利用同步加速器分层相位对比断层扫描技术对人类海马动脉进行微观到宏观的解剖分析。

IF 1.4 4区 医学 Q2 Medicine
Surgical and Radiologic Anatomy Pub Date : 2024-11-01 Epub Date: 2024-09-03 DOI:10.1007/s00276-024-03467-x
Alexandre Bellier, P Tafforeau, A Bouziane, T Angelloz-Nicoud, P D Lee, C Walsh
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引用次数: 0

摘要

目的:迄今为止,还没有采用非侵入性成像模式来描述人类海马动脉微血管结构的复杂性。我们假设,基于同步加速器的人类海马成像将能精确描述动脉微血管的特征:方法:我们利用同步辐射分层相位对比断层扫描(HiP-CT)技术,对两名分别来自 69 岁女性和 63 岁男性遗体捐献者的保存完好的人脑进行了成像,成像分辨率从 25.08 μm 到 2.45 μm。随后进行了手动和半自动动脉分割,并进行了形态计量分析。这些数据与其他方法获得的公开数据进行了比较:结果:HiP-CT 使人类海马体动脉结构的背景分割成为可能。我们的分析确定了图像切片上的大脑后动脉 P2 段所产生的海马前动脉、内侧动脉和后动脉。我们绘制了海马区外径大于 50 μm 的动脉分支图。我们观察到了血管的不对称性,并对直径小至 7 μm 的动脉结构进行了量化:通过应用 HiP-CT,我们首次在全脑成像的背景下对人类海马的动脉系统进行了高分辨率的成像可视化和量化。我们的研究结果弥补了解剖学和组织学尺度之间的差距。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Micro to macro scale anatomical analysis of the human hippocampal arteries with synchrotron hierarchical phase-contrast tomography.

Micro to macro scale anatomical analysis of the human hippocampal arteries with synchrotron hierarchical phase-contrast tomography.

Purpose: To date, no non-invasive imaging modality has been employed to profile the structural intricacies of the hippocampal arterial microvasculature in humans. We hypothesised that synchrotron-based imaging of the human hippocampus would enable precise characterisation of the arterial microvasculature.

Methods: Two preserved human brains from, a 69-year-old female and a 63-year-old male body donors were imaged using hierarchical phase-contrast tomography (HiP-CT) with synchrotron radiation at multiple voxel resolutions from 25.08 μm down to 2.45 μm. Subsequent manual and semi-automatic artery segmentation were performed followed by morphometric analyses. These data were compared to published data from alternative methodologies.

Results: HiP-CT made it possible to segment in context the arterial architecture of the human hippocampus. Our analysis identified anterior, medial and posterior hippocampal arteries arising from the P2 segment of the posterior cerebral artery on the image slices. We mapped arterial branches with external diameters greater than 50 μm in the hippocampal region. We visualised vascular asymmetry and quantified arterial structures with diameters as small as 7 μm.

Conclusions: Through the application of HiP-CT, we have provided the first imaging visualisation and quantification of the arterial system of the human hippocampus at high resolution in the context of whole brain imaging. Our results bridge the gap between anatomical and histological scales.

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来源期刊
Surgical and Radiologic Anatomy
Surgical and Radiologic Anatomy Medicine-Pathology and Forensic Medicine
CiteScore
2.40
自引率
14.30%
发文量
0
期刊介绍: Anatomy is a morphological science which cannot fail to interest the clinician. The practical application of anatomical research to clinical problems necessitates special adaptation and selectivity in choosing from numerous international works. Although there is a tendency to believe that meaningful advances in anatomy are unlikely, constant revision is necessary. Surgical and Radiologic Anatomy, the first international journal of Clinical anatomy has been created in this spirit. Its goal is to serve clinicians, regardless of speciality-physicians, surgeons, radiologists or other specialists-as an indispensable aid with which they can improve their knowledge of anatomy. Each issue includes: Original papers, review articles, articles on the anatomical bases of medical, surgical and radiological techniques, articles of normal radiologic anatomy, brief reviews of anatomical publications of clinical interest. Particular attention is given to high quality illustrations, which are indispensable for a better understanding of anatomical problems. Surgical and Radiologic Anatomy is a journal written by anatomists for clinicians with a special interest in anatomy.
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