Results From a Randomized Controlled Trial to Address Balance Deficits After Traumatic Brain Injury

Assessing Task-Dependent Neurophysiology During Virtual Reality Treadmill Training in Adults With Traumatic Brain Injury: A Functional Near-Infrared Spectroscopy Feasibility Study

OBJECTIVE

Individuals with traumatic brain injury (TBI) often experience residual mobility deficits that can be improved with treadmill and virtual reality interventions. However, previous studies have not measured the underlying neurophysiology during these interventions nor assessed if acquiring such data is feasible in a TBI population. Thus, the primary purpose of this study was to assess the feasibility of using portable functional near-infrared spectroscopy (fNIRS) to measure neurophysiology during a treadmill task and a treadmill with virtual reality task.

SETTING

Data were collected in an outpatient setting at Craig Hospital.

PARTICIPANTS

Eight individuals with chronic moderate to severe TBI were recruited. The primary eligibility criteria include age of 18 years or older, diagnosis of moderate to severe TBI that initially required inpatient rehabilitation at least 1 year prior and could walk at least 10 feet without support from more than 1 person.

DESIGN

Cross-sectional feasibility study. Participants were assessed with fNIRS while completing a 12-minute treadmill task and a 12-minute treadmill with virtual reality task. Feasibility benchmarks were established a priori and included safety, acceptability, data acquisition and quality metrics.

MAIN MEASURES

Pre-determined feasibility objectives served as the primary outcome of this study. Global brain activity as measured by FNIRS was acquired during treadmill training alone and treadmill training with virtual reality in early, middle, and late epochs.

RESULTS

The fNIRS protocol used in this study was safe for all participants and acceptable to 87.5% of participants. FNIRS data acquisition and quality benchmarks were achieved for 87.5% participants. Exploratory fNIRS analyses revealed significantly greater global brain activity during the treadmill with virtual reality task compared to the treadmill task alone in late epochs. No adverse events occurred.

CONCLUSION

All feasibility benchmarks were achieved suggesting that this fNIRS protocol can be used in future, larger-scale studies.

Efficacy of Neurorehabilitation Approaches in Traumatic Brain Injury Patients: A Comprehensive Review

Traumatic brain injury (TBI) represents a significant public health issue, causing long-term disabilities and imposing considerable socioeconomic and healthcare challenges. While advancements in acute care have improved survival rates, the demand for effective neurorehabilitation is increasing. This narrative review explores the evidence on neurorehabilitation strategies for TBI, focusing on interventions targeting cognitive, motor, and psychological recovery. A total of 32 studies were included and categorized into six approaches: non-invasive brain stimulation, virtual reality (VR), computer-based training, telerehabilitation, robot-assisted therapy (RAT), and mixed approaches. Non-invasive brain stimulation techniques, such as transcranial direct current stimulation (tDCS) and repetitive transcranial magnetic stimulation (rTMS), showed variable effectiveness in improving cognitive outcomes. VR-based therapies enhanced attention and executive functions, while RAT, such as Lokomat and exoskeletons, improved gait symmetry and functional mobility. Computer-assisted programs demonstrated benefits in rehabilitating social cognition and executive functions. Telerehabilitation and telephone-based treatments provided short-term gains but lacked sustained effects. Overall, cognitive improvements were better described and represented, while several motor improvements lacked consistency. Despite the promising results, significant gaps remain, including heterogeneity in methodologies, small sample sizes, and limited long-term outcome data.

Measurement Properties of the BESTest Scale in People With Neurological Conditions: A Systematic Review With Meta-Analysis

OBJECTIVE

People with neurological conditions (PwNC) frequently fall, mainly due to balance impairments. Among the scales assessing balance, the Balance Evaluation System Test (BESTest) is one of the most comprehensive in evaluating all components of postural control. This study aimed to systematically review and summarize the measurement properties of the BESTest in PwNC.

METHODS

Embase, MEDLINE, ScienceDirect, Scopus, and PEDro were searched up to December 2023. Studies assessing at least 1 BESTest measurement property in PwNC were included. Methodological quality of studies was assessed with the COSMIN Risk of Bias checklist. Overall rating and level of evidence for each property were given according to COSMIN criteria. Where possible, meta-analysis was performed.

RESULTS

Thirty-six studies (1749 PwNC) were included. The BESTest demonstrated a high quality of evidence supporting good reliability (intraclass correlation coefficients = 0.96-0.98 for total score, and 0.70-0.98 for subsections), internal consistency, and measurement error. High quality levels of responsiveness, and content and construct validity were also found. However, evidence for structural validity was insufficient to be sure the BESTest actually tests several, or 1, balance constructs. Criterion validity cannot be evaluated. While translated into different languages, cross-cultural validity has never been assessed in PwNC. Evidence to support use of the BESTest for specific neurological conditions is limited to Parkinson disease and stroke, due to the small sample sizes and number of studies in other populations.

CONCLUSION

This systematic review provided high quality evidence supporting the reliability, content and construct validity, and responsiveness of the BESTest to intervention, being able to detect balance changes and to differentiate heterogeneous PwNC based on fall history, falling risk, and physical performance. However, low-quality evidence was found when considering each neurological condition alone. To comprehensively understand the BESTest measurement properties, future studies are needed with larger samples for each neurological condition, especially assessing cross-cultural and structural validity.

IMPACT

Assessing balance is crucial for fall risk prevention. The BESTest has been demonstrated to be a reliable, responsive, and valid scale usable in clinical setting for assessing balance in PwNC.

LAY SUMMARY

Assessing balance is crucial for fall risk prevention. The BESTest has been demonstrated to be a reliable, responsive, and valid scale usable in clinical setting for assessing balance in PwNC.

Current Trends in Virtual Exercise Interventions Among People With Disabilities: A Scoping Review

Objective

To analyze existing literature on virtual exercise interventions delivered to people with disabilities to assess effectiveness, efficiency, usability, satisfaction, and feasibility, and describe current trends that aimed to improve health outcomes among people with disabilities.

Data Sources

CINAHL, MEDLINE, and PsycINFO were searched.

Study Selection

Articles were included if they were (1) incorporated a virtual exercise intervention including people with physical disabilities and mobility limitations aged 18 years and older and (2) published between the years of 2009-August 14, 2024 with free access to full-text, peer-reviewed papers; and (3) published in English. Exclusion criteria: (1) unrelated to disability; (2) non-peer-reviewed articles; (3) protocol or review papers; (4) study focused on virtual exercise through perspective other than that of the participant; (5) study's primary objectives were not related to physical functioning and/or rehabilitation; and (6) study used only qualitative methods.

Data Extraction

A single search was conducted from January 2023 and ceased on August 14, 2023. Duplicate records were pulled from the article search within each database; article abstracts were assessed; and finally, full-text articles were retained upon meeting inclusion criteria. The primary researcher conducted the initial search, while 2 independent reviewers, J.R. and J.W., assisted with and confirmed article extraction.

Data Synthesis

Thirty-seven articles were included. Trends were explained by recapitulating statistically significant results per study among each disability group and virtual exercise delivery mode, exercise type, and intervention synchronicity.

Conclusions

More facilitators, satisfaction, usability, and perceived benefits were reported when compared to reported barriers among people with physical disabilities and mobility limitations who participated in virtual exercise interventions.

A quick balance assessment tool for all clinical settings: validity and reliability of the Hungarian version of the activities-specific balance confidence scale

BACKGROUND

The Activities-specific Balance Confidence Scale was developed for testing the balance confidence of elderly individuals, and it has been used extensively for evaluating various patients. No such scale has been adapted for the Hungarian population.

OBJECTIVE

To translate and culturally adapt the Activities-specific Balance Confidence Scale and test the reliability and validity of the Hungarian version.

METHODS

The study included 167 independently mobile subjects, of whom 39 filled in the questionnaire twice, 1 week apart. Beaton's six-step principle was applied for cross-cultural adaptation. Reliability was assessed by internal consistency measured by Cronbach's alpha and through test-retest analysis. Types of validity evaluated were concurrent validity using the Berg Balance Scale and cross-cultural validity.

RESULTS

Excellent internal consistency was shown by Cronbach's alpha = 0.977. Test-retest analysis resulted in an Intra-Class Correlation Coefficient of 0.962 (0.865-0.961, 95% CI, p < .001) for the whole test; no floor or ceiling effects were found. The convergent validity of the scale was tested by Spearman's rank correlation analysis using the Berg Balance scale for external validation and showed a strong positive correlation (Rho = 0.755, p < .001). Receiver Operating Characteristic curve analysis showed an Area Under the Curve of 0.821 (CI 95% 0.75, 0.892). Mean detectable change based on the 95% confidence interval was 10.49% on the scale ranging from 0 to 100%.

CONCLUSIONS

The Hungarian version of the Activities-Specific Balance Confidence Scale provides a valid and reliable picture of the patients' self-assessed balance. It is recommended both for clinicians and for clinical studies.

Training of spatial cognitive abilities reduces symptoms of visually induced motion sickness

Purpose

This study aims to explore the effectiveness of enhancing individual spatial cognitive abilities in alleviating the negative symptoms of visually induced motion sickness (VIMS). Additionally, it seeks to develop innovative intervention methods to improve spatial cognition and identify new treatment approaches for VIMS.

Methods

The study investigated the impact of innovative interventions on spatial cognitive abilities and their modulation of VIMS susceptibility. A total of 43 participants were recruited (23 in the experimental group and 20 in the control group). The experimental group underwent six sessions of spatial cognitive ability training, while the control group engaged in activities unrelated to spatial cognition.

Results

The analysis revealed that the spatial cognitive ability scores of the experimental group significantly improved after the intervention. Furthermore, the experimental group exhibited significant differences in nausea, oculomotor, disorientation, and total SSQ scores before and after the intervention, indicating that the intervention effectively mitigated VIMS symptoms.

Conclusion

This study developed a virtual reality training method that effectively enhances individual spatial cognitive abilities and significantly alleviates VIMS symptoms, providing a novel and effective approach for VIMS intervention and treatment.

Advances in Neurorehabilitation: Strategies and Outcomes for Traumatic Brain Injury Recovery

Traumatic brain injury (TBI) consists of an external physical force that causes brain function impairment or pathology and globally affects 50 million people each year, with a cost of 400 billion US dollars. Clinical presentation of TBI can occur in many forms, and patients usually require prolonged hospital care and lifelong rehabilitation, which leads to an impact on the quality of life. For this narrative review, no particular method was used to extract data. With the aid of health descriptors and Medical Subject Heading (MeSH) terms, a search was thoroughly conducted in databases such as PubMed and Google Scholar. After the application of exclusion and inclusion criteria, a total of 146 articles were effectively used for this review. Results indicate that rehabilitation after TBI happens through neuroplasticity, which combines neural regeneration and functional reorganization. The role of technology, including artificial intelligence, virtual reality, robotics, computer interface, and neuromodulation, is to impact rehabilitation and life quality improvement significantly. Pharmacological intervention, however, did not result in any benefit when compared to standard care and still needs further research. It is possible to conclude that, given the high and diverse degree of disability associated with TBI, rehabilitation interventions should be precocious and tailored according to the individual's needs in order to achieve the best possible results. An interdisciplinary patient-centered care health team and well-oriented family members should be involved in every stage. Lastly, strategies must be adequate, well-planned, and communicated to patients and caregivers to attain higher functional outcomes.

Virtual Reality-Based Interventions to Improve Balance in Patients with Traumatic Brain Injury: A Scoping Review

INTRODUCTION

Virtual reality (VR)-based interventions to improve balance and mobility are gaining increasing traction across patient populations. VR-based interventions are believed to be more enjoyable and engaging for patients with traumatic brain injury. This scoping review aims to summarize existing studies from the literature that used VR to improve balance and mobility and determine the gap in VR-based balance literature specific to individuals with traumatic brain injury.

METHODS

Two authors independently searched the literature using the search terms "Virtual Reality Traumatic Brain Injury Lower Limb", "Virtual Reality Traumatic Brain Injury Balance", and "Virtual Reality Traumatic Brain Injury Gait".

RESULTS

A total of seventeen studies, specifically, three randomized controlled trials, one one-arm experimental study, two retrospective studies, two case studies, one feasibility/usability study, one cohort study, and seven diagnostic (validation) studies, met the inclusion criteria for this review. The methodological quality of the studies evaluated using the PEDro scale was fair.

DISCUSSION

Future studies should focus on large-scale clinical trials using validated technology to determine its effectiveness and dose-response characteristics. Additionally, standard assessment tools need to be selected and utilized across interventional studies aimed at improving balance and mobility to help compare results between studies.

Effectiveness of biomedical interventions on the chronic stage of traumatic brain injury: a systematic review of randomized controlled trials

Traumatic brain injury (TBI), in any form and severity, can pose risks for developing chronic symptoms that can profoundly hinder patients' work/academic, social, and personal lives. In the past 3 decades, a multitude of pharmacological, stimulation, and exercise-based interventions have been proposed to ameliorate symptoms, memory impairment, mental fatigue, and/or sleep disturbances. However, most research is preliminary, thus limited influence on clinical practice. This review aims to systematically appraise the evidence derived from randomized controlled trials (RCT) regarding the effectiveness of pharmacological, stimulation, and exercise-based interventions in treating chronic symptoms due to TBI. Our search results indicate that despite the largest volume of literature, pharmacological interventions, especially using neurostimulant medications to treat physical, cognitive, and mental fatigue, as well as daytime sleepiness, have yielded inconsistent results, such that some studies found improvements in fatigue (e.g., Modafinil, Armodafinil) while others failed to yield the improvements after the intervention. Conversely, brain stimulation techniques (e.g., transcranial magnetic stimulation, blue light therapy) and exercise interventions were effective in ameliorating mental health symptoms and cognition. However, given that most RCTs are equipped with small sample sizes, more high-quality, larger-scale RCTs is needed.

Commercial exergames for rehabilitation of physical health and quality of life: a systematic review of randomized controlled trials with adults in unsupervised home environments

Background

Commercial exergames are widely available tools that can support physical rehabilitation at home. However, the effects of the unsupervised use of commercial exergames in home environments are not yet clear. Hence, we provide a systematic review on the effects of unsupervised commercial exergaming at home on adults' physical health (RQ1) and quality of life (RQ2). We also scrutinize adults' experiences with exergaming at home regarding participant support, adherence, and adverse outcomes (RQ3).

Methods

We searched Web of Science, PsycINFO, PubMed, Embase, and CINAHL for peer-reviewed randomized controlled trials with adults in need of rehabilitation. Overall, 20 studies (1,558 participants, 1,368 analyzed) met our inclusion criteria. The quality of evidence was assessed with the Cochrane risk of bias tool.

Results

Effects of unsupervised commercial exergaming at home on physical health were higher in seven studies and similar in five studies regarding the respective comparison or control conditions; eight studies reported non-significant findings. Of the 15 studies that also examined effects on quality of life, improvements were higher in seven studies and similar in two studies regarding the respective comparison or control conditions; results were non-significant in six studies. Participant support consisted of setup of the exergaming system, instructions, training, and contact with participants. Adherence was high in eight studies, moderate in six studies, and low in one study. Adverse outcomes related to exergaming were found in four studies and were at most moderate. Concerning the quality of evidence, six studies were related to a high risk of bias due to outcome reporting bias or ceiling effects in the primary outcome. Additionally, 10 studies yielded some concerns, and four studies were related to a low risk of bias.

Discussion

This systematic review summarizes promising evidence that the unsupervised use of commercial exergames can support and complement rehabilitation measures in home environments. Still, future studies based on larger samples and using more recent commercial exergames are needed to obtain more high-quality evidence on the effects of different exercise prescriptions. Overall, considering the necessary precautions, the unsupervised use of commercial exergames at home can improve the physical health and quality of life in adults with needs for physical rehabilitation.

Systematic review registration

https://www.crd.york.ac.uk/prospero/display_record.php?ID=CRD42022341189, identifier: PROSPERO, Registration number: CRD42022341189.

Effect of Physiotherapy Treatment with Immersive Virtual Reality in Subjects with Stroke: A Protocol for a Randomized Controlled Trial

BACKGROUND

Many stroke survivors suffer from sensorimotor deficits, especially balance impairments. The purpose of this trial is to investigate whether the designed Immersive Virtual Reality training program is better in the short term (15 sessions) and in the medium term (30 sessions) than physiotherapy training with Bayouk, Boucher and Leroux exercises, with respect to static balance in sitting and standing, dynamic balance and quality of life in patients with balance impairment in stroke survivors.

METHODS

This study is a randomized controlled trial with two treatment arms and evaluators blinded, and a functionality treatment group in combination with specific balance exercise training according to Bayouk, Boucher and Leroux (control group) or a balanced treatment using Immersive VR. The primary outcome will be static, Dynamic balance and gait measured by Bestest Assessment Score (BESTest), Berg Scale (BBS), Pass Scale (PASS) and Time Up and Go test (TUG). The secondary outcome will be the stroke-associated quality of life using the Stroke Quality of Life Scale (ECVI-38).

CONCLUSIONS

The results of this study may add new insights into how to address balance using Immersive Virtual Reality after a stroke. If the new training approach proves effective, the results may provide insight into how to design more comprehensive protocols in the future for people with balance impairments after stroke.

The effect of physical activity on health outcomes in people with moderate-to-severe traumatic brain injury: a rapid systematic review with meta-analysis

BACKGROUND

In 2020, the World Health Organization (WHO) released the first global physical activity and sedentary behaviour guidelines for children and adults living with disability. The evidence informing the guidelines though is not specific to people living with traumatic brain injury (TBI), but rather comes from other disabling conditions such as Parkinson's disease, and stroke. There remains a clear lack of direct evidence of the effects of physical activity for people living with TBI. The objective of this rapid review was to identify direct evidence of the effect of physical activity on health outcomes in people with moderate-to-severe TBI to inform adaptation of the WHO physical activity guidelines into clinical practice guidelines.

METHODS

We conducted a rapid systematic review with meta-analysis of randomised controlled trials, including people of any age with moderate-to-severe TBI, investigating physical activity interventions compared to either usual care, a physical activity intervention with different parameters, or a non-physical activity intervention. Four databases (CENTRAL, SPORTDiscus, PEDro, Ovid MEDLINE) were searched from inception to October 8, 2021. The primary outcomes were physical function, cognition, and quality of life.

RESULTS

Twenty-three studies were included incorporating 812 participants (36% females, majority working-age adults, time post-TBI in studies ranged from 56 days (median) to 16.6 years (mean)). A range of physical activity interventions were evaluated in rehabilitation (n = 12 studies), community (n = 8) and home (n = 3) settings. We pooled data from the end of the intervention for eight outcomes. Participation in a virtual reality physical activity intervention improved mobility, assessed by the Community Balance and Mobility Scale (range 0 to 96; higher score indicates better mobility) more than standard balance training (two studies, 80 participants, Mean Difference = 2.78, 95% CI 1.40 to 4.16; low certainty evidence). There was uncertainty of effect for the remaining outcomes, limited by small sample sizes, diverse comparators and a wide range of outcome measures.

CONCLUSION

This review consolidates the current evidence base for the prescription of physical activity for people with moderate-to-severe TBI. There remains a pressing need for further rigorous research in order to develop practice guidelines to support clinical decision-making when prescribing physical activity in this population.

Applications and implications for extended reality to improve binocular vision and stereopsis

Extended reality (XR) devices, including virtual reality (VR), augmented reality (AR), and mixed reality (MR) devices, are immersive technologies that can swap or merge the natural environment with virtual content (e.g., videogames, movies, or other content). Although these devices are widely used for playing videogames and other applications, they have one distinct feature that makes them potentially very useful for the measurement and treatment of binocular vision anomalies-they can deliver different content to the two eyes simultaneously. Indeed, horizontally shifting the images in the two eyes (thereby creating binocular disparity) can provide the user with a compelling percept of depth through stereopsis. Because these devices are stereoscopic, they can also be used as high-tech synoptophores, in which the images to the two eyes differ in contrast, luminance, size, position, and content for measuring and treating binocular anomalies. The inclusion of eye tracking in VR adds an additional dimension to its utility in measuring and treating binocular vision anomalies, as well as other conditions. This paper describes the essential requirements for testing and treating binocular anomalies and reviews current studies in which XR devices have been used to measure and treat binocular vision anomalies.

Effects of Exercise Programs on Functional Capacity and Quality of Life in People With Acquired Brain Injury: A Systematic Review and Meta-Analysis

OBJECTIVE

The aims of this systematic review and meta-analyses were to evaluate the effects of exercise on the functional capacity and quality of life (QoL) of people with acquired brain injury (ABI) and to analyze the influence of training variables.

METHODS

Five electronic databases (MEDLINE, Cochrane Library, CINAHL, SportDiscus, and Web of Science) were searched until October 2021 for clinical trials or experimental studies examining the effects of exercise on the functional capacity and QoL in adults with ABI and comparing exercise interventions with non-exercise (usual care).

RESULTS

Thirty-eight studies were evaluated. A total sample of 2219 people with ABI (exercise, n = 1572; control, n = 647) were included in the quantitative analysis. A greater improvement was observed in walking endurance (z score = 2.84), gait speed (z score = 2.01), QoL physical subscale (z score = 3.42), and QoL mental subscale (z score = 3.00) was observed in the experimental group than in the control group. In addition, an improvement was also observed in the experimental group in the "Timed Up and Go" Test scores and balance without differences from the control group. Significant interactions were also observed between the rehabilitation phases, type, frequency and volume of training, and overall effects.

CONCLUSION

The results suggest that exercise improves functional capacity and QoL regardless of model training, highlighting the effectiveness of long-term exercise that includes short sessions with components such as strength, balance, and aerobic exercise.

IMPACT

The results shown in this systematic review with meta-analysis will allow physical therapists to better understand the effects of training on people with ABI.

Effectiveness of Vestibular Rehabilitation after Concussion: A Systematic Review of Randomised Controlled Trial

Introduction: Mild traumatic brain injury (mTBI) affects approximately 740 cases per 100,000 people. Impairments related to mTBI include vertigo, dizziness, balance, gait disorders double or blurry vision, and others. The efficacy on acute or chronic phase and dosage of vestibular rehabilitation (VR) in reducing these symptoms is not clearly stated. To clarify these points, we performed a systematic review of randomised controlled trials (RCTs). Methods: A systematic literature search was performed from 2015 to 2022 on PubMed, CINAHL, Cochrane Trial SPORTDiscus, Web of Science, and PEDRO. Eligibility criteria were RCTs which consider VR, participants with mTBI, and no gender or age restriction. Two blinded reviewers independently selected the study, and a third author was contacted in case of disagreements. Risk of bias was independently screened by two authors and successively checked by the other two authors. Results: Thirty-three full articles were read for potential inclusion and seven records met the inclusion criteria. The authors analysed different outcomes considering DHI, a meta-analysis was carried out, statistical difference was observed (p < 0.01), and a mean difference of −6.91 (−9.11, −4.72) in favour of VR was shown. Considering quality of life, the VR group reached a higher score on QOLIBRI. Controversial results were shown about balance and subjective symptoms questionnaire. Differently considering HiMAT, the authors showed a statistically important difference in favour of VR (p = 0.002). Conclusion: VR seems useful to reduce symptoms in patients with concussion; however, a huge heterogeneity of the studies and of the outcomes used were found. Therefore, a larger sample is necessary to assess the efficacy of VR.

Innovative Technologies in the Neurorehabilitation of Traumatic Brain Injury: A Systematic Review

Motor and cognitive rehabilitation in individuals with traumatic brain injury (TBI) is a growing field of clinical and research interest. In fact, novel rehabilitative approaches allow a very early verticalization and gait training through robotic devices and other innovative tools boosting neuroplasticity, thanks to the high-intensity, repetitive and task-oriented training. In the same way, cognitive rehabilitation is also evolving towards advanced interventions using virtual reality (VR), computer-based approaches, telerehabilitation and neuromodulation devices. This review aimed to systematically investigate the existing evidence concerning the role of innovative technologies in the motor and cognitive neurorehabilitation of TBI patients. We searched and reviewed the studies published in the Cochrane Library, PEDro, PubMed and Scopus between January 2012 and September 2022. After an accurate screening, only 29 papers were included in this review. This systematic review has demonstrated the beneficial role of innovative technologies when applied to cognitive rehabilitation in patients with TBI, while evidence of their effect on motor rehabilitation in this patient population is poor and still controversial.

Virtual reality for balance and mobility rehabilitation following traumatic brain injury: A systematic review of randomized controlled trials

BACKGROUND

Balance and mobility deficits are most prevalent impairments in patients with traumatic brain injury (TBI). The evidence has proposed that rehabilitation plays an important role in improving balance and mobility post-TBI. Virtual reality (VR) is a computer technology that provides immersed users to generate feedback such as visual, audio, and haptic.

OBJECTIVE

This review aimed to examine the effects of the VR treatment intervention on balance and mobility in patients with TBI and to define the most effective VR treatment protocol.

METHODS

SCOPUS, PEDro, PubMed, REHABDATA, EMBASE, and the web of science were searched for experimental trials examining the impacts of VR training on balance and mobility in patients with TBI from inception until July 2022. Physiotherapy Evidence Database (PEDro) scale was used to assess the methodological quality of the selected studies.

RESULTS

Five randomized controlled trials (RCTs) met the inclusion criteria. The PEDro scores ranged from 6 to 8, with a median of 6. A total of 157 patients with TBI were included in this review, 31.2% of whom were females. The findings showed that VR intervention is not superior to traditional physiotherapy interventions in improving balance and mobility post- TBI.

CONCLUSIONS

The preliminary findings showed that the influence of VR on the balance and mobility ability in patients with TBI is promising. Combining VR with other concurrent rehabilitation interventions may show more significant improvements in balance and mobility compared to VR interventions alone. The optimal VR treatment protocol remains unclear. Further randomized controlled trials are strongly needed.

Virtual Interventions That Address Motor and Balance Impairments and Skills for Adults With Traumatic Brain Injury (TBI) (2012-2021)

Systematic Review Briefs provide a summary of the findings from systematic reviews developed in conjunction with the American Occupational Therapy Association's Evidence-Based Practice Program. Each Systematic Review Brief summarizes the evidence on a theme related to a systematic review topic. This Systematic Review Brief presents findings from the theme of virtual interventions that address motor and balance impairments and skills for adults with traumatic brain injury.

Feasibility of virtual reality and treadmill training in traumatic brain injury: a randomized controlled pilot trial

OBJECTIVE

To evaluate the safety and efficacy of treadmill training with virtual reality compared to treadmill training alone and standard of care balance and mobility treatment in chronic traumatic brain injury (TBI).

PARTICIPANTS AND DESIGN

Thirty-one individuals with chronic TBI with self-reported and objective balance deficits participated in a 4-week 12 session intervention of treadmill training with virtual reality, treadmill training alone, or standard of care overground therapy.

OUTCOME MEASURES

Primary measures included recruitment and enrollment rates, retention, tolerance to intervention, completeness of outcome measures, and adverse events. Secondary measures included the Community Balance and Mobility Scale, 10 Meter Walk Test, 6 Minute Walk Test, and Timed Up and Go.

RESULTS

No serious adverse events were reported. All participants completed all training sessions and assessments at all time points. Recruitment, enrollment, and retention rates were high. All groups showed a trend toward improvement in all balance and mobility measures following treatment.

CONCLUSION

Virtual reality and treadmill training are safe and feasibile for individuals with TBI. Participants show improvements on balance and mobility measures following a 4-week intervention. Future research is needed to evaluate the efficacy of this intervention compared to other modes of balance and mobility training.

The functional and structural neural correlates of dynamic balance impairment and recovery in persons with acquired brain injury

Dynamic balance control is associated with the function of multiple brain networks and is impaired following Acquired Brain Injury (ABI). This study aims to characterize the functional and structural correlates of ABI-induced dynamic balance impairments and recovery following a rehabilitation treatment. Thirty-one chronic participants with ABI participated in a novel rehabilitation treatment composed of 22 sessions of a perturbation-based rehabilitation training. Dynamic balance was assessed using the Community Balance and Mobility scale (CB&M) and the 10-Meter Walking Test (10MWT). Brain function was estimated using resting-state fMRI imaging that was analysed using independent component analysis (ICA), and regions-of-interest analyses. Brain morphology was also assessed using structural MRI. ICA revealed a reduction in component-related activation within the sensorimotor and cerebellar networks post-intervention. Improvement in CB&M scale was associated with a reduction in FC within the cerebellar network and with baseline FC within the cerebellar-putamen and cerebellar-thalamic networks. Improvement in 10MWT was associated with baseline FC within the cerebellar-putamen and cerebellar-cortical networks. Brain volume analysis did not reveal structural correlates of dynamic balance, but dynamic balance was correlated with time since injury. Our results show that dynamic balance recovery is associated with FC reduction within and between the cerebellar and sensorimotor networks. The lack of global structural correlates of dynamic balance may point to the involvement of specific networks in balance control.

Effect of interventions on activity and participation outcomes for adults with brain injury: a scoping review

OBJECTIVE

To characterize the intervention elements associated with improvements in activity and participation outcomes for adults with brain injury.

DATA SOURCES

PubMed and PsycINFO/Ovid.

STUDY SELECTION

We included RCTs that examined interventions for adults with acquired brain injury with an activity or participation outcome measure.

DATA EXTRACTION

We classified intervention elements and extracted effect sizes. We examined patterns of effect sizes associated with each intervention element based on time of follow-up and level of outcome (home versus community).

DATA SYNTHESIS

Thirty-nine articles were included. Outcomes focused on the performance of home and community activities. There was wide variation in effect sizes across all intervention elements, as well as by time and by outcome level (home versus community). Metacognitive interventions and daily life skills interventions showed the greatest promise for improving performance of home and community activities. Additionally, cognitive training interventions may play a role in improving home activity performance and social skills training interventions may play a role in community activity performance. Physical activity interventions showed the least promise for improving home and community activity performance.

CONCLUSION

This study highlights the importance of interventions that incorporate explicit strategies and task-specific training, rather than only addressing specific injury-related impairments.

Dynamic balance recovery in chronic acquired brain injury participants following a perturbation training

Acquired brain injury (ABI) is defined as a damage to the brain that occurs after birth. Subjects post-ABI frequently suffer from dynamic balance impairments that persist years after the injury. This study aimed to investigate the effect of a perturbation method using mechatronic shoes that introduce unexpected balance perturbations on the recovery of dynamic balance and gait velocity in chronic ABI participants. In an intervention trial, 35 chronic ABI participants (stroke and traumatic brain injury) participated in 22 sessions of perturbation training, twice a week for 3 months. Dynamic balance was assessed pre- and post-training using Community Balance and Mobility Scale (CB&M). Gait velocity was also assessed in the stroke participants using the 10 Meter Walking Test (10MWT). Dynamic balance improved significantly post-training (P = 0.001). This improvement was greater than the improvement that was observed in a sub-group that was tested twice before training (P = 0.04). Sixteen participants (45.7%) out of 35 met or exceeded minimal detectable change (MDC) of the CB&M Scale. Self-paced velocity also improved significantly (P = 0.02) but only two participants (9.5%) out of 21 exceeded the MDC of 10MWT post-stroke. Our results suggest that unexpected balance perturbation training using mechatronic shoes leads to an improvement in dynamic balance and gait velocity in chronic ABI participants. The advantage of perturbation training using mechatronic shoes with respect to conventional balance training should be further examined.

Virtual and augmented reality in the vestibular rehabilitation of peripheral vestibular disorders: systematic review and meta-analysis

Vestibular rehabilitation therapy is an established treatment for patients with vestibular dysfunction. Virtual reality (VR) and augmented reality (AR) can be utilised in vestibular rehabilitation. Evidence of the efficacy of VR and AR delivered rehabilitation in patients with peripheral vestibular disorders is reviewed. MEDLINE, EMBASE, CENTRAL, CINAHL, PsychInfo, PsychBITE, OTSeeker, Ei Compendex, IEE, Clinical trials.gov and WebofScience databases were searched. Reduction in vestibular dysfunction symptoms 0-3 months post-intervention was the primary outcome. Secondary outcomes included long-term symptom improvement and side effects. Risk of bias assessment and meta analyses were planned. Five studies meeting eligibility criteria were included. Dizziness Handicap Inventory (DHI) scores 0-3 months post-intervention were reported by four studies. Meta-analysis identified a 1.13 (95% CI, - 1.74, - 0.52) standardized mean difference reduction in DHI in VR and AR treated patients compared to controls. Side effects reported by two studies were reduced by week four of VR intervention. Bias assessment identified DHI scores and side effects to be at high risk or of some concern. Adjunct VR interventions reduced patient DHI significantly more than vestibular rehabilitation alone 0-3 months post-intervention in adult patients diagnosed with unilateral vestibular disease. High quality studies are needed.

Construct validity of the enfranchisement scale of the community participation indicators

OBJECTIVE

This study examined the construct validity of the Enfranchisement scale of the Community Participation Indicators.

DESIGN

We conducted a secondary analysis of data collected in a cross-sectional study of rehabilitation outcomes.

SUBJECTS

The parent study included 604 community-dwelling adults with chronic traumatic brain injury, stroke, or spinal cord injury. The sample had a mean age of 64.1 years, was two-thirds male, and included a high proportion of racial minorities (n = 250, 41.4%).

MAIN MEASURES

The Enfranchisement scale contains two subscales: the Control subscale and the Importance subscale. We examined correlations between each Enfranchisement subscale and measures of participation, environment, and impairments. The current analyses included cases with at least 80% of items completed on each subscale (Control subscale: n = 391; Importance subscale: n = 219). Missing values were imputed using multiple imputation.

RESULTS

The sample demonstrated high scores, indicating poor enfranchisement (Control subscale: M = 51.7; Importance subscale: M = 43.0). Both subscales were most strongly associated with measures of participation (Control subscale: r = 0.56; Importance subscale: r = 0.52), and least strongly associated with measures of cognition (Control subscale: r = 0.03; Importance subscale: r = 0.03). The Importance subscale was closely associated with depression (r = 0.54), and systems, services, and policies (r = 0.50). Both subscales were associated with social attitudes (Control subscale: r = 0.44; Importance subscale: r = 0.44) and social support (Control subscale: r = 0.49; Importance subscale: r = 0.41).

CONCLUSIONS

We found evidence of convergent validity between the Enfranchisement scale and measures of participation, and discriminant validity between the Enfranchisement scale and measures of disability-related impairments. The analyses also revealed the importance of the environment to enfranchisement outcomes.

Enhancing sensory acuity and balance function using near-sensory biofeedback-based perturbation intervention for individuals with traumatic brain injury

BACGROUND

Interventions addressing balance dysfunction after traumatic brain injury (TBI) only target compensatory aspects and do not investigate perceptual mechanisms such as sensory acuity.

OBJECTIVE

To evaluate the efficacy of a novel intervention that integrates sensory acuity with a perturbation-based approach for improving the perception and functional balance after TBI.

METHODS

A two-group design was implemented to evaluate the effect of a novel, perturbation-based balance intervention. The intervention group (n = 5) performed the intervention with the sinusoidal (0.33, 0.5, and 1 Hz) perturbations to the base of support with amplitudes derived using our novel outcome of sensory acuity - perturbation perception threshold (PPT). The efficacy is evaluated using changes in PPT and functional outcomes (Berg Balance Scale (BBS), Timed-up and Go (TUG), 5-meter walk test (5MWT), and 10-meter walk test (10MWT)).

RESULTS

There was a significant post-intervention change in PPT for 0.33 Hz (p = 0.021). Additionally, clinically and statistically significant improvements in TUG (p = 0.03), 5MWT (p = 0.05), and 10MWT (p = 0.04) were observed.

CONCLUSIONS

This study provides preliminary efficacy of a novel, near-sensory balance intervention for individuals with TBI. The use of PPT is suggested for a comprehensive understanding and treatment of balance dysfunction. The promising results support the investigation in a larger cohort.

Test-retest reliability and minimal detectable change of the computerized dynamic posturography PROPRIO for adults with chronic traumatic brain injury

PURPOSE

Balance deficits after brain injury, including reactive recovery from unexpected perturbations, can persist well after rehabilitation is concluded. While traditional clinical assessments are practical, the anticipatory nature of the tasks may mask perceptible balance control. Computerized dynamic posturography can directly quantify capacity to respond to unexpected, external perturbations. This study examined the reliability of the computerized dynamic posturography assessment with the device PROPRIO^® 4000 in adults with traumatic brain injury and created the minimal detectable change for its standardized test.

METHODS

Ten adults (ages 21-55 years) with chronic (average 10 ± 6 years post-injury) severe (loss of consciousness 2-75 days) brain injury performed three trials of the Propriotest^® on two separate days. The average of three trials and the best scores were used separately for analysis. Test-retest reliability was verified using Intraclass Correlation Coefficients with 95% confidence interval and standard error of measurement in relation to the Intraclass Correlation Coefficients at 95%. The minimal detectable change was calculated at 95% confidence level (minimal detectable change₉₅) and Bland-Altman plots were created to express agreement between measurement days.

RESULTS

The results exhibited excellent reliability for both average (Intraclass Correlation Coefficient of 0.969, standard error of measurement 50.9 points) and best (Intraclass Correlation Coefficient of 0.985, standard error of measurement 31.3 points) scores, with average and best minimal detectable change₉₅ of 141.0 and 86.7 points, respectively.

CONCLUSIONS

Clinicians and rehabilitation researchers can use these findings to determine if a Propriotest^® change score represents a true post-treatment effect with adults with chronic brain injury.IMPLICATIONS FOR REHABILITATIONAfter brain injury, balance deficits are common and can persist well after completion of rehabilitation programs.Computerized dynamic posturography allows for objective quantification of one's capacity to respond to external perturbations.The device PROPRIO^® 4000 provides reliable quantification of balance deficits of community dwelling individuals who have experienced a severe traumatic brain injury.The minimal detectable change scores created can assist clinicians and rehabilitation researchers detect whether a change in balance score represents a true effect of an intervention at post-treatment.