Neurosurgery, Assistance Publique Hôpitaux de Paris, Hôpital Beaujon, 100 boulevard du Général Leclerc, 92110, Clichy, France.
Arts et Metiers, IBHGC, 151 bd de l'Hopital, 75013, Paris, France.
Acta Neurochir (Wien). 2021 Mar;163(3):607-613. doi: 10.1007/s00701-020-04256-2. Epub 2020 Feb 7.
Finite element modeling of the human head offers an alternative to experimental methods in understanding the biomechanical response of the head in trauma brain injuries. Falx, tentorium, and their notches are important structures surrounding the brain, and data about their anatomical variations are sparse.
To describe and quantify anatomical variations of falx cerebri, tentorium cerebelli, and their notches.
3D reconstruction of falx and tentorium was performed by points identification on 40 brain CT-scans in a tailored Matlab program. A scatter plot was obtained for each subject, and 8 anatomical landmarks were selected. A reference frame was defined to determine the coordinates of landmarks. Segments and areas were computed. A reproducibility study was done.
The height of falx was 34.9 ± 3.9 mm and its surface area 56.5 ± 7.7 cm. The width of tentorium was 99.64 ± 4.79 mm and its surface area 57.6 ± 5.8 cm. The mean length, height, and surface area of falx notch were respectively 96.9 ± 8 mm, 41.8 ± 5.9 mm, and 28.8 ± 5.8 cm (range 15.8-40.5 cm). The anterior and maximal widths of tentorial notch were 25.5 ± 3.5 mm and 30.9 ± 2.5 mm; its length 54.9 ± 5.2 mm and its surface area 13.26 ± 1.6 cm. The length of falx notch correlated with the length of tentorial notch (r = 0.62, P < 0.05).
We observe large anatomical variations of falx, tentorium, and notches, crucial to better understand the biomechanics of brain injury, in personalized finite element models.
通过有限元模型来模拟人类头部,为理解创伤性脑损伤中头部的生物力学响应提供了一种替代实验方法。大脑镰、小脑幕及其切迹是围绕大脑的重要结构,关于它们的解剖变异的数据很少。
描述和量化大脑镰、小脑幕及其切迹的解剖变异。
使用专门的 Matlab 程序,通过在 40 个脑部 CT 扫描图像上识别点,对大脑镰和小脑幕进行 3D 重建。为每个受试者获得一个散点图,并选择 8 个解剖学标志点。定义一个参考框架来确定标志点的坐标。计算各段和各区域的长度和面积。进行了重复性研究。
大脑镰的高度为 34.9±3.9mm,表面积为 56.5±7.7cm。小脑幕的宽度为 99.64±4.79mm,表面积为 57.6±5.8cm。大脑镰切迹的平均长度、高度和表面积分别为 96.9±8mm、41.8±5.9mm 和 28.8±5.8cm(范围 15.8-40.5cm)。小脑幕切迹的前后宽度分别为 25.5±3.5mm 和 30.9±2.5mm,长度为 54.9±5.2mm,表面积为 13.26±1.6cm。大脑镰切迹的长度与小脑幕切迹的长度相关(r=0.62,P<0.05)。
我们观察到大脑镰、小脑幕及其切迹的解剖变异较大,这对更好地理解个性化有限元模型中脑损伤的生物力学至关重要。
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