
At the 2025 International SPECTRALIS Symposium—And Beyond (ISS), Chauhan discussed how two-photon microscopy enables precise, non-invasive monitoring of retinal ganglion cell function in living subjects.
At the 2025 International SPECTRALIS Symposium—And Beyond (ISS), Chauhan discussed how two-photon microscopy enables precise, non-invasive monitoring of retinal ganglion cell function in living subjects.
With detailed imaging and cognitive data, the Northern Ireland Cohort for the Longitudinal Study of Aging highlights the potential of integrating eye scans into broader health research.
Optical coherence tomography markers—like the ellipsoid zone—are reshaping clinical trials in intermediate age-related macular degeneration, as highlighted at the 2025 International SPECTRALIS Symposium — And Beyond (ISS).
Advanced monitoring strategies are overcoming significant obstacles in retinal care, as highlighted at the 2025 International SPECTRALIS Symposium — And Beyond (ISS).
Fluorescence lifetime imaging ophthalmoscopy is emerging as a valuable tool to reveal previously hidden links between retinal changes and systemic disease.
NASA’s development of autonomous eye imaging technologies for astronauts aboard the International Space Station is paving the way for remote, high-quality eye care both in deep space and underserved regions on Earth.
Advanced autofluorescence reveals cellular pigment reservoirs with therapeutic potential at the Heidelberg 2025 International SPECTRALIS Symposium – And Beyond (ISS).
This noninvasive imaging tool reveals early brain pathology through the eye, promising faster and more accurate diagnoses as highlighted at the Heidelberg 2025 International SPECTRALIS Symposium – And Beyond (ISS).
Findings presented at the Heidelberg 2025 International SPECTRALIS Symposium — And Beyond (ISS) suggest detailed structural data could better inform therapeutic targeting and monitoring.
Improved axial resolution allows clearer visualization of early atrophic changes, including iRORA vs cRORA differentiation, as shared at the Heidelberg 2025 International SPECTRALIS Symposium – And Beyond (ISS).
From basal laminar deposits to foveal centering, a new framework refines what clinicians see—and what they treat—in outer retinal disease, as presented at the Heidelberg 2025 International SPECTRALIS Symposium – And Beyond (ISS).
With 35+ lectures, a NASA keynote, and a river cruise through historic Heidelberg, this year’s symposium blends science and scenery
Join global experts at the 2025 International SPECTRALIS Symposium in Heidelberg, exploring innovations in ophthalmology and space-related ocular health.