Ultra-High-Field fMRI Reveals Dual Mechanisms Driving Rapid Ocular Dominance Plasticity in the Adult Brain
Previous studies have shown that even a few hours of monocular deprivation can markedly enhance the visual function of the deprived eye in adults, but the underlying neural mechanisms of such ocular dominance plasticity have remained unclear.
On November 11, 2025, a collaborative study from the Institute of Biophysics of the Chinese Academy of Sciences, and Wenzhou Medical University, published in Communications Biology, reveals two opposing yet complementary mechanisms of ocular dominance plasticity operating in subcortical and cortical regions of the adult visual system following short-term monocular deprivation.
Using 7T high-resolution functional MRI, the researchers examined changes in ocular dominance after three hours of monocular contrast deprivation in adult participants.
The results showed a significant enhancement in the deprived eye's contrast sensitivity and ocular dominance, accompanied by increased signals in the parvocellular layers of the lateral geniculate nucleus and the ventrolateral subdivision of the pulvinar.
At the same time, the non-deprived eye exhibited markedly improved 3D shape perception, along with stronger activation in stereopsis-related visual cortical areas. Interestingly, ocular dominance plasticity in the pulvinar and in the visual cortex was negatively correlated, exhibiting a reciprocal pattern of change.
These findings demonstrate that the adult brain harbors two opposing but complementary mechanisms of ocular dominance plasticity. Working in concert, they allow the visual system to respond rapidly and adaptively to imbalances in binocular input.
The study provides important insights for developing intervention strategies for visual disorders such as amblyopia.
Figure: Two Opposing but Complementary Mechanisms of Ocular Dominance Plasticity in the Visual Thalamus and Cortex
(Image by ZHANG Peng's group)
Article link: https://www.nature.com/articles/s42003-025-08914-y
Contact: ZHANG Peng
Institute of Biophysics, Chinese Academy of Sciences
Beijing 100101, China
E-mail: zhangpeng@ibp.ac.cn
(Reported by Prof. ZHANG Peng's group)