基于分形的动静脉畸形(AVM)分析。

Q3 Neuroscience
Antonio Di Ieva, Gernot Reishofer
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引用次数: 0

摘要

动静脉畸形(AVM)是一种脑血管病变,由病态的血管纠结组成,其特点是有一个被称为 "巢 "的核心,也就是发生瘘管连接的 "巢穴"。动静脉畸形可导致头痛、中风和/或癫痫发作。其治疗可能具有挑战性,需要进行手术、血管内栓塞和/或放射外科手术。为了寻找新的诊断和预后神经影像生物标志物,有人提出了基于分形的计算模型来描述和量化瘤巢的血管结构。事实上,分形维度(FD)可用于量化 AVM 的分支模式。分形维度值越高,说明动静脉畸形的特点是潮内血管的数量和迂曲程度增加,或整个血管结构的复杂性增加。总之,FD 能够以单一、客观的数值量化神经放射学家以定性和/或半定量方式描述的情况,从而证实 FD 是一种可靠的 AVM 形态计量神经影像生物标志物,也是一种潜在的替代影像生物标志物。此外,目前正在研究基于分形的计算技术,用于自动分割和提取神经影像学中的瘤巢边缘,这可能与手术和/或放射外科规划相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fractal-Based Analysis of Arteriovenous Malformations (AVMs).

Arteriovenous malformations (AVMs) are cerebrovascular lesions consisting of a pathologic tangle of the vessels characterized by a core termed the nidus, which is the "nest" where the fistulous connections occur. AVMs can cause headache, stroke, and/or seizures. Their treatment can be challenging requiring surgery, endovascular embolization, and/or radiosurgery as well. AVMs' morphology varies greatly among patients, and there is still a lack of standardization of angioarchitectural parameters, which can be used as morphometric parameters as well as potential clinical biomarkers (e.g., related to prognosis).In search of new diagnostic and prognostic neuroimaging biomarkers of AVMs, computational fractal-based models have been proposed for describing and quantifying the angioarchitecture of the nidus. In fact, the fractal dimension (FD) can be used to quantify AVMs' branching pattern. Higher FD values are related to AVMs characterized by an increased number and tortuosity of the intranidal vessels or to an increasing angioarchitectural complexity as a whole. Moreover, FD has been investigated in relation to the outcome after Gamma Knife radiosurgery, and an inverse relationship between FD and AVM obliteration was found.Taken altogether, FD is able to quantify in a single and objective value what neuroradiologists describe in qualitative and/or semiquantitative way, thus confirming FD as a reliable morphometric neuroimaging biomarker of AVMs and as a potential surrogate imaging biomarker. Moreover, computational fractal-based techniques are under investigation for the automatic segmentation and extraction of the edges of the nidus in neuroimaging, which can be relevant for surgery and/or radiosurgery planning.

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来源期刊
Advances in neurobiology
Advances in neurobiology Neuroscience-Neurology
CiteScore
2.80
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