# Visual training after central retinal loss limits structural white matter degradation: an MRI study

**Authors:** Anna Kozak, Marco Ninghetto, Michał Wieteska, Michał Fiedorowicz, Marlena Wełniak-Kamińska, Bartosz Kossowski, Ulf T. Eysel, Lutgarde Arckens, Kalina Burnat

PMC · DOI: 10.1186/s12993-024-00239-w · 2024-05-24

## TL;DR

Visual training after retinal damage in cats helps preserve brain white matter structure, suggesting potential benefits for low vision patients.

## Contribution

The study shows that early motion-perception training can stabilize white matter degradation after retinal lesions.

## Key findings

- Trained cats with retinal lesions showed reduced white matter degradation in specific brain regions.
- Fractional Anisotropy values in motion-sensitive area V5/PMLS were unaffected by retinal loss.
- Training led to better preservation of white matter metrics compared to untrained lesioned cats.

## Abstract

Macular degeneration of the eye is a common cause of blindness and affects 8% of the worldwide human population. In adult cats with bilateral lesions of the central retina, we explored the possibility that motion perception training can limit the associated degradation of the visual system. We evaluated how visual training affects behavioral performance and white matter structure. Recently, we proposed (Kozak et al. in Transl Vis Sci Technol 10:9, 2021) a new motion-acuity test for low vision patients, enabling full visual field functional assessment through simultaneous perception of shape and motion. Here, we integrated this test as the last step of a 10-week motion-perception training.

Cats were divided into three groups: retinal-lesioned only and two trained groups, retinal-lesioned trained and control trained. The behavioral data revealed that trained cats with retinal lesions were superior in motion tasks, even when the difficulty relied only on acuity. 7 T-MRI scanning was done before and after lesioning at 5 different timepoints, followed by Fixel-Based and Fractional Anisotropy Analysis. In cats with retinal lesions, training resulted in a more localized and reduced percentage decrease in Fixel-Based Analysis metrics in the dLGN, caudate nucleus and hippocampus compared to untrained cats. In motion-sensitive area V5/PMLS, the significant decreases in fiber density were equally strong in retinal-lesioned untrained and trained cats, up to 40% in both groups. The only cortical area with Fractional Anisotropy values not affected by central retinal loss was area V5/PMLS. In other visual ROIs, the Fractional Anisotropy values increased over time in the untrained retinal lesioned group, whereas they decreased in the retinal lesioned trained group and remained at a similar level as in trained controls.

Overall, our MRI results showed a stabilizing effect of motion training applied soon after central retinal loss induction on white matter structure. We propose that introducing early motion-acuity training for low vision patients, aimed at the intact and active retinal peripheries, may facilitate brain plasticity processes toward better vision.

## Linked entities

- **Diseases:** macular degeneration (MONDO:0003004)
- **Species:** Felis catus (taxon 9685)

## Full-text entities

- **Diseases:** retinal lesions (MESH:D012164), blindness (MESH:D001766), white matter (MESH:D056784), retinal loss (MESH:D012173), Macular degeneration of the eye (MESH:D008268)
- **Species:** Felis catus (cat, species) [taxon 9685], Homo sapiens (human, species) [taxon 9606]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11127408/full.md

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Source: https://tomesphere.com/paper/PMC11127408