Twenty-First Birthday Drinking: Extreme Drinking Episodes and White Matter Microstructural Changes in the Fornix and Corpus Callosum

Twenty-first birthday drinking is characterized by extreme alcohol consumption. Accumulating evidence suggests that high-dose bingeing is related to structural brain changes and cognitive deficits. This is particularly problematic in the transition from adolescence to adulthood when the brain is still maturing, elevating the brain’s sensitivity to the acute effects of alcohol intoxication. Heavy drinking is associated with reduced structural integrity in the hippocampus and corpus callosum and is accompanied by cognitive deficits. However, there is little research examining changes in the human brain related to discrete heavy drinking episodes. The present study investigated whether alcohol exposure during a 21st birthday celebration would result in changes to white matter microstructure by utilizing Diffusion Tensor Imaging (DTI) measures and a quasi-experimental design. By examining structural changes in the brain from pre- to post-celebration within subjects (N = 49) prospectively, we were able to more directly observe brain changes following an extreme drinking episode. Region of interest analyses demonstrated increased fractional anisotropy (FA) in the posterior fornix (p < 0.0001) and in the body of the corpus callosum (p = 0.0029) from pre- to post-birthday celebration. These results suggest acute white matter damage to the fornix and corpus callosum following an extreme drinking episode, which is especially problematic during continued neurodevelopment. Twenty-first birthday drinking may, therefore, be considered an important target event for preventing acute brain injury in young adults

Alcohol use in emerging adults associated with lower rich-club connectivity and greater connectome network disorganization

BACKGROUND: Emerging adulthood is a critical neurodevelopmental stage, with alcohol use during this period consistently associated with brain abnormalities and damage in anatomical structure and white matter integrity. However, it is less clear how alcohol use is associated with the brain's structural organization (i.e., white matter connections between anatomical regions). Recent connectome research has focused on rich-club regions, a collection of highly-interconnected hubs that are critical in brain communication and global network organization and disproportionately vulnerable to insults. METHODS: For the first time, we examined alcohol use associations with structural rich-club and connectome organization in emerging adults (N = 66). RESULTS: Greater lifetime drinks and current monthly drinks were significantly associated with lower rich-club organization (rs =-0.38, ps 0.33, ps 0.064). CONCLUSIONS: Results provide novel evidence that alcohol use is associated with decreased rich-club connectivity and structural network disorganization. Given that both are critical in global brain communication, these results highlight the importance of examining alcohol use and brain relationships in emerging adulthood

Proceeding of the 8th alcohol hangover research group meeting

© 2016 Bentham Science Publishers. Alcohol hangover is one of the most commonly experienced consequences of alcohol consumption. An alcohol hangover develops as the blood alcohol concentrations (BAC) approaches zero, and is characterized by a general feeling of misery. More insight into the pathology of an alcohol hangover needs to be gained, in order to enhance the understanding of the area, and as a potential contribution to the innovation of a preventative or hangover curing treatment. The Alcohol Hangover Research Group (AHRG) was founded to support the area of alcohol hangover. This proceeding describes the latest findings in the area of alcohol hangovers, and future research plans, discussed at the 8th Alcohol Hangover Research Group meeting, held on June 25, 2016, New Orleans, USA. Novel insight in potential causes, consequences, and treatment of alcohol hangover were revealed during the meeting, as well as further research plans to examine biomarkers of recent alcohol consumption, immune functioning, alcohol metabolism, and potential treatments