Computational Fractal-Based Analysis of Brain Tumor Microvascular Networks.

Q3 Neuroscience Advances in neurobiology Pub Date : 2024-01-01 DOI:10.1007/978-3-031-47606-8_27
Antonio Di Ieva, Omar S Al-Kadi
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Abstract

Brain parenchyma microvasculature is set in disarray in the presence of tumors, and malignant brain tumors are among the most vascularized neoplasms in humans. As microvessels can be easily identified in histologic specimens, quantification of microvascularity can be used alone or in combination with other histological features to increase the understanding of the dynamic behavior, diagnosis, and prognosis of brain tumors. Different brain tumors, and even subtypes of the same tumor, show specific microvascular patterns, as a kind of "microvascular fingerprint," which is particular to each histotype. Reliable morphometric parameters are required for the qualitative and quantitative characterization of the neoplastic angioarchitecture, although the lack of standardization of a technique able to quantify the microvascular patterns in an objective way has limited the "morphometric approach" in neuro-oncology.In this chapter, we focus on the importance of computational-based morphometrics, for the objective description of tumoral microvascular fingerprinting. By also introducing the concept of "angio-space," which is the tumoral space occupied by the microvessels, we here present fractal analysis as the most reliable computational tool able to offer objective parameters for the description of the microvascular networks.The spectrum of different angioarchitectural configurations can be quantified by means of Euclidean and fractal-based parameters in a multiparametric analysis, aimed to offer surrogate biomarkers of cancer. Such parameters are here described from the methodological point of view (i.e., feature extraction) as well as from the clinical perspective (i.e., relation to underlying physiology), in order to offer new computational parameters to the clinicians with the final goal of improving diagnostic and prognostic power of patients affected by brain tumors.

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基于计算分形的脑肿瘤微血管网络分析
脑实质微血管在肿瘤出现时会变得混乱,而恶性脑肿瘤是人类血管最发达的肿瘤之一。由于微血管在组织学标本中很容易识别,因此可以单独或结合其他组织学特征对微血管进行量化,从而加深对脑肿瘤动态行为、诊断和预后的了解。不同的脑肿瘤,甚至同一肿瘤的亚型,都会表现出特定的微血管模式,这是一种 "微血管指纹",是每种组织类型所特有的。对肿瘤血管结构进行定性和定量描述需要可靠的形态计量参数,但由于缺乏能够客观量化微血管模式的标准化技术,限制了神经肿瘤学中的 "形态计量方法"。通过引入 "血管空间"(即微血管占据的肿瘤空间)的概念,我们将分形分析作为最可靠的计算工具,为微血管网络的描述提供客观参数。本文从方法学角度(即特征提取)和临床角度(即与潜在生理学的关系)描述了这些参数,以便为临床医生提供新的计算参数,最终目标是提高脑肿瘤患者的诊断和预后能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in neurobiology
Advances in neurobiology Neuroscience-Neurology
CiteScore
2.80
自引率
0.00%
发文量
0
期刊最新文献
A Self-Similarity Logic May Shape the Organization of the Nervous System. Advances in Understanding Fractals in Affective and Anxiety Disorders. Analyzing Eye Paths Using Fractals. Box-Counting Fractal Analysis: A Primer for the Clinician. Clinical Sensitivity of Fractal Neurodynamics.
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