一种用于连续监测新生儿脑血流和氧合的可穿戴无纤维光学传感器。
A Wearable Fiber-Free Optical Sensor for Continuous Monitoring of Neonatal Cerebral Blood Flow and Oxygenation.
作者信息
Liu Xuhui, Mohtasebi Mehrana, Safavi Pegah, Fathi Faraneh, Haratbar Samaneh Rabienia, Chen Li, Chen Jin, Bada Henrietta S, Chen Lei, Abu Jawdeh Elie G, Yu Guoqiang
出版信息
medRxiv. 2023 Sep 22:2023.09.21.23295914. doi: 10.1101/2023.09.21.23295914.
IMPACT
The innovative DSCFO technology may serve as a low-cost wearable sensor for continuous bedside monitoring of multiple cerebral hemodynamic parameters in neonatal intensive care units.Concurrent DSCFO and DCS measurements of CBF variations in neonatal piglet models generated consistent results.No consistent correlation patterns were observed among peripheral and cerebral monitoring parameters in preterm neonates, suggesting the importance of multi-parameter measurements for understanding deep insights of peripheral and cerebral regulations during IH events.Integrating and correlating multiple cerebral functional parameters with clinical outcomes may identify biomarkers for prediction and management of IH associated brain injury.
BACKGROUND
Unstable cerebral hemodynamics places preterm infants at high risk of brain injury. We adapted an innovative, fiber-free, wearable diffuse speckle contrast flow-oximetry (DSCFO) device for continuous monitoring of both cerebral blood flow (CBF) and oxygenation in neonatal piglets and preterm infants.
METHODS
DSCFO uses two small laser diodes as focused-point and a tiny CMOS camera as a high-density two-dimensional detector to detect spontaneous spatial fluctuation of diffuse laser speckles for CBF measurement, and light intensity attenuations for cerebral oxygenation measurement. The DSCFO was first validated against the established diffuse correlation spectroscopy (DCS) in neonatal piglets and then utilized for continuous CBF and oxygenation monitoring in preterm infants during intermittent hypoxemia (IH) events.
RESULTS
Consistent results between the DSCFO and DCS measurements of CBF variations in neonatal piglets were observed. IH events induced fluctuations in CBF, cerebral oxygenation, and peripheral cardiorespiratory vitals in preterm infants. However, no consistent correlation patterns were observed among peripheral and cerebral monitoring parameters.
CONCLUSIONS
This pilot study demonstrated the feasibility of DSCFO technology to serve as a low-cost wearable sensor for continuous monitoring of multiple cerebral hemodynamic parameters. The results suggested the importance of multi-parameter measurements for understanding deep insights of peripheral and cerebral regulations.
影响
创新的双源散斑对比血流血氧测定法(DSCFO)技术可作为一种低成本的可穿戴传感器,用于新生儿重症监护病房对多种脑血流动力学参数进行床边连续监测。在新生仔猪模型中,DSCFO与扩散相关光谱法(DCS)同时测量脑血流量(CBF)变化产生了一致的结果。在早产儿中,外周和脑监测参数之间未观察到一致的相关模式,这表明多参数测量对于理解间歇性低氧(IH)事件期间外周和脑调节的深入见解具有重要意义。将多个脑功能参数与临床结果进行整合和关联,可能会识别出用于预测和管理IH相关脑损伤的生物标志物。
背景
不稳定的脑血流动力学使早产儿面临脑损伤的高风险。我们采用了一种创新的、无纤维的、可穿戴的散斑对比血流血氧测定仪(DSCFO)设备,用于连续监测新生仔猪和早产儿的脑血流量(CBF)和氧合情况。
方法
DSCFO使用两个小型激光二极管作为聚焦点,一个微型互补金属氧化物半导体(CMOS)相机作为高密度二维探测器,以检测漫反射激光散斑的自发空间波动来测量CBF,并通过光强衰减来测量脑氧合。DSCFO首先在新生仔猪中与已确立的扩散相关光谱法(DCS)进行验证,然后用于在早产儿间歇性低氧(IH)事件期间连续监测CBF和氧合情况。
结果
观察到DSCFO与DCS在新生仔猪中测量CBF变化的结果一致。IH事件导致早产儿的CBF、脑氧合和外周心肺生命体征出现波动。然而,在外周和脑监测参数之间未观察到一致的相关模式。
结论
这项初步研究证明了DSCFO技术作为一种低成本可穿戴传感器用于连续监测多种脑血流动力学参数的可行性。结果表明多参数测量对于理解外周和脑调节的深入见解具有重要意义。
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