From the Emergency Services 061 (112).
Arrixaca Hospital.
Pediatr Emerg Care. 2022 Feb 1;38(2):e731-e733. doi: 10.1097/PEC.0000000000002321.
To determine the motions produced during pediatric extrication when using a system of motion estriction and extrication.
Simulation-based biomechanical analysis study conducted with inertial sensors to measure motion produced in the cervical spine of a pediatric simulator during extrication from a vehicle.
The mean of the movements was 3.5° (SD ±1.35°). The mean time was 4 minutes 1 second (SD, ±45.09 seconds). The mean rotation toward the right was 3.34° (SD ±3.52°) and toward the left 2.62° (SD ±2.26°). The mean for lateralization was 6.24° (SD ±3.20°) toward the right and 2.50° (DE ±2.76°) toward the left. The mean for flexion was 2.36° (SD ±2.10°) and for extension 4.21° (SD ±2.15°).
The device analyzed allows for the extrication of the pediatric patient with high levels of motion restriction of the spinal column with the Pediatric Immobilization and Extrication System.
确定使用运动限制和救援系统时在儿科救援中产生的运动。
使用惯性传感器进行基于模拟的生物力学分析研究,以测量儿科模拟器在从车辆中救援时颈椎产生的运动。
运动的平均值为 3.5°(标准差±1.35°)。平均时间为 4 分 1 秒(标准差,±45.09 秒)。向右侧的平均旋转为 3.34°(标准差±3.52°),向左侧为 2.62°(标准差±2.26°)。向右侧的平均侧移为 6.24°(标准差±3.20°),向左侧为 2.50°(标准差±2.76°)。前屈的平均值为 2.36°(标准差±2.10°),伸展的平均值为 4.21°(标准差±2.15°)。
分析的设备允许使用儿科固定和救援系统对脊柱进行高度的运动限制,从而对儿科患者进行救援。
