1Institute of Neuropathology and.
Departments of2Neurosurgery and.
J Neurosurg. 2019 Mar 1;130(3):789-796. doi: 10.3171/2017.11.JNS172265. Epub 2018 Apr 27.
Identification of risk factors for perioperative epilepsy remains crucial in the care of patients with meningioma. Moreover, associations of brain invasion with clinical and radiological variables have been largely unexplored. The authors hypothesized that invasion of the cortex and subsequent increased edema facilitate seizures, and they compared radiological data and perioperative seizures in patients with brain-invasive or noninvasive meningioma.
Correlations of brain invasion with tumor and edema volumes and preoperative and postoperative seizures were analyzed in univariate and multivariate analyses.
Totals of 108 (61%) females and 68 (39%) males with a median age of 60 years and harboring totals of 92 (52%) grade I, 79 (45%) grade II, and 5 (3%) grade III tumors were included. Brain invasion was found in 38 (22%) patients and was absent in 138 (78%) patients. The tumors were located at the convexity in 72 (41%) patients, at the falx cerebri in 26 (15%), at the skull base in 69 (39%), in the posterior fossa in 7 (4%), and in the ventricle in 2 (1%); the median tumor and edema volumes were 13.73 cm3 (range 0.81-162.22 cm3) and 1.38 cm3 (range 0.00-355.80 cm3), respectively. As expected, edema volume increased with rising tumor volume (p < 0.001). Brain invasion was independent of tumor volume (p = 0.176) but strongly correlated with edema volume (p < 0.001). The mean edema volume in noninvasive tumors was 33.0 cm3, but in invasive tumors, it was 130.7 cm3 (p = 0.008). The frequency of preoperative seizures was independent of the patients' age, sex, and tumor location; however, the frequency was 32% (n = 12) in patients with invasive meningioma and 15% (n = 21) in those with noninvasive meningioma (p = 0.033). In contrast, the probability of detecting brain invasion microscopically was increased more than 2-fold in patients with a history of preoperative seizures (OR 2.57, 95% CI 1.13-5.88; p = 0.025). In univariate analyses, the rate of preoperative seizures correlated slightly with tumor volume (p = 0.049) but strongly with edema volume (p = 0.014), whereas seizure semiology was found to be independent of brain invasion (p = 0.211). In multivariate analyses adjusted for age, sex, tumor location, tumor and edema volumes, and WHO grade, rising tumor volume (OR 1.02, 95% CI 1.00-1.03; p = 0.042) and especially brain invasion (OR 5.26, 95% CI 1.52-18.15; p = 0.009) were identified as independent predictors of preoperative seizures. Nine (5%) patients developed new seizures within a median follow-up time of 15 months after surgery. Development of postoperative epilepsy was independent of all clinical variables, including Simpson grade (p = 0.133), tumor location (p = 0.936), brain invasion (p = 0.408), and preoperative edema volume (p = 0.081), but was correlated with increasing preoperative tumor volume (p = 0.004). Postoperative seizure-free rates were similar among patients with invasive and those with noninvasive meningioma (p = 0.372).
Brain invasion was identified as a new and strong predictor for preoperative, but not postoperative, seizures. Although also associated with increased peritumoral edema, seizures in patients with invasive meningioma might be facilitated substantially by cortical invasion itself. Consideration of seizures in consultations between the neurosurgeon and neuropathologist can improve the microscopic detection of brain invasion.
识别脑膜瘤围手术期癫痫的风险因素对于患者的护理至关重要。此外,大脑侵犯与临床和影像学变量的关联在很大程度上尚未得到探索。作者假设皮层侵犯和随后增加的水肿会促进癫痫发作,并比较了脑侵犯和无脑侵犯脑膜瘤患者的影像学数据和围手术期癫痫发作。
在单变量和多变量分析中,分析了脑侵犯与肿瘤和水肿体积以及术前和术后癫痫发作的相关性。
共纳入 108 名女性(61%)和 68 名男性(39%),中位年龄为 60 岁,其中 92 名(52%)为 I 级肿瘤,79 名(45%)为 II 级肿瘤,5 名(3%)为 III 级肿瘤。38 名患者存在脑侵犯,138 名患者无脑侵犯。肿瘤位于凸面 72 例(41%),镰旁 26 例(15%),颅底 69 例(39%),后颅窝 7 例(4%),脑室 2 例(1%);肿瘤和水肿体积中位数分别为 13.73cm3(范围 0.81-162.22cm3)和 1.38cm3(范围 0.00-355.80cm3)。正如预期的那样,水肿体积随肿瘤体积的增加而增加(p<0.001)。脑侵犯与肿瘤体积无关(p=0.176),但与水肿体积密切相关(p<0.001)。非侵犯性肿瘤的平均水肿体积为 33.0cm3,而侵犯性肿瘤的水肿体积为 130.7cm3(p=0.008)。术前癫痫发作的频率与患者的年龄、性别和肿瘤位置无关;然而,侵犯性脑膜瘤患者的发生率为 32%(n=12),非侵犯性脑膜瘤患者的发生率为 15%(n=21)(p=0.033)。相反,术前有癫痫发作史的患者中,发现脑侵犯的概率增加了两倍以上(OR 2.57,95%CI 1.13-5.88;p=0.025)。在单变量分析中,术前癫痫发作的发生率与肿瘤体积略有相关(p=0.049),但与水肿体积密切相关(p=0.014),而癫痫发作的症状学与脑侵犯无关(p=0.211)。在调整了年龄、性别、肿瘤位置、肿瘤和水肿体积以及世界卫生组织分级的多变量分析中,肿瘤体积的增加(OR 1.02,95%CI 1.00-1.03;p=0.042)和脑侵犯(OR 5.26,95%CI 1.52-18.15;p=0.009)被确定为术前癫痫发作的独立预测因子。9 名(5%)患者在手术后中位随访时间 15 个月内出现新的癫痫发作。术后癫痫的发生与所有临床变量无关,包括辛普森分级(p=0.133)、肿瘤位置(p=0.936)、脑侵犯(p=0.408)和术前水肿体积(p=0.081),但与术前肿瘤体积的增加相关(p=0.004)。侵犯性和无脑侵犯脑膜瘤患者的术后无癫痫发作率相似(p=0.372)。
脑侵犯被确定为术前癫痫的一个新的强预测因子,但不是术后癫痫的预测因子。尽管与周围肿瘤水肿也有关联,但侵犯性脑膜瘤患者的癫痫发作可能主要是由皮层侵犯本身引起的。神经外科医生和神经病理学家在咨询中考虑癫痫发作可以提高对脑侵犯的显微镜检测。
