Nonlinear optical microscopy: use of second harmonic generation and two-photon microscopy for automated quantitative liver fibrosis studies

Sun, Wanxin; Chang, Shi Chuan; Tai, Dean; Tan, Nicholas Y.; Xiao, Guangfa; Tang, Huiqin; Yu, Hanry

doi:10.1117/1.3041159

Cited by 121 publications

(112 citation statements)

References 38 publications

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“…Many metrics have been developed to exploit these differences [13]. For example, several schemes based on analyzing topographic patterns using image processing techniques including fast Fourier transforms, wavelet transforms, Helmholtz analysis, and grey scale co-occurrence matrix have been implemented [11,[14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Precise, motion-free polarization control in Second Harmonic Generation microscopy using a liquid crystal modulator in the infinity space

Lien

Tilbury

Chen

et al. 2013

Biomed. Opt. Express

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Second Harmonic Generation (SHG) microscopy coupled with polarization analysis has great potential for use in tissue characterization, as molecular and supramolecular structural details can be extracted. Such measurements are difficult to perform quickly and accurately. Here we present a new method that uses a liquid crystal modulator (LCM) located in the infinity space of a SHG laser scanning microscope that allows the generation of any desired linear or circular polarization state. As the device contains no moving parts, polarization can be rotated accurately and faster than by manual or motorized control. The performance in terms of polarization purity was validated using Stokes vector polarimetry, and found to have minimal residual polarization ellipticity. SHG polarization imaging characteristics were validated against well-characterized specimens having cylindrical and/or linear symmetries. The LCM has a small footprint and can be implemented easily in any standard microscope and is cost effective relative to other technologies.

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Section: Introductionmentioning

confidence: 99%

Precise, motion-free polarization control in Second Harmonic Generation microscopy using a liquid crystal modulator in the infinity space

Lien

Tilbury

Chen

et al. 2013

Biomed. Opt. Express

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show abstract

“…SHG microscopy has already emerged as a highly sensitive/ specific probe of collagen architecture changes in several diseases, including many cancers, 10,11,[14][15][16][17][18] connective tissue disorders, 19,20 and fibroses. 21,22 All these diseases are characterized by changes in alterations of collagen density, fibrillar organization, collagen isoform distribution, and combinations thereof. We previously utilized three-dimensional (3-D) imaging in combination with the measurement of bulk optical properties and Monte Carlo simulations to differentiate normal ovarian stroma and high grade serous carcinomas.…”

Section: Introductionmentioning

confidence: 99%

Texture analysis applied to second harmonic generation image data for ovarian cancer classification

et al. 2014

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Abstract. Remodeling of the extracellular matrix has been implicated in ovarian cancer. To quantitate the remodeling, we implement a form of texture analysis to delineate the collagen fibrillar morphology observed in second harmonic generation microscopy images of human normal and high grade malignant ovarian tissues. In the learning stage, a dictionary of "textons"-frequently occurring texture features that are identified by measuring the image response to a filter bank of various shapes, sizes, and orientations-is created. By calculating a representative model based on the texton distribution for each tissue type using a training set of respective second harmonic generation images, we then perform classification between images of normal and high grade malignant ovarian tissues. By optimizing the number of textons and nearest neighbors, we achieved classification accuracy up to 97% based on the area under receiver operating characteristic curves (true positives versus false positives). The local analysis algorithm is a more general method to probe rapidly changing fibrillar morphologies than global analyses such as FFT. It is also more versatile than other texture approaches as the filter bank can be highly tailored to specific applications (e.g., different disease states) by creating customized libraries based on common image features. © The Authors. Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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“…However, despite these advantages, it is only over the last few years that SHG imaging of collagen structures in tissue has begun to be adopted more widely. A recent review was published on the development and burgeoning use of SHG imaging in the clinic to investigate collagen remodelling in cancer in ex vivo and in vivo human tissue [28]; changes in collagen structure during fibrosis are also being monitored; ex vivo in humans, in vivo in animals, by SHG imaging [29][30][31]. In addition SHG imaging is now playing an important role in non-invasive imaging of collagen structure, formation and remodelling in tissue engineering and regenerative medicine, as reviewed recently by Vielreciher et al [32].…”

Section: Discussionmentioning

confidence: 99%

Measurement of Friction-induced Changes in Pig Aorta Fibre Organization by Non-invasive Imaging as a Model for Detecting the Tissue Response to Endovascular Catheters

et al. 2017

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Nonlinear optical microscopy: use of second harmonic generation and two-photon microscopy for automated quantitative liver fibrosis studies

Cited by 121 publications

References 38 publications

Precise, motion-free polarization control in Second Harmonic Generation microscopy using a liquid crystal modulator in the infinity space

Precise, motion-free polarization control in Second Harmonic Generation microscopy using a liquid crystal modulator in the infinity space

Texture analysis applied to second harmonic generation image data for ovarian cancer classification

Measurement of Friction-induced Changes in Pig Aorta Fibre Organization by Non-invasive Imaging as a Model for Detecting the Tissue Response to Endovascular Catheters

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