Steven R. Flanagan

Objective measurement of fatigue following traumatic brain injury.

ObjectivesTo quantify posttraumatic brain injury (post-TBI) mental fatigue objectively by documenting changes in performance on neuropsychological tests as a result of sustained mental effort and to examine the relationship between objectively measured mental fatigue and self-reported situational and day-to-day fatigue. ParticipantsThe study included 202 community-dwelling individuals with mild-severe TBI and 73 noninjured controls. MeasuresMeasures included Cambridge Neuropsychological Test Automated Battery, Global Fatigue Index, and situational fatigue rating. MethodSubjects were administered a 30-minute computerized neuropsychological test battery 3 times. The second and third administrations of the battery were separated by approximately 2 hours of interviews and administration of self-report measures. ResultsThe neuropsychological test scores were factor analyzed, yielding 3 subscales: speed, accuracy, and executive function. Situational fatigue and day-to-day fatigue were significantly higher in individual with TBI group than in individuals without TBI and were associated with speed subscale scores. Individuals with TBI evidenced a significant decline in performance on the accuracy subscale score. These declines in performance related to sustained mental effort were not associated with subjective fatigue in the TBI group. While practice effects on the speed and accuracy scores were observed in non–brain-injured individuals, they were not evidenced in individuals with TBI. ConclusionsFindings were largely consistent with previous literature and indicated that while subjective fatigue is associated with poor performance in individuals with TBI, it is not associated with objective decline in performance of mental tasks.

Intramuscular electrical stimulation for hemiplegic shoulder pain: a 12-month follow-up of a multiple-center, randomized clinical trial.

Chae J, Yu DT, Walker ME, Kirsteins A, Elovic EP, Flanagan SR, Harvey RL, Zorowitz RD, Frost FS, Grill JH, Fang ZP: Intramuscular electrical stimulation for hemiplegic shoulder pain: A 12-month follow-up of a multiple-center, randomized clinical trial. Am J Phys Med Rehabil 2005;84:832–842. Objective:Assess the effectiveness of intramuscular electrical stimulation in reducing hemiplegic shoulder pain at 12 mos posttreatment. Design:A total of 61 chronic stroke survivors with shoulder pain and subluxation participated in this multiple-center, single-blinded, randomized clinical trial. Treatment subjects received intramuscular electrical stimulation to the supraspinatus, posterior deltoid, middle deltoid, and upper trapezius for 6 hrs/day for 6 wks. Control subjects were treated with a cuff-type sling for 6 wks. Brief Pain Inventory question 12, an 11-point numeric rating scale was administered in a blinded manner at baseline, end of treatment, and at 3, 6, and 12 mos posttreatment. Treatment success was defined as a minimum 2-point reduction in Brief Pain Inventory question 12 at all posttreatment assessments. Secondary measures included pain-related quality of life (Brief Pain Inventory question 23), subluxation, motor impairment, range of motion, spasticity, and activity limitation. Results:The electrical stimulation group exhibited a significantly higher success rate than controls (63% vs. 21%, P = 0.001). Repeated-measure analysis of variance revealed significant treatment effects on posttreatment Brief Pain Inventory question 12 (F = 21.2, P < 0.001) and Brief Pain Inventory question 23 (F = 8.3, P < 0.001). Treatment effects on other secondary measures were not significant. Conclusions:Intramuscular electrical stimulation reduces hemiplegic shoulder pain, and the effect is maintained for ≥12 mos posttreatment.

Traumatic brain injury: future assessment tools and treatment prospects

Traumatic brain injury (TBI) is widespread and leads to death and disability in millions of individuals around the world each year. Overall incidence and prevalence of TBI are likely to increase in absolute terms in the future. Tackling the problem of treating TBI successfully will require improvements in the understanding of normal cerebral anatomy, physiology, and function throughout the lifespan, as well as the pathological and recuperative responses that result from trauma. New treatment approaches and combinations will need to be targeted to the heterogeneous needs of TBI populations. This article explores and evaluates the research evidence in areas that will likely lead to a reduction in TBI-related morbidity and improved outcomes. These include emerging assessment instruments and techniques in areas of structural/chemical and functional neuroimaging and neuropsychology, advances in the realms of cell-based therapies and genetics, promising cognitive rehabilitation techniques including cognitive remediation and the use of electronic technologies including assistive devices and virtual reality, and the emerging field of complementary and alternative medicine.

Parathyroid hormone suppression in spinal cord injury patients is associated with the degree of neurologic impairment and not the level of injury

OBJECTIVE To demonstrate that after spinal cord injury (SCI) suppression of the parathyroid-vitamin D axis is associated with the degree of neurologic impairment and not the level of injury. DESIGN A retrospective analysis of clinical and biochemical data obtained from hospital records of patients with SCI compared to a control group of patients with traumatic brain injury (TBI). SETTING The inpatient rehabilitation unit of a tertiary care hospital. SUBJECTS The medical records of 82 consecutive admissions to the rehabilitation unit with a diagnosis of SCI or TBI were reviewed. Patients with SCI were classified by the American Spinal Injury Association (ASIA) impairment scale and then grouped based on the completeness and level of injury. MAIN OUTCOME MEASURE Comparisons of serum parathyroid hormone (PTH), 25-hydroxyvitamin D, and 1,25-dihydroxyvitamin D (1,25-D) were planned. Multiple comparisons were performed for total and ionized serum calcium levels, serum phosphorus levels, and 24-hour urinary calcium excretion rates to reflect changes in mineral homeostasis. Multiple comparisons were also performed for serum albumin, prolactin, thyroid function tests, and AM cortisol levels, as well as 24-hour urinary urea nitrogen and cortisol excretion rates to reflect metabolic responses to stress. RESULTS Patients with SCI had significant suppression in PTH (p < .000009) and 1,25-D (p < .02) levels with elevated phosphorus (p < 0.03) and prolactin (p < .03) levels compared to patients with TBI. Also, more patients with SCI were hypoalbuminemic (p < .003) than patients with TBI. Patients with complete SCI (ASIA A) had more suppressed PTH (p < .03) and higher urinary urea nitrogen (p < .05) levels than SCI patients with incomplete injuries (ASIA B-D). Patients with complete, but not incomplete, SCI had lower albumin levels than patients with TBI (p < .05). These differences were not found between patients with tetraplegic and paraplegic SCI. ASIA motor scores did not correlate with any of the measured parameters but when used as a covariate did abolish differences in PTH and 1,25-D among the study groups by ANOVA. CONCLUSION In patients with SCI, the degree of neurologic impairment, and not the level of injury, is associated with PTH suppression and markers of metabolic stress.

Frequency Analysis Unveils Cardiac Autonomic Dysfunction after Mild Traumatic Brain Injury

Long-term mortality is increased after mild traumatic brain injury (mTBI). Central cardiovascular-autonomic dysregulation resulting from subtle, trauma-induced brain lesions might contribute to cardiovascular events and fatalities. We investigated whether there is cardiovascular-autonomic dysregulation after mTBI. In 20 mTBI patients (37±13 years, 5-43 months post-injury) and 20 healthy persons (26±9 years), we monitored respiration, RR intervals (RRI), blood pressures (BP), while supine and upon standing. We calculated the root mean square successive RRI differences (RMSSD) reflecting cardiovagal modulation, the ratio of maximal and minimal RRIs around the 30th and 15th RRI upon standing (30:15 ratio) reflecting baroreflex sensitivity (BRS), spectral powers of parasympathetic high-frequency (HF: 0.15-0.5 Hz) RRI oscillations, of mainly sympathetic low-frequency (LF: 0.04-0.15 Hz) RRI oscillations, of sympathetic LF-BP oscillations, RRI-LF/HF-ratios reflecting sympathovagal balance, and the gain between BP and RRI oscillations as additional BRS index (BRS(gain)). We compared supine and standing parameters of patients and controls (repeated measures analysis of variance; significance: p<0.05). While supine, patients had lower RRIs (874.2±157.8 vs. 1024.3±165.4 ms), RMSSDs (30.1±23.6 vs. 56.3±31.4 ms), RRI-HF powers (298.1±309.8 vs. 1507.2±1591.4 ms(2)), and BRS(gain) (8.1±4.4 vs. 12.5±8.1 ms·mmHg(-1)), but higher RRI-LF/HF-ratios (3.0±1.9 vs. 1.2±0.7) than controls. Upon standing, RMSSDs and RRI-HF-powers decreased significantly in controls, but not in patients; patients had lower RRI-30:15-ratios (1.3±0.3 vs. 1.6±0.3) and RRI-LF-powers (2450.0±2110.3 vs. 4805.9±3453.5 ms(2)) than controls. While supine, mTBI patients had reduced cardiovagal modulation and BRS. Upon standing, their BRS was still reduced, and patients did not withdraw parasympathetic or augment sympathetic modulation adequately. Impaired autonomic modulation probably contributes to cardiovascular irregularities post-mTBI.

MRI findings in the painful poststroke shoulder.

Background and Purpose— We describe the structural abnormalities in the painful shoulder of stroke survivors and their relationships to clinical characteristics. Method— Eighty-nine chronic stroke survivors with poststroke shoulder pain underwent T1- and T2-weighted multiplanar, multisequence MRI of the painful paretic shoulder. All scans were reviewed by one radiologist for the following abnormalities: rotator cuff, biceps and deltoid tears, tendinopathies and atrophy, subacromial bursa fluid, labral ligamentous complex abnormalities, and acromioclavicular capsular hypertrophy. Clinical variables included subject demographics, stroke characteristics, and the Brief Pain Inventory Questions 12. The relationship between MRI findings and clinical characteristics was assessed through logistic regression. Results— Thirty-five percent of subjects exhibited a tear of at least one rotator cuff, biceps or deltoid muscle. Fifty-three percent of subjects exhibited tendinopathy of at least one rotator cuff, bicep or deltoid muscle. The prevalence of rotator cuff tears increased with age. However, rotator cuff tears and rotator cuff and deltoid tendinopathies were not related to severity of poststroke shoulder pain. In approximately 20% of cases, rotator cuff and deltoid muscles exhibited evidence of atrophy. Atrophy was associated with reduced motor strength and reduced severity of shoulder pain. Conclusions— Rotator cuff tears and rotator cuff and deltoid tendinopathies are highly prevalent in poststroke shoulder pain. However, their relationship to shoulder pain is uncertain. Atrophy is less common but is associated with less severe shoulder pain.

Gender and age predict outcomes of cognitive, balance and vision testing in a multidisciplinary concussion center

OBJECTIVE This study examined components of the Sports Concussion Assessment Tool, 3rd Edition (SCAT3) and a vision-based test of rapid number naming (King-Devick [K-D]) to evaluate sports and non-sports concussion patients in an outpatient, multidisciplinary concussion center. While the Symptom Evaluation, Standardized Assessment of Concussion (SAC), modified Balance Error Scoring System (BESS), and K-D are used typically for sideline assessment, their use in an outpatient clinical setting following concussion has not been widely investigated. METHODS K-D, BESS, SAC, and SCAT3 Symptom Evaluation scores were analyzed for 206 patients who received concussion care at the Concussion Center at NYU Langone Medical Center. Patient age, gender, referral data, mechanism of injury, time between concussive event and first concussion center appointment, and the first specialty service to evaluate each patient were also analyzed. RESULTS In this cohort, Symptom Evaluation scores showed a higher severity and a greater number of symptoms to be associated with older age (r = 0.31, P = 0.002), female gender (P = 0.002, t-test), and longer time between the concussion event and first appointment at the concussion center (r = 0.34, P = 0.008). Performance measures of K-D and BESS also showed associations of worse scores with increasing patient age (r = 0.32-0.54, P ≤ 0.001), but were similar among males and females and across the spectrum of duration since the concussion event. Patients with greater Symptom Severity Scores also had the greatest numbers of referrals to specialty services in the concussion center (r = 0.33, P = 0.0008). Worse Immediate Memory scores on SAC testing correlated with slower K-D times, potentially implicating the dorsolateral prefrontal cortex as a commonly involved brain structure. CONCLUSION This study demonstrates a novel use of sideline concussion assessment tools for evaluation in the outpatient setting, and implicates age and gender as predictors of outcomes for these tests.

Intramuscular Electrical Stimulation for Shoulder Pain in Hemiplegia: Does Time From Stroke Onset Predict Treatment Success?:

Background. A randomized clinical has shown the effectiveness of intramuscular electrical stimulation for the treatment of poststroke shoulder pain. Objective. Identify predictors of treatment success and assess the impact of the strongest predictor on outcomes. Method. This is a secondary analysis of a multisite randomized clinical trial of intramuscular electrical stimulation for poststroke shoulder pain. The study included 61 chronic stroke survivors with shoulder pain randomized to a 6-week course of intramuscular electrical stimulation (n = 32) versus a hemisling (n = 29). The primary outcome measure was Brief Pain Inventory Question 12. Treatment success was defined as ≥ 2-point reduction in this measure at end of treatment and at 3, 6, and 12 months posttreatment. Forward stepwise regression was used to identify factors predictive of treatment success among participants assigned to the electrical stimulation group. The factor most predictive of treatment success was used as an explanatory variable, and the clinical trials data were reanalyzed. Results. Time from stroke onset was most predictive of treatment success. Subjects were divided according to the median value of stroke onset: early (<77 weeks) versus late (> 77 weeks). Electrical stimulation was effective in reducing poststroke shoulder pain for the early group (94% vs 7%, P < .001) but not for the late group (31% vs 33%). Repeated-measure analysis of variance revealed significant treatment (P < .001), time from stroke onset (P = .032), and treatment by time from stroke onset interaction (P < .001) effects. Conclusions. Stroke survivors who are treated early after stroke onset may experience greater benefit from intramuscular electrical stimulation for poststroke shoulder pain. However, the relative importance of time from stroke onset versus duration of pain is not known.

Invited Commentary on “Centers for Disease Control and Prevention Report to Congress: Traumatic Brain Injury in the United States: Epidemiology and Rehabilitation”

Traumatic brain injury (TBI) is a significant health problem, afflicting millions of people worldwide. Despite increasing awareness of its burden on patients, families, and society, much remains unknown regarding TBI incidence, how best to assess outcomes post-injury, and the most effective means of providing rehabilitation services. The Centers for Disease Control and Prevention recently published recommendations to Congress that address these critical knowledge gaps. The report is the end product of work completed by a notable panel of experts and stakeholders that makes overarching recommendations aimed at addressing knowledge gaps in TBI, with the ultimate goal of decreasing injury occurrence and improving outcomes. It is a succinct and powerful report that should serve as a call to action to fund innovative research and reverse a trend in health care that restricts access to rehabilitation services.

Recommendations From the 2013 Galveston Brain Injury Conference for Implementation of a Chronic Care Model in Brain Injury

Author Affiliations: Physical Medicine and Rehabilitation, Indiana University School of Medicine and Rehabilitation Hospital of Indiana, Indianapolis (Drs Malec and Hammond); Rehabilitation Medicine, New York University School of Medicine and Rusk Institute of Rehabilitation Medicine, NYU-Langone Medical Center, New York (Dr Flanagan); Physical Medicine and Rehabilitation, Indiana University School of Medicine and Roudebush Veterans Administration Medical Center, Indianapolis (Dr Kean); TIRR Memorial Hermann and Physical Medicine and Rehabilitation, University of Texas Medical School at Houston, Baylor College of Medicine, Houston (Drs Sander, Sherer); and Transitional Learning Center and University of Texas Medical Branch, Galveston (Dr Masel).