Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues
This study investigates the autocorrelation bandwidths of dual-window (DW) optical coherence tomography (OCT) k-space scattering profile of different-sized microspheres and their correlation to scatterer size. A dual-bandwidth spectroscopic metric defined as the ratio of the 10% to 90% autocorrelati...
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sg-ntu-dr.10356-958762020-03-07T14:02:45Z Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues Ng, Beng Koon Tay, Benjamin Chia Meng Chow, Tzu-Hao Loh, Thomas Kwok-Seng School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering This study investigates the autocorrelation bandwidths of dual-window (DW) optical coherence tomography (OCT) k-space scattering profile of different-sized microspheres and their correlation to scatterer size. A dual-bandwidth spectroscopic metric defined as the ratio of the 10% to 90% autocorrelation bandwidths is found to change monotonically with microsphere size and gives the best contrast enhancement for scatterer size differentiation in the resulting spectroscopic image. A simulation model supports the experimental results and revealed a tradeoff between the smallest detectable scatterer size and the maximum scatterer size in the linear range of the dual-window dual-bandwidth (DWDB) metric, which depends on the choice of the light source optical bandwidth. Spectroscopic OCT (SOCT) images of microspheres and tonsil tissue samples based on the proposed DWDB metric showed clear differentiation between different-sized scatterers as compared to those derived from conventional short-time Fourier transform metrics. The DWDB metric significantly improves the contrast in SOCT imaging and can aid the visualization and identification of dissimilar scatterer size in a sample. Potential applications include the early detection of cell nuclear changes in tissue carcinogenesis, the monitoring of healing tendons, and cell proliferation in tissue scaffolds. 2013-07-12T06:13:43Z 2019-12-06T19:22:40Z 2013-07-12T06:13:43Z 2019-12-06T19:22:40Z 2012 2012 Journal Article Tay, B. C. M., Chow, T. H., Ng, B. K., & Loh, T. K. S. (2012). Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues. IEEE Transactions on Biomedical Engineering, 59(9), 2439-2448. 0018-9294 https://hdl.handle.net/10356/95876 http://hdl.handle.net/10220/11323 10.1109/TBME.2012.2202391 en IEEE transactions on biomedical engineering © 2012 IEEE. |
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DRNTU::Engineering::Electrical and electronic engineering Ng, Beng Koon Tay, Benjamin Chia Meng Chow, Tzu-Hao Loh, Thomas Kwok-Seng Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
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This study investigates the autocorrelation bandwidths of dual-window (DW) optical coherence tomography (OCT) k-space scattering profile of different-sized microspheres and their correlation to scatterer size. A dual-bandwidth spectroscopic metric defined as the ratio of the 10% to 90% autocorrelation bandwidths is found to change monotonically with microsphere size and gives the best contrast enhancement for scatterer size differentiation in the resulting spectroscopic image. A simulation model supports the experimental results and revealed a tradeoff between the smallest detectable scatterer size and the maximum scatterer size in the linear range of the dual-window dual-bandwidth (DWDB) metric, which depends on the choice of the light source optical bandwidth. Spectroscopic OCT (SOCT) images of microspheres and tonsil tissue samples based on the proposed DWDB metric showed clear differentiation between different-sized scatterers as compared to those derived from conventional short-time Fourier transform metrics. The DWDB metric significantly improves the contrast in SOCT imaging and can aid the visualization and identification of dissimilar scatterer size in a sample. Potential applications include the early detection of cell nuclear changes in tissue carcinogenesis, the monitoring of healing tendons, and cell proliferation in tissue scaffolds. |
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School of Electrical and Electronic Engineering |
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School of Electrical and Electronic Engineering Ng, Beng Koon Tay, Benjamin Chia Meng Chow, Tzu-Hao Loh, Thomas Kwok-Seng |
| format |
Article |
| author |
Ng, Beng Koon Tay, Benjamin Chia Meng Chow, Tzu-Hao Loh, Thomas Kwok-Seng |
| author_sort |
Ng, Beng Koon |
| title |
Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
| title_short |
Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
| title_full |
Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
| title_fullStr |
Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
| title_full_unstemmed |
Dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
| title_sort |
dual-window dual-bandwidth spectroscopic optical coherence tomography metric for qualitative scatterer size differentiation in tissues |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/95876 http://hdl.handle.net/10220/11323 |
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1681035018780016640 |