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Fengting Ji
Fengting Ji
Verified email at pitt.edu - Homepage
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Year
Instant polarized light microscopy for imaging collagen microarchitecture and dynamics
B Yang, PY Lee, Y Hua, B Brazile, S Waxman, F Ji, Z Zhu, IA Sigal
Journal of biophotonics 14 (2), e202000326, 2021
142021
Real-time imaging of optic nerve head collagen microstructure and biomechanics using instant polarized light microscopy
PY Lee, B Yang, Y Hua, S Waxman, Z Zhu, F Ji, IA Sigal
Experimental eye research 217, 108967, 2022
102022
A direct fiber approach to model sclera collagen architecture and biomechanics
F Ji, M Bansal, B Wang, Y Hua, MR Islam, F Matuschke, M Axer, IA Sigal
Experimental eye research 232, 109510, 2023
22023
Mechanical anisotropy of the equatorial sclera does not concur with its preferred fiber orientation
Y Hua, M Quinn, F Ji, S Salinas, R Amini, IA Sigal
Investigative Ophthalmology & Visual Science 63 (7), 2731–A0095-2731–A0095, 2022
22022
Mechanical properties of scleral collagen fibers obtained using a new fiber-based specimen-specific model of sclera microstructure.
F Ji, M Bansal, B Wang, Y Hua, IA Sigal
Investigative Ophthalmology & Visual Science 62 (8), 1652-1652, 2021
22021
Microstructural evidence that lamina cribrosa beams (LC), peripapillary sclera (PPS) and central retinal artery (CRA) have distinct mechanical behaviors when stretched
PY Lee, B Yang, Z Zhu, F Ji, Y Hua, IA Sigal
Investigative Ophthalmology & Visual Science 61 (7), 4783-4783, 2020
22020
Characterization of lamina cribrosa beam insertion into the sclera canal in sheep, pig, monkey, and human
F Ji, B Yang, Y Hua, PY Lee, Z Zhu, IA Sigal
Investigative Ophthalmology & Visual Science 61 (7), 4782-4782, 2020
22020
Instant polarized light microscopy for real-time wide-field visualization of collagen architecture, Label-free Biomedical Imaging and Sensing (LBIS) 2020
PY Lee, B Yang, Y Hua, B Brazile, F Ji, Z Zhu, GA Fryc, IA Sigal
International Society for Optics and Photonics Y 112510, 2020
22020
2D or not 2D? Mapping the in-depth inclination of the collagen fibers of the corneoscleral shell
F Ji, M Quinn, Y Hua, PY Lee, IA Sigal
Experimental Eye Research 237, 109701, 2023
12023
Eye-specific 3D modeling of factors influencing oxygen concentration in the lamina cribrosa
Y Hua, Y Lu, J Walker, PY Lee, Q Tian, H McDonald, P Pallares, F Ji, ...
Experimental Eye Research 220, 109105, 2022
12022
Corneo-sclera collagen fibers exhibit substantial transverse inclination
F Ji, M Quinn, M Bansal, Y Hua, IA Sigal
Investigative Ophthalmology & Visual Science 63 (7), 2719–A0083-2719–A0083, 2022
12022
基于 CPLD 的 LED 亮度调节系统设计
雷飚, 李强, 姬沣庭
电子技术与软件工程, 169-171, 2014
12014
Fibrous finite element modeling of the optic nerve head region
MR Islam, F Ji, M Bansal, Y Hua, IA Sigal
Acta Biomaterialia 175, 123-137, 2024
2024
Unraveling Ocular Tissue Biomechanics: Characterizing Collagen Microstructural Features and Introducing Direct Fiber Modeling
F Ji
University of Pittsburgh, 2024
2024
Variations in lamina cribrosa insertions into the sclera may contribute to regional differences in neural tissue damage and sensitivity to elevated intraocular pressure
F Ji, P Lam, BL Brazile, Y Hua, IA Sigal
Investigative Ophthalmology & Visual Science 64 (8), 61-61, 2023
2023
Characterizing femtosecond laser effects on collagen (Conference Presentation)
PY Lee, Y Lu, M Quinn, S Waxman, F Ji, GA Gibson, B Yang, IA Sigal
Optical Elastography and Tissue Biomechanics X, PC123810H, 2023
2023
Real-time structured polarized light imaging (rtSPLI) for thick ocular tissue dynamics
B Yang, PY Lee, M Echard, Z Zhu, F Ji, B Bernarding, IA Sigal
Investigative Ophthalmology & Visual Science 61 (9), PB0022-PB0022, 2020
2020
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