image: Microscopy image showing sparsely labeled axons in a mouse optic nerve shortly after traumatic brain injury. Axons are the long projections of neurons that carry electrical signals between brain regions. Traumatic brain injury causes diffuse and often irreversible disconnection and degeneration of these fibers, disrupting communication within neural circuits—in this case, between the eye and visual centers of the brain.
Credit: Athanasios Alexandris
The brain shows a capacity to recover from traumatic injury, which somewhat contradicts the widely accepted idea that neurons do not regenerate. So how is recovery possible? In a new JNeurosci paper, Athanasios Alexandris and colleagues, from Johns Hopkins University, used mice to explore how the visual brain system recovers following traumatic injury.
The researchers monitored connections from cells in the eye to the brain after injury. They discovered that surviving cells compensated for cell death by sprouting extra branches to make connections with more neurons in the brain. This sprouting occurred to such an extent that connections between the eye and brain matched preinjury levels. Activity measures showed that these connections were functional. Notably, there were sex differences: Female mice had delayed or incomplete repair.
According to the authors, this work points to a compensatory mechanism following brain injury that differs between sexes. Says Alexandris, “We didn’t expect to see sex differences, but this aligns with clinical observations in humans. Women experience more lingering symptoms from concussion or brain injury than men. Understanding the mechanism behind the branch sprouting we observed—and what delays or prevents this mechanism in females—could eventually point toward strategies to promote recovery from traumatic or other forms of neural injury.” The researchers plan to continue exploring underlying mechanisms and why they may be different in females and males.
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About JNeurosci
JNeurosci was launched in 1981 as a means to communicate the findings of the highest quality neuroscience research to the growing field. Today, the journal remains committed to publishing cutting-edge neuroscience that will have an immediate and lasting scientific impact, while responding to authors' changing publishing needs, representing breadth of the field and diversity in authorship.
About The Society for Neuroscience
The Society for Neuroscience is the world's largest organization of scientists and physicians devoted to understanding the brain and nervous system. The nonprofit organization, founded in 1969, now has nearly 35,000 members in more than 95 countries.
Journal
JNeurosci
Article Title
Recovery of Retinal Terminal Fields After Traumatic Brain Injury: Evidence of Collateral Sprouting and Sexual Dimorphism
Article Publication Date
15-Dec-2025
COI Statement
The authors declare no competing financial interests.