Meralgia paresthetica is a lateral femoral cutaneous neuropathy that results in symptoms of anterolateral thigh paresthesia and numbness. Its presentation due to compression of a thoraco-lumbo-sacral-orthosis (TLSO) has not been reported. We experienced a case of a 67-year-old woman who developed left lateral femoral cutaneous neuropathy as a complication of inaccurate wearing of a TLSO. The patient suffered from tingling sensation and pain in the anterolateral aspect of the left thigh without muscular weakness. An electrodiagnostic study revealed a conduction block in the left lateral femoral cutaneous nerve (LFCN) around the inguinal ligament. Ultrasonography revealed swelling of the left LFCN compared with the right side. The patient's symptoms improved after she ceased wearing the TLSO and received conservative care. Considering the complications can develop after wearing spinal orthosis, we suggest that orthosis be prescribed accurately and inspected meticulously by experts physician.
Aged ; Female ; Humans ; Hypesthesia ; Ligaments ; Muscle Weakness ; Orthotic Devices ; Paresthesia ; Sensation ; Thigh ; Ultrasonography

While arthroscopic shoulder surgery is considered relatively safe, complications have been reported.Though rare, pneumothorax has been reported in patients undergoing arthroscopic shoulder surgery.Tension pneumothorax must be immediately recognized and treated due to its potentially life threatening consequences.The authors present a case of a patient who developed tension pneumothorax after arthroscopic shoulder surgery, and its anesthetic managements.
Humans ; Pneumothorax ; Shoulder

BACKGROUND: It is known that sympathetic stimulation and increase in cerebral blood flow velocity can be induced by desflurane. Cerebral oxygen balance could be disturbed during desflurane induction. Aim of this study was to elucidate that cerebral oxygen imbalance induced by desflurane mask induction can be reduced by combination of remifentanil and hypocapnia. METHODS: Twenty ASA 1-2 subjects were allocated randomly into 5 groups divided by concentration of remifentanil (0.0, 0.5, 1.0, 1.5, and 2.0 ng/ml). After confirmation of attaining proposed concentration of remifentanil, propofol and vecuronium were administered and mechanical ventilation was done with 8% desflurane with facial mask. Subsequently, changes in regional cerebral oxygen saturation (DeltarSO2), arterial blood pressure, heart rate, cardiac index, estimated alveolar concentration of desflurane (PDESF), and end-tidal concentration of carbon dioxide (PETCO2) were recorded for the following 10 minutes. According to concentration of desflurane and remifentanil, DeltarSO2 and hemodynamic factors were checked. RESULTS: During desflurane induction, changes in cerebral oximetry reached up to +10% (6 [first quartile], 13 [third quartile]). Arterial blood pressure, heart rate, and cardiac index were changed within clinical ranges. The DeltarSO2 showed S-shaped increasing pattern according to increasing PDESF. Hypocapnia and concentration of remifentanil reduced the maximum DeltarSO2 (P = 0.0046, P = 0.0060). Hypocapnia also shifted the curve to left (P = 0.0001). CONCLUSIONS: During 8% desflurane induction, regional cerebral oxygen saturation (rSO2) increases maximum +25%. Hypocapnia and use of remifentanil can reduce the increase in regional cerebral oxygen saturation.
Arterial Pressure ; Blood Flow Velocity ; Carbon Dioxide ; Heart Rate ; Hemodynamics ; Hypocapnia ; Isoflurane ; Masks ; Oximetry ; Oxygen ; Piperidines ; Propofol ; Respiration, Artificial ; Vecuronium Bromide