采用对比增强动态 CT 血管造影分析蝶骨嵴脑膜瘤的表浅大脑中静脉。
Analysis of the superficial middle cerebral vein in sphenoid ridge meningioma using contrast-enhanced dynamic computed tomography angiography.
机构信息
Department of Neurosurgery, Keio University School of Medicine, Japan.
Department of Neurosurgery, Keio University School of Medicine, Japan; Department of Interventional Neuroradiology, Hospital Foch, Suresnes, France.
出版信息
Clin Neurol Neurosurg. 2020 Apr;191:105683. doi: 10.1016/j.clineuro.2020.105683. Epub 2020 Jan 17.
OBJECTIVE
The superficial middle cerebral vein (SMCV) is of clinical importance because of its contribution to the venous drainage of the superficial part of the cerebrum. Sphenoid ridge meningioma (SRM) grows adjacent to the SMCV and its drainage routes, and is thought to occasionally influence the hemodynamics of the SMCV, although this has seldom been suggested in the literature. We investigated the effect of SRM on the SMCV via blood flow analysis using multi-detector computed tomography.
PATIENTS AND METHODS
Overall, 22 patients with SRM who preoperatively underwent contrast-enhanced dynamic computed tomography at our institution were included in this study. We serially measured the Hounsfield units at each point of the SMCV and its adjacent veins on the side on which the tumor was located. We then obtained a time-density curve for each point via gamma distribution fitting. We determined the time-to-peak at each point by calculating the derivative of the time-density curve function and deduced the direction of blood passing through each vein by comparing the time-to-peak values between several points.
RESULTS
In total, 26 SMCVs were measured in 19 out of 22 cases. Of the 26 SMCVs, 16 were patent in the medial portion and contributed to normal venous drainage: 4 of them emptied into the cavernous sinus (CS), and 12 of them into the para-cavernous sinus (ParaCS). Out of the 10 that had their medial portions occluded because of the effects of the tumor, 6 SMCVs mainly drained into the vein of Labbé and/or the vein of Trolard retrogradely. However, in 2 of these, the small medial portions of the SMCVs near the occluded portion were maintained anterogradely by the collateral venous structures. In 4 SMCVs, the blood flow through the collateral veins remained anterograde; this was considered to contribute to normal venous drainage.
CONCLUSION
The SRM is likely to cause occlusion or stenosis in the SMCV and influence its hemodynamics. In cases in which the connection between the SMCV and the CS or the ParaCS has been lost, the SMCV may still be involved in normal venous drainage via the collateral veins in some of those cases. Thus, the contribution of these veins to normal venous drainage in the brain should be analyzed preoperatively in careful detail.
目的
由于大脑浅部的静脉引流作用,大脑浅中静脉(SMCV)具有重要的临床意义。蝶骨嵴脑膜瘤(SRM)生长于 SMCV 及其引流静脉附近,被认为偶尔会影响 SMCV 的血液动力学,但文献中很少有这方面的报道。我们通过多排螺旋 CT 进行血流分析,研究了 SRM 对 SMCV 的影响。
患者和方法
本研究共纳入 22 例术前在我院行增强动态 CT 检查的 SRM 患者。我们连续测量了肿瘤侧 SMCV 及其毗邻静脉各点的 CT 值。然后,通过伽马分布拟合得到各点的时间-密度曲线。通过计算时间-密度曲线函数的导数确定各点的达峰时间,并通过比较几个点的达峰时间来推断静脉内血流的方向。
结果
共测量了 22 例中的 19 例的 26 条 SMCV。在 26 条 SMCV 中,16 条位于内侧段通畅,参与正常静脉引流:其中 4 条汇入海绵窦(CS),12 条汇入海绵窦旁(ParaCS)。由于肿瘤的影响,10 条 SMCV 的内侧段闭塞,其中 6 条 SMCV 主要通过 Labbe 静脉和(或)Trolard 静脉逆行回流。然而,其中 2 条闭塞段附近的 SMCV 小段内侧仍通过侧支静脉结构顺行。4 条 SMCV 的侧支静脉血流仍保持顺行,这被认为有助于正常静脉引流。
结论
SRM 可能导致 SMCV 闭塞或狭窄,并影响其血液动力学。在 SMCV 与 CS 或 ParaCS 之间的连接丢失的情况下,这些侧支静脉可能仍会在某些情况下参与 SMCV 的正常静脉引流。因此,术前应仔细分析这些静脉对大脑正常静脉引流的贡献。
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