Achromatopsia-Visual Cortex Stability and Plasticity in the Absence of Functional Cones.
Molz Barbara, Herbik Anne, Baseler Heidi A, de Best Peter, Raz Noa, Gouws Andre, Ahmadi Khazar, Lowndes Rebecca, McLean Rebecca J, Gottlob Irene
AI Summary
Studying achromatopsia, researchers found no significant remapping of the central visual cortex. This suggests less brain plasticity than thought, which is important for future gene therapies.
Abstract
Purpose
Achromatopsia is a rare inherited disorder rendering retinal cone photoreceptors nonfunctional. As a consequence, the sizable foveal representation in the visual cortex is congenitally deprived of visual input, which prompts a fundamental question: is the cortical representation of the central visual field in patients with achromatopsia remapped to take up processing of paracentral inputs? Such remapping might interfere with gene therapeutic treatments aimed at restoring cone function.
Methods
We conducted a multicenter study to explore the nature and plasticity of vision in the absence of functional cones in a cohort of 17 individuals affected by autosomal recessive achromatopsia and confirmed biallelic disease-causing CNGA3 or CNGB3 mutations. Specifically, we tested the hypothesis of foveal remapping in human achromatopsia. For this purpose, we applied two independent functional magnetic resonance imaging (fMRI)-based mapping approaches, i.e. conventional phase-encoded eccentricity and population receptive field mapping, to separate data sets.
Results
Both fMRI approaches produced the same result in the group comparison of achromatopsia versus healthy controls: sizable remapping of the representation of the central visual field in the primary visual cortex was not apparent.
Conclusions
Remapping of the cortical representation of the central visual field is not a general feature in achromatopsia. It is concluded that plasticity of the human primary visual cortex is less pronounced than previously assumed. A pretherapeutic imaging workup is proposed to optimize interventions.
MeSH Terms
Shields Classification
Key Concepts4
A multicenter study utilizing two independent functional magnetic resonance imaging (fMRI)-based mapping approaches (conventional phase-encoded eccentricity and population receptive field mapping) found that sizable remapping of the representation of the central visual field in the primary visual cortex was not apparent in a cohort of 17 individuals affected by autosomal recessive achromatopsia with confirmed biallelic disease-causing CNGA3 or CNGB3 mutations.
The cortical representation of the central visual field is not a general feature of remapping in achromatopsia, suggesting that plasticity of the human primary visual cortex is less pronounced than previously assumed.
Achromatopsia is a rare inherited disorder that causes retinal cone photoreceptors to be nonfunctional.
A pretherapeutic imaging workup is proposed to optimize interventions in achromatopsia, based on findings that remapping of the cortical representation of the central visual field is not a general feature of the condition.
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