AI Article Synopsis
- Brain imaging techniques allow non-invasive visualization of brain activity and are crucial for studying diseases linked to dopamine fluctuations, such as addiction and Parkinson's disease.
- Researchers developed specialized nanoprobes that respond to dopamine, enabling real-time tracking of neurotransmitter levels in the brain during drug abuse scenarios.
- Using these nanoprobes, the study can monitor changes in dopamine levels in mice brains, offering insights into the impact of addictive substances on neural activity and long-term effects.
Article Abstract
Brain imaging techniques enable visualizing the activity of central nervous system without invasive neurosurgery. Dopamine is an important neurotransmitter. Its fluctuation in brain leads to a wide range of diseases and disorders, like drug addiction, depression, and Parkinson's disease. We designed near-infrared fluorescence dopamine-responsive nanoprobes (DRNs) for brain activity imaging during drug abuse and addiction process. On the basis of light-induced electron transfer between DRNs and dopamine and molecular wire effect of the DRNs, we can track the dynamical change of the neurotransmitter level in the physiological environment and the releasing of the neurotransmitter in living dopaminergic neurons in response to nicotine stimulation. The functional near-infrared fluorescence imaging can dynamically track the dopamine level in the mice midbrain under normal or drug-activated condition and evaluate the long-term effect of addictive substances to the brain. This strategy has the potential for studying neural activity under physiological condition.
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| http://dx.doi.org/10.1021/acsami.7b12005 | DOI Listing |
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