Brillouin Scattering Spectroscopy for studying human anatomy: Towards in situ mechanical characterization of soft tissue

IF 1.9 4区 物理与天体物理 Q3 OPTICS
K. Elsayad
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引用次数: 1

Abstract

Brillouin Light Scattering (BLS) spectroscopy is a label-free method of measuring the GHz-frequency viscoelastic properties. The measured longitudinal modulus is acutely sensitive to the degree of hydration, crosslinking, and temperature, which can be indicative of tissue health. As such, performing in situ measurements on humans is particularly desirable for exploring potential clinical translation, however, is not possible with existing designs which are coupled to bench-top microscopes. Here we introduce a robust fiber coupled hand-held BLS probe and demonstrate its reliability for measuring excised human tissue. We verify its accuracy using confocal BLS microscopy and further show that it is possible to distinguish veins, arteries, nerves and muscles based on their BLS-measured viscoelasticity. This provides a necessary first step towards in situ clinical BLS viscoelasticity studies of human tissue.
用于人体解剖学研究的布里渊散射光谱:软组织的原位力学表征
布里渊光散射(BLS)光谱是一种测量GHz频率粘弹性特性的无标记方法。测量的纵向模量对水合程度、交联程度和温度非常敏感,这可以指示组织健康。因此,对人类进行原位测量对于探索潜在的临床转化是特别可取的,然而,对于与台式显微镜耦合的现有设计来说,这是不可能的。在这里,我们介绍了一种坚固的光纤耦合手持式BLS探针,并证明了它在测量切除的人体组织方面的可靠性。我们使用共聚焦BLS显微镜验证了其准确性,并进一步表明,可以根据BLS测量的粘弹性来区分静脉、动脉、神经和肌肉。这为人类组织的原位临床BLS粘弹性研究提供了必要的第一步。
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来源期刊
CiteScore
2.40
自引率
0.00%
发文量
12
审稿时长
5 weeks
期刊介绍: Rapid progress in optics and photonics has broadened its application enormously into many branches, including information and communication technology, security, sensing, bio- and medical sciences, healthcare and chemistry. Recent achievements in other sciences have allowed continual discovery of new natural mysteries and formulation of challenging goals for optics that require further development of modern concepts and running fundamental research. The Journal of the European Optical Society – Rapid Publications (JEOS:RP) aims to tackle all of the aforementioned points in the form of prompt, scientific, high-quality communications that report on the latest findings. It presents emerging technologies and outlining strategic goals in optics and photonics. The journal covers both fundamental and applied topics, including but not limited to: Classical and quantum optics Light/matter interaction Optical communication Micro- and nanooptics Nonlinear optical phenomena Optical materials Optical metrology Optical spectroscopy Colour research Nano and metamaterials Modern photonics technology Optical engineering, design and instrumentation Optical applications in bio-physics and medicine Interdisciplinary fields using photonics, such as in energy, climate change and cultural heritage The journal aims to provide readers with recent and important achievements in optics/photonics and, as its name suggests, it strives for the shortest possible publication time.
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