Fainardi E, Tagliaferri M F, Compagnone C, Tanfani A, Cocciolo F, Battaglia R, Frattarelli M, Pascarella R, Targa L, Chieregato A
Neuroradiology Unit, Department of Neurosciences, Arcispedale S Anna, Corso della Giovecca 203, 44100, Ferrara, Italy.
Neuroradiology. 2006 Sep;48(9):685-90. doi: 10.1007/s00234-006-0111-2. Epub 2006 Jun 28.
The aim of this study was to assess regional cerebral blood flow (rCBV) in areas of CT hypoattenuation appearing in the postoperative period in patients treated for aneurysmal subarachnoid hemorrhage (SAH) using xenon-enhanced CT scanning (Xe-CT).
We analyzed 15 patients (5 male and 10 female; mean age 49.7+/-12.1 years) with SAH on CT performed on admission to hospital and who showed a low-density area within a well-defined vascular territory on CT scans after clipping or coiling of a saccular aneurysm. All zones of hypoattenuation were larger than 1 cm(2) and showed signs of a mass effect suggesting a subacute phase of evolution. Two aneurysms were detected in two patients. Aneurysms were located in the middle cerebral artery (n=7), in the anterior communicating artery (n=6), in the internal carotid artery (n=3), and in the posterior communicating artery (n=1). Treatments were surgical (n=8), endovascular (n=2) or both (n=1). A total of 36 Xe-CT studies were performed and rCBF values were measured in two different regions of interest (ROI): the low-density area, and an area of normal-appearing brain tissue located symmetrically in the contralateral hemisphere.
rCBF levels were significantly lower in the low-density area than in the contralateral normal-appearing area (P<0.01). In the low-density areas, irreversible ischemia (CBF <10 ml/100 g per minute) was present in 11/36 lesions (30.6%), ischemic penumbra (CBF 10-20 ml/100 g per minute) and oligemia (CBF 20-34 ml/100 g per minute) in 8/36 lesions (22.2%), relative hyperemia (CBF 34-55 ml/100 g per minute) in 7/36 lesions (19.4%), and absolute hyperemia (CBF >55 ml/100 g per minute) in 2/36 lesions (5.6%).
Our study confirmed that rCBF is reduced in new low-density lesions related to specific vascular territories. However, only about one-third of the lesions showed rCBF levels consistent with irreversible ischemia and in a relatively high proportion of lesions, rCBF levels indicated penumbral, oligemic and hyperemic areas.
本研究的目的是使用氙增强CT扫描(Xe-CT)评估动脉瘤性蛛网膜下腔出血(SAH)患者术后CT低密度区域的局部脑血流量(rCBV)。
我们分析了15例患者(5例男性和10例女性;平均年龄49.7±12.1岁),这些患者入院时CT显示为SAH,并且在囊状动脉瘤夹闭或栓塞术后的CT扫描中,在明确的血管区域内出现低密度区。所有低密度区均大于1 cm²,并显示出占位效应,提示处于亚急性期演变。两名患者检测到两个动脉瘤。动脉瘤位于大脑中动脉(n = 7)、前交通动脉(n = 6)、颈内动脉(n = 3)和后交通动脉(n = 1)。治疗方式为手术(n = 8)、血管内治疗(n = 2)或两者联合(n = 1)。共进行了36次Xe-CT研究,并在两个不同的感兴趣区域(ROI)测量rCBF值:低密度区,以及对侧半球对称位置的正常脑组织区域。
低密度区的rCBF水平显著低于对侧正常区域(P<0.01)。在低密度区,11/36个病灶(30.6%)存在不可逆缺血(CBF<10 ml/100 g每分钟),8/36个病灶(22.2%)存在缺血半暗带(CBF 10 - 20 ml/100 g每分钟)和低灌注(CBF 20 - 34 ml/100 g每分钟),7/36个病灶(19.4%)存在相对充血(CBF 34 - 55 ml/100 g每分钟),2/36个病灶(5.6%)存在绝对充血(CBF>55 ml/100 g每分钟)。
我们的研究证实,与特定血管区域相关的新的低密度病灶中rCBF降低。然而,只有约三分之一的病灶显示rCBF水平与不可逆缺血一致,并且在相对较高比例的病灶中,rCBF水平提示存在半暗带、低灌注和充血区域。