早产儿大脑在被动运动激活期间的床边功能成像。

Bedside functional imaging of the premature infant brain during passive motor activation.

作者信息

Hintz S R, Benaron D A, Siegel A M, Zourabian A, Stevenson D K, Boas D A

机构信息

Biomedical Optics Group, Division of Neonatal and Developmental Medicine, Stanford University School of Medicine, Hansen Physics Laboratory, Palo Alto, California, USA.

出版信息

J Perinat Med. 2001;29(4):335-43. doi: 10.1515/JPM.2001.048.

DOI:10.1515/JPM.2001.048

PMID:11565203

Abstract

BACKGROUND

Changes in regional brain blood flow and hemoglobin oxygen saturation occur in the human cortex in response to neural activation. Traditional functional radiologic methods cannot provide continuous, portable measurements. Imaging methods, which use near-infrared light allow for non-invasive measurements by taking advantage of the fact that hemoglobin is a strong absorber at these wavelengths.

AIMS

To test the feasibility of a new optical functional imaging system in premature infants, and to obtain preliminary brain imaging of passive motor activation in this population.

METHODS

A new optical imaging system, the Diffuse Optical Tomography System (DOTS), was used to provide real-time, bedside assessments. Custom-made soft flexible fiberoptic probes were placed on two extremely ill, mechanically ventilated 24 week premature infants, and three healthier 32 week premature infants. Passive motor stimulation protocols were used during imaging.

RESULTS

Specific movement of the arm resulted in reproducible focal, contralateral changes in cerebral absorption. The data suggest an overall increase in blood volume to the imaged area, as well as an increase in deoxyhemoglobin concentration. These findings in premature infants differ from those expected in adults.

CONCLUSIONS

In the intensive care setting, continuous non-invasive optical functional imaging could be critically important and, with further study, may provide a bedside monitoring tool for prospectively identifying patients at high risk for brain injury.

摘要

背景

人类大脑皮层在神经激活时会发生区域脑血流量和血红蛋白氧饱和度的变化。传统的功能放射学方法无法提供连续、便携的测量。利用血红蛋白在这些波长下是强吸收剂这一事实，使用近红外光的成像方法能够进行非侵入性测量。

目的

测试一种新型光学功能成像系统在早产儿中的可行性，并获取该人群被动运动激活的初步脑成像。

方法

使用一种新型光学成像系统——漫射光学断层扫描系统（DOTS）进行实时床边评估。将定制的柔软柔性光纤探头放置在两名病情极其严重、接受机械通气的24周早产儿以及三名健康状况较好的32周早产儿身上。成像过程中采用被动运动刺激方案。

结果

手臂的特定运动导致大脑吸收出现可重复的局灶性、对侧变化。数据表明成像区域的血容量总体增加，同时脱氧血红蛋白浓度升高。早产儿的这些发现与成人预期的不同。

结论

在重症监护环境中，连续非侵入性光学功能成像可能至关重要，并且经过进一步研究，可能会提供一种床边监测工具，用于前瞻性地识别脑损伤高危患者。

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早产儿大脑在被动运动激活期间的床边功能成像。

Bedside functional imaging of the premature infant brain during passive motor activation.

作者信息

机构信息

出版信息

BACKGROUND

AIMS

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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