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22 results on '"Hwang, Yunchan"'

1. Unsupervised detection of small hyperreflective features in ultrahigh resolution optical coherence tomography

Author

Reimann, Marcel, Won, Jungeun, Takahashi, Hiroyuki, Yaghy, Antonio, Hwang, Yunchan, Ploner, Stefan, Lin, Junhong, Girgis, Jessica, Lam, Kenneth, Chen, Siyu, Waheed, Nadia K., Maier, Andreas, and Fujimoto, James G.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advances in optical coherence tomography such as the development of high speed ultrahigh resolution scanners and corresponding signal processing techniques may reveal new potential biomarkers in retinal diseases. Newly visible features are, for example, small hyperreflective specks in age-related macular degeneration. Identifying these new markers is crucial to investigate potential association with disease progression and treatment outcomes. Therefore, it is necessary to reliably detect these features in 3D volumetric scans. Because manual labeling of entire volumes is infeasible a need for automatic detection arises. Labeled datasets are often not publicly available and there are usually large variations in scan protocols and scanner types. Thus, this work focuses on an unsupervised approach that is based on local peak-detection and random walker segmentation to detect small features on each B-scan of the volume., Comment: Accepted as poster at BVM workshop 2023 (https://www.bvm-workshop.org/). The arXiv version provides full quality figures. 6 pages content (2 figures)

Published
2023

2. Retinal blood flow speed quantification at the capillary level using temporal autocorrelation fitting OCTA

Author

Hwang, Yunchan, Won, Jungeun, Yaghy, Antonio, Takahashi, Hiroyuki, Girgis, Jessica M., Lam, Kenneth, Chen, Siyu, Moult, Eric M., Ploner, Stefan B., Maier, Andreas, Waheed, Nadia K., and Fujimoto, James G.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Optical coherence tomography angiography (OCTA) can visualize vasculature structures, but provides limited information about the blood flow speeds. Here, we present a second generation variable interscan time analysis (VISTA) OCTA, which evaluates a quantitative surrogate marker for blood flow speed in vasculature. At the capillary level, spatially compiled OCTA and a simple temporal autocorrelation model, {\rho}({\tau}) = exp(-{\alpha}{\tau}), were used to evaluate a temporal autocorrelation decay constant, {\alpha}, as the blood flow speed marker. A 600 kHz A-scan rate swept-source provides short interscan time OCTA and fine A-scan spacing acquisition, while maintaining multi mm2 field of views for human retinal imaging. We demonstrate the cardiac pulsatility and repeatability of {\alpha} measured with VISTA. We show different {\alpha} for different retinal capillary plexuses in healthy eyes and present representative VISTA OCTA of eyes with diabetic retinopathy.

Published
2023

3. B1+ Homogenization in 7T MRI Using Mode-shaping with High Permittivity Materials

Author

Hwang, Yunchan, Noh, Hansol, Park, Minkyu, Lee, Jongho, and Park, Namkyoo

Subjects
Physics - Medical Physics
Abstract

Ultra high field (UHF) brain MRI has proved its value by providing enhanced SNR, contrast, and higher resolution derived from the higher magnetic field (B0). Nonetheless, with the increased B0 of UHF MRI, the transmit RF magnetic field (B1+) inhomogeneity also became one of the critical issues requiring attention. As the effective wavelength of RF becomes comparable or smaller than the dimension of the brain at B0 larger than 7 Tesla, the increased B1+ inhomogeneity of UHF MRI results in poor SNR and uneven contrast. While parallel transmission techniques (PTx) and high permittivity material (HPM) structures for the mitigation of B1+ inhomogeneity have been suggested, the associated complexity in PTx and restricted volume of homogenization with HPM approach still remain as challenges. In this work, we address the B1+ inhomogeneity in the notion of mode-shaping. Treating a brain phantom as a dielectric potential-well resonator, we apply a phantom-conformal HPM potential-well in combination with a low-index potential barrier (air), to achieve the homogeneity of B1+ in the region of interest (ROI). Based on the electromagnetic simulations using a realistic brain model at 7T, we show that the proposed HPM structure reduces both the average deviation of B1+ in axial slices by 54% and peak SAR by 42%, respectively.

Published
2019

4. Unsupervised detection of Small Hyperreflective Features in Ultrahigh Resolution Optical Coherence Tomography

Author

Reimann, Marcel, primary, Won, Jungeun, additional, Takahashi, Hiroyuki, additional, Yaghy, Antonio, additional, Hwang, Yunchan, additional, Ploner, Stefan, additional, Lin, Junhong, additional, Girgis, Jessica, additional, Lam, Kenneth, additional, Chen, Siyu, additional, Waheed, Nadia K., additional, Maier, Andreas, additional, and Fujimoto, James G., additional

Published
2023
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9. Extended and adjustable field-of-view of variable interscan time analysis by ammonite-scanning swept-source optical coherence tomography angiography

Author

Mino, Toshihiro, primary, Moriguchi, Yoshikiyo, additional, Tamura, Masato, additional, Matsumoto, Akiko, additional, Kubota, Atsushi, additional, Akiba, Masahiro, additional, Hwang, Yunchan, additional, Makita, Shuichi, additional, Yasuno, Yoshiaki, additional, Enaida, Hiroshi, additional, Fujimoto, James G., additional, and Wang, Zhenguo, additional

Published
2023
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13. High speed, long range, deep penetration swept source OCT for structural and angiographic imaging of the anterior eye

Author

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Research Laboratory of Electronics, Harvard University--MIT Division of Health Sciences and Technology, Chen, Siyu, Potsaid, Benjamin, Li, Yan, Lin, Junhong, Hwang, Yunchan, Moult, Eric M, Zhang, Jason, Huang, David, Fujimoto, James G, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Research Laboratory of Electronics, Harvard University--MIT Division of Health Sciences and Technology, Chen, Siyu, Potsaid, Benjamin, Li, Yan, Lin, Junhong, Hwang, Yunchan, Moult, Eric M, Zhang, Jason, Huang, David, and Fujimoto, James G

Abstract

AbstractThis study reports the development of prototype swept-source optical coherence tomography (SS-OCT) technology for imaging the anterior eye. Advances in vertical-cavity surface-emitting laser (VCSEL) light sources, signal processing, optics and mechanical designs, enable a unique combination of high speed, long range, and deep penetration that addresses the challenges of anterior eye imaging. We demonstrate SS-OCT with a 325 kHz A-scan rate, 12.2 µm axial resolution (in air), and 15.5 mm depth range (in air) at 1310 nm wavelength. The ultrahigh 325 kHz A-scan rate not only facilitates biometry measurements by minimizing acquisition time and thus reducing motion, but also enables volumetric OCT for comprehensive structural analysis and OCT angiography (OCTA) for visualizing vasculature. The 15.5 mm (~ 11.6 mm in tissue) depth range spans all optical surfaces from the anterior cornea to the posterior lens capsule. The 1310 nm wavelength range enables structural OCT and OCTA deep in the sclera and through the iris. Achieving high speed and long range requires linearizing the VCSEL wavenumber sweep to efficiently utilize analog-to-digital conversion bandwidth. Dual channel recording of the OCT and calibration interferometer fringe signals, as well as sweep to sweep wavenumber compensation, is used to achieve invariant 12.2 µm (~ 9.1 µm in tissue) axial resolution and optimum point spread function throughout the depth range. Dynamic focusing using a tunable liquid lens extends the effective depth of field while preserving the lateral resolution. Improved optical and mechanical design, including parallax “split view” iris cameras and stable, ergonomic patient interface, facilitates accurate instrument positioning, reduces patient motion, and leads to improved imaging data yield and measurement accuracy. We present structural and angiographic OCT images of the anterior eye, demonstrating the unique imaging capabilities using represen

Published
2022

14. Growth Modeling for Quantitative, Spatially Resolved Geographic Atrophy Lesion Kinetics

Author

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Research Laboratory of Electronics, Harvard University--MIT Division of Health Sciences and Technology, Moult, Eric M, Hwang, Yunchan, Shi, Yingying, Wang, Liang, Chen, Siyu, Waheed, Nadia K, Gregori, Giovanni, Rosenfeld, Philip J, Fujimoto, James G, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Research Laboratory of Electronics, Harvard University--MIT Division of Health Sciences and Technology, Moult, Eric M, Hwang, Yunchan, Shi, Yingying, Wang, Liang, Chen, Siyu, Waheed, Nadia K, Gregori, Giovanni, Rosenfeld, Philip J, and Fujimoto, James G

Abstract

Purpose: To demonstrate the applicability of a growth modeling framework for quantifying spatial variations in geographic atrophy (GA) lesion kinetics. Methods: Thirty-eight eyes from 27 patients with GA secondary to age-related macular degeneration were imaged with a commercial swept source optical coherence tomography instrument at two visits separated by 1 year. Local GA growth rates were computed at 6-µm intervals along each lesion margin using a previously described growth model. Corresponding margin eccentricities, margin angles, and growth angles were also computed. The average GA growth rates conditioned on margin eccentricity, margin angle, growth angle, and fundus position were estimated via kernel regression. Results: A total of 88,356 GA margin points were analyzed. The average GA growth rates exhibited a hill-shaped dependency on eccentricity, being highest in the 0.5 mm to 1.6 mm range and lower on either side of that range. Average growth rates were also found to be higher for growth trajectories oriented away from (smaller growth angle), rather than toward (larger growth angle), the foveal center. The dependency of average growth rate on margin angle was less pronounced, although lesion segments in the superior and nasal aspects tended to grow faster. Conclusions: Our proposed growth modeling framework seems to be well-suited for generating accurate, spatially resolved GA growth rate atlases and should be confirmed on larger datasets. Translational Relevance: Our proposed growth modeling framework may enable more accurate measurements of spatial variations in GA growth rates.

Published
2022

15. Additional file 1 of Perfusable micro-vascularized 3D tissue array for high-throughput vascular phenotypic screening

Author

Yu, James, Lee, Somin, Song, Jiyoung, Lee, Seung-Ryeol, Kim, Suryong, Choi, Hyeri, Kang, Habin, Hwang, Yunchan, Hong, Young-Kwon, and Jeon, Noo Li

Abstract

Additional file 1. Angiogenesis and vasculogenesis patterning configurations and sample output. A) Schematic diagram of an angiogenesis assay. 1μL of acellular fibrin gel is patterned in the central lane (red), followed by 2.5μL of lung fibroblasts in fibrin gel (green) in the right side lane, and 2.5μL of HUVEC suspension deposited as a confluent monolayer is seeded in the left (blue) side lane. Flow from the LF to EC compartments is induced by adding media to the LF side reservoir. Adjusted standard deviations for Area, Total Length, and Branches are: 0.1118, 0.0626, and 0.2047, respectively. B) Sample 28 well imaging output of angiogenesis within a single injection molded chip, center lane (red) was selected as ROI. C) Compares the sizes of a conventional PDMS based equivalent chip with the MV-IMPACT platform. An individual unit well of a PDMS chip is 22.5mm by 23.5mm, the MV-IMPACT platform is 4.5mm by 3.3mm – the equivalent of two 384 well microtiter plate wells, or half of a 96 well microtiter plate well. D) Shows a sample readout of an equivalent angiogenic assay on the 3 by 3 PDMS chip. Adjusted standard deviations for Area, Total Length, and Branches are: 0.3007, 0.2850, and 0.3090.

Published
2022
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20. Improved resin‐to‐dentin bond strength and durability via non‐thermal atmospheric pressure plasma drying of etched dentin.

Author

Han, Geum‐Jun, Kim, Jun‐Min, Cho, Byeong‐Hoon, Hwang, Yunchan, and Kim, Hae‐Young

Subjects
ADHESIVES, COLLAGEN, DENTAL acid etching, DENTAL bonding, DENTAL resins, DENTIN, HELIUM, MATERIALS testing, PLASMA gases, RAMAN spectroscopy, SCANNING electron microscopy, TENSILE strength
Abstract

This study aimed to evaluate the improvement in strength and durability of the bond between dentin and composite resins following plasma drying of the etched dentin surface using non‐thermal atmospheric pressure plasma. Plasma drying was applied to the etched dentin before applying adhesive. Conventional wet‐bonding and helium (He) gas‐dried bonding schemes were used as control groups. The bond strength of the composite resin to dentin was measured as the microtensile bond strength at 24 h after bonding and after 10,000 cycles of thermocycling. Hybrid layer formation was observed using micro‐Raman spectroscopy and scanning electron microscopy. Although the bond‐strength values were not statistically different either at 24 h after bonding or after thermocycling, the bond strength of the plasma‐dried bonding group was significantly higher than the conventional wet‐bonding group and He gas‐dried bonding group. Micro‐Raman spectral analysis revealed effective penetration of the adhesive and an improved polymerization rate of the adhesive after plasma drying. Plasma drying increased the penetration of hydrophobic resin into the collagen mesh structure, which improved mechanical bonding and long‐term durability between dentin and composite resin. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Topographic Measurement of the Subretinal Pigment Epithelium Space in Normal Aging and Age-Related Macular Degeneration Using High-Resolution OCT.

Author

Won J, Takahashi H, Ploner SB, Karbole W, Abu-Qamar O, Yaghy A, Marmalidou A, Kaiser S, Hwang Y, Lin J, Witkin A, Desai S, Baumal CR, Maier A, Curcio CA, Waheed NK, and Fujimoto JG

Subjects
Humans, Aged, Middle Aged, Prospective Studies, Cross-Sectional Studies, Female, Male, Aged, 80 and over, Adult, Young Adult, Bruch Membrane pathology, Bruch Membrane diagnostic imaging, Macular Degeneration diagnosis, Macular Degeneration physiopathology, Tomography, Optical Coherence methods, Retinal Pigment Epithelium pathology, Retinal Pigment Epithelium diagnostic imaging, Aging physiology
Abstract

Purpose: A micrometer scale hyporeflective band within the retinal pigment epithelium basal lamina - Bruch's membrane complex (RPE-BL-BrM) was topographically measured in aging and age-related macular degeneration (AMD)., Methods: In a prospective cross-sectional study, 90 normal eyes from 76 subjects (range = 23-90 years) and 53 dry AMD eyes from 47 subjects (range = 62-91 years) were enrolled. Isotropic volume raster scans over 6 mm × 6 mm (500 × 500 A-scans) were acquired using a high-resolution (2.7 µm axial resolution) spectral-domain optical coherence tomography (SD-OCT) prototype instrument. Six consecutive optical coherence tomography (OCT) volumes were computationally motion-corrected and fused to improve feature visibility. A boundary regression neural network was developed to measure hyporeflective band thickness. Topographic dependence was evaluated over a 6-mm-diameter Early Treatment Diabetic Retinopathy Study (ETDRS) grid., Results: The hyporeflective band thickness map (median of 4.3 µm and 7.8 µm in normal and AMD eyes, respectively) is thicker below and radially symmetric around the fovea. In normal eyes, age-associated differences occur within 0.7 to 2.3 mm from the foveal center (P < 0.05). In AMD eyes, the hyporeflective band is hypothesized to be basal laminar deposits (BLamDs) and is thicker within the 3-mm ETDRS circle (P < 0.0002) compared with normal eyes. The inner ring is the most sensitive location to detect age versus AMD-associated changes within the RPE-BL-BrM. AMD eyes with subretinal drusenoid deposits (SDDs) have a significantly thicker hyporeflective band (P < 0.001) than those without SDDs., Conclusions: The hyporeflective band is a quantifiable biomarker which differentiates AMD from aging. Longitudinal studies are warranted. The hyporeflective band may be a useful biomarker for risk stratification and disease progression.

Published
2024
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