Park Jaechan, Cho Jae-Hoon, Goh Duck-Ho, Kang Dong-Hun, Shin Im Hee, Hamm In-Suk
Department of Neurosurgery and.
Research Center for Neurosurgical Robotic Systems, Kyungpook National University, Daegu; and.
J Neurosurg. 2016 Feb;124(2):310-7. doi: 10.3171/2015.1.JNS14309. Epub 2015 Aug 14.
This study investigated the incidence and risk factors for the postoperative occurrence of subdural complications, such as a subdural hygroma and resultant chronic subdural hematoma (CSDH), following surgical clipping of an unruptured aneurysm. The critical age affecting such occurrences and follow-up results were also examined.
The case series included 364 consecutive patients who underwent aneurysm clipping via a pterional or superciliary keyhole approach for an unruptured saccular aneurysm in the anterior cerebral circulation between 2007 and 2013. The subdural hygromas were identified based on CT scans 6-9 weeks after surgery, and the volumes were measured using volumetry studies. Until their complete resolution, all the subdural hygromas were followed using CT scans every 1-2 months. Meanwhile, the CSDHs were classified as nonoperative or operative lesions that were treated by bur-hole drainage. The age and sex of the patients, aneurysm location, history of a subarachnoid hemorrhage (SAH), and surgical approach (pterional vs superciliary) were all analyzed regarding the postoperative occurrence of a subdural hygroma or CSDH. The follow-up results of the subdural complications were also investigated.
Seventy patients (19.2%) developed a subdural hygroma or CSDH. The results of a multivariate analysis showed that advanced age (p = 0.003), male sex (p < 0.001), middle cerebral artery (MCA) aneurysm (p = 0.045), and multiple concomitant aneurysms at the MCA and anterior communicating artery (ACoA) (p < 0.001) were all significant risk factors of a subdural hygroma and CSDH. In addition, a receiver operating characteristic (ROC) curve analysis revealed a cut-off age of > 60 years, which achieved a 70% sensitivity and 69% specificity with regard to predicting such subdural complications. The female patients ≤ 60 years of age showed a negligible incidence of subdural complications for all aneurysm groups, whereas the male patients > 60 years of age showed the highest incidence of subdural complications at 50%-100%, according to the aneurysm location. The subdural hygromas detected 6-9 weeks postoperatively showed different follow-up results, according to the severity. The subdural hygromas that converted to a CSDH were larger in volume than the subdural hygromas that resolved spontaneously (28.4 ± 16.8 ml vs 59.6 ± 38.4 ml, p = 0.003). Conversion to a CSDH was observed in 31.3% (5 of 16), 64.3% (9 of 14), and 83.3% (5 of 6) of the patients with mild, moderate, and severe subdural hygromas, respectively.
Advanced age, male sex, and an aneurysm location requiring extensive arachnoid dissection (MCA aneurysms and multiple concomitant aneurysms at the MCA and ACoA) are all correlated with the occurrence of a subdural hygroma and CSDH after unruptured aneurysm surgery. The critical age affecting such an occurrence is 60 years.
本研究调查了未破裂动脉瘤手术夹闭术后硬膜下并发症(如硬膜下积液及由此导致的慢性硬膜下血肿[CSDH])的发生率及危险因素。还研究了影响此类并发症发生的关键年龄及随访结果。
该病例系列纳入了2007年至2013年间连续364例行翼点或眉弓锁孔入路夹闭大脑前循环未破裂囊状动脉瘤的患者。术后6 - 9周通过CT扫描确定硬膜下积液,并使用容积测量研究测量其体积。在硬膜下积液完全消退之前,每1 - 2个月通过CT扫描对所有硬膜下积液进行随访。同时,将CSDH分为非手术或手术病变,通过钻孔引流进行治疗。分析患者的年龄、性别、动脉瘤位置、蛛网膜下腔出血(SAH)病史以及手术入路(翼点入路与眉弓入路)与术后硬膜下积液或CSDH发生情况之间是否有关联。还对硬膜下并发症的随访结果进行了研究。
70例患者(19.2%)发生了硬膜下积液或CSDH。多因素分析结果显示,高龄(p = 0.003)、男性(p < 0.001)、大脑中动脉(MCA)动脉瘤(p = 0.045)以及MCA和前交通动脉(ACoA)处多个合并存在的动脉瘤(p < 0.001)均是硬膜下积液和CSDH的显著危险因素。此外,受试者工作特征(ROC)曲线分析显示,预测此类硬膜下并发症的临界年龄> 60岁,其敏感性为70%,特异性为69%。≤ 60岁的女性患者在所有动脉瘤组中硬膜下并发症的发生率可忽略不计,而> 60岁的男性患者根据动脉瘤位置不同,硬膜下并发症的发生率最高,为50% - 100%。术后6 - 9周检测到的硬膜下积液根据严重程度显示出不同的随访结果。转化为CSDH的硬膜下积液体积大于自发消退的硬膜下积液(28.4 ± 16.8 ml对59.6 ± 38.4 ml,p = 0.003)。轻度、中度和重度硬膜下积液患者分别有31.3%(16例中的5例)、64.3%(14例中的9例)和83.3%(6例中的5例)转化为CSDH。
高龄、男性以及需要广泛蛛网膜分离的动脉瘤位置(MCA动脉瘤以及MCA和ACoA处多个合并存在的动脉瘤)均与未破裂动脉瘤手术后硬膜下积液和CSDH的发生相关。影响此类并发症发生的关键年龄为60岁。
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