Nomura Sadahiro, Inoue Takao, Ishihara Hideyuki, Koizumi Hiroyasu, Suehiro Eiichi, Oka Fumiaki, Suzuki Michiyasu
Department of Neurosurgery, Yamaguchi University School of Medicine, Ube, Yamaguchi, Japan.
Department of Neurosurgery, Yamaguchi University School of Medicine, Ube, Yamaguchi, Japan.
World Neurosurg. 2014 Dec;82(6):e753-7. doi: 10.1016/j.wneu.2013.09.012. Epub 2013 Sep 15.
To determine the clinical utility of laser speckle flow imaging (LSFI) and its comparability to (123)I-iodoamphetamine single photon emission computed tomography (IMP-SPECT), we used LSFI to monitor cerebral blood flow (CBF) during extracranial-intracranial (EC-IC) bypass surgery.
Intraoperative intensity of CBF (iCBF) by LSFI and preoperative and postoperative CBF by IMP-SPECT were measured in 3 patients with internal carotid artery (ICA) aneurysms who were undergoing ICA trapping surgery and in 16 patients with major cerebral artery occlusion who were undergoing EC-IC bypass surgery.
The decrease in iCBF (16.9% ± 2.3%) with ICA interruption was equivalent to the decrease in CBF during the preoperative balloon test occlusion, as measured by IMP-SPECT (12.2% ± 4.4%). Whether preserved iCBF in LSFI promised postoperative intact CBF was not determined, as no patient showed ischemic tolerance by ICA occlusion. The increase in iCBF resulting from EC-IC bypass correlated moderately with the increase in postoperative CBF as measured by IMP-SPECT. However, the increase in iCBF was too small to be recognized intraoperatively by visual inspection.
Although LSFI clearly demonstrated a decrease in CBF, the information is taken only from the surface of the brain. Combined use of LFSI with an electrophysiologic examination is required for intraoperative diagnosis of ischemia. LSFI was not sensitive enough to detect increased CBF by superficial temporal artery-to-middle cerebral artery anastomosis, because CBF changes are minimized during anesthesia, probably owing to low metabolic activity.
为了确定激光散斑血流成像(LSFI)的临床实用性及其与123I-碘安非他明单光子发射计算机断层扫描(IMP-SPECT)的可比性,我们使用LSFI在颅外-颅内(EC-IC)旁路手术期间监测脑血流量(CBF)。
对3例接受颈内动脉(ICA)夹闭手术的ICA动脉瘤患者和16例接受EC-IC旁路手术的大脑中动脉主要分支闭塞患者,通过LSFI测量术中CBF强度(iCBF),并通过IMP-SPECT测量术前和术后的CBF。
ICA阻断导致的iCBF下降(16.9%±2.3%)与术前球囊试验阻断期间IMP-SPECT测量的CBF下降(12.2%±4.4%)相当。由于没有患者通过ICA闭塞表现出缺血耐受性,因此无法确定LSFI中保留的iCBF是否预示术后CBF完整。EC-IC旁路导致的iCBF增加与IMP-SPECT测量的术后CBF增加中度相关。然而,iCBF的增加太小,术中肉眼无法识别。
虽然LSFI清楚地显示了CBF的下降,但该信息仅来自脑表面。术中缺血诊断需要将LFSI与电生理检查联合使用。LSFI对通过颞浅动脉-大脑中动脉吻合术检测CBF增加不够敏感,因为麻醉期间CBF变化最小,可能是由于代谢活性低。
