Researchers have developed a new imaging method using bioluminescence to track oxygen movement in the mouse brain in real-time. The study reveals the presence of 'hypoxic pockets' and highlights the impact of oxygen tension on physiological processes and neurological diseases.
Using a bioluminescent oxygen indicator, researchers have discovered transient “hypoxic pockets” in the mouse brain. The Science study establishes a tool to delineate the importance of oxygen tension in physiological processes and neurological diseases. https://t.co/vodyq2x7AY https://t.co/YFs9irbF5k
Oxygen imaging of hypoxic pockets in the mouse cerebral cortex https://t.co/zAE1AoNsyn https://t.co/s723ifnA0j
Revolutionary AI Algorithm Decodes Mouse Behavior with Stunning 95% Accuracy Using Brain Imaging Data In an extraordinary leap forward for neuroscience, researchers at Kobe University have developed an AI algorithm that can predict mouse movement with a remarkable 95% accuracy… https://t.co/LrMqskx4o3
A bioluminescence imaging technique has created highly detailed, and visually striking, images of the movement of #Oxygen in the brains of mice. This provides insight into why a sedentary lifestyle may increase risk for diseases like #Alzheimer’s. @UR_Med https://t.co/SpvT8PUfOd
Bioluminescence Unveils Brain’s Oxygen Pathways A new study unveils a revolutionary bioluminescence imaging technique, enabling scientists to visually track oxygen movement within the mouse brain in real-time. This research reveals that certain areas of the brain can… https://t.co/nEVpA2wr9m
Transient and spatially restricted periods of hypoxia occur spontaneously in the mouse brain- “hypoxic pockets.” Running may reduce these. #BrainEnergy https://t.co/4zhtyZdz5Z
Oxygen imaging of hypoxic pockets in the mouse cerebral cortex | Science https://t.co/anqJqyv9KG
#Oxygen's journey in brain seen for the first time https://t.co/u9ks2eU1hz
New imaging method illuminates oxygen's journey in the brain @sciencemagazine https://t.co/0y8zmtlzS4
We are excited to share a new study from our lab, published today in @ScienceMagazine. Using a genetically encoded bioluminescence protein we measured cerebral oxygen dynamics in the awake mouse brain @mrfelix @temp2spec a thread: https://t.co/RGl01BHbJD