[Objective]To evaluate the preemptive analgesic effect and safety with celecoxib in patients undergone the hip joint replacement.[Method]Fifty patients scheduled for elective hip joint replacement were randomly divided into two groups,celecoxib group and control group.Those of celecoxib group were given celecoxib 200 mg 24,12 h before incision.The operation was performed under extradural anesthesia by the same surgeons. All patients were given celecoxib 200 mg 8,24,36,48,60,72 h after the operation.Before celecoxib administration and after the operation,pain intensity was measured using visual analog scale(VAS),and analgesic requirements,side effects,hip joint ranges of motion,sleep states,hemorheology and phlebothrombosises messured with the ultrasonic wave were compared.[Result]There were no marked differences in the VAS pain scores before celecoxib administration between two groups.Compared with control group,the patients of celecoxib group had significantly lower VAS pain scores after the operation(P

To explore the feasibility of applying magnetic stimulation technology to the movement control of animal robots, the influence of coil radius, number of turns and other factors on the intensity, depth and focus of magnetic stimulation was simulated and analyzed for robot pigeons. The coil design scheme was proposed. The coil was placed on the head and one of the legs of the pigeon, and the leg electromyography (EMG) was recorded when magnetic stimulation was performed. Results showed that the EMG was significantly strengthened during magnetic stimulation. With the reduction of the output frequency of the magnetic stimulation system, the output current was increased and the EMG was enhanced accordingly. Compared with the brain magnetic stimulation, sciatic nerve stimulation produced a more significant EMG enhancement response. This indicated that the magnetic stimulation system could effectively modulate the functions of brain and peripheral nerves by driving the coil. This study provides theoretical and experimental guidance for the subsequent optimization and improvement of practical coils, and lays a preliminary theoretical and experimental foundation for the implementation of magnetic stimulation motion control of animal robots.
Animals ; Columbidae ; Robotics ; Motion ; Brain ; Magnetic Phenomena