Due to lack of the practical technique to measure the biomechanical properties of the ocular cornea in vivo, clinical ophthalmologists have some difficulties in understanding the deformation mechanism of the cornea under the action of physiological intraocular pressures. Using Young's theory analysis of the corneal deformation during applanation tonometry, the relation between the elasticity moduli of the cornea and the applanated corneal area and the measured and true intraocular pressures can be obtained. A new applanation technique has been developed for measuring the biomechanical properties of the ocular cornea tissue in vivo, which can simultaneously acquire the data of the applanation area and displacement of the corneal deformation as well as the exerted applanation force on the cornea. Experimental results on a rabbit's eyeball demonstrated that the present technique could be used to measure the elasticity moduli and creep properties of the ocular cornea nondestructively in vivo.
Citation: ZHANGXueyong, LIUDong, TANGZhen, LIAORongfeng, MAJianguo. Nondestructive Applanation Technique to Measure the Elasticity Moduli and Creep Properties of Ocular Cornea In Vivo. Journal of Biomedical Engineering, 2015, 32(1): 192-196. doi: 10.7507/1001-5515.20150035 Copy