脑皮质血流的表面监测。

L P Carter
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引用次数: 0

摘要

监测大脑表面血流的技术可以观察到皮层血流(CoBF)的动态“实时”变化。这些技术是从非定量且经常不可靠的窗口观测演变而来的。地面监测不需要开发间隙曲线,因此可以立即看到流量的变化。另一方面,局部血管的几何形状可能会影响这些技术;因此,必须避免大的表面血管,并且探针必须足够大,以便获得皮质毛细血管床的平均效应。目前,用于地表监测的两种技术是热扩散流量法(TDF)和激光多普勒流量法(LDF)。热法在实验、手术和术后监测CoBF方面的应用时间更长,也获得了更多的经验。LDF用于视网膜、胃粘膜和皮肤,最近才应用于大脑皮层。在手术室中,两种技术均显示动静脉畸形切除后正常脑内CoBF增加,脑肿瘤周围正常脑内CoBF减少。动脉瘤手术中血管操作引起的CoBF急性变化已被TDF证实。动脉瘤患者的术后监测显示,在创伤患者发生恶性脑水肿之前,TDF会导致脑血管痉挛和血流增加。冲洗、表面接触丧失和与大型表面血管接触的TDF中会出现伪影。LDF随着运动而发生人为变化,如果探头看到大的表面血管,则光线较轻,并且红细胞压积发生变化。表面监测在术中和术后持续评估CoBF方面显示出很大的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surface monitoring of cerebral cortical blood flow.

Techniques of monitoring surface blood flow in the brain allow observation of dynamic "real-time" changes in cortical blood flow (CoBF). These techniques have evolved from pial window observations that have not been quantitative and frequently are unreliable. Surface monitoring does not require the development of a clearance curve so changes in flow are seen immediately. On the other hand, the local vascular geometry may affect these techniques; therefore, large surface vessels must be avoided and the probe must be of large enough size so that some averaging effect of the cortical capillary bed will be obtained. At the present time, the two techniques available for surface monitoring are thermal diffusion flowmetry (TDF) and laser-Doppler flowmetry (LDF). Thermal methods have been available longer and more experience has been obtained in experimental, operative, and postoperative monitoring of CoBF with these techniques. LDF was used in retina, gastric mucosa, and skin, and has only recently been applied to the cerebral cortex. In the operating theater, both techniques have demonstrated increased CoBF in normal brain after arteriovenous malformation resection and have demonstrated reduced CoBF in normal brain around brain tumors. Acute changes in CoBF with vascular manipulation during aneurysm surgery have been demonstrated with TDF. Postoperative monitoring of aneurysm patients has demonstrated the development of cerebral vasospasm with TDF as well as increased flow preceding the development of malignant cerebral edema in trauma patients. Artifacts occur in TDF with irrigation, loss of surface contact, and contact with large surface vessels. LDF has artifactual changes with movement, light, if large surface vessels come in view of the probe, and changes in hematocrit. Surface monitoring shows a great deal of promise in continuous evaluation of CoBF intraoperatively and postoperatively.

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