出血模拟中数字动脉脉搏的脉冲分解分析。

Martin C Baruch, Darren Er Warburton, Shannon Sd Bredin, Anita Cote, David W Gerdt, Charles M Adkins
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引用次数: 116

摘要

背景:无创检测出血和失血性休克的发生需要中枢血容量颞部变化的标志物。最近的研究表明,脉压可能就是这样一个标志。提出了一种新的跟踪血压,特别是脉搏压的方法,该方法基于一种新的脉冲压力波分析形式,称为脉冲分解分析(PDA)。PDA模型的前提是外周动脉压力脉冲是五个单独分量压力脉冲的叠加,其中第一个分量压力脉冲是由心脏左心室射血引起的,而其余分量压力脉冲是仅来自中央动脉内两个反射部位的反射和再反射。这里检验的假设是PDA参数T13,即第一和第三分量脉冲之间的时序延迟,与脉冲压力相关。在15名受试者(平均年龄:24.4岁,SD: 3.0岁;平均身高:168.6 cm,标准差:8.0 cm;平均体重:64.0 kg,标准差:9.1 kg)。结果:T13与脉压及T13对不同LBNP分期影响的化解能力均有统计学意义。实验T13值与PDA模型的预测值进行了比较。这些干预措施导致脉搏压力变化高达7.8 mmHg (SE = 3.49 mmHg),由自动袖带测定。T13相应的变化是缩短-72毫秒(SE = 4.17毫秒)。与其他两种方法相比,T13能够解决两个最小负压阶段的影响,显著性设置为p < 0.01。结论:观察和测量结果的一致性为动脉压脉冲反射起源的PDA模型提供了初步验证。所提出的PDA模型的物理图像是有吸引力的,因为它确定了不同的反映动脉树成分对外周压力脉冲包络的贡献。由于动脉压反射对心血管健康的重要性是众所周知的,PDA脉搏分析除了跟踪血压之外,还可以提供对这些反射以及产生这些反射的部位的健康状况的评估工具。
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Pulse Decomposition Analysis of the digital arterial pulse during hemorrhage simulation.

Background: Markers of temporal changes in central blood volume are required to non-invasively detect hemorrhage and the onset of hemorrhagic shock. Recent work suggests that pulse pressure may be such a marker. A new approach to tracking blood pressure, and pulse pressure specifically is presented that is based on a new form of pulse pressure wave analysis called Pulse Decomposition Analysis (PDA). The premise of the PDA model is that the peripheral arterial pressure pulse is a superposition of five individual component pressure pulses, the first of which is due to the left ventricular ejection from the heart while the remaining component pressure pulses are reflections and re-reflections that originate from only two reflection sites within the central arteries. The hypothesis examined here is that the PDA parameter T13, the timing delay between the first and third component pulses, correlates with pulse pressure.T13 was monitored along with blood pressure, as determined by an automatic cuff and another continuous blood pressure monitor, during the course of lower body negative pressure (LBNP) sessions involving four stages, -15 mmHg, -30 mmHg, -45 mmHg, and -60 mmHg, in fifteen subjects (average age: 24.4 years, SD: 3.0 years; average height: 168.6 cm, SD: 8.0 cm; average weight: 64.0 kg, SD: 9.1 kg).

Results: Statistically significant correlations between T13 and pulse pressure as well as the ability of T13 to resolve the effects of different LBNP stages were established. Experimental T13 values were compared with predictions of the PDA model. These interventions resulted in pulse pressure changes of up to 7.8 mmHg (SE = 3.49 mmHg) as determined by the automatic cuff. Corresponding changes in T13 were a shortening by -72 milliseconds (SE = 4.17 milliseconds). In contrast to the other two methodologies, T13 was able to resolve the effects of the two least negative pressure stages with significance set at p < 0.01.

Conclusions: The agreement of observations and measurements provides a preliminary validation of the PDA model regarding the origin of the arterial pressure pulse reflections. The proposed physical picture of the PDA model is attractive because it identifies the contributions of distinct reflecting arterial tree components to the peripheral pressure pulse envelope. Since the importance of arterial pressure reflections to cardiovascular health is well known, the PDA pulse analysis could provide, beyond the tracking of blood pressure, an assessment tool of those reflections as well as the health of the sites that give rise to them.

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