In this paper, a polarization‐sensitive optical coherence tomography (PS‐OCT) based polarization coherency matrix tomography (PCMT) combining polarization coherency matrix with Mueller matrix is proposed for the determination of complete polarization properties of tissue. PCMT measures the Jones matrix of biological sample based on similar transformation, in which four elements have initial random phase from different polarization states based on traditional PS‐OCT. The results indicate that PCMT can eliminate the phase difference of incident lights with different polarization states. In addition, the polarization coherency matrix using three polarization states has complete information of the sample Jones matrix. Finally, the 16 elements of the sample Mueller matrix are applied for deriving fully polarized optical properties of the sample based on the elliptical diattenuator and the elliptical retarder. Thus, the method based on the PCM and Mueller matrix has the advantage over the traditional PS‐OCT.
Due to the advantages of high sensitivity, high resolution and nondestructive in vivo three-dimensional detection, Optical Coherence Tomography has been widely studied in various fields such as biology, genetics and medicine. Zebrafish is a kind of freshwater fish, whose embryos are easy to reproduce in large numbers and have high transparency for observation.In particular, the genetic homology between zebrafish and human is as high as 70%, which makes zebrafish gradually become an excellent model for studying human development or various serious diseases. In this study, a method for continuous observation of zebrafish embryos using OCT was proposed. In this experiment, the development of zebrafish embryos before hatching (0dpf-3dpf) was continuous observed by OCT, and the proportion of yolk sac to embryo volume was extracted and quantified. The proportion of embryos collected by OCT was compared with the proportion of zebrafish embryos observed by microscope. All experiments were repeated three times. The results show that the method of quantification of zebrafish embryo development by OCT can not only observe the internal development structure of the embryo, but also calculate the volume proportion of embryo development more accurately than microscope. This method provides a more rapid and precise important means for early clinical judgment of embryo development.
In this study, the modified spectral domain polarization-sensitive optical coherence tomography (SD PS-OCT) is proposed for determining the birefringence of the myocardial tissue. In this modified SD PS-OCT, the circular polarization state of light was generated before entering the beam splitter. Thus, the polarization states in the reference and sample arms are both circular, and the symmetry between them is good without using additional Quarter-Wave Plate (QWP), which reduce the dispersion effect. The results demonstrated that theoretical analysis for determination of birefringence including the phase retardance and the fast axis orientation based on Stokes parameters of backscattered from biological tissue, which is different from the traditional SD PS-OCT. In addition, the phase retardance and the fast axis orientation was used to differentiate the myocaridal tissue in the diastole of the cardiac cycle the from that in the systole of the cardiac cycle. The findings suggest that the SD PS-OCT be a potential tool for the real-time monitoring the change of the myocardial wall during the cardiac cycle.
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