The Mechanical Properties of Ex Vivo Bovine and Porcine Crystalline Lenses: Age-Related Changes and Location-Dependent Variations |
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| Authors: | Sangpil Yoon Salavat Aglyamov Andrei Karpiouk Stanislav Emelianov |
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| Affiliation: | ∗ Department of Biomedical Engineering, The University of Texas, Austin, Texas, USA;† Department of Mechanical Engineering, The University of Texas, Austin, Texas, USA |
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| Abstract: | The mechanical properties of ex vivo animal lenses from three groups were evaluated: old bovine (25–30 mo old, n = 4), young bovine (6 mo old, n = 4) and young porcine (6 mo old, n = 4) eye globes. We measured the dynamics of laser-induced microbubbles created at different locations within the crystalline lenses. An impulsive acoustic radiation force was applied to the microbubble, and the microbubble displacements were measured using a custom-built high pulse repetition frequency ultrasound system. Based on the measured dynamics of the microbubbles, Young's moduli of bovine and porcine lens tissue in the vicinity of the microbubbles were reconstructed. Age-related changes and location-dependent variations in the Young's modulus of the lenses were observed. Near the center, the old bovine lenses had a Young's modulus approximately fivefold higher than that of young bovine and porcine lenses. The gradient of Young's modulus with respect to radial distance was observed in the lenses from three groups. |
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| Keywords: | Crystalline lens Young's modulus Shear viscosity Laser-induced microbubble Acoustic radiation force Ultrasound measurement Presbyopia |
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