Optical coherence elastography (OCE), as the use of OCT to perform elastography has
come to be known, began in 1998, around ten years after the rest of the field of elastography …

Optical coherence elastography (OCE) represents the frontier of optical elasticity imaging
techniques and focuses on the micro‐scale assessment of tissue biomechanics in 3D that is …

After ten years of progress and innovation, optical coherence elastography (OCE) based on
the propagation of mechanical waves has become one of the major and the most studied …

Optical coherence elastography (OCE) can provide clinically valuable information based on
local measurements of tissue stiffness. Improved light sources and scanning methods in …

The study of corneal biomechanics is motivated by the tight relationship between
biomechanical properties and visual function within the ocular system. For instance …

Corneal stiffness plays a critical role in shaping the cornea with respect to intraocular
pressure and physical interventions. However, it remains difficult to measure the mechanical …

PURPOSE Determining corneal biomechanical properties is a long-standing challenge.
Elasticity imaging methods have recently been developed and applied for clinical evaluation …

The biomechanical properties of the cornea play a critical role in forming vision. Diseases
such as keratoconus can structurally degenerate the cornea causing a pathological loss in …

In this paper, we point out some practical obstacles arising in realization of compressional
optical coherence elastography (OCE) that have not attracted sufficient attention previously …

Purpose.: To evaluate the capability of a novel, coaligned focused ultrasound and phase-
sensitive optical coherence elastography (US-OCE) system to assess age-related changes …