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In vivo evaluation of posterior eye elasticity using shaker-based optical coherence elastography

Abstract

UNLABELLED: Age-related macular degeneration (AMD) is a progressive retinal disease and becomes the leading cause of blindness. It is well established that early detection is the key to preservation of functional vision. However, it is very difficult to diagnose AMD in very early stages, before structural changes are evident. Consequently, investigating the biomechanical properties of the retina maybe essential for understanding its physiological function. In this study, we present a shear wave-based quantitative method for estimating the elasticity of the posterior eye using shaker-based optical coherence elastography. This technique has been developed and validated on both a homogeneous phantom and a healthy rabbit in vivo. The shear wave speed from the ganglion side to the photoreceptor side of the rabbit eye is 4.1 m/s, 4.9 m/s, and 6.7 m/s, respectively. In addition, the most stiff sclera region has an average shear wave speed of 9.1 m/s. The results demonstrate the feasibility of using this technique to quantify biomechanical properties of the posterior eye and its potential translation to the clinical study. IMPACT STATEMENT: Herein, we propose a potentially clinical applicable shaker-based optical coherence elastography (OCE) technique to characterize the biomechanical properties of the posterior eye, including different layers of the retina. Compared with either acoustic radiation force OCE or air-puff OCE, the newly developed method can induce sufficient shear wave propagation at the posterior eye with high resolution and large field of view.

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