Manifestations of nonlinear elasticity of biological tissues in compressional optical coherence elastography

机译：压缩光学相干弹性成像中生物组织非线性弹性的表现

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We discuss the application of compressional OCT-based elastography for measuring elastic response of biological tissues in the strain range from fractions of one per cent up to strains over ~10% and greater. Such fairly large strains are not typical of phase-sensitive OCT-based elastographic methods and can be measurable due to application of interframe strain-estimation method in which interframe phase gradients are estimated without the necessity of preliminary measuring total displacements of scattering particles in combination with summation of interframe strains. For estimating applied stresses, intervenient soft layer of translucent silicone is used a a reference fairly linear material. The obtained results based on comparison of strains in the reference layer and tissue demonstrate highly nonlinear character of elasticity of biological tissues even for rather moderate strains on order of several per cent.

机译：我们讨论了基于压缩OCT的弹性成像技术在测量应变范围内生物组织的弹性反应中的应用，应变范围从百分之一到百分之十以上。这种相当大的应变在基于相敏OCT的弹性成像方法中并不常见，并且可以通过应用帧间应变估计方法进行测量，该方法可以估计帧间相位梯度，而无需预先测量散射粒子的总位移并结合框架间应变之和。为了估计施加的应力，半透明硅酮的中间柔软层用作参考的相当线性的材料。通过比较参考层和组织中的应变而获得的结果表明，即使对于相当数量级的中等应变，生物组织的弹性也具有高度非线性的特征。

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来源
《Novel biophotonics techniques and applications IV》|2017年|1041304.1-1041304.4|共4页
会议地点 Munich(DE)
作者
Vladimir Yu. Zaitsev; Alexander L. Matveyev; Lev A. Matveev; Ekaterina V. Gubarkova; Aleksandr A. Sovetsky; Marina A. Sirotkina; Grigory V. Gelikonov; Elena V. Zagaynova; Natalia D. Gladkova; Alex Vitkin;
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作者单位

Institute of Applied Physics Russian Academy of Sciences, Ulyanov Street 46, 603950 Nizhniy Novgorod, Russia,Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Institute of Applied Physics Russian Academy of Sciences, Ulyanov Street 46, 603950 Nizhniy Novgorod, Russia,Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Institute of Applied Physics Russian Academy of Sciences, Ulyanov Street 46, 603950 Nizhniy Novgorod, Russia,Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Institute of Applied Physics Russian Academy of Sciences, Ulyanov Street 46, 603950 Nizhniy Novgorod, Russia;

Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Institute of Applied Physics Russian Academy of Sciences, Ulyanov Street 46, 603950 Nizhniy Novgorod, Russia,Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia;

Nizhny Novgorod State Medical Academy, Minina Square 10/1, 603005 Nizhny Novgorod, Russia,University of Toronto and University Health Network, 610 University Ave., Toronto, Ontario, M5G 2M9, Canada;

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原文格式 PDF
正文语种 eng
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关键词
Optical coherence tomography; Compressional optical coherence elastography; Tissue characterization;

机译：光学相干断层扫描；压缩光学相干弹性成像；组织表征;
入库时间 2022-08-26 13:44:31

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专利

1. Full-optical method of local stress standardization to exclude nonlinearity-related ambiguity of elasticity estimation in compressional optical coherence elastography [J] . Laser physics letters . 2020,第6期

机译：局部应力标准化的全光学方法，以排除压缩光学相干弹性术中弹性估计的非线性相关模糊性
2. Quantitative micro-elastography: imaging of tissue elasticity using compression optical coherence elastography [J] . Kelsey M. Kennedy, Lixin Chin, Robert A. McLaughlin, Scientific reports. . 2015,第期

机译：定量微弹性成像：使用压缩光学相干弹性术的组织弹性成像
3. Practical obstacles and their mitigation strategies in compressional optical coherence elastography of biological tissues [J] . Gladkova Natalia D, Zaitsev Vladimir Y, Gelikonov Grigory V, Journal of innovative optical health sciences . 2017,第06期

机译：生物组织压缩光学相干弹性成像中的实际障碍及其缓解策略
4. Manifestations of nonlinear elasticity of biological tissues in compressional optical coherence elastography [C] . Vladimir Yu. Zaitsev, Alexander L. Matveyev, Lev A. Matveev, Conference on novel biophotonics techniques and applications IV . 2017

机译：压缩光学相干弹性术中生物组织非线性弹性的表现
5. Development of Acoustic Radiation Force Optical Coherence Elastography System for in vivo Mapping of Biological Tissues [D] . Qu, Yueqiao. 2018

机译：生物组织体内测绘声学辐射力光学相干弹性术系统的研制
6. Quantitative micro-elastography: imaging of tissue elasticity using compression optical coherence elastography [O] . Kelsey M. Kennedy, Lixin Chin, Robert A. McLaughlin, -1

机译：定量微弹性成像：使用压缩光学相干弹性成像对组织弹性成像
7. Quantitative micro-elastography: imaging of tissue elasticity using compression optical coherence elastography [O] . Kennedy K., Chin L., McLaughlin R., 2015

机译：定量微弹性成像：使用压缩光学相干弹性成像对组织弹性进行成像

Manifestations of nonlinear elasticity of biological tissues in compressional optical coherence elastography

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