Cruz-Herranz, AndrĂŠs Dietrich, Michael Hilla, Alexander Yiu, Hao Levin, Marc Hecker, Christina Issberner, Andrea Hallenberger, Angelika Cordano, Christian Lehmann-Horn, Klaus Balk, Lisanne Aktas, Orhan Ingwersen, Jens Gall, Charlotte Hartung, Hans-Peter Zamvil, Scott Fischer, Dietmar Albrecht, Philipp Green, Ari MOESM3 of Monitoring retinal changes with optical coherence tomography predicts neuronal loss in experimental autoimmune encephalomyelitis Additional file 3: Figure S3. Serial OCT scans of wild-type mice segmented by a single rater. Note: animals were entirely removed and repositioned between scans. Table demonstrates the interclass correlation for different scan protocols. Note volume scans outperformed line scans and follow-up function adds little benefit to reproducibility. In addition, aggregating layers into either total retinal thickness or inner retinal layers generally outperforms individual layers. Experimental autoimmune encephalomyelitis;Experimental optic neuritis;Optical coherence tomography;Optokinetic response;Multiple sclerosis;Neurodegeneration 2019-11-05
    https://springernature.figshare.com/articles/presentation/MOESM3_of_Monitoring_retinal_changes_with_optical_coherence_tomography_predicts_neuronal_loss_in_experimental_autoimmune_encephalomyelitis/10251944
10.6084/m9.figshare.10251944.v1