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

Impact of a New Program of Care for Work-Related Mild Traumatic Brain Injury on Recovery and Return to Work

BACKGROUND

The Workplace Safety and Insurance Board (WSIB) in Ontario, Canada, launched a new community-based mild traumatic brain injury (mTBI) program of care (POC) in November 2020. The new program included graded exercise therapy and vestibular rehabilitation (where required). The objective of this study was to assess the impact of the new mTBI POC on recovery and return to work among patients who suffered a work-related mTBI.

METHODS

We identified WSIB claims that accessed the previous and new mTBI POC over a 4-year timeframe (October 1, 2017, to September 30, 2019, and July 1, 2021, to June 30, 2023). A quasi-experimental pre-post study, propensity score matching design with a difference-in-difference modelling component was applied to approximate estimation of causal effects on loss of earnings (LOE) benefit duration at 3-, 6-, and 12-months and HC costs for patients treated in the previous and new programs.

RESULTS

Over the 4-year timeframe, 5625 patients accessed the previous and new mTBI POC. The new program achieved improved 3-, 6-, and 12-month disability durations (incremental percentage difference of -11.7%, -9.3%, and -9.0%, respectively), and shorter durations of disability, reflected by decreased LOE benefit costs (incremental percentage difference of -32.6%) and decreased HC costs (incremental percentage difference of -5.6%). The overall combined savings in LOE and HC costs was 21%.

CONCLUSIONS

This analysis indicates that the implementation of this new evidence based mTBI POC resulted in improved outcomes (decreased disability duration and lower health care utilization) on a per patient basis for people with work-related mTBI.

Effectiveness of Vestibular Rehabilitation in Children Post-Concussion: A Systematic Review

Background

Concussion in children is a significant public health burden in the United States with 2.3 million children under the age of 17 years sustaining a concussion in 2022 alone. Children post-concussion experience a wide range of symptoms of vestibular dysfunction. Vestibular rehabilitation therapy (VRT) has been shown to substantially decrease dizziness and improve gait and balance function in adults post-concussion, but limited information is available for children. Purpose: The purpose of this systematic review was to determine the effectiveness of VRT on improving vestibular function, postural control, and gait in children post-concussion.

Study design

Systematic review.

Methods

An electronic search of MEDLINE and CINAHL was conducted in October 2022 and later updated in April 2024 using MeSH terms and keywords related to vestibular rehabilitation, concussion, and children. Quality appraisal was conducted independently by two reviewers using the Joanna Briggs Institute checklist, the Critical Appraisal Skills Programme checklist and Cochrane risk of bias assessment tool. The Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines were utilized for screening and data extraction.

Results

Overall, twelve studies (three randomized controlled trials, five cohort studies, two case series and two case reports) were included in the review. The Dizziness Handicap Inventory (DHI) was the most frequently utilized measure (five studies). Three studies reported a statistically significant improvement in DHI (change scores = 19-25, p < 0.05), gait speed (F = 38.3, p < 0.001), Balance Error Scoring System (BESS) (change score percentage 12.1 - 52%, p < 0.01), and Activities-specific Balance Confidence (ABC) scale (change = 20-29 points, p <0.01).

Conclusion

VRT shows promise and may result in symptom improvements in children post-concussion when used as part of a multimodal intervention plan. Further research with larger samples is recommended to make informed decisions about dosage and long-term functional outcomes in children post-concussion.

Level of Evidence

3.

Clinical Utility of Ocular Assessments in Sport-Related Concussion: A Scoping Review

Background/objectives: Ocular tools and technologies may be used in the diagnosis of sport-related concussions (SRCs), but their clinical utility can vary. The following study aimed to review the literature pertaining to the reliability and diagnostic accuracy of such assessments. Methods: The preferred reporting items for systematic reviews and meta-analysis (PRISMA) extension for scoping reviews was adhered to. Reference standard reliability (RSR ≥ 0.75) and diagnostic accuracy (RSDA ≥ 0.80) were implemented to aid interpretation. Results: In total, 5223 articles were screened using the PCC acronym (Population, Concept, Context) with 74 included in the final analysis. Assessments included the King-Devick (KD) (n = 34), vestibular-ocular motor screening (VOMs) and/or near point of convergence (NPC) (n = 25), and various alternative tools and technologies (n = 20). The KD met RSR, but RSDA beyond amateur sport was limited. NPC met RSR but did not have RSDA to identify SRCs. The VOMs had conflicting RSR for total score and did not meet RSR in its individual tests. The VOMs total score did perform well in RSDA for SRCs. No alternative tool or technology met both RSR and RSDA. Conclusion: Ocular tools are useful, rapid screening tools but should remain within a multi-modal assessment for SRCs at this time.

The role of the physiotherapist in concussion

In the last decade, concussion research has exploded in multiple fields of scientific research. This has helped to clarify what causes, influences, and perpetuates human concussion, and displays the integral role physiotherapists play in concussion management. In this article we discuss the latest research relevant to the key role of physiotherapy in concussion management. A narrative review of the literature on concussion was conducted. The current review analyses how concussion has influenced physiotherapy in several categories: assessment, treatment, management, research rigour and building the profile of the profession. Scientific concussion research has largely converged in support of the role of physiotherapists utilising specific components including: (1) autonomic, (2) cervicogenic, (3) vestibulo-ocular and (4) psychological approaches to management. Latest research supports the critical role of physiotherapy in concussion care in the assessment, management, and prevention of concussion with scope for further interdisciplinary collaborations.

Clinical implications

Concussion is complex. A basic mental health, Vestibular Ocular Motor Screening (VOMS) and four key components relating to concussion management (autonomic, cervicogenic, vestibular oculomotor, and psychological approaches to management) should be included in the undergraduate and postgraduate curriculum. This will aid clinical physiotherapists to support their patients. A call to advance more intradisciplinary physiotherapy teamwork should be encouraged as valuable knowledge sharing is potentially lost within the framework of 'specialisation'. If needed, the skills of a greater interdisciplinary team are imperative to facilitate patient management and recovery from this multi-faceted injury.

Efficacy of vestibular rehabilitation and its facilitating and hindering factors from real-world clinical data

Background and purpose

Customized vestibular rehabilitation improved dizziness and imbalance in several randomized controlled trials. In the present study, we determined the efficacy of customized vestibular rehabilitation using real-world observational data.

Methods

In this retrospective observational study, we recruited 64 patients (median age = 60, interquartile range = 48-66.3) who completed the customized vestibular rehabilitation from January to December 2022. The outcomes of rehabilitation were evaluated using the dizziness handicap inventory (DHI) or vestibular disorders activities of daily living scale (VADL). The factors associated with outcomes were assessed with a generalized linear model, of which covariates included patients' age, sex, duration of illness, type of vestibular disorders, initial DHI and VADL scores, exercise compliance, and initial hospital anxiety and depression scale (HADS) scores.

Results

After the median of 6 (4-6) weeks of rehabilitation, DHI and VADL scores significantly improved in patients with either peripheral or central vestibular disorders (Wilcoxon signed-rank test, p < 0.05). The initial DHI and VADL scores showed a positive while the sum of HADS scores showed a negative correlation with the outcome. In contrast, the age, sex, duration of illness, types of vestibular disorders, and exercise compliance did not affect the outcome.

Discussion and conclusion

Customized vestibular rehabilitation is effective for central as well as peripheral disorders, especially when the symptoms are severe and the psychological distress is mild.

Assessing the Effects of Mild Traumatic Brain Injury on Vestibular Home Exercise Performance with Wearable Sensors

After a mild traumatic brain injury (mTBI), dizziness and balance problems are frequently reported, affecting individuals' daily lives and functioning. Vestibular rehabilitation is a standard treatment approach for addressing these issues, but its efficacy in this population remains inconclusive. A potential reason for suboptimal outcomes is the lack of objective monitoring of exercise performance, which is crucial for therapeutic success. This study utilized wearable inertial measurement units (IMUs) to quantify exercise performance in individuals with mTBI during home-based vestibular rehabilitation exercises. Seventy-three people with mTBI and fifty healthy controls were enrolled. Vestibular exercises were performed, and IMUs measured forehead and sternum velocities and range of motions. The mTBI group demonstrated a slower forehead peak angular velocity in all exercises, which may be a compensatory strategy to manage balance issues or symptom exacerbation. Additionally, the mTBI group exhibited a larger forehead range of motion during specific exercises, potentially linked to proprioceptive deficits. These findings emphasize the usefulness of utilizing IMUs to monitor the quality of home-based vestibular exercises for individuals with mTBI and the potential for IMUs improving rehabilitation outcomes.

Concussion Rehabilitation and the Application of Ten Movement Training Principles

Concussion awareness continues to grow in all aspects of healthcare, including the areas of prevention, acute care, and ongoing rehabilitation. Most of the concussion research to date has focussed on the challenges around screening and diagnosing what can be a complex mix of brain impairments that overlay with additional pre-existing comorbidities. While we expect further progress in concussion diagnosis, progress also continues to be made around proactive rehabilitation, with the emergence of interventions that can enhance the recovery process, maximise function and independence with a return to study, work, and play. Traditionally, optimal multimodal assessments of concussion have treated the physical, cognitive, and psychological domains of brain injury separately, which supports diagnosis, and informs appropriate follow-up care. Due to the complex nature of brain injury, multimodal assessments direct care toward professionals from many different disciplines including medicine, physiotherapy, psychology, neuropsychology, ophthalmology, and exercise physiology. In addition, these professionals may work in different fields such as sports, neurorehabilitation, vestibular, musculoskeletal, community, vocational, and general practice clinical settings. Rehabilitation interventions for concussions employed in practice are also likely to use a blend of theoretical principles from motor control, cognitive, and psychological sciences. This scale of diversity can make information dissemination, collaboration, and innovation challenging. The Ten Movement Training Principles (MTPs) have been proposed as a usable and relevant concept to guide and support clinical reasoning in neurorehabilitation. When applied to concussion rehabilitation, these same 10 principles provide a comprehensive overview of key rehabilitation strategies for current and future practice. Future collaborations can use these training principles to support clinical and research innovations including the rapid rise of technologies in this growing field of rehabilitation practice.

Post-Traumatic Craniocervical Disorders From a Postural Control Perspective: A Narrative Review

Mild traumatic brain injury (mTBI) and whiplash injury (WI) may lead to long-term disabling consequences known as post-concussive syndrome (PCS) and whiplash-associated disorders (WADs). PCS and WAD patients commonly complain of conditions encompassing dizziness, vertigo, headache, neck pain, visual complaints, anxiety, and neurocognitive dysfunctions. A proper medical work-up is a priority in order to rule out any acute treatable consequences. However investigations may remain poorly conclusive. Gathered in the head and neck structures, the ocular sensorimotor, the vestibular, and the cervical proprioceptive systems, all involved in postural control, may be damaged by mTBI or WI. Their dysfunctions are associated with a wide range of functional disorders including symptoms reported by PCS and WAD patients. In addition, the stomatognathic system needs to be specifically assessed particularly when associated to WI. Evidence for considering the post-traumatic impairment of these systems in PCS and WAD-related symptoms is still lacking but seems promising. Furthermore, few studies have considered the assessment and/or treatment of these widely interconnected systems from a comprehensive perspective. We argue that further research focusing on consequences of mTBI and WI on the systems involved in the postural control are necessary in order to bring new perspective of treatment.