David A Prim, Boran Zhou, Adam Hartstone-Rose, Mark J Uline, Tarek Shazly, John F Eberth. A mechanical argument for the differential performance of coronary artery grafts. Journal of the mechanical behavior of biomedical materials , 54, 2016. [PDF]
Tarek Shazly, Alexander Rachev, Susan Lessner, William S Argraves, Jahid Ferdous, Boran Zhou, Alexandra M Moreira, Michael Sutton. On the uniaxial ring test of tissue engineered constructs. Experimental Mechanics, 55:1, 2015. [PDF]
Boran Zhou, Arthur J Sit, Xiaoming Zhang. Noninvasive measurement of wave speed of porcine cornea in ex vivo porcine eyes for various intraocular pressures. Ultrasonics, 81, 2017. [PDF]
Boran Zhou, Mohammed Alshareef, David Prim, Michael Collins, Michael Kempner, Adam Hartstone-Rose, John F Eberth, Alexander Rachev, Tarek Shazly, “The perivascular environment along the vertebral artery governs segment-specific structural and mechanical properties”, Acta Biomaterialia, 2016, 45: p. 286-295. [PDF]
Boran Zhou, Lauren Wolf, Alexander Rachev, Tarek Shazly,”A Sturcture-motivated Model of the Passive Mechanical Response of the Primary Porcine Renal Artery”. Journal of Mechanics in Medicine and Biology, 2014. 14(03): p. 1450033. [PDF]
Boran Zhou, Alexander Rachev, Tarek Shazly, “Biaxial vasoactivity of the Porcine Primary Renal Artery”, Journal of Mechanical Behavior of Biomedical Materials 48, 28-37 (2015). [PDF]
Boran Zhou, Tarek Shazly, Alexander Rachev, Michael Sutton, “Using Digital Image Correlation to Characterize Local Strains on Vascular Tissue Specimens”, Journal of Visualized Experiments, 2016, 107: p. e53625-e53625. [PDF]
Boran Zhou, DA Prim, E Romito, LP McNamara, FG Spinale, T Shazly, Contractile smooth muscle and active stress generation in porcine common carotids, Journal of Biomechanical Engineering, doi: 10.1115/1.4037949. [PDF]
Twal Waleed, Klatt Sandra, Harikrishnan Keerthi, Gerges Ebtesam, Cooley Marion, Trusk Thomas, Boran Zhou, Mohamed Gabr, Tarek Shazly, Susan Lessner, Roger Markwald, Williams. S. Argraves, “Cellularized Microcarriers as Adhesive Building Blocks for Fabrication of Tubular Tissue Constructs.” Annals of Biomedical Engineering, 2013: p. 1-12. [PDF]
X Zhang, T Osborn, Boran Zhou, D Meixner, R Kinnick, B Bartholmai, Lung ultrasound surface wave elastography: a pilot clinical study, IEEE transactions on ultrasonics, ferroelectrics, and frequency control, 2017, 64(9). [PDF]
Xiaochang Leng, Boran Zhou, X Deng, L Davis, SM Lessner, MA Sutton, T Shazly, Experimental and numerical studies of two arterial wall delamination modes, Journal of the Mechanical Behavior of Biomedical Materials 77, 321-330 [PDF]
Kabutoshi Kubo, Boran Zhou, YS Cheng, TH Yang, B Qiang, KN An, SL Moran, Ultrasound Elastography for Carpal Tunnel Pressure Measurement: A Cadaveric Validation Study, Journal of Orthopaedic Research, SN 1554-527. [PDF]
Kabutoshi Kubo, Yu Shiuan Cheng, Boran Zhou, Kainan An, Steven L Morvan, Peter C. Amadio, Xiaoming Zhang, Chunfeng Zhao, The quantitative evaluation of the relationship between the forces applied to the palm and carpal tunnel pressure, Journal of Biomechanics, 2018, Vol 66, pp 170-174. [PDF]
Xiaoming Zhang, Boran Zhou, Sanjay Kalra, Brian J. Bartholmai, James Greenleaf, Thomas G. Osborn, An ultrasound surface wave technique for assessing skin and lung diseases, Ultrasound in Medicine and Biology, 2018, Vol 44, pp 321-331. [PDF]
Xiaoming Zhang, Boran Zhou, Andre Miranda, Landon W. Trost, A novel non-invasive ultrasound vibro elastography technique for assessing patients with erectile dysfunction and Peyronie’s disease, Urology, 2018, 116, 99-105. [PDF]
Yu-Shiuan Cheng, Boran Zhou, Kazutoshi Kubo, Kai-Nan An, Steven L. Moran, Peter C. Amadio, Xiaoming Zhang, Chunfeng Zhao, Comparison of two ways of altering carpal tunnel pressure with ultrasound surface wave elastography, Journal of Biomechanics, 2018, 74, 197-201. [PDF]
Boran Zhou, Xiaoming Zhang, Lung Mass Density Analysis using Deep Neural Network and Lung Ultrasound Surface Wave Elastography, Ultrasonics, 2018, 89, 173-177. [PDF]
Boran Zhou, Xiaoming Zhang, The effect of pleural fluid layers on lung surface wave speed measurement: experimental and numerical studies on a sponge lung phantom, Journal of the Mechanical Behavior of Biomedical Materials, 2018. [PDF]
Sit Arthur, Arash Kazami, Boran Zhou, Xiaoming Zhang, Comparison of Ocular Biomechanical Properties in Normal and Glaucomatous Eyes Using Ultrasound Surface Wave Elastography, Investigative Ophthalmology & Visual Science, 2018, 59(9), 1218-1218.
Xiaoing Zhang, Boran Zhou, Lung ultrasound surface wave elastography for assessing interstitial lung disease, IEEE Transactions on Biomedical Engineering, in press. [PDF]
Boran Zhou, Xiaoming Zhang, Lung Ultrasound Surface Wave Elastography in Interstitial Lung Disease Staging, Radiology, in press.
Boran Zhou, Xiaoming Zhang,Comparison of five viscoelastic models for estimating viscoelastic parameters using ultrasound shear wave elastography, Journal of the mechanical behavior of biomedical materials, [PDF]
Xiaoming Zhang, Boran Zhou, Transvaginal ultrasound vibro-elastography for measuring uterine viscoelasticity: a phantom study, Ultrasound in Medicine and Biology, in press. [PDF]
Xiaoming Zhang, Boran Zhou, A quantitative method for measuring the changes of lung surface wave speed for assessing disease progression of interstitial lung disease, Ultrasound in Medicine and Biology, in press.