Drew Scoles

TL;DR: The application of nonconfocal split-detector to emerging human gene therapy trials will improve the potential of therapeutic success, by identifying patients with sufficient retained photoreceptor structure to benefit the most from intervention.

TL;DR: The demonstrated implementation of dark-field AOSLO imaging using 790 nm light requires low light exposures relative to light safety standards and it is more comfortable for the subject than the traditional autofluorescence RPE imaging with visible light, which makes RPE dark- field imaging appealing for studying mechanisms of eye disease.

TL;DR: In-vivo, high-resolution, confocal imaging of the vasculature through the full thickness of the NFL in the living macaque, in precise agreement with histology is demonstrated.

TL;DR: This review will briefly summarize the current state of AO retinal imaging, discuss current as well as future clinical applications of A ophthalmic adaptive optics, and provide some discussion of research needs to facilitate more widespread clinical use.

TL;DR: The noninvasive visualization of capillary flow and structure provided by AOSLO split-detection shows great promise for studying ocular and systemic conditions that affect the retinal vasculature.