Ellen Ziyi Zhang scite author profile

Polarization mode dispersion (PMD) has been recognized as a significant barrier to sensitive and reproducible birefringence measurements with fiber-based, polarization-sensitive optical coherence tomography systems. Here, we present a signal processing strategy that reconstructs the local retardation robustly in the presence of system PMD. The algorithm uses a spectral binning approach to limit the detrimental impact of system PMD and benefits from the final averaging of the PMD-corrected retardation vectors of the spectral bins. The algorithm was validated with numerical simulations and experimental measurements of a rubber phantom. When applied to the imaging of human cadaveric coronary arteries, the algorithm was found to yield a substantial improvement in the reconstructed birefringence maps.

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Artifacts in polarization-sensitive optical coherence tomography caused by polarization mode dispersion

Villiger

Zhang

Nadkarni

et al. 2013

Opt. Lett.

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Polarization Mode Dispersion (PMD) severely degrades images of biological tissue measured with polarization sensitive Optical Coherence Tomography (PS-OCT). It adds a bias to the local retardation value that can be spatially confined, resulting in regions of seemingly high sample birefringence that are purely artificial. Here, we demonstrate and analyze this effect, both experimentally and with numerical simulations, and show that artifacts can be avoided by limiting the system PMD to less than the system axial resolution. Even then, spatial averaging over a dimension larger than that characteristic of speckle is required to remove a PMD-induced bias of the local retardation values.

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Combined reflectance confocal microscopy/optical coherence tomography imaging for skin burn assessment

Iftimia¹,

Ferguson²,

Mujat³

et al. 2013

Biomed. Opt. Express

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A combined high-resolution reflectance confocal microscopy (RCM)/optical coherence tomography (OCT) instrument for assessing skin burn gravity has been built and tested. This instruments allows for visualizing skin intracellular details with submicron resolution in the RCM mode and morphological and birefringence modifications to depths on the order of 1.2 mm in the OCT mode. Preliminary testing of the dual modality imaging approach has been performed on the skin of volunteers with some burn scars and on normal and thermally-injured Epiderm FTTM skin constructs. The initial results show that these two optical technologies have complementary capabilities that can offer the clinician a set of clinically comprehensive parameters: OCT helps to visualize deeper burn injuries and possibly quantify collagen destruction by measuring skin birefringence, while RCM provides submicron details of the integrity of the epidermal layer and identifies the presence of the superficial blood flow in the upper dermis. Therefore, the combination of these two technologies within the same instrument may provide a more comprehensive set of parameters that may help clinicians to more objectively and nonivasively assess burn injury gravity by determining tissue structural integrity and viability.

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Numerical compensation of system polarization mode dispersion in polarization-sensitive optical coherence tomography

Zhang

Villiger

et al. 2013

Opt. Express

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Polarization mode dispersion (PMD), which can be induced by circulators or even moderate lengths of optical fiber, is known to be a dominant source of instrumentation noise in fiber-based PS-OCT systems. In this paper we propose a novel PMD compensation method that measures system PMD using three fixed calibration signals, numerically corrects for these instrument effects and reconstructs an improved sample image. Using a frequency multiplexed PS-OFDI setup, we validate the proposed method by comparing birefringence noise in images of intralipid, muscle, and tendon with and without PMD compensation.

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Ellen Ziyi Zhang

Spectral binning for mitigation of polarization mode dispersion artifacts in catheter-based optical frequency domain imaging

Artifacts in polarization-sensitive optical coherence tomography caused by polarization mode dispersion

Combined reflectance confocal microscopy/optical coherence tomography imaging for skin burn assessment

Numerical compensation of system polarization mode dispersion in polarization-sensitive optical coherence tomography

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