Matthew R. Scherer scite author profile

Within the last decade, more than 220,000 service members have sustained traumatic brain injury (TBI) in support of military operations in Iraq and Afghanistan. Mild TBI may result in subtle cognitive and sensorimotor deficits that adversely affect warfighter performance, creating significant challenges for service members, commanders, and clinicians. In recent conflicts, physical therapists and occupational therapists have played an important role in evaluating service member readiness to return to duty (RTD), incorporating research and best practices from the sports concussion literature. Because premorbid (baseline) performance metrics are not typically available for deployed service members as for athletes, clinicians commonly determine duty readiness based upon the absence of postconcussive symptoms and return to "normal" performance on clinical assessments not yet validated in the military population. Although practices described in the sports concussion literature guide "return-to-play" determinations, resolution of symptoms or improvement of isolated impairments may be inadequate to predict readiness in a military operational environment. Existing clinical metrics informing RTD decision making are limited because they fail to emphasize functional, warrior task demands and they lack versatility to assess the effects of comorbid deficits. Recently, a number of complex task-oriented RTD approaches have emerged from Department of Defense laboratory and clinical settings to address this gap. Immersive virtual reality environments, field-based scenario-driven assessment programs, and militarized dual-task and multitask-based approaches have all been proposed for the evaluation of sensorimotor and cognitive function following TBI. There remains a need for clinically feasible assessment methods that can be used to verify functional performance and operational competence in a variety of practice settings. Complex and ecologically valid assessment techniques incorporating dual-task and multitask methods may prove useful in validating return-to-activity requirements in civilian and military populations.

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Traumatic Brain Injury and Vestibular Pathology as a Comorbidity After Blast Exposure

Scherer

Schubert²

2009

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Blasts or explosions are the most common mechanisms of injury in modern warfare. Traumatic brain injury (TBI) is a frequent consequence of exposure to such attacks. Although the management of orthopedic, integumentary, neurocognitive, and neurobehavioral sequelae in survivors of blasts has been described in the literature, less attention has been paid to the physical therapist examination and care of people with dizziness and blast-induced TBI (BITBI). Dizziness is a common clinical finding in people with BITBI; however, many US military service members who have been exposed to blasts and who are returning from Iraq and Afghanistan also complain of vertigo, gaze instability, motion intolerance, and other symptoms consistent with peripheral vestibular pathology. To date, few studies have addressed such "vestibular" complaints in service members injured by blasts. Given the demonstrated efficacy of treating the signs and symptoms associated with vestibular pathology, vestibular rehabilitation may have important implications for the successful care of service members who have been injured by blasts and who are complaining of vertigo or other symptoms consistent with vestibular pathology. In addition, there is a great need to build consensus on the clinical best practices for the assessment and management of BITBI and blast-related dizziness. The purpose of this review is to summarize the findings of clinicians and scientists conducting research on the effects of blasts with the aims of defining the scope of the problem, describing and characterizing the effects of blasts, reviewing relevant patients' characteristics and sensorimotor deficits associated with BITBI, and suggesting clinical best practices for the rehabilitation of BITBI and blast-related dizziness.

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Evidence of Central and Peripheral Vestibular Pathology in Blast-Related Traumatic Brain Injury

Scherer¹,

Burrows²,

Pinto³

et al. 2011

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Development of a Measure to Inform Return-to-Duty Decision Making After Mild Traumatic Brain Injury

Radomski¹,

Weightman²,

Davidson

et al. 2013

Military Medicine

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Mild traumatic brain injury (mTBI), a principal injury of the wars in Iraq and Afghanistan, can result in significant morbidity. To make accurate return-to-duty decisions for soldiers with mTBI, military medical personnel require sensitive, objective, and duty-relevant data to characterize subtle cognitive and sensorimotor injury sequelae. A military-civilian research team reviewed existing literature and obtained input from stakeholders, end users, and experts to specify the concept and develop a preliminary assessment protocol to address this need. Results of the literature review suggested the potential utility of a test based on dual-task and multitask assessment methods. Thirty-three individuals representing a variety of military and civilian stakeholders/experts participated in interviews. Interview data suggested that reliability/validity, clinical feasibility, usability across treatment facilities, military face validity, and capacity to challenge mission-critical mTBI vulnerabilities were important to ultimate adoption. The research team developed the Assessment of Military Multitasking Performance, a tool composed of eight dual and multitasking test-tasks. A concept test session with 10 subjects indicated preliminary face validity and informed modifications to scoring and design. Further validation is needed. The Assessment of Military Multitasking Performance may fill a gap identified by stakeholders for complex cognitive/motor testing to assist return-to-duty decisions for service members with mTBI.

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Measurement Characteristics and Clinical Utility of the Clinical Test of Sensory Interaction on Balance (CTSIB) and Modified CTSIB in Individuals With Vestibular Dysfunction

Horn¹,

Rice²,

Stoskus³

et al. 2015

Archives of Physical Medicine and Rehabilitation

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Vestibular dysfunction resulting from peripheral vestibular disorders, head trauma, and other central nervous system disorders can lead to imbalance and falls. [1][2][3] Balance impairment can have a significant impact on an individual's ability to perform activities of daily living or participate in work and leisure activities. A thorough assessment of balance includes examination of the sensory systems that contribute to postural control. The Clinical Test of Sensory Interaction on Balance (CTSIB) was developed to assess the contribution of the visual, somatosensory, and vestibular systems to postural control. 4 The original test evaluates static postural stability in 6 distinct standing conditions with eyes open, with eyes closed, and with the use of a dome to alter visual input on both firm and foam surfaces. This test has been modified to include eyes open and eyes closed on both firm and foam surfaces, given the finding that altered visual inputs from the dome were not different from those in the eyes closed condition. 5 This test can be administered in less than 15 minutes with minimal equipment (stopwatch and foam pad). The CTSIB and modified CTSIB have excellent reliability and validity in adults with vestibular disorders and can be easily administered in all clinical settings. This Rehabilitation Measures Database summary provides a review of the psychometric properties of the CTSIB and modified CTSIB in adults with vestibular dysfunction. A full review of the CTSIB and modified CTSIB as well as reviews of more than 100 other instruments can be found at www.rehabmeasures.org.

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A Randomized Controlled Trial of a Leg Orthosis versus Traditional Treatment for Soldiers with Shin Splints: A Pilot Study

et al. 2006

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Diagnosis and management strategies for shin splints in active duty military populations closely resemble those in civilian athletic populations. There is a paucity of evidence supporting the use of many of these interventions. The purpose of this study was to present data on the Shin Saver orthosis as a treatment for shin splints in an active duty military population and to review current condition management. Twenty-five subjects diagnosed with shin splints by a U.S. Army physical therapist were randomly assigned to a shin orthosis treatment group or a control group. There was no significant difference between treatment and control groups in days to finish a 0.5-mile run pain free. Visual analog scales for pain at intake versus after 1 week of relative rest revealed no significant improvement in symptoms in either group. Current best-practice guidelines support a treatment program of rest, cryotherapy, and a graduated walk-to-run program.

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Characterizing Self-Reported Dizziness and Otovestibular Impairment among Blast-Injured Traumatic Amputees: A Pilot Study

et al. 2007

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The incidence of vestibular and audiologic injury related to blast injury remains underreported. The primary objective of this study was to document self-reported otovestibular impairment in blast-injured amputees. Secondary objectives include a description of the Walter Reed Army Medical Center Blast Injury Questionnaire and other aspects of the audiology service and amputee physical therapy section standards of care for blast injury management. A case study illustrates the application of these standards of care. Thirty-three patients were evaluated by audiologists and physical therapists using the Walter Reed Army Medical Center Blast Injury Questionnaire, followed by audiologic and vestibular screening; 24% of patients reported symptoms of vertigo or oscillopsia following blast trauma, and 51% reported subjective hearing loss. The case study subject reported an increase in function after vestibular rehabilitation therapy. Thorough screening by audiologists and physical therapists can facilitate appropriate diagnosis and management for blast-injured patients.

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Gait rehabilitation with body weight-supported treadmill training for a blast injury survivor with traumatic brain injury

Scherer

2007

Brain Injury

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