Influence of Ocular Rigidity and Ocular Biomechanics on the Pathogenesis of Age-Related Presbyopia
This chapter discusses ocular rigidity and ocular biomechanical dysfunction as they relate to the age-related pathogenesis of presbyopia. The major factors associated with presbyopia as they relate to ocular rigidity and ocular biomechanical dysfunction are highlighted. Furthermore, specific reference is made to modifying the biomechanical properties and structural stiffness of the scleral outer coat utilizing laser scleral therapies. Recent literature has illuminated that the loss of accommodative ability in presbyopes has many contributing lenticular, as well as extralenticular and physiological factors which are affected by increasing age.
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ASCRS 2025: AnnMarie Hipsley, DPT, PhD, presents AI-driven digital twin for simulation of aging eye
The Virtual Eye Simulation Analyzer is an AI-driven digital twin of the human eye designed to model aging and personalize presbyopia treatment across the lifecycle. AnnMarie Hipsley, DPT, PhD, presented a transformative concept in ophthalmic innovation: the “digital twin” of the human eye, embodied in the Virtual Eye Simulation Analyzer (VESA)—a virtual, AI-driven model capable …
read moreImprovement in Accommodation and Dynamic Range of Focus After Laser Scleral Microporation: A Potential Treatment for Presbyopia
Purpose: To examine the ocular changes in accommodation, wavefront aberrations, and dynamic range of focus (DROF) after laser scleral microporation (LSM) for treating presbyopia.
read moreMicroporation may address aging in eye
LAS VEGAS — In this Healio Video Perspective from the ASCRS meeting, AnnMarie Hipsley, DPT, PhD, discusses microporation therapeutics and its potential role in presbyopia treatment.
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