Volume electron microscopy reveals human retinal mitochondria that align with reflective bands in optical coherence tomography [Invited].

Mitochondria are candidate reflectivity signal sources in optical coherence tomography (OCT) retinal imaging. Here, we use deep-learning-assisted volume electron microscopy of human retina and in vivo imaging to map mitochondria networks in the outer plexiform layer (OPL), where photoreceptors synapse with second-order interneurons. We observed alternating layers of high and low mitochondrial abundance in the anatomical OPL and adjacent inner nuclear layer (INL). Subcellular resolution OCT imaging of human eyes revealed multiple reflective bands that matched the corresponding INL and combined OPL sublayers. Data linking specific mitochondria to defined bands in OCT may help improve clinical diagnosis and the evaluation of mitochondria-targeting therapies.
Competing Interests: CAC receives research support from Genentech/ Hoffman LaRoche, Regeneron, Heidelberg Engineering and consults for Apellis, Astellas, Boehringer Ingelheim, Character Biosciences, and Osanni (all outside this project).
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