An Exploration of the Impact of Initial Timing of Physical Therapy on Safety and Outcomes After Concussion in Adolescents

Time to Rehabilitation in Pediatric Concussion Patients Influences Recovery Outcomes

CONTEXT

Targeted and directed rehabilitation with a healthcare provider can be an effective approach in the treatment of concussion, particularly for patients with protracted recovery, high symptom reporting, cervicogenic dysfunction, musculoskeletal involvement, and/or vestibular/oculomotor dysfunction. While many environmental and intrinsic medical history factors may influence concussion recovery, little is known about whether an individual's recovery trajectory can be influenced by the amount of time taken to receive rehabilitation. The purpose of this study was to evaluate recovery trajectories of concussion patients requiring targeted multimodal rehabilitation after a specialty concussion clinic visit within ≤3 days, 4 to 7 days, and >7 days. We also sought to evaluate risk factors for protracted recovery.

DESIGN AND METHODS

The study involved a retrospective chart review of 103 patients (mean age = 13.78 [2.89]; 55% female) who, after their initial specialty concussion clinic visit, received rehabilitation in ≤3 days, 4 to 7 days, and >7 days. Patients were evaluated at a pediatric specialty concussion clinic between April 2021 and December 2023, and diagnosed with concussion by a specialist (primary care sports medicine physician, nurse practitioner, and/or neuropsychologist), referred for rehabilitation via physical therapy services, completed more than one rehabilitation session, and received medical clearance to initiate the return-to-sport protocol. Groups were compared based on relevant clinical factors, Vestibular Ocular Motor Screening, neurocognitive testing (Trails B-A), Post-Concussion Symptom Scale, days from injury to concussion evaluation, days from concussion evaluation to rehabilitation, number of rehabilitation sessions, recovery days after rehabilitation, and total recovery days (ie, days from injury to medical clearance to initiate return-to-sport protocol). Data analysis included chi-square, correlations, 1-way analysis of variance, and general linear regression. Adjusted odds ratios for protracted recovery were derived from a logistic regression model.

DISCUSSION

Days from injury to concussion evaluation (P < .001), days from concussion evaluation to rehabilitation (P = .006), and Trails B-A (P = .009), were significant predictors of total recovery time among pediatric concussion patients who required multimodal rehabilitation. Risk of protracted recovery increased by 34% each day from injury to concussion evaluation a patient did not receive treatment (Nagelkerke Pseudo R2 = .45; P < .001). Previous studies have also shown that time to concussion evaluation is an important prognostic indicator of recovery. Correspondingly, prompt referral to concussion care and rehabilitation for patients with a need for multimodal rehabilitation can improve recovery outcomes.

Factors Influencing Length of Care in Physical Therapy After Pediatric and Adolescent Concussion

CONTEXT

Social determinants of health including insurance type, income, race, and ethnicity have been shown to influence the utilization of physical therapy and recovery after an orthopedic injury. The influence of social determinants of health on the utilization of physical therapy and recovery from concussion is not well understood.

DESIGN

Prospective observational registry study in a specialty concussion program.

METHODS

Patients diagnosed with a concussion using the Postconcussion Symptom Inventory and the visio-vestibular examination (VVE) who were also referred to physical therapy were included. The main outcomes of interest were the number of days from referral to initial physical therapy evaluation and the number of physical therapy visits completed. Information related to patients' age, race, ethnicity, sex, insurance type, and Child Opportunity Index was extracted from the registry. Multivariate and univariate regressions were used to assess the associations of each sociodemographic characteristic with the outcomes.

RESULTS

A total of 341 patients diagnosed with concussion between January 2017 and December 2023 met inclusion criteria. The average age was 14.77, and 64% were female. Patients' age, race, ethnicity, insurance type, and Child Opportunity Index were not associated with days to evaluation or length of care in physical therapy. Higher PCSI scores in children under 12 years (coefficient: 0.17, 95% CI, 0.06-0.29) and female sex (coefficient: 1.2, 95% CI, 0.26-2.1) were associated with a longer course of care in physical therapy. Patients with an abnormal VVE score had on average 2.1 more physical therapy visits than those with a normal VVE score (coefficient: 2.1, 95% CI, 0.73-3.5).

CONCLUSIONS

Higher PCSI scores in children, female sex, and higher VVE scores in general predicted a longer course of care in physical therapy. Implementation of a clinical care pathway for concussion care using the PCSI and the VVE may be one strategy to help mitigate systemic factors that might otherwise negatively influence access to physical therapy.

The Role and Benefits of Physical Therapy Following Sport-Related Concussions

CONTEXT

Sport-related concussion management often requires referral to physical therapy (PT).

OBJECTIVES

To (1) outline the role of PT in the management of sport-related concussion, (2) describe patients who underwent PT, and (3) discuss outcomes of athletes who underwent PT.

DESIGN

Retrospective cohort study.

SETTING

Single institution.

METHODS

Adolescent athletes aged 14-19 years old who sustained a sport-related concussion from November 2017 to April 2022 were evaluated. The cohort was dichotomized into 2 groups: PT versus no PT. The outcomes were days from initial PT visit to symptom resolution (SR) and return-to-play. Subgroup analyses compared recovery metrics between those initiating PT before and after 30 (1 mo) and 90 days (3 mo) of injury. A univariable and multivariable regression was used to determine predictors of recovery.

RESULTS

Of 1010 concussed athletes, 205 (20.3%) received referral for rehabilitation, and 58 (28.3%) patients received PT at the parent institution. Those who received PT had a higher number of prior concussions compared with those who did not (PT: 1.0 [1.2]; non-PT: 0.6 + 1.0; χ2 = 19.37, P = .007). A large proportion of PT recipients reported headache (n = 45, 81.0%); visual disturbances (n = 32, 65.5%); and vestibular (n = 37, 63.8%), cervical (n = 25, 43.1%), or oculomotor dysfunction (n = 25, 43.1%). Most patients received exertional therapy (n = 32, 55.1%), vestibular therapy (n = 31, 53.4%), and/or cervical therapy (n = 30, 51.7%). Those initiating PT before 1 and 3 months had significantly shorter median times to SR compared with those initiating after 1 and 3 months, respectively. Multivariable regression showed that a shorter time between injury and the initial PT visit was predictive of faster SR (β = 1.66, P = .048).

CONCLUSIONS

Headache, dizziness, and visual disturbances were commonly reported symptoms by patients who received PT. Cervical, vestibular, and oculomotor deficits were common objective findings by physical therapists, and cervical, vestibular, and exertional therapy were common interventions. Delayed time to PT was independently associated with a longer time to SR.

A Concussion Management Policy Change Promoted Earlier Initiation of Rehabilitation Services and Improved Clinical Recovery Outcomes in Concussion

CONTEXT

In line with emerging research, an interprofessional specialty concussion clinic instituted a policy change permitting earlier physiotherapy-based treatment entry. Our objective was to determine the effect of this policy change on concussion recovery outcomes.

DESIGN

Secondary analysis of prospectively collected clinical data.

METHODS

600 youth with concussion were included. Active rehabilitation was initiated ≥4 weeks (prepolicy) or ≥2 weeks (postpolicy) postconcussion based on institutional policy. Cox proportional hazard models, linear mixed models, and chi-square analyses were conducted.

RESULTS

The postpolicy group (median = 22 d [interquartile range: 17-27]) started treatment earlier than the prepolicy group (median = 26 d [interquartile range: 24-30], P < .001). Length of episode of care (χ2(1) = 11.55, P < .001, odds ratios = 1.49; 95% confidence interval, 1.19-1.88); rehabilitation (χ2(1) = 9.47, P = .002, odds ratios = 1.73, 95% confidence interval, 1.22-2.45]); and total recovery (χ2(1) = 11.53, P < .001, odds ratios = 1.49; 95% confidence interval, 1.18-1.88) were reduced in patients postpolicy change. A significant interaction effect was found for total postinjury symptom (F2,320 = 3.59, P = .03) and symptom change scores (F2,315 = 5.17, P = .006), with the postpolicy group having faster symptom resolution over time. No group differences were observed for persisting symptoms.

CONCLUSIONS

Earlier rehabilitation initiation occurred as intended following an institutional policy change, which had small, but significant, effects on recovery outcomes in youth with concussion. Health care providers should adopt policies to encourage early active rehabilitation services after concussion.

In People With Subacute Mild Traumatic Brain Injury, Earlier Physical Therapy Improved Symptoms at a Faster Rate Than Later Physical Therapy: Randomized Controlled Trial

IMPORTANCE

There is unclear evidence on when to initiate physical therapy after mild traumatic brain injury (mTBI) in a non-athlete, adult population.

OBJECTIVE

The objective of this study was to investigate physical therapy timing after mTBI through changes in patient-reported and clinically-assessed tools and objective and mechanism measurements of sensorimotor balance control.

DESIGN

This study was an investigator-blinded randomized control trial (NCT03479541).

SETTING

The study took place at an academic research center.

PARTICIPANTS

Two hundred and three participants were randomized to earlier physical therapy (n = 82) or to later physical therapy (n = 121).

INTERVENTION

After enrollment, the earlier physical therapy group started rehabilitation within 1 week and the later group started rehabilitation after a 6-week wait period. All participants received similar rehabilitation; 6-week program administered and progressed by licensed physical therapists.

MAIN OUTCOMES AND MEASURES

The primary outcome was the Dizziness Handicap Inventory (DHI). Secondary outcomes included common patient-reported/clinical assessments of mTBI and objective/mechanism measurements of balance, including novel measures of central sensorimotor integration. Differences between and within the groups on outcomes were examined with linear mixed-effect models, t tests, and effect sizes.

RESULTS

While both groups significantly improved and reached similar levels on patient-reported outcomes (DHI and secondary outcomes), the earlier physical therapy group had significantly larger and faster rates of improvement compared to later physical therapy. There were differential effects of physical therapy timing on the objective/mechanism-measured outcomes. Specifically, there were significant improvements in sensorimotor time delay for the earlier physical therapy group and no change in the later group. Further, the later group worsened in the motor activation components for balance control while there was no change in the early group.

CONCLUSION AND RELEVANCE

Earlier physical therapy after mTBI can improve symptoms at a faster rate relative to later physical therapy. Earlier physical therapy also showed improvements in sensorimotor aspects of balance control, not seen in the later group. There may be an important window to address central sensorimotor deficits after mTBI.

Symptom Exacerbation and Adverse Events During a Randomized Trial of Early-Stage Rehabilitation After Sport-Related Concussion: Safety Outcomes From the Active Rehab Study

CONTEXT

Authors of few studies have used randomized controlled trials (RCTs) to quantify clinical intervention safety of rehabilitation after sport-related concussion across sport levels.

OBJECTIVE

Describe symptom exacerbation and adverse events (AEs) associated with two concussion rehabilitation interventions.

DESIGN

Cluster RCT (NCT02988596).

SETTING

Sports medicine clinic and field settings.

PATIENTS OR OTHER PARTICIPANTS

The RCT enrolled 251 concussed athletes (median age = 20 years; female, n = 48) across 28 sites from New Zealand professional rugby (n = 31), Canadian professional football (n = 52), US/Canadian colleges (n = 128) and US high schools (n = 40).

INTERVENTIONS

Two medically supervised interventions: (1) enhanced graded exertion (EGE): international return-to-sport strategy and sport-specific activities only (EGE only, n = 119); and (2) multidimensional rehabilitation (MDR) followed by EGE: early symptom-directed exercises once symptoms were stable, followed by EGE after symptoms resolved (MDR + EGE, n = 132).

MAIN OUTCOME MEASURE(S)

Primary outcomes were intrasession total symptom severity score exacerbation and significant intersession (increase 10+ severity points) sustained total symptom severity exacerbation, each measured with the Postconcussion Symptom Scale (132 total severity points on scale). Reported AEs were also described. Activity-based rehabilitation sessions (n = 1437) were the primary analysis unit. Frequencies, proportions, medians, and interquartile ranges were calculated for outcomes by treatment group.

RESULTS

The 251 postinjury participants completed 1437 (MDR + EGE = 819, EGE only = 618) activity-based intervention sessions. A total of 110 and 105 participants contributed data (those missing had no documented session data) to at least 1 activity-based session in the MDR + EGE and EGE-only arms, respectively. Intrasession symptom exacerbations were equivalently low in MDR + EGE and EGE-only arms (MDR + EGE: 16.7%, 95% CI = 14.1%, 19.1%; EGE only: 15.7%, 95% CI = 12.8%, 18.6%). In total, 9/819 MDR + EGE sessions (0.9%) and 1/618 EGE-only sessions (0.2%) resulted in a presession to postsession symptom exacerbation beyond a 10+ severity point increase; 8/9 resolved to <10 points by the next session. Two study-related AEs (1 in each arm) were reported.

CONCLUSIONS

Participants in MDR + EGE and EGE-only activities reported equivalently low rates of symptom exacerbation.

Characteristics of adolescent athletes seeking early versus late care for sport-related concussion

OBJECTIVES

1) To determine which characteristics of adolescent athletes with SRC are associated with 'early' versus 'late' presentation for multimodal treatment; 2) to build a propensity score to investigate the effects of treatment timing during the management of SRCs.

METHODS

Associations between early (0-7 days) versus late (8-28 days) presentation for treatment and pre-specified sociodemographic, pre-injury and injury characteristics were investigated in a historical cohort study of 2949 multi-sport athletes across Canada aged 12-18 years diagnosed with a SRC in community-based healthcare clinics.

RESULTS

Early presentation was associated with being male, completing a pre-injury baseline assessment, and responding 'yes' or 'no' to having a diagnosed learning disability. Older athletes who reported previous SRCs were less likely to present early. The propensity score demonstrated an area under the curve of 0.71 (95% CI, 0.69 to 0.73).

CONCLUSIONS

Male athletes with a completed baseline assessment were more likely to seek early treatment following a SRC, and older athletes who reported a greater number of previous SRCs were less likely to present early. External validation of the propensity score is needed before examining the impact of treatment timing on adolescent athlete recovery outcomes.

Does time since injury and duration matter in the benefits of physical therapy treatment for concussion?

Objective

To determine if there are differences in post-concussion symptom levels depending on 1) when physical therapy treatment is begun after the concussion and 2) the length of treatment.

Method

Retrospective chart review yielded 202 patients who sustained concussions and were referred for physical therapy. Participants/patients were assigned to independent groups based on time elapsed between concussion and physical therapy (0–14, 15–30, 31–60, 61–120, 121–365 days), and on months spent in treatment (1–4). Pre- and post- treatment scores were documented for the following measures: Sport Concussion Assessment Tool (SCAT), Convergence Insufficiency Symptom Survey (CISS), Dizziness Handicap Inventory (DHI), and Modified Clinical Test of Sensory Interaction on Balance (mCTSIB) using ANOVAs, with a Bonferroni-corrected p-value of p < .005.

Results

All patients demonstrated improvements with treatment, with no significant differences in outcomes for time elapsed since injury (SCAT Symptom Score ( p = .80), SCAT Symptom Severity Score ( p = .97), CISS ( p = .61), DHI ( p = .65), mCTSIB ( p = .13)); or for months in treatment (SCAT Symptom Score ( p = .23), SCAT Symptom Severity Score ( p = .04), CISS ( p = .41), DHI ( p = .37), mCTSIB ( p = .50)).

Conclusions

Improvements were similar for all patients receiving post-concussive physical therapy, regardless of time between injury and treatment onset, and regardless of time spent in treatment. These results may have implications for clinical decision-making and for third party payors’ coverage of post-concussion treatment. Longer periods of treatment may not necessarily be of greater benefit and application of treatment if delayed may also be beneficial. Limitations to the study, such as its retrospective nature, lack of randomization, and convenience sample size are discussed.

Objective Dual-Task Turning Measures for Return-to-Duty Assessment After Mild Traumatic Brain Injury: The ReTURN Study Protocol

Determining readiness for duty after mild traumatic brain injury (mTBI) is essential for the safety of service members and their unit. Currently, these decisions are primarily based on self-reported symptoms, objective measures that assess a single system, or standardized physical or cognitive tests that may be insensitive or lack ecological validity for warrior tasks. While significant technological advancements have been made in a variety of assessments of these individual systems, assessments of isolated tasks are neither diagnostically accurate nor representative of the demands imposed by daily life and military activities. Emerging evidence suggests that complex tasks, such as dual-task paradigms or turning, have utility in probing functional deficits after mTBI. Objective measures from turning tasks in single- or dual-task conditions, therefore, may be highly valuable for clinical assessments and return-to-duty decisions after mTBI. The goals of this study are to assess the diagnostic accuracy, predictive capacity, and responsiveness to rehabilitation of objective, dual-task turning measures within an mTBI population. These goals will be accomplished over two phases. Phase 1 will enroll civilians at three sites and active-duty service members at one site to examine the diagnostic accuracy and predictive capacity of dual-task turning outcomes. Phase 1 participants will complete a series of turning tasks while wearing inertial sensors and a battery of clinical questionnaires, neurocognitive testing, and standard clinical assessments of function. Phase 2 will enroll active-duty service members referred for rehabilitation from two military medical treatment facilities to investigate the responsiveness to rehabilitation of objective dual-task turning measures. Phase 2 participants will complete two assessments of turning while wearing inertial sensors: a baseline assessment prior to the first rehabilitation session and a post-rehabilitation assessment after the physical therapist determines the participant has completed his/her rehabilitation course. A variable selection procedure will then be implemented to determine the best task and outcome measure for return-to-duty decisions based on diagnostic accuracy, predictive capacity, and responsiveness to rehabilitation. Overall, the results of this study will provide guidance and potential new tools for clinical decisions in individuals with mTBI.

Clinical Trial Registration: clinicaltrials.gov, Identifier NCT03892291.

Multi-modal management of sport and non-sport related concussion by chiropractic sports specialists: a case series

This case series describes the multi-modal treatment plans delivered by two chiropractic sports specialists for the management of post-concussive symptoms (PCS). Three concussion cases are presented each with different mechanisms of injury (two sportrelated and one non-sport-related) and each within a different stage of recovery (acute, sub-acute, and chronic). Treatment plans included patient education, sub-symptom threshold exercise, soft-tissue therapy, spinal manipulation, and cervical spine as well as visual/vestibular rehabilitation exercises. This series highlights three important observations: (1) the efficacy of individualized, multi-modal treatment plans based on suggested clinical profiles for patients with PCS of various stages; (2) that the delineation of concussion literature based on mechanism of injury (i.e. sport- vs. non-sport-related) may be unnecessary; and (3) these cases provide encouraging evidence to support the inclusion of manual therapists with advanced knowledge of concussion treatment, such as chiropractors, as part of the interdisciplinary healthcare team when managing patients with PCS.

Outpatient Management of Sport-Related Concussion, Return to Learn, Return to Play

Outpatient sports-related concussion (SRC) management continues to evolve as evidence emerges supporting a multidisciplinary approach to the clinical assessment of SRC. Early active rehabilitation has replaced strict cognitive and physical rest. With this paradigm shift in management, pragmatic approaches are highly sought by busy clinicians that provide direction to individualized treatment, which can potentially expedite symptom resolution. Treatment strategies that address domain-based symptom constellations continue to be developed by clinician researchers. Although the optimal timing and dose of these domain-specific therapies has yet to be determined, future directions of SRC treatment will answer these and other questions regarding SRC management.

Participation in Physical Activity at Time of Presentation to a Specialty Concussion Clinic Is Associated With Shorter Time to Recovery

INTRODUCTION

Novel research suggests that children engaging in physical activity during recovery from concussion may recover more rapidly.

OBJECTIVE

To determine if level of physical activity at presentation to a rehabilitation-based concussion specialty clinic predicted days from injury to recovery.

DESIGN

Retrospective cohort.

SETTING

A concussion sub-specialty clinic at an academic institution.

PATIENTS

Retrospective review of medical records between September 2015 and February 2017 identified 178 children ages 6-17 years (mean age = 13.7 years; standard deviation [SD] = 2.7 years) who presented within 60 days of concussion and were ultimately deemed recovered and cleared to progress to full return to high-risk activities.

INTERVENTIONS

Not applicable.

MAIN OUTCOME MEASURES

Physical activity at initial visit was classified as none-to-light (79%) versus moderate-to-heavy (21%). A doubly robust, inverse probability of exposure weighted linear regression model was used to examine the relationship between physical activity level and days to recovery, while adjusting for 10 demographic and clinical variables.

RESULTS

Children participating in moderate-to-heavy activity at initial evaluation in concussion clinic averaged recovery 21 days quicker (95% confidence interval [CI] -27.1, -15.5, P < .001) than children who were engaging in none-to-light activity. This finding did not change when removing children who were deemed recovered at the first visit (who may have initiated physical activity after becoming asymptomatic).

CONCLUSIONS

These data add to growing evidence that progressive physical activity during recovery from concussion does not appear to be harmful. Physical activity represents a modifiable variable in recovery, and physicians can potentially expedite symptomatic recovery by recommending noncontact physical activity as tolerated during concussion recovery.

The Sensor Technology and Rehabilitative Timing (START) Protocol: A Randomized Controlled Trial for the Rehabilitation of Mild Traumatic Brain Injury

BACKGROUND

Clinical practice for rehabilitation after mild traumatic brain injury (mTBI) is variable, and guidance on when to initiate physical therapy is lacking. Wearable sensor technology may aid clinical assessment, performance monitoring, and exercise adherence, potentially improving rehabilitation outcomes during unsupervised home exercise programs.

OBJECTIVE

The objectives of this study were to: (1) determine whether initiating rehabilitation earlier than typical will improve outcomes after mTBI, and (2) examine whether using wearable sensors during a home-exercise program will improve outcomes in participants with mTBI.

DESIGN

This was a randomized controlled trial.

SETTING

This study will take place within an academic hospital setting at Oregon Health & Science University and Veterans Affairs Portland Health Care System, and in the home environment.

PARTICIPANTS

This study will include 160 individuals with mTBI.

INTERVENTION

The early intervention group (n = 80) will receive one-on-one physical therapy 8 times over 6 weeks and complete daily home exercises. The standard care group (n = 80) will complete the same intervention after a 6- to 8-week wait period. One-half of each group will receive wearable sensors for therapist monitoring of patient adherence and quality of movements during their home exercise program.

MEASUREMENTS

The primary outcome measure will be the Dizziness Handicap Inventory score. Secondary outcome measures will include symptomatology, static and dynamic postural control, central sensorimotor integration posturography, and vestibular-ocular-motor function.

LIMITATIONS

Potential limitations include variable onset of care, a wide range of ages, possible low adherence and/or withdrawal from the study in the standard of care group, and low Dizziness Handicap Inventory scores effecting ceiling for change after rehabilitation.

CONCLUSIONS

If initiating rehabilitation earlier improves primary and secondary outcomes post-mTBI, this could help shape current clinical care guidelines for rehabilitation. Additionally, using wearable sensors to monitor performance and adherence may improve home exercise outcomes.

Postconcussion Exertion Evolution: Clinical and Behavioral Considerations

The philosophy and practices concerning concussion management have evolved from passive to active strategies that incorporate immediate, guided rest followed by early integration of physical and cognitive activity as tolerated by symptoms. Recent research and clinical evidence support guidance that symptom tolerable and clinically guided activity is beneficial postconcussion both acutely and in the longer term. Furthermore, recent studies illustrate benefits of targeted deficit-based therapies (vestibular, cervicogenic, visual, psychological, etc.) postconcussion subacutely and in those with persistent symptoms. The dissemination of this new information occurs at a fast pace and is often difficult to rapidly integrate into clinical practice due to necessary policy and behavior changes. This review will outline recent evidence concerning both rest and exertion postconcussion through the lens of the socioecological model to more rapidly promote policy and practice changes.

Physical Therapy Evaluation and Treatment After Concussion/Mild Traumatic Brain Injury

Over the last decade, numerous concussion evidence-based clinical practice guidelines (CPGs), consensus statements, and clinical guidance documents have been published. These documents have typically focused on the diagnosis of concussion and medical management of individuals post concussion, but provide little specific guidance for physical therapy management of concussion and its associated impairments. Further, many of these guidance documents have targeted specific populations in specific care contexts. The primary purpose of this CPG is to provide a set of evidence-based recommendations for physical therapist management of the wide spectrum of patients who have experienced a concussive event. J Orthop Sports Phys Ther 2020;50(4):CPG1-CPG73. doi:10.2519/jospt.2020.0301.

Early Controlled Exercise and Timing of Treatment Following Concussion: A Critically Appraised Topic

Clinical Scenario: Recent systematic reviews have shown that extended rest may not be beneficial to patients following concussion. Furthermore, recent evidence has shown that patient with postconcussion syndrome benefit from an active rehabilitation program. There is currently a gap between the ability to draw conclusions to the use of aerobic exercise during the early stages of recovery along with the safety of these programs. Clinical Question: Following a concussion, does early controlled aerobic exercise, compared with either usual care or delayed exercise, improve recovery as defined by symptom duration and severity? Summary of Key Findings: After a thorough literature search, 5 studies relevant to the clinical question were selected. Of the 5 studies, 1 study was a randomized control trial, 2 studies were pilot randomized controlled trials, and 2 studies were retrospective. All 5 studies showed that implementing controlled aerobic exercise did not have an adverse effect on recovery. One study showed early aerobic exercise had a quicker return to school, and another showed a 2-day decrease in symptom duration. Clinical Bottom Line: There is sufficient evidence to suggest that early controlled aerobic exercise is safe following a concussion. Although early aerobic exercise may not always result in a decrease in symptom intensity and duration, it may help to improve the psychological state resulting from the social isolation of missing practices and school along with the cessation of exercise. Although treatments continue to be a major area of research following concussion, management should still consist of an interdisciplinary approach to individualized patient care. Strength of Recommendation: There is grade B evidence to support early controlled aerobic exercise may reduce the duration of symptoms following recovery while having little to no adverse events.

Review of the Management of Pediatric Post-Concussion Syndrome-a Multi-Disciplinary, Individualized Approach

PURPOSE OF REVIEW

Post-concussion syndrome (PCS), when the patient's concussion symptoms last longer than 4-6 weeks, affects 10-30% of concussion patients. PCS presents a significant source of morbidity to patients and a management challenge to providers. In this review, we present the current evidence and best management approaches for pediatric PCS.

RECENT FINDINGS

There is limited high-quality evidence in pediatric PCS. There is some evidence supporting pharmaceutical management of post-traumatic headaches, cognitive symptoms, and emotional symptoms. Vestibular-ocular dysfunction should be evaluated and managed appropriately. Neuropsychological recovery is expected, but requires appropriate attention to Return to Learn. Emotional symptoms are common in PCS and the evidence supports treatment with cognitive behavioral therapy. PCS presents a unique therapeutic challenge affecting multiple domains for patients-physical, sleep, cognitive, and emotional. Successful management of PCS requires a multi-disciplinary and individualized approach. There remains a significant need for further research, specifically looking into the outcomes and effective interventions in pediatric PCS.

Active recovery from concussion

PURPOSE OF REVIEW

Recent studies are challenging the utility of prolonged rest as treatment for concussion and postconcussion syndrome (PCS). The purpose of this paper is to review the evidence for active recovery from concussion and PCS.

RECENT FINDINGS

Emerging data identify the central role of autonomic nervous system (ANS) dysfunction in concussion pathophysiology. The exercise intolerance demonstrated by athletes after sport-related concussion may be related to abnormal ANS regulation of cerebral blood flow. As aerobic exercise training improves ANS function, sub-symptom threshold exercise treatment is potentially therapeutic for concussion. A systematic assessment of exercise tolerance using the Buffalo Concussion Treadmill Test has been safely employed to prescribe a progressive, individualized subthreshold aerobic exercise treatment program that can return patients to sport and work. Multiple studies are demonstrating the efficacy of an active approach to concussion management.

SUMMARY

Sustained rest from all activities after concussion, so-called 'cocoon therapy', is not beneficial to recovery. Evidence supports the safety, tolerability, and efficacy of controlled sub-symptom threshold aerobic exercise treatment for PCS patients. Further study should determine the efficacy and optimal timing, dose, and duration of subthreshold aerobic exercise treatment acutely after concussion because early intervention has potential to prevent PCS.