Journal of Rehabilitation Research and Development最新文献

Some individuals with mild cognitive impairment (MCI) experience not only cognitive deficits but also a decline in motor function, including postural balance. This pilot study sought to estimate the feasibility, user experience, and effects of a novel sensor-based balance training program. Patients with amnestic MCI (mean age 78.2 yr) were randomized to an intervention group (IG, n = 12) or control group (CG, n = 10). The IG underwent balance training (4 wk, twice a week) that included weight shifting and virtual obstacle crossing. Real-time visual/audio lower-limb motion feedback was provided from wearable sensors. The CG received no training. User experience was measured by a questionnaire. Postintervention effects on balance (center of mass sway during standing with eyes open [EO] and eyes closed), gait (speed, variability), cognition, and fear of falling were measured. Eleven participants (92%) completed the training and expressed fun, safety, and helpfulness of sensor feedback. Sway (EO, p = 0.04) and fear of falling (p = 0.02) were reduced in the IG compared to the CG. Changes in other measures were nonsignificant. Results suggest that the sensor-based training paradigm is well accepted in the target population and beneficial for improving postural control. Future studies should evaluate the added value of the sensor-based training compared to traditional training.

We present the case of a 24 yr old male who was diagnosed with gluteal compartment syndrome and was subsequently found to have developed lumbosacral radiculoplexopathy and complex regional pain syndrome. The patient's gluteal compartment syndrome was diagnosed within 24 h of presentation to the emergency room, and he underwent emergent compartment release. While recovering postoperatively, persistent weakness was noted in the right lower limb. Results of electrodiagnostic testing were consistent with a lumbosacral radiculoplexopathy. After admission to inpatient rehabilitation, the patient complained of pain, burning sensation, and numbness in the distal right lower limb. Based on clinical findings, he was diagnosed with complex regional pain syndrome type II, or causalgia, and was referred for a lumbar sympathetic block under fluoroscopic guidance. Sympathetic block resulted in relief of the patient's symptoms. He was discharged home with good pain control on oral medications.

The Department of Veterans Affairs traumatic brain injury (TBI) screening program is intended to detect and expedite treatment for TBI and postconcussive symptoms. Between April 14, 2007, and May 31, 2012, of 66,089 Iraq and Afghanistan Veterans who screened positive on first-level TBI screening and later completed comprehensive TBI evaluation that includes the Neurobehavioral Symptoms Inventory, 72% reported moderate to very severe cognitive impairment (problems with attention, concentration, memory, etc.) that interfered with daily activities. This included 42% who were found not to have sustained combat-related mild TBI (mTBI). In contrast, 70.0% received a posttraumatic stress disorder (PTSD) diagnosis and 45.8% received a depression diagnosis. Compared with Veterans without mTBI, PTSD, or depression diagnoses, the lowest risk for self-reported cognitive impairment was in Veterans with confirmed mTBI only; a greater risk was found in those with PTSD diagnoses, with the greatest risk in Veterans with PTSD, depression, and confirmed mTBI, suggesting only a weakly additive effect of mTBI. These findings suggest that Veterans with multiple mental health comorbidities, not just those with TBI, report moderate to very severe cognitive impairment. Mental health treatment for conditions such as PTSD and depression (with or without TBI) may result in improvements in cognitive functioning and/or include assessment and support for Veterans experiencing cognitive problems.

Anxiety disorders are common and debilitating in older individuals, yet anxiety is often not formally assessed in primary care. We conducted a quality improvement project to examine the feasibility of implementing a brief anxiety assessment, the Geriatric Anxiety Inventory (GAI), in a Department of Veterans Affairs geriatric primary care clinic. We compared the GAI with a depression assessment, the 15-item Geriatric Depression Scale (GDS-15). Fifty older Veterans (mean = 78.5 +/- 7.4 yr) completed the GAI and GDS-15. Mean completion time and feedback to patients was brief (6.20 min; n = 10). Good internal consistency (alpha = 0.82) was found for GAI scores. Patients with psychiatric diagnoses obtained significantly higher GAI scores (mean = 4.73 +/- 1.15) compared with patients without psychiatric diagnoses (mean = 1.15 +/- 1.86, t(11.46) = -3.10, p = 0.01). Findings suggest that the GAI is acceptable to patients but may not be suitable for differentiating anxiety symptoms or disorders from depression. Interdisciplinary team members continued to implement the GAI after project completion to screen for and track anxiety symptoms in our geriatric primary care patients. Detecting anxiety with the GAI had the benefit of allowing providers to initiate conversations about available treatments and track symptoms as part of noting treatment progress.

Currently, it is unknown whether changing prosthetic limb stiffness affects the total limb stiffness and influences the shock absorption of an individual with transtibial amputation. The hypotheses tested within this study are that a decrease in longitudinal prosthetic stiffness will produce (1) a reduced total limb stiffness, and (2) reduced magnitude of peak impact forces and increased time delay to peak force. Fourteen subjects with a transtibial amputation participated in this study. Prosthetic stiffness was modified by means of a shock-absorbing pylon that provides reduced longitudinal stiffness through compression of a helical spring within the pylon. A sudden loading evaluation device was built to examine changes in limb loading mechanics during a sudden impact event. No significant change was found in the peak force magnitude or timing of the peak force between prosthetic limb stiffness conditions. Total limb stiffness estimates ranged from 14.9 to 17.9 kN/m but were not significantly different between conditions. Thus, the prosthetic-side total limb stiffness was unaffected by changes in prosthetic limb stiffness. The insensitivity of the total limb stiffness to prosthetic stiffness may be explained by the mechanical characteristics (i.e., stiffness and damping) of the anatomical tissue within the residual limb.

The Validity-10 scale was recently developed to screen for symptom exaggeration in patients following traumatic brain injury (TBI). However, it has only been validated on patients with TBI largely in the chronic phase of recovery. The influence of time since injury on the Validity-10 scale was investigated in 2,661 male servicemembers with TBI presenting to six U.S. Defense and Veterans Brain Injury Centers. Participants completed the Neurobehavioral Symptom Inventory (NSI). The Validity-10 scale and NSI total score were both weakly statistically significantly (1) positively correlated with time since injury, (2) negatively correlated with bodily injury severity, and (3) higher in participants undergoing medical board evaluations than in participants who returned to duty or were still hospitalized. Participants were statistically more likely to screen positive for possible symptom exaggeration on the Validity-10 scale as time since injury increased. However, the Validity-10 scale was only weakly related to time since injury, TBI severity, bodily injury severity, disposition, age, and return to duty status. That false positives are not increased in the acute phase of recovery and that the Validity-10 scale is not strongly related to clinical factors support the use of the Validity-10 scale in the acute recovery phase and across the TBI recovery trajectory.