方法清醒大鼠尾动脉无创血压测定法。
Methods: Blood pressures were measured indirectly by tail arteries in awake rats.
采用全自动无创血压测量系统进行尾动脉收缩压测定;
Tail artery systolic pressure was measured by fully automatic noninvasive blood pressure measurement system;
同时对无创血压和血氧饱和度的检测方法提出了探讨思路和意见。
Also puts forward idea and opinion about detecting methods on none-invasive blood pressure and oxygen saturation in blood.
以平卧位右上肢肱动脉无创血压为标准,术前和术后2周、3个月进行观察。
The non invasive blood pressure of right upper limb was measured before and 2 weeks, 3 months after the operation.
通过观察动脉搏动波形及血压数值,对病人血压实行动态监护,并与同体无创血压对比。
Continuously invasive blood pressure values was recorded by both artery pulse wave form and blood pressure value and simultaneously compared with non-invasive blood pressure values.
传统的波动法血压无创测量技术由于利用了统计学原理,因此必然造成测量时的个体误差。
The traditional blood pressure measurement by oscillometric method is based on statistics theory, so there is always private systematic error in measurement.
临床和动物试验表明该仪器能精确测得新生儿、家兔和狗的血压,测量简便易行、无创。
Clinical and animal experiments have shown that this instrument can accurately measure blood pressure of neonates, rabbits and dogs, and the use is simple and noninvasive.
方法采用高分辨力超声无创性检测血管内皮依赖性舒张功能的方法比较收缩期和舒张期高血压(SDH)与正常血压组血流介导性舒张(FMD)与反应性充血的血管内皮依赖性舒张功能。
Methods A non-invasive high-resolution ultrasound was used to detect the flow-mediated dilatation (FMD) and the change of blood flow volume of reactive hyperaemia in SDH and the control.
目的PTT是一项反映周围血管阻力和胸腔内压变化的无创指标,因此和微觉醒相关的血压改变可通过PTT检测。
Objective Pulse transit time (PTT) is a non-invasive index which reflects changes in peripheral vascular resistance and intra-thoracic pressure.
目的无创测定PCO2变化对人体平均动脉血压的影响。
Objective Noninvasive estimating the correlation of the mean blood pressure (MAP) and varying partial pressure of carbon dioxide (PCO2)in human.
二维超声检测动脉扩张性的改变能敏感反映高血压患者动脉缓冲功能和内皮功能的损害,为临床提供了一个重要的无创指标,具有广阔的应用价值。
The change of artery distensibility was early and sensitive index to reflect artery buffering function and endothelial function which would have important value in clinic.
目的设计基于脉搏波速法的无创连续血压测量系统。
The initial research of a non-invasive blood pressure measure continuously;
目的设计基于脉搏波速法的无创连续血压测量系统。
The initial research of a non-invasive blood pressure measure continuously;
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