This study identified the explanatory power of the Korean rehabilitation patient group (KRPG) v1.1 for acquired brain injury (ABI) on medical expenses in the rehabilitation hospitals and the correlation of functional outcomes with the expenses. Here, the design is a retrospective analysis from the claim data of the designated rehabilitation hospitals. Data including KRPG information with functional status and medical expenses were collected from 1 January and 31 August 2018. Reduction of variance (R2) was statistically analyzed for the explanation power of the KRPG. Association between functional status and the medical expenses was carried out using the Spearman's rank order correlation (rho). From the claim data of 365 patients with ABI, the KRPG v1.1 explained 8.6% of variance for the total medical expenses and also explained 9.8% of variance for the rehabilitation therapy costs. Cognitive function and spasticity showed very weak correlation with the total medical expenses (rho = −0.17 and −0.14, respectively). Motor power and performance of activities of daily living were associated weakly (rho = −0.27 and −0.30, respectively). The KRPG and related functional status in ABI reflects the total medical expenses and rehabilitation therapy costs insufficiently in the designated rehabilitation hospitals. Thus, the current KRPG algorithm and variables for ABI may need to be ameliorated in the future.
Activities of Daily Living ; Brain Diseases ; Brain Injuries ; Brain ; Cognition ; Diagnosis-Related Groups ; Fee-for-Service Plans ; Humans ; Muscle Spasticity ; Neurological Rehabilitation ; Rehabilitation ; Retrospective Studies

The goal of the present study was to test the reliability and validity of the Japanese version of the Quality of Life after Brain Injury (QOLIBRI) scale. Correlations between the QOLIBRI and Glasgow Coma Scale scores, anxiety, depression, general quality of life (QOL), and demographic characteristics were examined to assess scale validity. The structure of the QOLIBRI was investigated with exploratory and confirmatory factor analyses, as well as the Partial Credit Model. Test–retest reliability was assessed over a 2-week interval. Participants were 129 patients with traumatic brain injury (TBI) recruited from rehabilitation centers in Japan. The QOLIBRI showed good-to-excellent internal consistency (Cronbach's α: 0.82–0.96), test–retest reliability, and validity (r = 0.77–0.90). Factor analyses revealed a 6-factor structure. Compared to an international sample (IS), Japanese patients had lower QOLIBRI scores and lower satisfaction in several domains. There were positive correlations between the QOLIBRI scales and the Short Form 36 Health Survey (r = 0.22–0.41). The Japanese version of the QOLIBRI showed good-to-excellent psychometric properties. Differences between JS and IS may reflect sampling bias and cultural norms regarding self-evaluation. The QOLIBRI could be a useful tool for assessing health-related QOL in individuals with TBI.
Anxiety ; Asian Continental Ancestry Group ; Brain Injuries ; Brain ; Depression ; Diagnostic Self Evaluation ; Glasgow Coma Scale ; Health Surveys ; Humans ; Japan ; Psychometrics ; Quality of Life ; Rehabilitation Centers ; Reproducibility of Results ; Selection Bias ; Weights and Measures

To investigate vitamin D status according to the diseases in patients admitted to the department of rehabilitation medicine. In total, 282 patients admitted to the department of rehabilitation medicine in our hospital were included. Patients were classified into 4 groups according to ailment: stroke, traumatic brain injury, spinal cord injury, and fracture. All patients were also classified as ambulatory or non-ambulatory. Serum 25-hydroxyvitamin D (25[OH]D) levels were estimated at admission and at discharge. Bone mineral density (BMD) and ionized calcium levels were also measured. All subjects completed the Desmond Fall Risk Questionnaire for fall risk assessment. In total, 92 patients (59 males and 33 females; mean age, 69.09 ± 9.4 years) was enrolled. Low serum 25(OH)D levels (6–28 ng/mL) were observed in all patients in this study, and these were lower in the group of fractures resulting from falls than in the group of strokes (p < 0.05). Significant correlations were found between BMD and ionized calcium levels, Desmond Fall Risk Questionnaire scores and BMD, and questionnaire scores and serum 25(OH)D (p < 0.05). Serum 25(OH)D levels were lower in the department of rehabilitation medicine inpatients in our study than in the general population. The ambulatory patients had higher serum 25(OH)D levels at discharge than the non-ambulatory patients'. The hospitalized rehabilitation patients had lower serum 25(OH)D compared with the community. There were lower serum 25(OH)D levels in patients with fractures and non-ambulatory groups. We should pay attention to serum vitamin D levels of rehabilitation center inpatients.
Accidental Falls ; Bone Density ; Brain Injuries ; Calcium ; Female ; Humans ; Inpatients ; Male ; Rehabilitation Centers ; Rehabilitation ; Risk Assessment ; Spinal Cord Injuries ; Stroke ; Vitamin D ; Vitamins

Traumatic brain injury is a main cause of long-term neurological disability, and many patients suffer from cognitive impairment for a lengthy period. Cognitive impairment is a fatal malady to that limits active rehabilitation, and functional recovery in patients with traumatic brain injury. In severe cases, it is impossible to assess cognitive function precisely, and severe cognitive impairment makes it difficult to establish a rehabilitation plan, as well as evaluate the course of rehabilitation. Evaluation of cognitive function is essential for establishing a rehabilitation plan, as well as evaluating the course of rehabilitation. We report a case of the analysis of electroencephalography with global synchronization index and low-resolution brain electromagnetic tomography applied, for evaluation of cognitive function that was difficult with conventional tests, due to severe cognitive impairment in a 77-year-old male patient that experienced traumatic brain injury.
Aged ; Brain ; Brain Injuries ; Cognition Disorders ; Cognition ; Electroencephalography ; Humans ; Magnets ; Male ; Rehabilitation

OBJECTIVE: To evaluate the effects of electric cortical stimulation (ECS) and transcranial direct current stimulation (tDCS) on motor and cognitive function recovery and brain plasticity in focal traumatic brain injury (TBI) of rats model. METHODS: Forty rats were pre-trained to perform a single pellet reaching task (SPRT), rotarod test (RRT), and Y-maze test for 14 days, then a focal TBI was induced by a weight drop model on the motor cortex. All rats were randomly assigned to one of the three groups: anodal ECS (50 Hz and 194 μs) (ECS group), tDCS (0.1 mA, 50 Hz and 200 μs) (tDCS group), and no stimulation as a control group. Four-week stimulation, including rehabilitation, was started 3 days after the operation. SPRT, RRT, and Y-maze were measured from day 1 to day 28 after the TBI was induced. Histopathological and immunohistochemistry staining evaluations were performed at 4 weeks. RESULTS: SPRT was improved from day 7 to day 26 in ECS, and from day 8 to day 26 in tDCS compared to the control group (p < 0.05). SPRT of ECS group was significantly improved on days 3, 8, 9, and 17 compared to the tDCS group. Y-maze was improved from day 8 to day 16 in ECS, and on days 6, 12, and 16 in the tDCS group compared to the control group (p < 0.05). Y-maze of the ECS group was significantly improved on day 9 to day 15 compared to the tDCS group. The c-Fos protein expression was better in the ECS group and the tDCS group compared to the control group. CONCLUSION: Electric stimulation in rats modified with a focal TBI is effective for motor recovery and brain plasticity. ECS induced faster behavioral and cognitive improvements compared to tDCS during the recovery period of rats with a focal TBI.
Animals ; Brain ; Brain Injuries* ; Cognition ; Electric Stimulation ; Immunohistochemistry ; Motor Cortex ; Plastics ; Rats* ; Recovery of Function ; Rehabilitation ; Rotarod Performance Test ; Transcranial Direct Current Stimulation*

This case report reveals the implementation of sensorimotor adaptation and learning process for rehabilitation in a patient with traumatic brain injury to achieve optimum recovery which is permanent in nature in compliance to the disability rating scale. A twenty two year old gentleman who had a history of fall was diagnosed as having subarachnoid hemorrhage along with diffuse axonal injury of the brain and bilateral lung contusion with pneumothorax. He underwent a total of ten months of sensorimotor adaptation and learning process for rehabilitation, which achieved functional mobility with a walker.
Adult ; Brain Injuries, Traumatic ; physiopathology ; rehabilitation ; Disability Evaluation ; Glasgow Coma Scale ; Humans ; Learning ; Male ; Recovery of Function

OBJECTIVE: To evaluate the immediate effect of single exercise on physical performance and memory in the early stage of traumatic brain injury (TBI) in rats. METHODS: Ninety TBI rats were randomly assigned to T0 (sedentary), T10 (treadmill 10 m/min for 30 minutes), or T20 (treadmill 20 m/min for 30 minutes) groups, on day 3 (D3), D7, and D14 after TBI, respectively. Rotarod (RR), Barnes maze (BM), brain magnetic resonance imaging (MRI) and MR spectroscopy were performed immediately before and 6 hours after exercise. Rats were sacrificed for immunohistochemistry with heat shock protein 70 (Hsp70) and glial fibrillary acidic protein (GFAP). RESULTS: On D3, the T10 and T20 groups demonstrated significant improvement in RR (p < 0.05). On D7, only the T20 group showed significantly enhanced RR (p < 0.05). In BM on D3, the T20 group showed significant deterioration compared with the other groups (p < 0.05). Lesion volume did not significantly differ among the groups. MR spectroscopy on D3 showed that only the T20 group had significantly increased choline/creatine and 0.9/creatine (p < 0.05). In the perilesional area on D3, only T20 had a significantly higher Hsp70 and GFAP than the T0 group. On D7, Hsp70 was significantly higher in the T20 group than in the T0 group (p < 0.05). In the ipsilesional hippocampus on D3, the T20 group showed a significantly higher Hsp70 and GFAP than the T0 group (p < 0.05). CONCLUSION: A single session of low-intensity exercise in the early period of TBI improves behavioral performance without inducing cognitive deficits. However, high-intensity exercise can exacerbate cognitive function in the early period after TBI. Therefore, the optimal timing of rehabilitation and exercise intensity are crucial in behavior and memory recovery after TBI.
Animals ; Brain ; Brain Injuries* ; Cognition ; Cognition Disorders ; Glial Fibrillary Acidic Protein ; Hippocampus ; HSP70 Heat-Shock Proteins ; Immunohistochemistry ; Magnetic Resonance Imaging ; Magnetic Resonance Spectroscopy ; Memory* ; Rats* ; Rehabilitation

Virtual reality (VR) therapy has many benefits to promote neurological and functional recovery in the field of neurorehabilitation after brain injury. VR-assisted neurorehabilitation can be applied in motor, sensori-motor, cognitive, activities of daily living (ADL), and telerehabilitation. Recent reports found that VR therapy appears to be a safe intervention that is effective at improving arm function and ADL function following stroke. Greater improvements were seen at a higher VR therapeutic dose. There has been insufficient evidence that VR therapy improved lower extremity gait speed, balance, and cognitive function after brain injury. As a result, the number of commercially available devices have increased and large-scale controlled trials have reported positive effects recently. Interface devices, various feedback methods, and the advancement of augmented reality technology are quickly developing, therefore, the potential value of VR therapy in neurorehabilitation will be high and its clinical application will be diversified.
Activities of Daily Living ; Arm ; Brain Injuries ; Cognition ; Gait ; Lower Extremity ; Neurological Rehabilitation* ; Rehabilitation ; Stroke ; Telerehabilitation

Rehabilitation care requires an organized health care delivery system, stroke, brain injury, spinal cord injury, amputation, severe multiple musculoskeletal injury, and congenital damage to the nervous system frequently result in permanent disability or a temporary serious reduction of bodily function. These diseases or injuries require acute medical treatment at general and tertiary hospitals, but then also require a long period of intensive and comprehensive rehabilitation treatment. Currently, a 3-stage rehabilitation care delivery system, involving acute, subacute (recovery), and chronic (maintenance) rehabilitation, is being considered. Although the concepts underlying this delivery system have not yet been clearly defined, acute rehabilitation should be provided at general and tertiary hospitals for patients with permanent disabilities, an unstable medical condition, and/or a severe temporary reduction of bodily function simultaneously with or immediately after acute medical treatment. Cardiac rehabilitation, respiratory rehabilitation, pressure ulcer management, rehabilitation of severe cerebral palsy, rare diseases, and cancer, for which the cooperation of internal, surgical, and critical care staff is essential, are included in acute rehabilitation. Additionally, intensive and comprehensive inpatient subacute (recovery) rehabilitation should be provided for patients with severely impaired bodily function who are medically stable. Subsequently, chronic rehabilitation may be required for patients who need postural changes throughout the day, those who require rehabilitation treatment intended to prevent long-term complications and to ensure the maintenance of body function, those who show shortness of breath or dysphagia, and those who show little improvements of bodily function, making discharge into the home difficult. These services can be categorized as outpatient, visiting, or long-term rehabilitation services.
Amputation ; Brain Injuries ; Cerebral Palsy ; Critical Care ; Deglutition Disorders ; Delivery of Health Care ; Dyspnea ; Humans ; Inpatients ; Nervous System ; Outpatients ; Pressure Ulcer ; Public Health ; Rare Diseases ; Rehabilitation* ; Spinal Cord Injuries ; Stroke ; Tertiary Care Centers

OBJECTIVE: To identify possible clinical predictors of intermittent oro-esophageal (OE) tube feeding success, and evaluate the clinical factors associated with OE tube treatment. METHODS: A total of 135 dysphagic patients were reviewed, who received OE tube treatment and were hospitalized in the department of rehabilitation medicine between January 2005 and December 2014. The 76 eligible cases enrolled were divided into two groups, based on the OE tube training success. Clinical factors assessed included age, cause of brain lesion, gag reflex, cognitive function and reasons for OE tube training failure. RESULTS: Of the 76 cases enrolled, 56 study patients were assigned to the success group, with the remaining 20 in the failure group. There were significant differences between these two groups in terms of age, gag reflex, ability to follow commands, and the score of Korean version of Mini-Mental Status Examination (K-MMSE). Location of the brain lesion showed a borderline significance. Multivariable analysis using logistic regression revealed that age, cause of brain lesion, gag reflex, and K-MMSE were the main predictors of OE tube training success. CONCLUSION: A younger age, impaired gag reflex and higher cognitive function (specifically a K-MMSE score ≥19.5) are associated with an increased probability of OE tube training success in dysphagic patients.
Brain Injuries* ; Brain* ; Cognition ; Deglutition Disorders* ; Enteral Nutrition* ; Humans ; Logistic Models ; Multivariate Analysis ; Reflex ; Rehabilitation