items and surveyed the panel on their level of agreement for each item.Main results.There was strong agreement on 26 of the 29 items identified for establishing minimum reporting standards for SCS studies. The guidelines encompass three major SCS categories: hardware, configuration and current parameters, and the intervention.Significance.Standardized reporting of stimulation parameters will ensure that SCS studies can be easily analyzed, replicated, and interpreted by the scientific community, thereby expanding the SCS knowledge base and fostering transparency in reporting.

An update on the access to inpatient rehabilitation facilities across Tunisia in 2023

INTRODUCTION

Considering the growing global need and the complexity of health conditions, an intensive rehabilitation in inpatient departments is fundamental. Yet, in Tunisia, the distribution of Inpatient Rehabilitation Facilities is not illustrated.

AIM

To perform an update concerning the rehabilitation's beds-ratio /1000 Tunisian-inhabitants in 2023.

METHODS

Data were collected from the Tunisian Ministry of Health, the Eastern Mediterranean Regional Office, and the National Institute of Statistics websites.

RESULTS

The findings revealed a total number of rehabilitations' beds 132 among a total of 20000 hospital beds with a rehabilitations' beds-ratio equal to 0.01/1000 inhabitants. Only three Inpatient Rehabilitation Facilities were identified in Tunisia covering the Greater Tunis, North East, and Center east districts. There was inequity of distribution since the beds ratio is 1.07/1000 in the North east, 0.02/1000 in the Greater Tunis and 0 in the North West and the South of Tunisia.

CONCLUSION

This update highlighted the alarmingly low rehabilitation's beds-ratio in Tunisia, coupled to a significant regional disparity. Increasing beds in the existing Inpatient Rehabilitation Facilities and extending outpatient rehabilitation departments with inpatient units might be considered urgent solutions.

Decoding hand and wrist movement intention from chronic stroke survivors with hemiparesis using a user-friendly, wearable EMG-based neural interface

OBJECTIVE

Seventy-five percent of stroke survivors, caregivers, and health care professionals (HCP) believe current therapy practices are insufficient, specifically calling out the upper extremity as an area where innovation is needed to develop highly usable prosthetics/orthotics for the stroke population. A promising method for controlling upper extremity technologies is to infer movement intention non-invasively from surface electromyography (EMG). However, existing technologies are often limited to research settings and struggle to meet user needs.

APPROACH

To address these limitations, we have developed the NeuroLife® EMG System, an investigational device which consists of a wearable forearm sleeve with 150 embedded electrodes and associated hardware and software to record and decode surface EMG. Here, we demonstrate accurate decoding of 12 functional hand, wrist, and forearm movements in chronic stroke survivors, including multiple types of grasps from participants with varying levels of impairment. We also collected usability data to assess how the system meets user needs to inform future design considerations.

MAIN RESULTS

Our decoding algorithm trained on historical- and within-session data produced an overall accuracy of 77.1 ± 5.6% across 12 movements and rest in stroke participants. For individuals with severe hand impairment, we demonstrate the ability to decode a subset of two fundamental movements and rest at 85.4 ± 6.4% accuracy. In online scenarios, two stroke survivors achieved 91.34 ± 1.53% across three movements and rest, highlighting the potential as a control mechanism for assistive technologies. Feedback from stroke survivors who tested the system indicates that the sleeve's design meets various user needs, including being comfortable, portable, and lightweight. The sleeve is in a form factor such that it can be used at home without an expert technician and can be worn for multiple hours without discomfort.

SIGNIFICANCE

The NeuroLife EMG System represents a platform technology to record and decode high-resolution EMG for the real-time control of assistive devices in a form factor designed to meet user needs. The NeuroLife EMG System is currently limited by U.S. federal law to investigational use.

Determination of cut-off points in the Trunk control test for spinal cord injury to assess the ability to perform different activities of daily living

STUDY DESIGN

Observational, comparative, and transversal study.

OBJECTIVE

To identify the cut-off points in the Trunk Control Test (TCT) for individuals with Spinal Cord Injury (SCI) to determine the ability to perform independently the different activities of daily living (ADL) according to the Spinal Cord Independence Measure-III (SCIM-III).

SETTING

National Institute of Rehabilitation, Mexico City.

METHODS

Individuals with SCI of any neurologic level and severity according to ISNCSCI, in sub-acute and chronic phases were included. Receiver Operating Characteristic (ROC) curves were made to identify the cut-off points on the TCT that discriminate the individuals that can independently perform each of the ADL described in the SCIM-III.

RESULTS

A total of 604 participants were evaluated, 70.7% male; mean age of 34 (± 14) years; time since injury was 134 ± 360 days; predominating motor complete injury (50.1%). It was demonstrated through ROC curves, that there are different cut-off points in the TCT that are sensitive and specific to discriminate individuals that can independently perform the majority of the items of the SCIM-III of those who perform it with assistance. Domains that do not depend on an adequate trunk control (respiration and sphincter management) had poor areas under the curve, with low sensitivity and specificity.

CONCLUSIONS

The application of the TCT in individuals with SCI allows to discriminate between individuals who perform the different ADL independently of those who do not, at this subject institute. These results can guide the management of individuals with SCI, helping to establish short term goals.