The University of Kansas Health System Outpatient Clinical Concussion Comprehensive Protocol: An Interdisciplinary Approach

Objective:

The concussion team at The University of Kansas Health System outpatient rehabilitation spine center is comprised of experienced multi-disciplinary experts including physical therapists and a speech language pathologist. The team set forth with a purpose of creating and organizing an internal physical therapy clinical recommendation protocol for initial evaluations and subsequent treatments for the concussed patient. The aim of this paper is to share these recommendation protocols with other therapy teams and provide a foundational layout for treating the patient with post-concussion symptoms in an outpatient physical therapy clinical setting.

Study design:

Clinical recommendation protocol provides guidance for patients ages 10+ from initial evaluation through discharge with emphasis on evidence-based research in the areas of: oculomotor, cervical, vestibular, post-concussion migraine influence, mood disorders(such as anxiety and depression), exertion, and cognitive communicative dysfunction.

Results:

Finding a written, comprehensive clinical resource protocol for post-concussion outpatient evaluation(s) and treatment strategies can be difficult. This document serves as a resource for other outpatient concussion rehabilitation clinics, providing rationale, and objective measurement tools, for assessing and treating concussion patients. To the authors’ knowledge, no other research has produced a practical, efficient evaluation tool to be utilized at bed side, condensing evidence-based research into an easy-to-use form.

Conclusion:

The University of Kansas Health System outpatient concussion rehabilitation center developed clinical recommendation protocols for concussion care. The intent was to standardize assessment and treatment for concussion patients and to share these objective measurement tools and procedures, focused on a team approach of concussion providers, as a clinical outline for both the novice and seasoned clinician specializing in the field of concussion work in an outpatient rehabilitation setting.

Sleep quality in the chronic stage of concussion is associated with poorer recovery: A systematic review

Background

Recovery from a concussion varies based on a multitude of factors. One such factor is sleep disturbances. In our prior review, it was observed that in the acute phase, sleep disturbances are predictive of poor outcomes following a concussion. The literature gap remains on how sleep in the chronic phase of recovery affects outcomes.

Objective

To examine the association between sleep quality during the chronic stage of concussion and post-concussion outcomes. Literature Survey: Literature searches were performed during 1 July to 1 August 2019 in selected databases along with searching grey literature. Out of the 733 results, 702 references were reviewed after duplicate removal.

Methods

Three reviewers independently reviewed and consented on abstracts meeting eligibility criteria ( n = 35). The full-text articles were assessed independently by two reviewers. Consensus was achieved, leaving four articles. Relevant data from each study was extracted using a standard data-extraction table. Quality appraisal was conducted to assess potential bias and the quality of articles.

Results

One study included children (18–60 months) and three studies included adolescents and/or adults (ranging 12–35 years). The association between sleep and cognition (two studies), physical activity (one study), and emotion symptoms (one study) was examined. Sleep quality was associated with decreased cognition and emotional symptoms, but not with meeting physical activity guidelines six months post-concussion injury.

Conclusions

The heterogeneity in age of participants and outcomes across studies and limited number of included studies made interpretations difficult. Future studies may consider if addressing sleep quality following concussion will improve outcomes.

Concussion symptoms experienced during driving may influence driving habits

Objective: To examine the symptoms experienced and the change in driving habits in individuals with concussion.Materials and methods: A survey was created by a team of rehabilitation professionals who see persons with concussion in their clinics. The survey captured demographics, mechanism of injury, date of injury, symptoms experienced during driving, if drivers felt safe when driving, and changes in driving habits since the concussion. Non-parametric tests were used to compare symptoms experienced and driving habits across three groups which were created based on time since injury.Results: Of the 140 participants, 74% (104/140) had resumed driving after concussion; of these 27% (28/104) reported that they felt unsafe while driving. Forty-four per cent (46/104) experienced symptoms while driving, of which headache, and difficulty concentrating were the most common symptoms experienced throughout the concussion spectrum (acute to chronic phase). Most drivers (78/104, 75%) with concussion had changed their driving habits by driving less often and shorter distances, and by avoiding nighttime driving and heavy traffic areas.Conclusions: Headache and concentration problems were experienced by drivers regardless of the time since injury. Most drivers had made changes to their driving habits. Clinicians should consider the symptom burden patients experience and discuss driving restrictions to ensure driving safety.

The Ketogenic Diet in the Treatment of Post-concussion Syndrome-A Feasibility Study

Concussion is the most common form of mild traumatic brain injury (mTBI). Although most patients' symptoms resolve within a month, patients with post-concussion syndrome (PCS) may continue to experience symptoms for years and have limited treatment options. This pilot study assessed the feasibility and symptom-related effects of a ketogenic diet (KD) in patients with PCS symptoms. The Ketogenic Diet in Post-Concussion Syndrome (KD-PCS) was a single-arm trial of a 2-month KD high in non-starchy vegetables and supplemented with medium-chain triglyceride (MCT) oil. Macronutrient targets were ≥70% fat, ≤10% carbohydrate, and the remainder as protein as energy. We assessed feasibility by daily self-reported measure of urine acetoacetate and collection of 3-day food records and serum beta-hydroxybutyrate at multiple timepoints. We assessed symptoms by administering the Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) and Modified Balance Error Scoring System (M-BESS) at baseline and month 2 and the Post-Concussion Symptom Scale (PCSS) at baseline, month 1, and month 2. Fourteen participants enrolled in the KD-PCS. Twelve participants completed the study and 11 implemented the KD (73% fat, 9% carbohydrate, and 18% protein) and achieved ketosis. One participant complained of MCT-related diarrhea that resolved and another reported nausea and fatigue that resulted in withdrawal from the study. Among compliant participants, the visual memory domain of the ImPACT improved by 12 points (p = 0.02) and PCSS scores improved by 9 points, although not statistically significant. This pilot trial suggests that the KD is a feasible experimental treatment for PCS and justifies further study of its efficacy.

Developing a Comprehensive, Interdisciplinary Concussion Program

There has been a growing trend of local and national coverage of and interest in concussion injuries over the past 2 decades. Increasing public concern over potential catastrophic and unknown long-term effects of sports-related concussion injuries has led to an acknowledgment of the strong public health need for addressing all concussion injuries, regardless of mechanism of injury. In efforts to address this need for concussion prevention and management, both in sports and nonsports, The University of Kansas Health System initiated the interdisciplinary Center for Concussion Management program in 2012. The program was created as a virtual clinic concept and includes voluntary participation from various providers across the institution, limited budget, and space obstacles. Since its inception, the program has continued to operate as its initial design of a multidisciplinary team model outside the sole ownership of 1 department, and has expanded to include education and outreach to local and regional schools and groups.

Sleep Disturbances in the Acute Stage of Concussion are Associated With Poorer Long-Term Recovery: A Systematic Review

OBJECTIVE

To examine the association between sleep during the acute stage of concussion and long-term outcomes.

LITERATURE SURVEY

Literature searches were performed 1 July 2018 to 1 August 2018 in Ovid MEDLINE, CINAHL, and Web of Science, along with hand searching for gray literature and cited references. Of the 610 search results, 359 unique references were reviewed after duplicates were removed.

METHODOLOGY

Two reviewers independently reviewed and came to consensus on which titles/abstracts met inclusion/exclusion criteria (n = 23). The 23 full-text articles were assessed independently by the same two reviewers for eligibility. Consensus was achieved, leaving four articles for quality assessment and data extraction. One person extracted relevant data from each study using a standard data-extraction table. The data extraction table was reviewed by two reviewers and consensus was achieved for completeness and accuracy. Quality appraisal was conducted to assess the risk for potential bias and quality of included articles.

SYNTHESIS

Two of the articles included children younger than 16 years old and two included a wide age range. In general, poorer sleep was associated with poorer outcomes following concussion at reassessments across any age population. In addition, poorer sleep in the acute stage of concussion was associated with poorer long-term outcomes and recovery.

CONCLUSIONS

The variability in sleep assessments used, symptoms assessed, length of time to reassessments, and comparator group included made data synthesis challenging. The use of standard valid and reliable sleep assessments is recommended. Future studies may consider if addressing sleep disturbances early following concussion will improve longer-term outcomes.

Estimated Prestroke Peak VO2 Is Related to Circulating IGF-1 Levels During Acute Stroke

Background Insulin-like growth factor-1 (IGF-1) is neuroprotective after stroke and is regulated by insulin-like binding protein-3 (IGFBP-3). In healthy individuals, exercise and improved aerobic fitness (peak oxygen uptake; peak VO₂) increases IGF-1 in circulation. Understanding the relationship between estimated prestroke aerobic fitness and IGF-1 and IGFBP-3 after stroke may provide insight into the benefits of exercise and aerobic fitness on stroke recovery. Objective The purpose of this study was to determine the relationship of IGF-1 and IGFBP-3 to estimated prestroke peak VO₂ in individuals with acute stroke. We hypothesized that (1) estimated prestroke peak VO₂ would be related to IGF-1 and IGFBP-3 and (2) individuals with higher than median IGF-1 levels will have higher estimated prestroke peak VO₂ compared to those with lower than median levels. Methods Fifteen individuals with acute stroke had blood sampled within 72 hours of hospital admission. Prestroke peak VO₂ was estimated using a nonexercise prediction equation. IGF-1 and IGFBP-3 levels were quantified using enzyme-linked immunoassay. Results Estimated prestroke peak VO₂ was significantly related to circulating IGF-1 levels (r = .60; P = .02) but not IGFBP-3. Individuals with higher than median IGF-1 (117.9 ng/mL) had significantly better estimated aerobic fitness (32.4 ± 6.9 mL kg^-1 min^-1) than those with lower than median IGF-1 (20.7 ± 7.8 mL kg^-1 min^-1; P = .03). Conclusions Improving aerobic fitness prior to stroke may be beneficial by increasing baseline IGF-1 levels. These results set the groundwork for future clinical trials to determine whether high IGF-1 and aerobic fitness are beneficial to stroke recovery by providing neuroprotection and improving function.

Decrease in Insulin-Like Growth Factor-1 and Insulin-Like Growth Factor-1 Ratio in the First Week of Stroke Is Related to Positive Outcomes

BACKGROUND

High insulin-like growth factor-1 (IGF-1), measured once during acute stroke, is associated with greater survival rates and lower stroke severity. However, information is lacking regarding how IGF-1 availability, determined by IGF-1's ratio to insulin-like growth factor binding protein-3 (IGFBP-3), relates to recovery and how the response of IGF-1 during the first week of stroke relates to outcomes. The purpose of this study was to determine the following: (1) the relationship between percent change in IGF-1 and IGF-1 ratio during the first week of stroke and stroke outcomes; and (2) the difference in percent change in IGF-1 and IGF-1 ratio in individuals being discharged home and individuals being discharged to inpatient facilities.

METHODS

IGF-1 and IGFBP-3 were quantified from blood sampled twice (<72 hours of admission; 1 week post stroke) in 15 individuals with acute stroke. Length of stay, modified Rankin Scale at 1 month, and discharge destination were obtained from electronic medical records.

RESULTS

Percent change in IGF-1 ratio was related to length of stay (r = .54; P = .04). Modified Rankin Scale (n = 10) was related to percent change in IGF-1 (r = .90; P < .001) and IGF-1 ratio (r = .75 P = .01). Individuals who went home (n = 7) had decreases in IGF-1 (-24 + 25%) and IGF-1 ratio (-36 + 50%), whereas individuals who went to inpatient facilities (n = 8) had increases in IGF-1 (37 + 46%) and IGF-1 ratio (30 + 40%). These differences were significant (IGF-1: P = .008; IGF-1 ratio: P = .01).

CONCLUSION

Our findings suggest that a decrease in IGF-1 and IGF-1 ratio during the first week of stroke is associated with favorable outcomes: shorter length of stay, greater independence at 1 month on the modified Rankin Scale, and discharging home.

Submaximal and peak cardiorespiratory response after moderate-high intensity exercise training in subacute stroke

PURPOSE

Reduced cardiovascular fitness post-stroke may negatively impact recovery. There is little information regarding exercise testing performance and cardiorespiratory response to an aerobic exercise intervention in subacute stroke. The purpose of this study was to examine cardiorespiratory response in subacute stroke after an 8-week aerobic exercise intervention using a total body recumbent stepper (TBRS).

METHODS

Nine individuals with mean age 61.2 (SD 4.7) years and mean 66.7 (SD 41.5) days post-stroke completed the exercise intervention. Participants had a mean Fugl-Meyer score of 100.3 (SD 29.3). Outcome measures were obtained at baseline and postintervention. A peak exercise test using a TBRS assessed oxygen consumption, heart rate, and minute ventilation. Participants completed an 8-week exercise intervention on a recumbent stepper 3 times per week at a prescribed heart rate intensity.

RESULTS

Submaximal VO2 was significantly lower from baseline to postintervention with a main effect of Study Visit (F1,8 = 8.5, p = 0.02). Heart rate was not significantly different pre- to postintervention. Minute ventilation exhibited no main effect of Study Visit or Test Minute.

CONCLUSION

Moderate-high intensity aerobic exercise in subacute stroke appears to be beneficial for improving cardiovascular outcomes during submaximal performance of an exercise test.

Abstract WP316: Submaximal Exercise Test to Predict VO2 Peak in Subacute Stroke

Purpose: Submaximal exercise testing can be an attractive alternative to peak testing especially in clinical environments where a metabolic cart and adequately trained medical staff may not be readily available. We examined the relationship between peak oxygen consumption (VO2 peak) and a predicted VO2 peak value obtained from a submaximal exercise test that we developed for a total body recumbent stepper (TBRS). We hypothesized that in people with subacute stroke, the actual VO2 peak and predicted VO2 peak would have a moderate (r > 0.75) relationship.

Methods: Ten individuals in the subacute stage of stroke recovery (68.6+40.1 days post-stroke) and 61.2+ 5.0 years of age participated in the study. Exercise testing using a metabolic cart and the TBRS for the exercise modality was performed on the first day to obtain VO2 peak. We used the Young Men’s Christian Association (YMCA) protocol for the TBRS. The step rate was maintained between 95-100 steps per minute (spm). Participants started the test at 30 watts and resistance was increased every 3 minutes according to the protocol until volitional fatigue, or 85% of age-predicted HR max was achieved. HR was recorded ten seconds prior to the end of the second and third minute of each stage. If the two HR measures were within 5 bpm of each other, participants progressed to the next stage. However, if the difference was greater than 5 bpm, an additional minute was performed to ensure a steady-state. The participants completed the submaximal exercise test within one to two days after the peak exercise test. The workload in watts and HR at the end of the submaximal exercise test along with age, sex and weight (kg) were used in the equation to predict VO2 peak.

Results: We found that predicted VO2 peak generated from the submaximal exercise test equation had a strong correlation to the actual VO2 peak (r = 0.80, p = 0.006). Mean peakVO2 (ml*kg-1*min-1) from the exercise test was 22.9 + 7.3 ml*kg-1*min-1 and the predicted mean value was 17.6 + 6.1 ml*kg-1*min-1. Paired t-test revealed a statistically significant difference between these two values (p = 0.005).

Conclusion: This preliminary data demonstrates the TBRS submaximal exercise test shows promise for assessing VO2 peak in sub-acute stroke.

Abstract TP314: Moderate-High Intensity Exercise Training Improves Submaximal and Peak Cardiorespiratory Response in Sub-acute Stroke

Purpose: Limited research is available for exercise prescription during the subacute stage of stroke recovery. Peak and submaximal cardiorespiratory response during exercise testing in sub-acute stroke has also not been extensively studied. We assessed the hypothesis that an eight-week aerobic exercise intervention at moderate-high intensity would improve cardiorespiratory response during submaximal and peak effort in sub-acute stroke.

Methods: Ten individuals (68.6+40.1 days post-stroke) enrolled in the study and 9 participants completed the exercise intervention. The nine participants were 61.2+4.7 years of age with a total Fugl-Meyer score, 102.2+30.4. Peak exercise testing was done at baseline and post-intervention to assess oxygen consumption (VO2), HR and minute ventilation (VE). A seated stepper was the mode of exercise with exercise intensity at 50-59% of HR reserve (first 4 weeks) and then increased to 60-69% of HR reserve for the last 4 weeks. Paired t-tests were used to assess differences at peak effort. Submaximal performance on the exercise test was assessed using an analysis of variance, with Test Minute (minutes 1-6) and Study Visit (baseline, post-exercise) as within subject factors. P-values < 0.05 were considered statistically significant.

Results: At peak effort, VO2, HR and VE were higher post-intervention but only VO2 peak was statistically significant. During submaximal effort, we found VO2 and HR to be lower after the exercise intervention. For VO2 there was no interaction (F5,40=0.95, p=0.40) between Study Visit and Test Minute but we report a main effect of Study Visit (F1,8=8.5, p=0.02). There was not a significant interaction for HR between Study Visit and Test Minute (F5,40=0.28, p=0.92). Nor was there a main effect of Study Visit (F1,8=2.7, p=0.14). VE increased similarly across Test Minute and Study Visits. No interaction of Study Visit and Test Minute were evident nor was there a main effect of Study Visit.

Conclusion: This preliminary data demonstrates that an 8-week aerobic exercise intervention shows promise for improving peak and submaximal cardiorespiratory response in sub-acute stroke.

Measures of Cardiovascular Health and Physical Function after an Aerobic Exercise Intervention in a Patient Fifteen Days Post-Stroke

Study Design: Case Study Background: Changes in cardiorespiratory (CR) fitness post-stroke severely impact an individual's quality of life. The purpose of this case study was to demonstrate whether a moderate to high intensity aerobic exercise program would improve cardiovascular fitness, and physical performance measures in a participant following discharge from acute stroke rehabilitation. The participant is a 58 year-old female who experienced an ischemic stroke 15 days prior to beginning the exercise intervention. Case Description: The participant was provided a supervised 8-week exercise intervention on a Total Body Recumbent Stepper (TBRS). The exercise intervention consisted of three sessions per week; the first 4 weeks the participant exercised at a moderate intensity of 50-59% heart rate reserve (HRR) calculated from the baseline exercise test; the last 4 weeks the intensity was increased to 60-69% HRR. Exercise duration began at 20 minutes with the goal of reaching 30 minutes of continuous exercise at a specified workload. Outcomes: Following 8-weeks of intervention, the participant showed improvement in cardiovascular measures including: resting blood pressure (BP), resting heart rate (HR), VO₂ peak, and the maximum distance walked (6-MWT). Conclusion: The use of a moderate to high intensity aerobic exercise intervention may be effective for participants in the sub-acute phase of stroke recovery in order to improve cardiovascular health and physical function.