Michele Furlani, Nicole Riberti, Maria Laura Gatto, Alessandra Giuliani
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引用次数: 0
Abstract
Phase-contrast X-ray imaging is becoming increasingly considered since its first applications, which occurred almost 30 years ago. Particular emphasis was placed on studies that use this technique to investigate soft tissues, which cannot otherwise be investigated at a high resolution and in a three-dimensional manner, using conventional absorption-based settings. Indeed, its consistency and discrimination power in low absorbing samples, unified to being a not destructive analysis, are pushing interests on its utilization from researchers of different specializations, from botany, through zoology, to human physio-pathology research. In this regard, a challenging method for 3D imaging and quantitative analysis of collagenous tissues has spread in recent years: it is based on the unique characteristics of synchrotron radiation phase-contrast microTomography (PhC-microCT). In this review, the focus has been placed on the research based on the exploitation of synchrotron PhC-microCT for the investigation of collagenous tissue physio-pathologies from solely human samples. Collagen tissues' elasto-mechanic role bonds it to the morphology of the site it is extracted from, which could weaken the results coming from animal experimentations. Encouraging outcomes proved this technique to be suitable to access and quantify human collagenous tissues and persuaded different researchers to approach it. A brief mention was also dedicated to the results obtained on collagenous tissues using new and promising high-resolution phase-contrast tomographic laboratory-based setups, which will certainly represent the real step forward in the diffusion of this relatively young imaging technique.
相位对比 X 射线成像技术自 30 年前首次应用以来,越来越受到重视。研究重点尤其放在利用该技术研究软组织上,因为使用传统的基于吸收的设置无法以高分辨率和三维方式研究软组织。事实上,由于该技术在低吸收样本中的一致性和鉴别力,以及不具有破坏性的分析特性,从植物学、动物学到人类生理病理学研究等不同专业的研究人员都对该技术产生了浓厚的兴趣。在这方面,近年来出现了一种具有挑战性的胶原组织三维成像和定量分析方法:它基于同步辐射相位对比显微断层扫描(PhC-microCT)的独特特性。在这篇综述中,重点介绍了利用同步辐射相位对比显微断层扫描(PhC-microCT)研究人体样本中胶原组织的生理病理变化。胶原组织的弹性力学作用将其与提取部位的形态联系在一起,这可能会削弱动物实验的结果。令人鼓舞的结果证明,这种技术适用于获取和量化人体胶原组织,并说服了不同的研究人员采用这种技术。此外,还简要介绍了利用新的、有前途的高分辨率相位对比断层成像实验室设备对胶原组织进行研究的结果,这无疑将代表着这一相对年轻的成像技术在推广过程中向前迈出了真正的一步。
TomographyMedicine-Radiology, Nuclear Medicine and Imaging
CiteScore
2.70
自引率
10.50%
发文量
222
期刊介绍:
TomographyTM publishes basic (technical and pre-clinical) and clinical scientific articles which involve the advancement of imaging technologies. Tomography encompasses studies that use single or multiple imaging modalities including for example CT, US, PET, SPECT, MR and hyperpolarization technologies, as well as optical modalities (i.e. bioluminescence, photoacoustic, endomicroscopy, fiber optic imaging and optical computed tomography) in basic sciences, engineering, preclinical and clinical medicine.
Tomography also welcomes studies involving exploration and refinement of contrast mechanisms and image-derived metrics within and across modalities toward the development of novel imaging probes for image-based feedback and intervention. The use of imaging in biology and medicine provides unparalleled opportunities to noninvasively interrogate tissues to obtain real-time dynamic and quantitative information required for diagnosis and response to interventions and to follow evolving pathological conditions. As multi-modal studies and the complexities of imaging technologies themselves are ever increasing to provide advanced information to scientists and clinicians.
Tomography provides a unique publication venue allowing investigators the opportunity to more precisely communicate integrated findings related to the diverse and heterogeneous features associated with underlying anatomical, physiological, functional, metabolic and molecular genetic activities of normal and diseased tissue. Thus Tomography publishes peer-reviewed articles which involve the broad use of imaging of any tissue and disease type including both preclinical and clinical investigations. In addition, hardware/software along with chemical and molecular probe advances are welcome as they are deemed to significantly contribute towards the long-term goal of improving the overall impact of imaging on scientific and clinical discovery.