Medical Symptom Validity Test Performance Following Moderate-Severe Traumatic Brain Injury: Expectations Based on Orientation Log Classification.

OBJECTIVE: This study examined performance on the Medical Symptom Validity test (MSVT) during acute rehabilitation for moderate-severe traumatic brain injury (TBI) stratified by Orientation Log (O-Log) scores. METHOD: Participants were 77 prospectively enrolled persons who sustained moderate-severe TBI and were acutely hospitalized secondary to the cognitive, medical and physical sequelae of their TBI. Participants were administered neuropsychological metrics, the O-Log and the MSVT a mean of 44 days post injury. RESULTS: Significantly lower neurocognitive test scores were observed among participants who remained in post-traumatic amnesia (O-Log scores ranging from 20 to 24) versus those who were oriented (O-Log scores ranging from 25 to 30). MSVT performance was lower among participants who remained in post-traumatic amnesia. When participants O-Log scores were unimpaired (30), performance on the MSVT was also unimpaired on immediate recognition (IR) and delayed recognition (DR). A small percentage of participants performed below MSVT interpretive expectations on CNS. As O-Log scores decreased, MSVT performance also declined on some, but not all MSVT metrics. The sample as a whole performed at or above expectations on MSVT criterion B2 (IR) = 96.6%; (DR) = 94.8%; consistency (CNS) = 92.9%; paired associate (PA) = 86.4% and delayed free recall (FR) = 46.8%. CONCLUSIONS: MSVT performance stratified by O-Log scores provides basal expectation levels for persons with acute, moderate-severe impairment in cognitive skills secondary to TBI. Our data demonstrate that persons with significant neurocognitive impairment who are oriented generally perform at or above MSVT interpretive guidelines.

The sensitivity and specificity of clinical measures of sport concussion: three tests are better than one.

CONTEXT: A battery of clinical measures of neurocognition, balance and symptoms has been recommended for the management of sport concussion (SC) but is based on variable evidence. OBJECTIVE: To examine the sensitivity and specificity of a battery of tests to assess SC in college athletes. DESIGN: Cross-sectional. SETTING: Research laboratory. PATIENTS OR OTHER PARTICIPANTS: Division 1 athletes diagnosed with a SC (n=40) who were 20.2±1.60 years of age and 180.5±11.12 cm tall and healthy athletes (n=40) who were 19.0±0.93 years of age and 179.1±11.39 cm tall were enrolled. INTERVENTIONS: Participants were administered Immediate Postconcussion Assessment and Cognitive Test (ImPACT), the Sensory Organization Test (SOT) and the Revised Head Injury Scale (HIS-r) prior to and up to 24 h following injury between the 2004 and 2014 sport seasons. Sensitivity and specificity were calculated using predictive discriminant analyses (PDA) and clinical interpretation guidelines. MAIN OUTCOME MEASURES: Outcome measures included baseline and postinjury ImPACT, SOT and HIS-r composite scores. RESULTS: Using PDA, each clinical measure's sensitivity ranged from 55.0% to 77.5% and specificity ranged from 52.5% to 100%. The test battery possessed a sensitivity and specificity of 80.0% and 100%, respectively. Using clinical interpretation guidelines, sensitivity ranged from 55% to 97.5% individually, and 100% when combined. CONCLUSIONS: Our results support a multidimensional approach to assess SC in college athletes which correctly identified 80-100% of concussed participants as injured. When each test was evaluated separately, up to 47.5% of our sample was misclassified. Caution is warranted when using singular measures to manage SC.

The Safety Assessment Measure for persons with traumatic brain injury: Item pool development and content validity.

BACKGROUND: Persons with moderate to severe TBI are at increased risk for unintentional injury or harm in the home and community; however, there is currently no standard measure of safety risk they face now and in the future. OBJECTIVE: To develop comprehensive and content valid scales and item pools for assessing safety and risk for persons with moderate to severe traumatic brain injuries. METHOD: Qualitative psychometric methods for developing scales and items were used including literature review, item development and revision, focus groups with interdisciplinary rehabilitation staff (n = 26) for rating content validity, and cognitive interviewing of TBI family members (n = 9) for assuring item clarity. RESULTS: The Safety Assessment Measure is comprised of 6 primary scales - Cognitive Capacity, Visuomotor Capacity, Wheelchair Use, Risk Perception, Self-Regulation, and Compliance Failures with Safety Recommendations - in which family caregivers or clinicians rate the risk for unintentional injury or harm in adults who have sustained moderate or severe TBI. The scale item pools encompass a broad spectrum of everyday activities that pose risk in the home and community and were rated as having excellent levels of content validity. CONCLUSIONS: The Safety Assessment Measure scales and items cover a broad range of instrumental activities of daily living that can increase the risk of unintentional injuries or harm. Empirical evidence suggests that the Safety Assessment Measure items have excellent content validity. Future research should use modern psychometric methods to examine each scale unidimensionality, model fit, and precision.

A Preliminary Formula to Predict Timing of Symptom Resolution for Collegiate Athletes Diagnosed With Sport Concussion.

CONTEXT: Symptom presentation and recovery after sport concussion (SC) are variable. Empirically based models documenting typical symptom duration would assist health care providers in managing return to play after SC. OBJECTIVE: To develop a prediction model for SC symptom duration. DESIGN: Cross-sectional study. SETTING: Two National Collegiate Athletic Association Division I university laboratories. PATIENTS OR OTHER PARTICIPANTS: Seventy-six (51 male and 25 female) concussed athletes with an average age of 19.5 ± 1.65 years who were evaluated within 24 hours of diagnosis. INTERVENTION(S): Participants completed the Revised Head Injury Scale (HIS-r), Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT), and Sensory Organization Test within 24 hours of SC diagnosis. MAIN OUTCOME MEASURE(S): A stepwise multivariate regression incorporating ImPACT and Sensory Organization Test composites and HIS-r symptom severity-duration was used to predict the number of days athletes reported symptoms after SC. The resulting regression formula was cross-validated using the Stine cross-validation coefficient. RESULTS: The final formula consisted of the HIS-r's self-reported neck pain, drowsiness, tingling, and nervousness duration and ImPACT total symptom severity (R = 0.62, R(2) = 39%, R(2)(adj) = 34.2%, P < .001). Approximately 29% (R(2)(cv) = 29%) of the variance associated with total days symptomatic after SC was explained by our preliminary formula when cross-validated. The current formula correctly identified 76% of participants who recovered within 10 days of injury. CONCLUSIONS: Our results suggest that self-reported duration of 4 symptoms during the initial 24 hours after injury along with total symptom severity as measured by ImPACT accounted for a considerable amount of variance associated with days symptomatic after SC in collegiate athletes. Until the formula is cross-validated in a college-aged sample, caution is warranted in using it clinically.

Preliminary evidence of equivalence of alternate forms of the ImPACT.

The ImPACT (Immediate Postconcussion Assessment and Cognitive Testing) is a computerized neurocognitive test used to assist in the management of sport concussion management. A number of studies have documented the reliability and sensitivity of the ImPACT, but no studies have examined the equivalence of the ImPACT's alternate forms. The objective of our study was to determine the equivalence of the ImPACT's five alternate forms. Participants were administered alternate forms of ImPACT based on clinically relevant time frame derived from an extensive sports concussion database. Participants completed a baseline assessment followed by various combinations of the remaining alternate forms at 45 and 50 days. Inferential Confidence Intervals were calculated for each composite score for all alternate forms. We found non-equivalence between ImPACT form 1 and forms 2, 3, and 4 on the Verbal Memory and between forms 2 and 4. ImPACT forms 1 and 3 were not equivalent on the Visual Memory Composite. Finally, ImPACT forms 3 and 4 were not equivalent on the Visual Motor Speed and Reaction Time Composites. Alternate form equivalence is necessary to minimize measurement error and optimize clinical decision making. Clinicians using the ImPACT should consider non-equivalence of some forms on certain Composites when interpreting ImPACT following sports concussion.

The impact of mild traumatic brain injury on cognitive functioning following co-occurring spinal cord injury.

Meta-analytic studies have shown that mild traumatic brain injury (MTBI) has relatively negligible effects on cognitive functioning at 90 or more days post-injury. Few studies have prospectively examined the effects of MTBI in acute physical trauma populations. This prospective, cohort study compared the cognitive performance of persons who sustained a spinal cord injury (SCI) and a co-occurring MTBI (N = 53) to persons who sustained an SCI alone (N = 64) between 26 and 76 days (mean = 46) post-injury. The presence of MTBI was determined based on acute medical record review using a standardized algorithm. Primary outcome measures were seven neuropsychological tests that evaluated visual, verbal, and working memory, perceptual reasoning, and processing speed that controlled for potential upper extremity impairment. Persons who sustained SCI with or without MTBI had lower than expected performance across all neuropsychological tests, on average about 1 SD below the mean. Analysis of covariance indicated that persons with MTBI did not evidence greater impairment on any neuropsychological test. The aggregated effect size (Cohen's d) was -0.16. The strongest predictors of neuropsychological test scores were education, race, history of learning problems, and days from injury to rehabilitation admission. MTBI did not predict performance on any neuropsychological test. These findings are consistent with other controlled studies that indicate a single MTBI has negligible long-term impacts on cognition.

ImPact test-retest reliability: reliably unreliable?

CONTEXT: Computerized neuropsychological testing is commonly used in the assessment and management of sport-related concussion. Even though computerized testing is widespread, psychometric evidence for test-retest reliability is somewhat limited. Additional evidence for test-retest reliability is needed to optimize clinical decision making after concussion. OBJECTIVE: To document test-retest reliability for a commercially available computerized neuropsychological test battery (ImPACT) using 2 different clinically relevant time intervals. DESIGN: Cross-sectional study. SETTING: Two research laboratories. PATIENTS OR OTHER PARTICIPANTS: Group 1 (n = 46) consisted of 25 men and 21 women (age = 22.4 ± 1.89 years). Group 2 (n = 45) consisted of 17 men and 28 women (age = 20.9 ± 1.72 years). INTERVENTION(S): Both groups completed ImPACT forms 1, 2, and 3, which were delivered sequentially either at 1-week intervals (group 1) or at baseline, day 45, and day 50 (group 2). Group 2 also completed the Green Word Memory Test (WMT) as a measure of effort. MAIN OUTCOME MEASURES: Intraclass correlation coefficients (ICCs) were calculated for the composite scores of ImPACT between time points. Repeated-measures analysis of variance was used to evaluate changes in ImPACT and WMT results over time. RESULTS: The ICC values for group 1 ranged from 0.26 to 0.88 for the 4 ImPACT composite scores. The ICC values for group 2 ranged from 0.37 to 0.76. In group 1, ImPACT classified 37.0% and 46.0% of healthy participants as impaired at time points 2 and 3, respectively. In group 2, ImPACT classified 22.2% and 28.9% of healthy participants as impaired at time points 2 and 3, respectively. CONCLUSIONS: We found variable test-retest reliability for ImPACT metrics. Visual motor speed and reaction time demonstrated greater reliability than verbal and visual memory. Our current data support a multifaceted approach to concussion assessment using clinical examinations, symptom reports, cognitive testing, and balance assessment.

Advances in neuropsychological assessment of sport-related concussion.

OBJECTIVE: To critically review the literature from the past 12 years regarding the following key issues in sports-related neuropsychological assessment: (1) the advantages and disadvantages of different neuropsychological assessment modalities; (2) the evidence for and against the current paradigm of baseline/postinjury testing; (3) the role of psychological factors in the evaluation and management of concussion; (4) advances in the neuropsychological assessment of children; (5) multi-modal assessment paradigms; (6) the role of the neuropsychologist as part of the sports healthcare team and (6) the appropriate administration and interpretation of neuropsychological tests. DESIGN: Targeted computerised literature review (MEDLINE, PubMed, CINAHL and PsychInfo) from 2000 to the present using key words: neuropsychological, neurocognitive, assessment, testing, concussion and sports. RESULTS: More than 2600 articles were identified using key word searches of the databases, including many duplicates. Several books were also reviewed. The articles were pared down for review if they specifically addressed the key areas noted above. CONCLUSIONS: Traditional and computerised neuropsychological tests are useful in the evaluation and management of concussion. Brief cognitive evaluation tools are not substitutes for formal neuropsychological assessment. At present, there is insufficient evidence to recommend the widespread routine use of baseline neuropsychological testing. Although scant, research suggests that psychological factors may complicate and prolong recovery from concussion in some athletes. Age-appropriate symptom scales for children have been developed but research into age-appropriate tests of cognitive functions lags behind. Neuropsychologists are uniquely qualified to interpret neuropsychological tests and can play an important role within the context of a multifaceted-multimodal approach to manage sports-related concussions.

Developing and evaluating prediction models in rehabilitation populations.

This article presents a 3-part framework for developing and evaluating prediction models in rehabilitation populations. First, a process for developing and refining prognostic research questions and the scientific approach to prediction models is presented. Primary components of the scientific approach include the study design and sampling of patients, outcome measurement, selecting predictor variable(s), minimizing methodologic sources of bias, assuring a sufficient sample size for statistical power, and selecting an appropriate statistical model. Examples focus on prediction modeling using samples of rehabilitation patients. Second, a brief overview for statistically building and validating multivariable prediction models is provided, which includes the following 7 steps: data inspection, coding of predictors, model specification, model estimation, model performance, model validation, and model presentation. Third, we propose a set of primary considerations for evaluating prediction model studies using specific quality indicators as criteria to help stakeholders evaluate the quality of a prediction model study. Lastly, we offer perspectives on the future development and use of rehabilitation prediction models.

Co-occurring traumatic brain injury and acute spinal cord injury rehabilitation outcomes.

OBJECTIVE: To determine the impact of co-occurring traumatic brain injury (TBI) on functional motor outcome and cognition during acute spinal cord injury (SCI) rehabilitation. DESIGN: Prospective, longitudinal cohort. SETTING: Single-center National Institute of Disability and Rehabilitation Research SCI Model System. PARTICIPANTS: Persons aged 16 to 59 years (N=189) admitted for acute SCI rehabilitation during the 18-month recruitment window who met inclusion criteria. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: FIM Motor Scale (Rasch transformed) and acute rehabilitation length of stay (LOS). RESULTS: In the tetraplegia sample, co-occurring TBI was not related to FIM Motor Scale scores or acute rehabilitation LOS despite having negative impacts on memory and problem solving. Persons with paraplegia who sustained co-occurring severe TBI had lower admission and discharge FIM Motor Scale scores and longer acute rehabilitation LOS than did persons with paraplegia and either no TBI or mild TBI. Persons with paraplegia and severe TBI had lower functional comprehension, problem solving, and memory and impairments on tests of processing speed compared with persons with paraplegia and no TBI, mild TBI, and moderate TBI. Persons with paraplegia and co-occurring mild and moderate TBI had equivalent acute rehabilitation motor outcomes and cognitive functioning compared with persons with paraplegia and no TBI. CONCLUSIONS: This study provides evidence that persons aged 16 to 59 years with paraplegia and co-occurring severe TBI had worse motor outcomes and longer acute rehabilitation LOS than did persons with paraplegia and no TBI. Impairments in processing speed, comprehension, memory, and problem solving may explain suboptimal motor skill acquisition. Research with larger samples is required to determine whether mild and moderate TBI impact acute rehabilitation motor outcomes and LOS.

Role of neuropsychologists in the evaluation and management of sport-related concussion: an inter-organization position statement.

Over the past 20 years, clinical neuropsychologists have been at the forefront of both scientific and clinical initiatives aimed at developing evidence-based approaches to the evaluation and management of sport-related concussion (SRC). These efforts have directly impacted current policy on strategies for injury assessment and return-to-play by athletes after concussion. Many states are considering legislation requiring (a) education of athletes, parents, coaches, and school/organization officials on the recognition, evaluation, and management of SRCs; (b) removal from play of any youth athlete that is suspected of having sustained a concussion; and (c) not allowing the student to return to participation until the student is evaluated and cleared for return to participation in writing by an appropriate healthcare professional. It is the official position of the American Academy of Clinical Neuropsychology (AACN), American Board of Professional Neuropsychology (ABN), Division 40 (Neuropsychology) of the American Psychological Association (APA), and the National Academy of Neuropsychology (NAN) that neuropsychologists should be included among the licensed healthcare professionals authorized to evaluate, clinically manage, and provide return to play clearance for athletes who sustain a SRC.

Role of neuropsychologists in the evaluation and management of sport-related concussion: an inter-organization position statement.

Over the past 20 years, clinical neuropsychologists have been at the forefront of both scientific and clinical initiatives aimed at developing evidence-based approaches to the evaluation and management of sport-related concussion. These efforts have directly impacted current policy on strategies for injury assessment and return-to-play by athletes after concussion. Many states are considering legislation requiring (a) education of athletes, parents, coaches, and school/organization officials on the recognition, evaluation, and management of sport-related concussions; (b) removal from play of any youth athlete that is suspected of having sustained a concussion; and (c) not allowing the student to return to participation until the student is evaluated and cleared for return to participation in writing by an appropriate healthcare professional. It is the official position of the American Academy of Clinical Neuropsychology (AACN), American Board of Neuropsychology (ABN), Division 40 (Neuropsychology) of the American Psychological Association (APA), and the National Academy of Neuropsychology (NAN) that neuropsychologists should be included among the licensed health care professionals authorized to evaluate, clinically manage, and provide return to play clearance for athletes who sustain a sport-related concussion.

Investigation of baseline self-report concussion symptom scores.

CONTEXT: Self-reported symptoms (SRS) scales comprise one aspect of a multifaceted assessment of sport-related concussion. Obtaining SRS assessments before a concussion occurs assists in determining when the injury is resolved. However, athletes may present with concussion-related symptoms at baseline. Thus, it is important to evaluate such reports to determine if the variables that are common to many athletic environments are influencing them. OBJECTIVE: To evaluate the influence of a history of concussion, sex, acute fatigue, physical illness, and orthopaedic injury on baseline responses to 2 summative symptom scales; to investigate the psychometric properties of all responses; and to assess the factorial validity of responses to both scales in the absence of influential variables. DESIGN: Cross-sectional study. SETTING: Athletic training facilities of 6 National Collegiate Athletic Association institutions. PATIENTS OR OTHER PARTICIPANTS: The sample of 1065 was predominately male (n = 805) collegiate athletes with a mean age of 19.81 +/- 1.53 years. MAIN OUTCOME MEASURE(S): Participants completed baseline measures for duration and severity of concussion-related SRS and a brief health questionnaire. RESULTS: At baseline, respondents reporting a previous concussion had higher composite scores on both scales (P

Clinical considerations for the diagnosis of major depression after moderate to severe TBI.

Major depression (MD) is the most common psychiatric disorder after traumatic brain injury (TBI). Yet, diagnosing MD is often challenging because of cognitive, emotional, and somatic symptoms that overlap with TBI and other psychiatric disorders. Best current evidence suggests that depressed mood is characterized more by irritability, anger, and aggression than by sadness and tearfulness in persons with TBI. Rumination, self-criticism, and guilt may best differentiate depressed persons from nondepressed persons. Anxiety, aggression, sleep problems, alcohol use, lower-income levels, and poor social functioning appear to be primary associated factors to MD. Objective levels of injury severity, impairment, and functioning do not appear to be related to developing MD. The presence of "organic" TBI sequelae that overlap with the Diagnostic and Statistical Manual of Mental Disorders-Version IV MD criteria does not appear to lead to false-positive MD diagnoses, and anosognosia does not appear to lead to false-negative MD diagnoses. Only the Patient Health Questionnaire-9 and Neurobehavioral Functioning Inventory-Depression demonstrated evidence of acceptably ruling out MD in persons with TBI; the Patient Health Questionnaire-9 had the best ability to rule in the presence of MD following TBI. Apathy, anxiety, dysregulation, and emotional lability require careful clinical consideration when making a differential diagnosis of MD in persons with TBI. Lastly, recommendations are provided on how clinicians can improve diagnostic accuracy and what future research is required to improve our understanding of MD in persons with TBI.

Spinal cord injury and co-occurring traumatic brain injury: assessment and incidence.

OBJECTIVES: To examine prospectively the incidence and severity of co-occurring traumatic brain injury (TBI) in persons with traumatic spinal cord injury (SCI) and to describe a TBI assessment process for SCI rehabilitation professionals. DESIGN: A prospective, cohort design to collect and analyze clinical variables relevant for diagnosing co-occurring TBI. SETTING: An urban, single-center National Institute of Disability and Rehabilitation Research Model Spinal Cord Injury System in the Southeastern United States. PARTICIPANTS: People (N=198) who met inclusion criteria and provided consent within an 18-month recruitment window. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURE: FIM cognitive scale. RESULTS: Based on participants' presence and duration of posttraumatic amnesia, initial Glasgow Coma Scale total score, and presence of cerebral lesion documented by neuroimaging, 60% of our traumatic SCI sample also sustained a TBI (n=118). Most co-occurring TBIs were mild (34%). Co-occurring mild complicated (10%), moderate (6%), and severe TBI (10%) were less common but still occurred in a significant percentage (26%) of persons with traumatic SCI. Persons with traumatic SCI who were injured in motor vehicle collisions and falls were more likely to sustain a co-occurring TBI. Cervical level traumatic SCI was associated with greater rates of TBI but not more severe injuries. Tree analyses established a practical algorithm for classifying TBI severity associated with traumatic SCI. Analysis of variance established criterion validity for the algorithm's TBI severity classifications. CONCLUSIONS: Findings from our prospective study provide strong support that TBI is a common co-occurring injury with traumatic SCI. Incomplete acute care medical record documentation of TBI in the traumatic SCI population remains a considerable issue, and there is a significant need to educate emergency department and acute care personnel on the TBI clinical data needs of acute rehabilitation providers. A systematic algorithm for reviewing acute care medical records can yield valid estimates of TBI severity in the traumatic SCI population.

Relationships among premorbid alcohol use, acute intoxication, and early functional status after traumatic brain injury.

OBJECTIVE: To investigate the relationships among intoxication at time of injury, preinjury history of problem drinking, and early functional status in patients with traumatic brain injury (TBI). DESIGN: Prospective cohort study. SETTING: Acute inpatient TBI rehabilitation. PARTICIPANTS: Participants were 1748 persons with TBI. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Blood alcohol levels (BALs) were obtained at admission to the emergency department, and a history of problem drinking was obtained through interview. Study outcomes, Disability Rating Scale (DRS), and FIM instrument scores were gathered at admission to inpatient rehabilitation. RESULTS: Multivariate regression analysis revealed that BAL and a history of binge drinking were predictive of DRS, but not FIM, scores. A higher BAL was associated with poorer functional status on the DRS. Paradoxically, a history of binge drinking was associated with more intact functional status on the DRS. CONCLUSIONS: The relationships among intoxication at time of injury, history of problem drinking, and early outcome after TBI were modest. Injury severity had a more significant association with TBI functional status.

Evaluation of changes in motor and visual functional activation over time following moderate-to-severe brain injury.

PRIMARY OBJECTIVE: Relatively little research has documented functional recovery following traumatic brain injury using neuroimaging techniques. This study aimed to examine the effects of moderate-to-severe brain injury on brain functioning over time. RESEARCH DESIGN: Eight brain-injured participants completed motor and visual tasks during fMRI at two time points within the first year following injury. Changes in functional activation within ROIs and in dispersion of activation were evaluated across time points. MAIN OUTCOMES AND RESULTS: Participants demonstrated significantly reduced activation intensity within the ROI over time for the motor task, but not the RPS task. Participants demonstrated a (non-significant) trend toward reduced functional dispersion over time. Most participants demonstrated greater activation within (vs outside) the ROI for both tasks. Variability among participants, in terms of activation intensity and dispersion, was evident. CONCLUSIONS: The findings provide support for the occurrence of functional recovery over the first year post-injury, with fewer resources utilized during task completion over time. Additionally, results suggest that variability in functional activation and activation in brain regions typically activated among controls could be anticipated in a moderate-severe TBI group. Lastly, simple motor and visual tasks may be useful in efforts to demonstrate functional recovery over time.

Variability in Stroop task performance and functional activation among a small brain-injured group.

This study evaluated the effects of moderate to severe brain injury on cognitive task performance and cortical activation. Five participants completed a Stroop task while undergoing functional magnetic resonance imaging (fMRI) at two time points post- injury. Results revealed activation within regions typically activated during a Stroop task (the region of interest: ROI), though variability among participants was evident. Regions outside of the ROI were activated among all participants, to a greater degree than was present within the ROIs. This finding may indicate that recruitment of outside regions was necessary for successful task completion at both time points, and may suggest functional plasticity in cognitive task completion.

The impact of diabetes mellitus on stroke acute rehabilitation outcomes.

OBJECTIVE: To examine the impact of diabetes mellitus (DM) on functional outcomes after acute rehabilitation for cerebrovascular accident (CVA). DESIGN: A retrospective research design was used to analyze outcomes in patients with a primary diagnosis of unilateral stroke (n = 367) admitted to an urban, acute rehabilitation center in the Southeastern United States. RESULTS: Multivariable hierarchical regression revealed that DM did not contribute statistically significant variance to stroke acute rehabilitation prediction models. Rehabilitation admission functioning scores, rehabilitation length of stay, age, and stroke type were significant predictors of poststroke rehabilitation motor outcomes (r2 = 0.603) and cognitive outcomes (r2 = 0.712). Diabetes also had no significant impact on acute stroke rehabilitation lengths of stay or rehabilitation discharge setting. CONCLUSIONS: Diabetes does not seem to significantly impact short-term acute rehabilitation outcomes after stroke. Persons with diabetes who suffer a stroke seem to benefit and improve during their acute rehabilitation stay at levels equivalent to peers who are not diagnosed with diabetes. Future research should examine the impact of diabetes subtypes and undiagnosed diabetes on short- and long-term outcomes.