Summary: Understanding how changes in the brain relate to changes in well-being is key to developing new targets for the treatment of mental health disorders.
Source: University of Oxford
Associate Professor Miriam Klein-Flügge and colleagues looked at brain connectivity and mental health data from nearly 500 people. In particular, they looked at the connectivity of the amygdala—a brain region well known for its importance in emotion and reward processing.
The researchers used functional magnetic resonance imaging to consider seven small subdivisions of the amygdala and their associated networks rather than combining the whole region together as previous studies have done.
The team also adopted a more precise approach to the data on mental well-being, looking at a large group of healthy people and using questionnaires that captured information about well-being in the social, emotional, sleep, and anger domains.
This generated more precise data than many investigations which still use broad diagnoses such as depression or anxiety, which involve many different symptoms.
The paper, published in Nature Human Behaviour, shows how the improved level of detail about both brain connectivity and well-being made it possible to characterize the exact brain networks that relate to these distinct aspects of mental health.
The brain connections that mattered most for discerning whether an individual was struggling with sleep problems, for example, looked very different from those that carried information about their social well-being.
Associate Professor Miriam Klein-Flügge of the Department of Experimental Psychology, based at the Wellcome Center for Integrative Neuroimaging (WIN), said, “Understanding how changes in the brain relate to changes in well-being is an important step in the journey towards more targeted mental health treatments.”
“We looked at the brain in much finer subdivisions than previous research, which more closely resembles how the brain is organized, and our findings indicate that it may one day be possible to develop very precise and non-invasive ways to target specific areas of the brain, making future treatments much more refined.”
The researchers also found that the nature of the identified brain networks differed. For example, they discovered that connectivity in the evolutionarily older subcortical circuits was related most strongly to the tendency to experience negative emotions, while connectivity of the amygdala with both newer cortical and older subcortical circuits clearly contributed to social well-being.
The findings indicate the potential benefit of considering mental well-being and the involved brain networks at a finer scale than before—a scale that more closely matches the brain’s functional organization.
Although more research is needed, in the future it might be possible to target treatments to the brain circuits most relevant for an individual’s key symptoms.
This possibility is becoming more tangible with current progress in non-invasive deep brain stimulation methods such as ultrasound, for example.
About this mental health and neuroscience research news
Author: Press Office
Source: University of Oxford
Contact: Press Office – University of Oxford
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Original Research: Closed access.
“Relationship between nuclei-specific amygdala connectivity and mental health dimensions in humans” by Miriam C. Klein-Flügge et al. Nature Human Behavior
Relationship between nuclei-specific amygdala connectivity and mental health dimensions in humans
There has been increasing interest in using neuroimaging measures to predict psychiatric disorders. However, predictions usually rely on large brain networks and large disorder heterogeneity. Thus, they lack both anatomical and behavioural specificity, preventing the advancement of targeted interventions.
Here we address both challenges. First, using resting-state functional magnetic resonance imaging, we parcellated the amygdala, a region implicated in mood disorders, into seven nuclei. Next, a questionnaire factor analysis provided subclinical mental health dimensions frequently altered in anxious-depressive individuals, such as negative emotions and sleep problems.
Finally, for each behavioural dimension, we identified the most predictive resting-state functional connectivity between individual amygdala nuclei and highly specific regions of interest, such as the dorsal raphe nucleus in the brainstem or medial frontal cortical regions. Connectivity in circumscribed amygdala networks predicted behaviours in an independent dataset.
Our results reveal specific relations between mental health dimensions and connectivity in precise subcortical networks.