一种用于测量急性脑损伤后颅内压的无创脑脉冲监测仪的评估

Assessment of a Non-Invasive Brain Pulse Monitor to Measure Intra-Cranial Pressure Following Acute Brain Injury.

作者信息

Dixon Barry, Sharkey Jessica M, Teo Elliot J, Grace Sally A, Savage Jacqui S, Udy Andrew, Smith Paul, Hellerstedt Jack, Santamaria John D

机构信息

Cyban Pty Ltd, Melbourne, VIC, Australia.

Department of Critical Care Medicine, St Vincent's Hospital, Melbourne, Australia.

出版信息

Med Devices (Auckl). 2023 Jan 24;16:15-26. doi: 10.2147/MDER.S398193. eCollection 2023.

DOI:10.2147/MDER.S398193

PMID:36718229

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9883992/

Abstract

BACKGROUND

Intracranial pressure (ICP) monitoring requires placing a hole in the skull through which an invasive pressure monitor is inserted into the brain. This approach has risks for the patient and is expensive. We have developed a non-invasive brain pulse monitor that uses red light to detect a photoplethysmographic (PPG) signal arising from the blood vessels on the brain's cortical surface. The brain PPG and the invasive ICP waveform share morphological features which may allow measurement of the intracranial pressure.

METHODS

We enrolled critically ill patients with an acute brain injury with invasive ICP monitoring to assess the new monitor. A total of 24 simultaneous invasive ICP and brain pulse monitor PPG measurements were undertaken in 12 patients over a range of ICP levels.

RESULTS

The waveform morphologies were similar for the invasive ICP and brain pulse monitor PPG approach. Both methods demonstrated a progressive increase in the amplitude of P2 relative to P1 with increasing ICP levels. An automated algorithm was developed to assess the PPG morphological features in relation to the ICP level. A correlation was demonstrated between the brain pulse waveform morphology and ICP levels, R=0.66, P < 0.001.

CONCLUSION

The brain pulse monitor's PPG waveform demonstrated morphological features were similar to the invasive ICP waveform over a range of ICP levels, these features may provide a method to measure ICP levels.

TRIAL REGISTRATION

ACTRN12620000828921.

摘要

背景

颅内压（ICP）监测需要在颅骨上钻孔，通过该孔将侵入性压力监测器插入大脑。这种方法对患者有风险且费用高昂。我们开发了一种非侵入性脑脉冲监测器，它使用红光检测源自大脑皮质表面血管的光电容积脉搏波描记（PPG）信号。脑PPG和侵入性ICP波形具有共同的形态特征，这可能有助于测量颅内压。

方法

我们纳入了接受侵入性ICP监测的急性脑损伤重症患者，以评估这种新型监测器。在12名患者中，在一系列ICP水平上共进行了24次同时的侵入性ICP和脑脉冲监测器PPG测量。

结果

侵入性ICP和脑脉冲监测器PPG方法的波形形态相似。两种方法均显示，随着ICP水平的升高，P2相对于P1的幅度逐渐增加。开发了一种自动算法来评估与ICP水平相关的PPG形态特征。脑脉冲波形形态与ICP水平之间存在相关性，R = 0.66，P < 0.001。

结论

脑脉冲监测器的PPG波形在一系列ICP水平上显示出与侵入性ICP波形相似的形态特征，这些特征可能提供一种测量ICP水平的方法。

试验注册

ACTRN12620000828921。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8e15/9883992/d58f0d873cb0/MDER-16-15-g0001.jpg

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一种用于测量急性脑损伤后颅内压的无创脑脉冲监测仪的评估

Assessment of a Non-Invasive Brain Pulse Monitor to Measure Intra-Cranial Pressure Following Acute Brain Injury.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

TRIAL REGISTRATION

背景

方法

结果

结论

试验注册

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