Ampatzis Lab

Blueprints for healing: central nervous system regeneration in zebrafish and neonatal mice - BMC Biology In adult mammals, including humans, neurons and axons in the brain and spinal cord are inherently incapable of regenerating after injury. Studies of animals with innate capacity for regeneration are p...

Great to see our first lab review 🔗 link.springer.com/article/10.1... included in the yearly Stem Cell & Developmental Biology Nature Portfolio Collection, “From aging to regeneration”: www.biomedcentral.com/collections/...

Many thanks to the reviewers & @BMCBiology for supporting our work!

Timing found to be crucial for spinal cord repair in zebrafish The healing of the spinal cord depends on carefully timed interactions between injured nerve cells and their surrounding environment, according to a new study published in Science Advances by research...

The healing of the spinal cord depends on carefully timed interactions between injured nerve cells and their surrounding environment, according to a new study on zebrafish published in Science Advances by KI researchers 🧪 #SpinalCordInjury #neuroscience news.ki.se/timing-found...

Time-dependent adaptations of damaged neurons and their microenvironment in the regenerating adult zebrafish spinal cord Spinal cord healing in zebrafish depends on a perfectly timed interaction between neurons and their microenvironment.

New paper, new social media :)
Excited to share our latest paper in Science Advances on how injured neurons and their microenvironment interact over time during spinal cord regeneration in adult zebrafish.
Timing turns out to be critical for successful repair. 🧠🐟
www.science.org/doi/10.1126/...