心血管系统血液动力学和氧传输的闭环实时仿真模型。

Closed-loop real-time simulation model of hemodynamics and oxygen transport in the cardiovascular system.

机构信息

ECMO Department, Karolinska University Hospital, Stockholm, SE-171 76, Sweden.

出版信息

Biomed Eng Online. 2013 Jul 10;12:69. doi: 10.1186/1475-925X-12-69.

DOI:10.1186/1475-925X-12-69

PMID:23842033

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3751725/

Abstract

BACKGROUND

Computer technology enables realistic simulation of cardiovascular physiology. The increasing number of clinical surgical and medical treatment options imposes a need for better understanding of patient-specific pathology and outcome prediction.

METHODS

A distributed lumped parameter real-time closed-loop model with 26 vascular segments, cardiac modelling with time-varying elastance functions and gradually opening and closing valves, the pericardium, intrathoracic pressure, the atrial and ventricular septum, various pathological states and including oxygen transport has been developed.

RESULTS

Model output is pressure, volume, flow and oxygen saturation from every cardiac and vascular compartment. The model produces relevant clinical output and validation of quantitative data in normal physiology and qualitative directions in simulation of pathological states show good agreement with published data.

CONCLUSION

The results show that it is possible to build a clinically relevant real-time computer simulation model of the normal adult cardiovascular system. It is suggested that understanding qualitative interaction between physiological parameters in health and disease may be improved by using the model, although further model development and validation is needed for quantitative patient-specific outcome prediction.

摘要

背景

计算机技术能够实现心血管生理学的逼真模拟。越来越多的临床手术和治疗选择需要更好地理解患者的特定病理和预测结果。

方法

我们开发了一种具有 26 个血管段的分布式集中参数实时闭环模型，该模型具有时变弹性功能和逐渐开启和关闭的瓣膜、心包、胸腔内压力、心房和心室间隔、各种病理状态以及包括氧气输送。

结果

模型输出为每个心腔和血管腔的压力、容量、流量和氧饱和度。该模型产生了相关的临床输出，并且在正常生理和模拟病理状态的定性方向上对定量数据的验证都与已发表的数据吻合良好。

结论

结果表明，构建一个具有临床相关性的正常成人心血管系统实时计算机模拟模型是可能的。虽然需要进一步的模型开发和验证才能对特定患者的定量结果进行预测，但该模型可以用于改善对健康和疾病状态下生理参数之间定性相互作用的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e25/3751725/4bf06ea7852f/1475-925X-12-69-1.jpg

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心血管系统血液动力学和氧传输的闭环实时仿真模型。

Closed-loop real-time simulation model of hemodynamics and oxygen transport in the cardiovascular system.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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