Scan code to add WeChat
System Principle >>
A system for monitoring deep oxygenation of brain tissue enables continuous monitoring of oxygenation in the deep brain tissue of living animals. Changes in blood oxygen saturation (StO2) are induced and recorded by an integrated micro-LED light source and photo-detector, enabling continuous monitoring with the animal moving freely. This system has important potential for neuroscience research and clinical diagnosis, especially in understanding the coupling between brain metabolism and activity and monitoring diseases associated with brain oxygenation.
System Features >>
1.Continuous real-time monitoring
2.The operation is simple
3.Biological compatibility and stability
4.Integrated photoelectric components
5.It can be used in combination with existing optical fiber recording, optogenetic, and electrophysiological recording systems
6.It can be used separately.
system Application >>
1. Neuroscience: energy metabolism, epilepsy, brain injury assessment, neurodegenerative diseases, brain tumors, sleep, cognitive function research, neuropharmacology research, neurosurgery, brain function imaging, neurodevelopment research
2. Other fields: Sports science, sports training, psychology research