三种长尾猴模型前脑的核磁共振成像对比分析

S Jiménez, I Santos-Álvarez, E Fernández-Valle, D Castejón, P Villa-Valverde, C Rojo-Salvador, P Pérez-Llorens, M. J. Ruiz-Fernández, S. Ariza-Pastrana, R. Martín-Orti, Juncal González-Soriano, Nerea Moreno
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引用次数: 0

摘要

通过磁共振成像(MRI)对大脑进行研究可以获得详细的解剖图像,有助于描述特定的脑部结构和分析可能的变异。磁共振成像在临床实践中得到广泛应用,在兽医学中的应用也日益增多,甚至在外来动物中也有应用;然而,尽管磁共振成像具有潜力,但在比较神经解剖学研究中的应用仍处于起步阶段。近年来,这项技术大大提高了解剖分辨率,而且它是非侵入性的,可以进行系统的比较分析。所有这一切都使它在进化神经科学研究中特别有趣和有用,因为它可以分析和比较稀有或其他无法获取的物种的大脑。在本研究中,我们通过核磁共振成像分析了三个具有代表性的蜥形纲物种的前脑,它们分别是龟(Trachemys scripta)(鳞目)、蜥蜴(Pogona vitticeps)(鳞目)和蛇(Python regius)(鳞目)。此外,我们还利用核磁共振成像切片分析了这些物种的总脑容量和脑室系统,并同时采用了容积分析和化学计量分析。本研究中分析的蜥脚类动物模型的原始磁共振成像数据可供浏览和下载,并使我们能够绘制所分析的每个物种的前脑图谱,其中包括主要的脑区。此外,我们的容积数据显示,三个组别在脑总体积和脑室体积方面存在明显差异,尤其是龟类,与蜥蜴和蛇类相比,龟类在所有情况下都呈现出独特的特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comparative MRI analysis of the forebrain of three sauropsida models

Comparative MRI analysis of the forebrain of three sauropsida models

The study of the brain by magnetic resonance imaging (MRI) allows to obtain detailed anatomical images, useful to describe specific encephalic structures and to analyze possible variabilities. It is widely used in clinical practice and is becoming increasingly used in veterinary medicine, even in exotic animals; however, despite its potential, its use in comparative neuroanatomy studies is still incipient. It is a technology that in recent years has significantly improved anatomical resolution, together with the fact that it is non-invasive and allows for systematic comparative analysis. All this makes it particularly interesting and useful in evolutionary neuroscience studies, since it allows for the analysis and comparison of brains of rare or otherwise inaccessible species. In the present study, we have analyzed the prosencephalon of three representative sauropsid species, the turtle Trachemys scripta (order Testudine), the lizard Pogona vitticeps (order Squamata) and the snake Python regius (order Squamata) by MRI. In addition, we used MRI sections to analyze the total brain volume and ventricular system of these species, employing volumetric and chemometric analyses together. The raw MRI data of the sauropsida models analyzed in the present study are available for viewing and downloading and have allowed us to produce an atlas of the forebrain of each of the species analyzed, with the main brain regions. In addition, our volumetric data showed that the three groups presented clear differences in terms of total and ventricular brain volumes, particularly the turtles, which in all cases presented distinctive characteristics compared to the lizards and snakes.

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