Care for TBI in the UK
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Welcome to TBI Therapy Associates
At TBI Therapy Associates, we are dedicated to providing exceptional care for clients with vestibular issues, regardless of their referral source. Our mission is to deliver the highest standard of care through evidence-based practices and personalised treatment plans. We believe that referring clients to our specialised vestibular therapy services offers significant benefits, enhancing not only their immediate well-being but also broader aspects like case management, legal outcomes, and financial efficiency.
Our approach centers on tailored care for symptoms such as dizziness, balance disorders, and vertigo. Each client receives a customised treatment plan designed to meet their specific needs, ensuring optimal outcomes. Whether referred by healthcare professionals, case managers, or legal and insurance experts, our clients benefit from our specialised expertise in vestibular rehabilitation
Personal Injury Solicitors: Referring TBI patients to vestibular physiotherapy improves their quality of life by addressing debilitating symptoms like dizziness and balance issues. This targeted care demonstrates a commitment to comprehensive treatment, potentially leading to better legal outcomes and settlements
Case Managers: Integrating vestibular therapists into the multidisciplinary team (MDT) for TBI patients helps identify underlying vestibular issues, prevent symptom escalation, improve balance function, and reduce long-term secondary consequences. This comprehensive approach ultimately enhances patient outcomes and overall quality of life
Medico-Legal Professionals: Incorporating vestibular physiotherapy into your medico-legal reports strengthens them with evidence-based outcomes. This specialized care addresses often-overlooked vestibular issues, providing a comprehensive understanding of the patient’s functional capacity and prognosis.
Health Professionals: Partnering with vestibular physiotherapists allows for a holistic approach to TBI care. Early treatment of vestibular dysfunction can prevent long-term complications, improve patient outcomes and enhance overall care.
Insurance Companies: Referring TBI patients to vestibular physiotherapy can lead to cost savings. Effective early treatment reduces the risk of post TBI chronic dizziness, decreases the need for extensive ongoing therapy and care, and lowers the overall financial burden of rehabilitation.
At TBI Therapy Associates, our mission is to bridge the gap in vestibular care for TBI patients and improve their health outcomes. We are committed to raising awareness among healthcare professionals, case managers, and legal and insurance experts about the critical importance of addressing vestibular issues. Together, we can make a meaningful difference in the lives of those who need it most.
Thank you for being a part of this journey.
Sincerely,
I have extensive experience and a passion for improving patient outcomes for TBI patients with vestibular issues. My expertise in managing vestibular disorders ensures that whether you're seeking treatment, training, or expert witness services, you're in the best hands.
My commitment to professional development is reflected in my participation in numerous continuing professional development (CPD) courses. Notably, I completed the prestigious vestibular rehabilitation course led by Professor Susan Herdman at Emory University in 2009. This experience greatly influenced my approach to vestibular care, grounding my practice in evidence-based techniques and advanced clinical knowledge.
In 2011, I received the Robert Williams International Award from the Chartered Society of Physiotherapy (CSP) at the World Confederation for Physical Therapy (WCPT) Congress held in Amsterdam.
In 2012, I established DizzyCare Clinic to provide customised vestibular rehabilitation for patients with dizziness and DizzyCare Academy to offer CPD training for clinicians. Since then, over 1,500 clinicians have attended my courses, which have positively impacted patient care
After nearly 20 years in the NHS, I transitioned to focus on providing specialised vestibular care for TBI patients and established TBI Therapy Associates Ltd with a mission to offer comprehensive, personalised care to help TBI patients manage and overcome vestibular disorders
Although based in the Midlands, we are committed to making our services accessible nationwide, ensuring that all our clients receive the highest standard of vestibular care, regardless of their location.
Dizziness is a non-specific term used to describe a range of sensations that can make a person feel unsteady, lightheaded, faint, or as if they or their surroundings are spinning or moving. It is a common symptom that can result from various underlying causes, including issues with the inner ear, neurological conditions, cardiovascular problems, medication side effects, dehydration, anxiety, and more.
There are different types of dizziness, including:
Vertigo: This type of dizziness gives a person the sensation that they or their surroundings are spinning or moving, even when standing still. It often occurs due to problems with the inner ear or the vestibular system, which is responsible for maintaining balance.
Presyncope: Presyncope refers to feeling faint or lightheaded without actually losing consciousness. It can result from a temporary decrease in blood flow to the brain, such as when standing up too quickly (orthostatic or postural hypotension).
Disequilibrium: Disequilibrium is a feeling of unsteadiness or imbalance, as if the person is going to fall. It can stem from issues with proprioception (awareness of body position) or problems with the vestibular system.
Lightheadedness: Dizziness that does not fall into the categories of vertigo, presyncope, or disequilibrium is often classified as lightheadedness, which can manifest as feelings of floating, disorientation, or difficulty concentrating.
Dizziness can be accompanied by additional symptoms such as nausea, vomiting, sweating, ringing in the ears (tinnitus), headache, or visual disturbances. Given the wide range of potential causes, it is important for a person to consult a suitably trained healthcare professional, as a proper diagnosis is crucial for determining the underlying cause and appropriate treatment.
Dizziness is a common symptom following brain injuries and can persist for varying durations. The prevalence of dizziness in brain injuries, including traumatic brain injuries (TBIs), varies depending on the severity and type of injury, as well as other contributing factors.
Here are some insights into the prevalence of dizziness in brain injuries:
Traumatic Brain Injuries (TBIs): Dizziness is a frequent complaint following TBIs, including concussions. Studies have shown that dizziness is among the most common symptoms experienced by individuals with TBIs. The prevalence of dizziness in these individuals can range widely, from approximately 30% to over 70%, depending on the study population and criteria used for assessment.
Mild Traumatic Brain Injuries: Dizziness is a hallmark symptom of mild TBIs, commonly known as concussions. Research indicates that dizziness occurs in a significant proportion of individuals who sustain concussions, with estimates ranging from 30% to 90% in various studies.
Moderate to Severe Traumatic Brain Injuries: Dizziness is also prevalent in individuals with moderate to severe TBIs. While severe TBIs may be associated with a higher risk of dizziness due to more extensive brain damage, dizziness can occur across the entire spectrum of TBI severity.
Post-Concussion Syndrome (PCS): In some individuals, dizziness can persist beyond the acute phase of injury, leading to post-concussion syndrome (PCS). PCS is characterized by the persistence of symptoms such as dizziness, headaches, fatigue, and cognitive difficulties for weeks or even months after the initial injury.
Other Types of Brain Injuries: Dizziness can also occur in other types of brain injuries, such as hemorrhages, strokes, or tumors, depending on the location and extent of the brain damage
Dizziness can have profound consequences for TBI patients, affecting their physical, emotional, and social well-being. The impact varies based on the severity, frequency, and underlying causes of dizziness. Key consequences include:
Increased Risk of Falls: Dizziness impairs balance, heightening the risk of falls and injuries such as fractures, sprains, or further head trauma—especially concerning for TBI patients.
Functional Impairment: Persistent dizziness can disrupt daily activities, work, and recreation, leading to a reduced quality of life. TBI patients may struggle with driving, working, or engaging in social activities.
Anxiety and Depression: Chronic dizziness often leads to anxiety, depression, and social isolation. The unpredictability of symptoms can cause heightened anxiety about experiencing dizziness in public or during activities.
Difficulty Concentrating: Dizziness can impair cognitive function, making it hard to focus during cognitive therapy or tasks requiring mental effort. This can slow progress in cognitive rehabilitation, affecting memory, attention, and problem-solving skills.
Increased Fatigue: Dizziness is physically and mentally exhausting, leading to quicker fatigue during therapy sessions. This may result in shorter sessions, reduced exercise intensity, and less overall therapeutic benefit.
Decreased Independence: Dizziness can diminish a TBI patient's sense of independence, leading to reliance on others or adaptive devices. This loss of independence can have significant emotional and psychological impacts.
Impact on Relationships: Dizziness can strain relationships with family, friends, and caregivers, particularly if ongoing support is needed. Caregivers may also experience increased stress and burden.
Poor Engagement with Therapies: Dizziness can create significant barriers to fully participating in therapy activities, potentially delaying recovery and reducing the effectiveness of rehabilitation.
Work and Financial Challenges: Dizziness may hinder a TBI patient’s ability to work, leading to financial strain and career disruption, with long-term consequences for financial stability.
Avoidance of Activities: TBI patients may avoid activities or environments that trigger dizziness, resulting in decreased participation in meaningful activities and potential social withdrawal.
Traumatic Brain Injury (TBI) can lead to a range of vestibular conditions, significantly impacting a patient’s balance, spatial orientation, and overall quality of life. The balance system, which includes the vestibular system, vision, proprioception, brainstem, and cerebellum, is often compromised in TBI, resulting in various debilitating symptoms.
Benign Paroxysmal Positional Vertigo (BPPV): One of the most common vestibular disorders following TBI, BPPV occurs when tiny calcium crystals in the inner ear become dislodged and enter the semicircular canals, causing vertigo. BPPV leads to sudden episodes of dizziness or spinning, particularly when changing head positions, such as looking up, lying down, or turning over in bed.
Post-Traumatic Meniere’s Disease: This condition may develop after TBI and is characterized by episodic vertigo, fluctuating hearing loss, tinnitus, and a sensation of fullness in the ear.
Labyrinthine Concussion: Trauma to the inner ear or vestibular nerve can result in a labyrinthine concussion, causing acute vertigo, hearing loss, tinnitus, and imbalance, often occurring immediately after the injury.
Vestibular Nerve Concussion: Trauma to the VIIIth cranial nerve can lead to dizziness, vertigo, and unsteadiness. In some cases, this can affect both sides, causing bilateral vestibular hypofunction.
Perilymph Fistula: A tear or defect in the membranes separating the middle ear from the inner ear can cause perilymph fluid to leak into the middle ear, resulting in dizziness and imbalance.
Post-Traumatic Vestibular Migraine (VM): TBI can trigger vestibular migraines, a type of migraine associated with vestibular symptoms. VM is characterized by vertigo, imbalance, motion sensitivity, and typical migraine headaches, often triggered by head movements or visual stimuli.
Chronic Subjective Dizziness (CSD)/Persistent Postural-Perceptual Dizziness (PPPD): PPPD is marked by persistent dizziness and unsteadiness, often exacerbated by complex visual environments or active movements.
Central Vestibular Disorders: Damage to the central vestibular pathways in the brain following TBI can lead to central vestibular and balance issues. Typical symptoms include dizziness, imbalance, coordination difficulties, and problems with vision and spatial orientation.
Diagnosing dizziness involves a comprehensive approach by specialists, such as vestibular physiotherapists, to identify the underlying cause of the symptoms. The diagnostic process typically includes the following steps:
The treatment of dizziness is guided by its underlying cause, which is identified through a comprehensive evaluation by a vestibular specialist. Common treatment options for dizziness include:
Vestibular Rehabilitation Therapy (VRT): VRT is a specialized physical therapy designed to enhance balance, reduce dizziness, and improve functional mobility in individuals with vestibular disorders. It involves exercises and manoeuvres aimed at promoting adaptation, habituation, and compensation for vestibular deficits.
Canalith Repositioning Manoeuvres: Manoeuvres like the Epley or Semont are used to treat benign paroxysmal positional vertigo (BPPV). They involve specific head and body movements to reposition displaced inner ear crystals (otoconia) and alleviate vertigo.
Medications: Medications may be prescribed to manage symptoms or address the underlying condition causing dizziness. These can include drugs to alleviate nausea and vomiting, reduce vestibular symptoms, or treat specific medical conditions. However, long-term use of vestibular medications requires caution, as they can lead to poor compensation, extrapyramidal effects, and other adverse consequences.
Lifestyle Modifications: Adjustments such as staying hydrated, optimising workstations, reducing stress, limiting caffeine and alcohol intake, and avoiding triggers can help manage dizziness and reduce symptoms.
Balance Training: Exercises designed to improve stability, coordination, and proprioception (body position awareness) may be included in a comprehensive vestibular rehabilitation program or used as standalone therapy.
Treatment of Underlying Conditions: Addressing the root causes of dizziness, such as inner ear infections, vestibular migraine, Meniere's disease, orthostatic hypotension, anxiety, or neurological disorders, is crucial for effective symptom management.
Psychological Support: Dizziness can significantly impact emotional well-being and quality of life. Psychological support, including counselling or Cognitive Vestibular Therapy, may help manage anxiety, depression, or stress related to dizziness.
Dizziness treatment should be tailored to the individual’s specific diagnosis, symptoms, functional limitations, and goals. Collaborating closely with a vestibular specialist is essential to develop a comprehensive treatment plan that addresses the individual’s needs and enhances their overall quality of life.
Dizziness is a common symptom among TBI patients but is often misdiagnosed or inadequately treated due to several factors. Addressing these challenges is essential for improving patient outcomes.
Challenges in Diagnosing Dizziness in TBI Patients
Complex Symptom Presentation: TBI patients frequently exhibit a range of overlapping symptoms, such as headaches, cognitive impairments, and emotional disturbances, which can obscure the identification of dizziness as a distinct issue. Additionally, symptoms of vestibular dysfunction may not manifest until days, weeks, or even months after the injury, potentially leading to oversight during initial evaluations.
Lack of Vestibular Clinical Training: Many frontline clinicians, including specialists, may lack in-depth training in vestibular disorders. This gap in expertise can lead to missed or incorrect diagnoses, impacting the effectiveness of treatment.
Misattribution of Symptoms: Dizziness may be mistakenly attributed to psychological factors, such as anxiety or post-traumatic stress disorder (PTSD), especially when no obvious vestibular condition is evident. Furthermore, dizziness symptoms can be misattributed to general medical or neurological issues without recognizing the specific vestibular component.
Understanding and addressing these challenges is crucial for accurate diagnosis and effective treatment of dizziness in TBI patients.
Many TBI patients do not routinely undergo comprehensive vestibular assessment and do not receive adequate vestibular therapy, and several factors contribute to this issue.
Traumatic Brain Injury (TBI) patients may often face challenges in expressing their vestibular symptoms to clinicians due to a combination of cognitive, communicative, and sensory factors associated with the injury. Lack of reporting can lead to inadequate care for vestibular issues.
Both patients and healthcare professionals may lack awareness of vestibular issues in TBI and the benefits of vestibular rehabilitation therapy (VRT). This lack of awareness can result in fewer referrals and missed opportunities for effective treatment.
The shortage of specialists trained in vestibular rehabilitation can lead to delays or gaps in treatment for TBI patients experiencing dizziness. Additionally, geographic barriers can further restrict access, particularly for patients in rural or underserved areas.
The absence of standardised treatment protocols for vestibular disorders in TBI patients often results in inconsistent care and variable outcomes. Regular follow-up is crucial for adapting treatment plans and monitoring progress, yet it is frequently insufficient in the management of these disorders.
Traveling to see a specialist can significantly aggravate vestibular symptoms including travel /motion sickness in TBI patients, which may hinder their participation in treatment.
Benign Paroxysmal Positional Vertigo (BPPV) is a prevalent vestibular disorder marked by brief episodes of vertigo triggered by specific head movements. It results from the displacement of tiny calcium carbonate crystals (otoconia) within the inner ear’s semicircular canals. BPPV can be classified into various types, including:
Each type of BPPV requires specific diagnostic and treatment strategies to manage symptoms effectively and improve the patient’s quality of life.
For individuals with Traumatic Brain Injuries (TBIs), head trauma can dislodge these crystals, potentially leading to bilateral or mixed-type BPPV.
Many TBI patients with BPPV respond well to standard treatments like canalith repositioning manoeuvres (e.g., Epley manoeuvre). With appropriate treatment, patients often experience significant improvement or resolution of symptoms within a few sessions of treatment. However, the severity and nature of the TBI can impact BPPV prognosis. More severe brain injuries or complex TBIs may involve additional vestibular and neurological deficits, complicating the resolution of BPPV. Additionally, BPPV can recur in TBI patients, potentially more frequently or with different characteristics than in individuals without TBI.
Monitoring and preventive strategies may be necessary.It is crucial for TBI patients experiencing dizziness or vertigo to undergo a thorough evaluation by a vestibular specialist. This evaluation will help diagnose the specific type of BPPV and differentiate it from other potential causes of symptoms. Tailoring treatment recommendations to the precise type of BPPV is essential for optimal management and recovery.
Post-traumatic vestibular Hypofunction refers to the reduced or impaired function of the vestibular system following a traumatic brain injury (TBI) or head trauma. This condition can manifest as either unilateral or bilateral, depending on whether one or both sides of the vestibular system are affected. The vestibular system, located in the inner ear, is crucial for maintaining balance, spatial orientation, and stabilising gaze during head movements. When damaged by trauma, it can lead to a range of symptoms and impairments in balance and coordination.
Common symptoms of post-traumatic vestibular hypofunction include:
Diagnosis: Diagnosing post-traumatic vestibular hypofunction typically involves a comprehensive evaluation by a vestibular specialists, such as a vestibular physiotherapist, which may involve:
Treatment aims to alleviate symptoms, improve balance and stability, and enhance overall functional mobility. Options may include:
Prognosis: The outlook for TBI patients with vestibular hypofunction is generally positive with appropriate rehabilitation, particularly when guided by a vestibular physiotherapist. However, prognosis depends on factors such as the severity of the TBI, the extent of vestibular damage, and individual patient characteristics. Early and consistent intervention, combined with a comprehensive rehabilitation program, offers the best chance for significant improvement and functional recovery. However, some patients may experience ongoing challenges requiring long-term management.
Post-Traumatic Vestibular Migraine is a type of migraine that occurs after a traumatic brain injury (TBI) and is characterised by vestibular symptoms such as dizziness, vertigo, and imbalance, along with other migraine-related symptoms like photophobia, phonophobia, and aura. Notably, these vestibular symptoms may or may not be accompanied by a traditional migraine headache.
Following a TBI, the normal functioning of the vestibular system—which is critical for balance and spatial orientation—can be disrupted. This disruption may trigger vestibular symptoms, especially in individuals predisposed to migraines.
Post-traumatic vestibular migraine shares many features with typical vestibular migraine but is distinguished by its onset following head injury. Symptoms can include vertigo, dizziness, headache, visual disturbances with aura, and sensitivity to motion or visual stimuli.
Diagnosis of post-traumatic vestibular migraine involves a comprehensive evaluation by a healthcare professional, often a neurologist, headache specialist, or vestibular physiotherapist. The diagnosis is based on the individual's medical history, symptom presentation, and the exclusion of other potential causes of vestibular symptoms.
Treatment for post-traumatic vestibular migraine may include a combination of:
Vestibular disorders can significantly impact not only physical balance but also cognitive and psychological well-being. This is particularly evident in patients with Traumatic Brain Injury (TBI), where vestibular dysfunction exacerbates cognitive impairments and psychological distress. Addressing these impacts is crucial for comprehensive treatment and rehabilitation, as managing vestibular dysfunction and its cognitive and psychological consequences can greatly improve a patient’s quality of life and overall functioning.
By integrating these approaches, vestibular physiotherapists and other healthcare professionals can significantly improve the quality of life for TBI patients dealing with vestibular disorders, helping them regain functional independence and emotional stability.
PPPD in TBIs
Individuals who have sustained a TBI, due to the disruption of sensory input and integration processes in the brain following a TBI can contribute to the development or exacerbation of symptoms characteristic of PPPD.
The hallmark symptoms of PPPD include persistent feelings of dizziness, unsteadiness, and visual disturbances, often described as feeling "off balance" or "rocking" sensations. These symptoms may be accompanied by a heightened sensitivity to motion, visual stimuli, and busy environments. Individuals with PPPD may also experience symptoms such as anxiety, fatigue, difficulty concentrating, and avoidance of activities that trigger or exacerbate symptoms.
Diagnosis
Diagnosing PPPD in individuals with TBIs involves a comprehensive evaluation by a trained vestibular specialist such as a vestibular specialist. The diagnosis is based on the presence of characteristic symptoms, a history of TBI or head trauma, and the exclusion of other potential causes of dizziness and imbalance.
Treatment
Treatment for PPPD focuses on symptom management, functional improvement, and enhancing the quality of life. Treatment options may include:
Vestibular rehabilitation therapy (VRT): A specialized form of physical therapy that includes exercises and manoeuvers to improve balance, stability, and adaptation to vestibular stimuli.
Cognitive-behavioural therapy (CBT): Therapy techniques aimed at addressing anxiety, maladaptive beliefs, and avoidance behaviours associated with PPPD.
Medications: Medications may be prescribed to manage symptoms such as anxiety, depression, or migraine headaches that commonly coexist with PPPD.
Lifestyle modifications: Strategies to optimize sleep, manage stress, and minimize triggers that exacerbate symptoms, such as avoiding excessive visual stimulation or prolonged periods of upright posture.
Prognosis: The prognosis for individuals with PPPD following TBIs varies depending on the severity of symptoms, response to treatment, and individual factors such as age, overall health, and the presence of coexisting conditions. While some individuals may experience significant improvement with appropriate management and rehabilitation, others may have persistent symptoms that require ongoing symptom management and support.
Overall, managing PPPD in individuals with TBIs requires a multidisciplinary approach, with treatment tailored to the individual's specific symptoms, functional limitations, and goals. Collaboration between clinicians, including vestibular physiotherapist, psychologists, and other specialists, is essential for optimising outcomes and improving quality of life for individuals living with PPPD following TBIs
Visual vertigo, also known as visually induced dizziness, is characterized by symptoms of dizziness, vertigo, and imbalance that are triggered or worsened by specific visual stimuli or environments. Individuals with visual vertigo may experience disorientation, lightheadedness, nausea, and a sensation of swaying or rocking when exposed to visually complex, moving, or disorienting stimuli.
Visual vertigo is typically triggered by visual stimuli or situations that challenge the brain's ability to process visual information and maintain spatial orientation. Common triggers include:
Visual vertigo often coexists with vestibular disorders like benign paroxysmal positional vertigo (BPPV), vestibular migraine, or vestibular hypofunction. In these cases, visual vertigo may represent a manifestation of the underlying vestibular dysfunction, with visual stimuli triggering or exacerbating vestibular symptoms.
Diagnosing visual vertigo involves a comprehensive evaluation by a vestibular specialist or vestibular physiotherapist. The diagnosis is based on characteristic symptoms, a thorough medical history, a physical examination, and the exclusion of other potential causes of dizziness and imbalance.
Treatment for visual vertigo focuses on managing symptoms, improving function, and reducing sensitivity to visual triggers. Options may include:
Managing visual vertigo requires a multidisciplinary approach. Treatment should be tailored to the individual's specific symptoms, triggers, and functional limitations. Collaboration between healthcare providers, including neurologists, vestibular physiotherapists, psychologists, and other specialists, is essential for optimising outcomes and improving the quality of life for individuals with visual vertigo.
Cervicogenic dizziness refers to dizziness that arises from dysfunction in the cervical spine/neck. It is characterized by symptoms of dizziness, unsteadiness, or imbalance that are believed to be related to cervical musculoskeletal disorders, such as neck pain, cervical joint dysfunction, or cervical spine pathology. Cervicogenic dizziness can occur following traumatic brain injuries (TBIs) and may contribute to or exacerbate symptoms of vestibular dizziness and imbalance.
Here are some key points about cervicogenic dizziness in the context of traumatic brain injuries:
Cervicogenic dizziness symptoms
Dizziness or vertigo, swaying, or unsteadiness.
Neck pain or stiffness typically localized to the cervical spine.
Headaches, particularly originating from the base of the skull or neck.
Visual disturbances, such as blurred vision or difficulty focusing
Sensitivity to head movements or changes in neck position
Diagnosis
Diagnosing cervicogenic dizziness in individuals with TBIs involves a comprehensive evaluation by a Musculoskeletal vestibular specialist. The diagnosis is based on the presence of characteristic symptoms, a history of TBI or head trauma, and clinical findings suggestive of cervical spine dysfunction, such as restricted range of motion or tenderness to palpation in the neck.
Treatment
Treatment for cervicogenic dizziness aims to address underlying cervical spine dysfunction, alleviate symptoms, and improve functional outcomes. Treatment options may include:
Balance control is a complex process that relies on the integration of sensory inputs from multiple systems: vestibular, visual, and somatosensory.
In individuals with Traumatic Brain Injury (TBI), this integration is often disrupted, leading to significant balance and coordination problems. Understanding the mechanisms of multi-sensory balance control and the impact of TBI is essential for developing effective rehabilitation strategies.
Effective management of multi-sensory balance issues in TBI patients requires a comprehensive approach that addresses the complex interplay between various sensory systems. By utilising specialised assessments and tailored rehabilitation strategies, vestibular physiotherapists can help TBI patients regain better balance control and improve their overall quality of life.
Vestibular rehabilitation therapy (VRT) is a vital component in the management of multi-sensory balance issues in TBI patients. By providing a structured and individualised approach, VRT can significantly improve balance, reduce dizziness, and enhance overall quality of life. Through comprehensive assessment, tailored exercises, and continuous support, vestibular physiotherapists play a crucial role in helping TBI patients regain their functional independence and confidence.
Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions
Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions Stay informed about the latest updates and research in vestibular disorders and Traumatic Brain Injury (TBI) with our "Resources" section. We aim to provide valuable updates to professionals and individuals alike, fostering a deeper understanding and facilitating better management of these complex conditions
Vestibular dysfunction is common in patients following acute traumatic brain injury (aTBI) with damaging consequences such as dizziness. Yet, in this study, doctors' perception of dizziness was that it was short lived, and generally gave it less importance than therapists. Notably, there was a perception among doctors that dizziness was a vague symptom without a specific treatment, or even that it was unfixable.
All respondents had some relevant knowledge around vestibular dysfunction, but a widespread lack of practical skills was noted.This implied that patients are not routinely assessed and treated for it. Doctors cited limited training, similar to physiotherapists and occupational therapists who viewed their training around vestibular dysfunction as insufficient. They felt that its management did not fall within the scope of their role. Specifically, occupational therapists in this study expressed a concern that treatment of vestibular dysfunction would cross professional boundaries.
Secondary barriers
for effective management of vestibular dysfunction following aTBI included time (especially in emergency settings), feasibility of diagnosis and treatment, motivation and
confidence. Trauma
therapists cited a lack of relevant role models as an issue, as well as
a difficulty with diagnosis and treatment due to the patients' state
such as their physical pain and cognition.
Despite the challenges mentioned by healthcare professionals in this study for the effective management of dizziness following aTBI, therapists acknowledged the serious implications of dizziness and prioritised the problem. Therapists showed the most desire to change in order to successfully treat vestibular dysfunction. Doctors also noted that therapists would be best placed for this responsibility. Suggested wider facilitators to improvement included changes to guidelines and better availability of information for practitioners and patients. Several role related facilitators were mentioned, including enhanced theoretical and practical training.
Key findings
In the study, 111 Major Trauma Ward patients were screened for vestibular symptoms, and subsequently underwent neuro-otological assessment. Of the 111 patients, 96 were found to have vestibular dysfunction. 47 of this 96 were then assessed for the study. Multiple signs of vestibular dysfunction were found, the most common being gait ataxia, which 62% of the 47 presented with. Importantly, half of the 62% did not even perceive their problem, suggesting that vestibular symptoms may be a larger issue in TBI patients than currently recognised. Additionally, the study notes that injury of both central and peripheral systems can occur simultaneously, an occurrence that is relatively unique to acute TBI, which can theoretically delay recovery.
Key findings
- Vestibular dysfunction is common in TBI patients but the vestibular signs are under recognised in acute care.
Authors: Helene Andersson, MS ; Greg Eigner Jablonski, MD, PhD; Stein Helge Glad Nordahl, MD, PhD; Karl Nordfalk, MD, PhD; Eirik Helseth, MD, PhD; Camilla Martens, MD, PhD ; Kjetil Røysland PhD, Frederik Kragerud Goplen, MD, PhD
Source: Laryngoscope, 132:443–448, 2022
The study noted that there is not an internationally accepted standard criteria for traumatic BPPV (t-BPPV) at present. The cut-off time between trauma and development of symptoms used in literature varies anywhere from days to three months.
Significant BPPV was found in cases with minimal head traumas, showing that even relatively minor injuries can result in BPPV. The risk of t-BPPV did not vary with age or gender. Additionally, the study found a different distribution of subtypes of BPPV compared to the reported distribution within cases of i-BPPV (there were more bilateral, lateral and anterior canal cases), highlighting the need to conduct the supine roll test on dizzy head injury patients. Due to the high prevalence of BPPV after head trauma, the study noted that BPPV should first be investigated before denoting symptoms to a concussion.
To conclude, the study proposed that in head trauma cases where development of BPPV occurs within two weeks of the trauma, the trauma is the cause. Consequently, head trauma patients should be educated about the possibility of developing BPPV, and protocols should be developed specifically to diagnose and treat BPPV after minimal to moderate head trauma.
Improving balance in community-dwelling elders using trained volunteers within faith-base institutions: a mixed methods feasibility study
Sheeba Rosewilliam, Colin J. Greaves, Arokkiyasamy Selvanayagam & Andrew A. Soundy
School of Sports, Exercise and Rehabilitation Sciences, University of Birmingham, Birmingham, UK; Dizzy care clinic ltd, Wolverhampton, UK
This study explored whether trained volunteers in churches and other faith-based institutions could help improve balance in older adults living in the community. The researchers wanted to see if this approach was practical and effective.
The study involved a mix of different research methods, including surveys, interviews, and balance tests. Volunteers from churches were trained to lead balance exercises with older adults. The researchers then measured the progress of these participants to see if their balance improved over time.
The results showed that this approach was feasible—meaning it worked well in a real-world setting. The older adults who participated found the balance exercises helpful, and many experienced improvements in their ability to stay steady and avoid falls. The study also highlighted the benefits of using trusted community spaces like churches to support the health and well-being of older adults.
Overall, this research suggests that trained volunteers in faith-based institutions can play an important role in helping older adults maintain their balance and reduce the risk of falls, making it a promising approach for community health programs.