1. Electrical Office, Guangzhou Panyu Quality Technology Supervision and Testing Institute, Guangzhou Guangdong 511400, China丨
2. Department of Equipment, Guangzhou Panyu Central Hospital, Guangzhou Guangdong 511400, China
Abstract:Objective In view of the lack of measurement standards and industry standards for the invasive blood pressure monitoring
function of multi-parameter monitor, it is necessary to develop the corresponding quality control testing methods for the medical
institutions to ensure the accuracy, stability and safety of the invasive blood pressure monitoring. Methods According to the output
principle of the invasive blood pressure of the multi-parameter monitor, combined with the safety and basic performance requirements
of the invasive blood pressure detection equipment, the quality control detection connection method of using fluke prosim 8 multi
parameter vital signs simulator and the invasive blood pressure of the multi parameter monitor was explored, and the “zero calibration
detection, artery detection, central venous pressure detection, alarm function detection” of the invasive blood pressure was formulated
quality control test content. Results The work sheet of invasive blood pressure quality control for multi-parameter monitor was
developed, at the same time, the possible problems in the quality control test were analyzed, and the solutions were worked out.
Conclusion As an important monitoring parameter for vital signs of critically ill patients, the invasive blood pressure of multiparameter
monitor must be accurate. The quality control detection method of the invasive blood pressure of multi parameter monitor
developed by us has practical operability, can effectively detect the accuracy of the invasive blood pressure monitoring function, so as
to ensure medical safety.
劳婉仪1,麦达成2,肖翔2,黄劲1,陈远鹏1. 多参数监护仪有创血压质控检测研究[J]. 中国医疗设备, 2021, 36(9): 54-57.
LAO Wanyi1,MAI Dacheng2,XIAO Xiang2,HUANG Jin1,CHEN Yuanpeng1. Study on Quality Control of Invasive Blood Pressure with Multi Parameter Monitor. China Medical Devices, 2021, 36(9): 54-57.