关注
Bingrui Wang
Bingrui Wang
在 pitt.edu 的电子邮件经过验证
标题
引用次数
引用次数
年份
Collagen fiber interweaving is central to sclera stiffness
B Wang, Y Hua, BL Brazile, B Yang, IA Sigal
Acta biomaterialia 113, 429-437, 2020
382020
Numerical evaluation of the effective conductivities of composites with interfacial weak and strong discontinuities
BR Wang, JT Liu, ST Gu, QC He
International Journal of Thermal Sciences 93, 1-20, 2015
162015
So-called lamina cribrosa defects may mitigate IOP-induced neural tissue insult
AP Voorhees, Y Hua, BL Brazile, B Wang, S Waxman, JS Schuman, ...
Investigative Ophthalmology & Visual Science 61 (13), 15-15, 2020
152020
Role of radially aligned scleral collagen fibers in optic nerve head biomechanics
Y Hua, AP Voorhees, NJ Jan, B Wang, S Waxman, JS Schuman, IA Sigal
Experimental eye research 199, 108188, 2020
142020
Influence of clamping stress and duration on the trauma of liver tissue during surgery operation
J Wang, QY Yu, W Li, BR Wang, ZR Zhou
Clinical Biomechanics 43, 58-66, 2017
142017
A high-accuracy and high-efficiency digital volume correlation method to characterize in-vivo optic nerve head biomechanics from optical coherence tomography
F Zhong, B Wang, J Wei, Y Hua, B Wang, J Reynaud, B Fortune, IA Sigal
Acta biomaterialia 143, 72-86, 2022
122022
An XFEM/level set strategy for simulating the piezoelectric spring-type interfaces with apparent physical background
BR Wang, JT Liu, ST Gu
Finite Elements in Analysis and Design 133, 62-75, 2017
112017
Stretch-induced uncrimping of equatorial sclera collagen bundles
NJ Jan, PY Lee, J Wallace, M Iasella, A Gogola, B Wang, IA Sigal
Journal of biomechanical engineering 145 (5), 054503, 2023
62023
Influence of clamping parameters on the trauma of rabbit small intestine tissue
J Wang, W Li, B Wang, Z Zhou
Clinical Biomechanics 70, 31-39, 2019
52019
Comparing acute IOP-induced lamina cribrosa deformations premortem and postmortem
J Wei, Y Hua, B Yang, B Wang, SE Schmitt, B Wang, KA Lucy, H Ishikawa, ...
Translational Vision Science & Technology 11 (12), 1-1, 2022
32022
Modeling the initial-volume dependent approximate compressibility of porcine liver tissues using a novel volumetric strain energy model
BR Wang, JT Liu, W Li, ZR Zhou
Journal of Biomechanics 109, 109901, 2020
32020
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 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
Direct measurements of collagen fiber recruitment in the posterior pole of the eye
PY Lee, G Fryc, J Gnalian, B Wang, Y Hua, S Waxman, F Zhong, B Yang, ...
Acta biomaterialia 173, 135-147, 2024
12024
A novel method to determine axon-level IOP-induced insult
M Bansal, F Zhong, Y Hua, B Wang, J Reynaud, B Fortune, I Sigal
Investigative Ophthalmology & Visual Science 63 (7), 811-811, 2022
12022
Axons passing through small LC pores suffer larger IOP-induced distortions than those through large pores
B Wang, S Waxman, S Lusvardi, Y Lu, Y Han, AR Linton, T Qi, IA Sigal
Investigative Ophthalmology & Visual Science 65 (7), 1205-1205, 2024
2024
IOP-induced strains in individual in situ collagenous lamina cribrosa astrocytes are heterogenous
S Waxman, B Wang, S Lusvardi, I Sigal
Investigative Ophthalmology & Visual Science 65 (7), 4878-4878, 2024
2024
Evaluating the effects of fiber force dissipation for predicting the effects of modulating the mechanical properties of lamina cribrosa and sclera
Y Han, B Wang, X He, Y Lu, IA Sigal
Investigative Ophthalmology & Visual Science 65 (7), 1203-1203, 2024
2024
Elevated IOP reduces lamina cribrosa oxygenation both directly through capillary distortion and indirectly by reducing perfusion from the posterior ciliary arteries
Y Lu, H Banna, H Yi, H Schilpp, M Liu, F Zhong, B Wang, S Tahir, PY Lee, ...
Investigative Ophthalmology & Visual Science 65 (7), 392-392, 2024
2024
The Robust Lamina Cribrosa Vasculature: Perfusion and Oxygenation Under Elevated Intraocular Pressure
Y Lu, Y Hua, B Wang, F Zhong, A Theophanous, S Tahir, PY Lee, IA Sigal
Investigative Ophthalmology & Visual Science 65 (5), 1-1, 2024
2024
系统目前无法执行此操作,请稍后再试。
文章 1–20