Stiffness Comparison of Tissue Phantoms using Optical Coherence Elastography without a Load Cell

Abstract: Mechanical property of tissue is closely related to diseases such as breast cancer, prostate cancer, cirrhosis of the liver, and atherosclerosis. Therefore measurement of tissue mechanical property is important for a better diagnosis. Ultrasound elastography has been developed as a diagnostic modality for a number of diseases that maps mechanical property of tissue. Optical coherence elastography (OCE) has a higher spatial resolution than ultrasound elastography. OCE, therefore, could be a great help for early… Show more

“…Figure 5 shows the spatial frequency spectra of the polymer-overlaid microfiber MZI (transformed using FFT) as the applied temperature increases. The zero padding method was applied to enhance the frequency resolution and analysis accuracy [ 31 ]. Figure 6 a,b show the spatial frequency shift (Δ f ) with and without polymer overlay, respectively, as a function of temperature.…”

Investigation of Temperature Sensitivity of a Polymer-Overlaid Microfiber Mach-Zehnder Interferometer

“…Figure 5 shows the spatial frequency spectra of the polymer-overlaid microfiber MZI (transformed using FFT) as the applied temperature increases. The zero padding method was applied to enhance the frequency resolution and analysis accuracy [ 31 ]. Figure 6 a,b show the spatial frequency shift (Δ f ) with and without polymer overlay, respectively, as a function of temperature.…”

Investigation of Temperature Sensitivity of a Polymer-Overlaid Microfiber Mach-Zehnder Interferometer

Relative Humidity Sensor Based on a Few-Mode Microfiber Knot Resonator by Mitigating the Group Index Difference of a Few-Mode Microfiber

Tissue-like phantoms mimicking blood vessel for intravascular optical coherence tomography