颅内压高原波期间脑动脉血容量与颅内压脉搏波形相似性的定量分析

IF 1.9 Q3 CLINICAL NEUROLOGY

Brain & spine Pub Date : 2024-01-01 DOI:10.1016/j.bas.2024.102832

Arkadiusz Ziółkowski , Magdalena Kasprowicz , Agnieszka Kazimierska , Marek Czosnyka

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引用次数: 0

摘要

导言颅内压（ICP）和脑动脉血容量（CaBV）都具有与心动周期相关的搏动特性。在 ICP 增加或颅内顺应性降低的情况下，ICP 脉冲形状的演变已被充分记录。材料和方法分析了 15 名脑外伤患者记录的共 15 个高原波。根据经颅多普勒脑血流速度（CBFV）信号，使用全局脑血流模型计算 CaBV 脉搏波形。差值指数（DI）用于量化 ICP 和 CaBV 波形之间的相似性。DI 计算为 ICP 和 CaBV 波形之间逐个样本绝对差异的总和，代表脉冲之间的区域。4 mm Hg] vs. 42.7 mm Hg [Q1-Q3: 36.5-45.1 mm Hg], p < 0.001），而 CBFV 在高原波期间下降（44.2 cm/s [Q1-Q3: 34.8-69.5 cm/s] vs. 32.9 cm/s [Q1-Q3: 24.7-68.2 cm/s]，p = 0.002）。在高原波期间，DI（20.4 [Q1-Q3：15.74-23.0]）小于基线（26.3 [Q1-Q3：24.2-34.7]，p <0.001）。讨论和结论在高原波期间，相应的 ICP 和 CaBV 脉冲波形之间的面积减小，这表明它们的形状变得相似。在高原波期间，CaBV 在决定 ICP 脉冲波形方面可能起着重要作用，并可能是形成 ICP 升高的驱动力。

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Quantitative analysis of similarity between cerebral arterial blood volume and intracranial pressure pulse waveforms during intracranial pressure plateau waves

Introduction

Both intracranial pressure (ICP) and cerebral arterial blood volume (C_aBV) have a pulsatile character related to the cardiac cycle. The evolution of the shape of ICP pulses under increasing ICP or decreasing intracranial compliance is well documented. Nevertheless, the exact origin of the alterations in the ICP morphology remains unclear.

Research question

Does ICP pulse waveform become similar to non-invasively estimated C_aBV pulse during ICP plateau waves.

Material and methods

A total of 15 plateau waves recorded in 15 traumatic brain injured patients were analyzed. C_aBV pulse waveforms were calculated using global cerebral blood flow model from transcranial Doppler cerebral blood flow velocity (CBFV) signals. The difference index (DI) was used to quantify the similarity between ICP and C_aBV waveforms. DI was calculated as the sum of absolute sample-by-sample differences between ICP and C_aBV waveforms, representing the area between the pulses.

Results

ICP increased (19.4 mm Hg [Q1–Q3: 18.2–23.4 mm Hg] vs. 42.7 mm Hg [Q1–Q3: 36.5–45.1 mm Hg], p < 0.001) while CBFV decreased (44.2 cm/s [Q1–Q3: 34.8–69.5 cm/s] vs. 32.9 cm/s [Q1–Q3: 24.7–68.2 cm/s], p = 0.002) during plateau waves. DI was smaller during the plateau waves (20.4 [Q1–Q3: 15.74–23.0]) compared to the baselines (26.3 [Q1–Q3: 24.2–34.7], p < 0.001).

Discussion and conclusion

The area between corresponding ICP and C_aBV pulse waveforms decreased during the plateau waves which suggests they became similar in shape. C_aBV may play a significant role in determining the shape of ICP pulses during the plateau waves and might be a driving force in formulating ICP elevation.

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来源期刊

Brain & spine Surgery

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

71 days