新型脑生理监测在新生儿主动脉弓重建术中指导低流量脑灌注
Novel cerebral physiologic monitoring to guide low-flow cerebral perfusion during neonatal aortic arch reconstruction.
作者信息
Andropoulos Dean B, Stayer Stephen A, McKenzie E Dean, Fraser Charles D
机构信息
Division of Pediatric Cardiovascular Anesthesiology, Texas Children's Hospital and Baylor College of Medicine, Houston, USA.
出版信息
J Thorac Cardiovasc Surg. 2003 Mar;125(3):491-9. doi: 10.1067/mtc.2003.159.
OBJECTIVE
This study was undertaken to describe the combined measurement of cerebral blood flow velocity and cerebral oxygen saturation as a guide to bypass flow rate for regional low-flow perfusion during neonatal aortic arch reconstruction.
METHODS
Data were prospectively collected from 34 patients undergoing neonatal aortic arch reconstruction with regional low-flow perfusion. Cerebral oxygen saturation and blood flow velocity were measured by near-infrared spectroscopy and transcranial Doppler ultrasonography, respectively, throughout cardiopulmonary bypass. After cooling to 17 degrees C to 22 degrees C, baseline values of cerebral oxygen saturation and blood flow velocity were recorded during full-flow bypass. Regional low-flow perfusion was instituted for aortic arch reconstruction, and bypass flow rate was adjusted to maintain cerebral oxygen saturations and blood flow velocities within 10% of baseline recorded during cold full-flow bypass. Cerebral oxygen saturations and blood flow velocities were recorded again after repair during full-flow hypothermic bypass. Bypass flow during regional low-flow perfusion was recorded, as were arterial pressure and blood gas data. One-way repeated measures analysis of variance was used to determine differences in values during regional low-flow perfusion relative to baseline and after perfusion.
RESULTS
A mean bypass flow of 63 mL/(kg x min) was required to maintain cerebral oxygen saturations and blood flow velocities within 10% of baseline. Mean arterial pressure had a poor correlation with the required bypass flow rate (r(2) = 0.006 by linear regression analysis). Fourteen of 34 patients had a cerebral oxygen saturation of 95% during regional low-flow perfusion, placing them at risk for cerebral hyperperfusion if the cerebral oxygen saturation had been used alone to guide bypass flow. Pressure was detected in the umbilical or femoral artery catheter (mean 12 mm Hg) in all patients during regional low-flow perfusion.
CONCLUSIONS
Cerebral blood flow velocity, as determined by transcranial Doppler ultrasonography, adds valuable information to cerebral oxygen saturation data in guiding bypass flow during regional low-flow perfusion. Its most important use may be prevention of cerebral hyperperfusion during periods with high near-infrared spectroscopic saturation values.
目的
本研究旨在描述脑血流速度和脑氧饱和度的联合测量,以此作为新生儿主动脉弓重建术中局部低流量灌注时旁路流速的指导。
方法
前瞻性收集34例接受局部低流量灌注的新生儿主动脉弓重建术患者的数据。在体外循环期间,分别通过近红外光谱法和经颅多普勒超声检查测量脑氧饱和度和血流速度。冷却至17℃至22℃后,在全流量旁路期间记录脑氧饱和度和血流速度的基线值。进行主动脉弓重建时采用局部低流量灌注,并调整旁路流速,以将脑氧饱和度和血流速度维持在冷全流量旁路期间记录的基线值的10%以内。在低温全流量旁路修复后再次记录脑氧饱和度和血流速度。记录局部低流量灌注期间的旁路流量,以及动脉压和血气数据。采用单向重复测量方差分析来确定局部低流量灌注期间相对于基线和灌注后的数值差异。
结果
为将脑氧饱和度和血流速度维持在基线值的10%以内,平均旁路流量需要63 mL/(kg·min)。平均动脉压与所需旁路流速的相关性较差(线性回归分析r² = 0.006)。34例患者中有14例在局部低流量灌注期间脑氧饱和度达到95%,如果仅用脑氧饱和度来指导旁路流量,这些患者存在脑过度灌注的风险。在局部低流量灌注期间,所有患者的脐动脉或股动脉导管均检测到压力(平均12 mmHg)。
结论
经颅多普勒超声检查测定的脑血流速度,在指导局部低流量灌注期间的旁路流量时,为脑氧饱和度数据增添了有价值的信息。其最重要的用途可能是在近红外光谱饱和度值较高的时期预防脑过度灌注。
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