Fig 1.
Principal dimensions considered for the geometry of the porcine eye.
Table 1.
Fig 2.
Illustration of decentration and tilt of the crystalline lens being induced by rotation motion of the whole eye globe.
Lens decentration refers to the misalignment of the optical center of the lens with the center of the lens mount. Lens tilt refers to the angular misalignment of the lens relative to the optical axis of the eye globe.
Fig 3.
Quantified parameters of the crystalline lens apex displacement.
Table 2.
The maximum velocity and acceleration data of the apex position of the crystalline lens during overshooting for all IOP levels.
Fig 4.
Time evolution of apex position of the crystalline lens during overshooting.
It indicates the lens shift from the equilibrium position after the end of the rotation and returning to the initial position.
Table 3.
Overshooting parameters for the six IOP levels and the percentage variation with respect to the standard level of 15 [mmHg].
Fig 5.
The trend of observed changes in tbalance, tpeak and Dmax, with increasing IOP levels.
Fig 6.
Analyzing trends based on the percentage change in lens displacement patterns across various levels of intraocular pressure.