Abstract
A phenomenon characterized by the experience of seeing light without any light actually entering the eye is called phosphenes or photopsias. Phosphenes can occur spontaneously or via induction by external stimuli. Previous reports regarding phosphenes have primarily focused on externally induced phosphenes such as by applying alternating or direct current to the cortex. A few of these reports used functional magnetic resonance (fMRI) to study activations induced by cortical phosphenes. However, there are no fMRI reports on spontaneous phosphenes originating from the retina and the resulting pattern of cortical activations. We performed fMRI during a reversing checkerboard paradigm in three LCA patients who underwent unilateral gene therapy and reported experiencing frequent phosphene on a daily basis. We observed bilateral cortical activation covering the entire visual cortices when patients reported experiencing phosphenes. In contrast, in the absence of phosphenes, activation was regulated by patient's visual ability and demonstrated improved cortical activation due to gene therapy. These fMRI results illustrate the potential impact of phosphene perception on visual function and they may explain some of the variability that clinicians find in visual function testing in retinal degeneration. Although we did not perform correlations between visual function and phosphenes, we hope data presented here raises awareness of this phenomenon and its potential effect on visual function and the implications for clinical testing. We recommend a thorough history for phosphene experiences be taken in patients with retinal disease who are candidates for gene or molecular therapy. Lastly, these data illustrate the potential power of fMRI as an outcome measure of gene therapy and the negative impact phosphenes may have on vision testing. fMRI has proven to be a sensitive, non-invasive, and reproducible test paradigm for these purposes and can complement standard visual function testing.
Highlights
A phenomenon characterized by the experience of seeing light without any light entering the retina is called a phosphene
We show that patients who spontaneously see phosphenes have immense and significant activation in their occipital lobes covering all retinotopic visual centers in the brain fMRI of Retina-Originated Phosphenes whereas they show minimal activation when they do not experience phosphenes
The present study aimed to characterize the effects of phosphenes on the fMRI-measured cortical response to reversing checkerboard stimuli, in three LCA2 patients (NP02, CH08, and CH11), from the eye treated with gene therapy and the left eye
Summary
A phenomenon characterized by the experience of seeing light without any light entering the retina is called a phosphene. This phenomenon is known as photopsias and the two terms have been used interchangeably in the literature. The most familiar type of phosphene is the pressure phosphene, which is elicited by pressing on the orbit, e.g. rubbing of the eyes. According to a pupil of Aristotle, it was Alcmaeon of Croton (circa 530–470 BC) who first reported that ‘‘the eye obviously has fire within, for when it is stuck this fire flashes out,’’ [1]. Meister et al [20]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
