A Biphasic Approach for Characterizing Tensile, Compressive, and Hydraulic Properties of the Sclera

Abstract: Measuring the biomechanical properties of the mouse sclera is of great interest, since altered scleral properties are features of many common ocular pathologies, and the mouse is a powerful species for studying genetic factors in disease. Here, a poroelastic material model is used to analyze data from unconfined compression testing of both pig and mouse sclera, and the tensile modulus, compressive modulus, and permeability of the sclera are obtained at three levels of compressive strain. Values for all three p… Show more

“…When based on the Step Response compliance data, mean effective tensile moduli ranged from 575 [457, 693] to 935 [800, 1,070] kPa, with a mean of 712 [693, 731] kPa. The tensile moduli of rodent cornea and sclera have been reported to range from ~2 to 5 MPa (Kling et al, 2012 ; Wang et al, 2012 ; Wu et al, 2013 ), and 0.4 to several MPa (depending on strain field) (Brown et al, 2020 ; Schwaner et al, 2020 ), respectively. Thus, our calculated effective moduli were comparable to previous reports.…”

Smarce1 and Tensin 4 Are Putative Modulators of Corneoscleral Stiffness

“…When based on the Step Response compliance data, mean effective tensile moduli ranged from 575 [457, 693] to 935 [800, 1,070] kPa, with a mean of 712 [693, 731] kPa. The tensile moduli of rodent cornea and sclera have been reported to range from ~2 to 5 MPa (Kling et al, 2012 ; Wang et al, 2012 ; Wu et al, 2013 ), and 0.4 to several MPa (depending on strain field) (Brown et al, 2020 ; Schwaner et al, 2020 ), respectively. Thus, our calculated effective moduli were comparable to previous reports.…”

Smarce1 and Tensin 4 Are Putative Modulators of Corneoscleral Stiffness