November 23, 2024

Drug (Cocaine, Methamphetamine, or Nicotine) Withdrawal Morphs Brain Communication Networks in Mice

By Society for Neuroscience
September 27, 2021

Intermodular and intramodular network functions of each treatment. Credit: Kimbrough et al., eNeuro
Withdrawal from 3 various drugs shuffles brain networks in similar style.
When studying drug and alcohol abuse simplifies research study but might leave out essential insights, zeroing in on specific brain areas. In fact, the landscape of the entire brain rearranges during withdrawal, potentially hindering interaction between areas, according to new research study in mice released in eNeuro..
Kimbrough et al. administered psychostimulant drugs to mice (drug, methamphetamine, or nicotine) for one week then measured their neuronal activity throughout withdrawal. For all 3 drugs, the withdrawal brain state showed increased practical connectivity– a measure of integrated activity and communication in between brain areas– compared to the control brain state. Withdrawal, nevertheless, mixed which brain regions activated at the very same time.

The control brains displayed regular modularity, where small groups of brain regions activate together. The brains undergoing withdrawal, on the other hand, possessed big groups of coactivated brain areas, representing decreased modularity. This also takes place throughout traumatic brain injury and Alzheimers illness and implies impaired neural communication.
These outcomes show changes in brain modularity may be a universal effect of different kinds of addictive drugs.
Recommendation: “Characterization of the Brain Functional Architecture of Psychostimulant Withdrawal Using Single-Cell Whole Brain Imaging” 27 September 2021, eNeuro.DOI: 10.1523/ ENEURO.0208-19.2021.