Neuropsychological assessments in a hyperbaric trial of post-concussive symptoms.
Results of studies addressing the effect of mild traumatic brain injury (mTBI) and post-traumatic stress disorder (PTSD) on symptoms and neuropsychological assessments are mixed regarding cognitive deficits in these populations. Neuropsychological assessments were compared between U.S. military service members with mTBI only (n=36) vs. those with mTBI÷ PTSD (n=35) from a randomized interventional study of mTBI participants with persistent post-concussive symptoms (PCS). The mTBI group endorsed worse symptoms than published norms on PCS, PTSD and pain scales (⟩50% abnormal on Neurobehavioral Symptom Inventory (NSI), PTSD Checklist-Civilian, McGill Pain Questionnaire-Short Form) and some quality of life domains. Worse symptom reporting was found in the mTBI÷ PTSD group compared to mTBI (e.g., mean NSI total score in mTBI 27.5 (SD=12.7), mTBI÷ PTSD 39.9 (SD=13.6), p⟨0.001). The mTBI÷PTSD group performed worse than mTBI on the Weschler Adult Intelligence Scale digit span (mean difference -1.5, 95% CI[-2.9,-0.1], p=0.04) and symbol search (mean difference -1.5, 95% CI[-2.7,-0.2], p=0.03) and Grooved Pegboard (dominant hand mean difference -7.0, 95% CI[-11.5,-2.4], p=0.003; non-dominant mean difference -9.8, 95% CI[-14.9,-4.7], p⟨0.001). Differences were detected in ANAM simple reaction time (p=0.04) and mathematical processing (p=0.03) but not verbal fluency or visuospatial memory assessments. Results indicate increased symptom severity and some cognitive deficits in mTBI÷ PTSD compared to mTBI alone.
Baseline neurological evaluations in a hyperbaric trial of post-concussive syndrome.
Abstract: Standard neurologic examinations may not detect abnormalities in U.S. military service members with persistent post-concussive symptoms following mild traumatic brain injury. The Brain Injury and Mechanisms of Action of Hyperbaric Oxygen for Persistent...Relationship between clinical and radiologic findings of spinal cord injury in decompression sickness.
Decompression sickness may involve the central nervous system. The most common site is spinal cord. This study was conducted to determine the relationship between magnetic resonance(MR) imaging findings of spinal damage. We conducted a retrospective review of 12 patients (male=10, female=2) who presented with spinal cord symptoms. We investigated their clinical features, neurological findings and radiologic findings. The depth and bottom time of the dive were 34.5 meters (range 22-56) and 22.7 minutes (range 10-55) respectively. Most divers ascended within appropriate time frame as shown by the decompression tables. The most frequent initial symptoms were lower limb weakness (n=12), followed by sensory disturbances (n=10) and bladder dysfuction (n=5). The chief radiologic abnormalities were continuous (n=3), or non-continuous (n=5) high-signal intensity on T2-weighted images at posterior paramedian portion of the spinal cord, mainly thoracic level. There were no abnormal findings in the remaining four (4) patients, and they showed good prognosis. All patients were treated with hyperbaric oxygen therapy and some received high-dose dexamethasone. On discharge, five (5) patients had made a full recovery, seven (7) had some residual neurological sequelae, and all patients except one (1) regained normal bladder function. Spinal cord decompression sickness is a neurological emergency. Early recognition and treatment may minimize neurological damage. Initial normal finding in MR imaging was a good predictor for prognosis in spinal decompression sickness.