The study adds further evidence to support the idea that an individual’s biological makeup plays a significant role in whether or not they develop an addictive disorder.
Adolescence and young adulthood is an important time in a person’s development. It is during this time that individuals begin to demonstrate behaviours that are associated with addiction and which suggest that they may be at risk.
One of these behaviours is impulsivity. Sometimes, we need to make quick decisions, for example in response to a danger or a threat. At other times, it is better to hesitate and decide only after careful deliberation. Impulsivity refers to where we respond and act prematurely, without considering the consequences of our actions. While most people occasionally act impulsively, people affected by disorders including attention deficit hyperactivity disorder (ADHD), substance and behavioural addictions, and mental health problems such as depression and anxiety, show much greater levels of impulsivity.
In a study published today in the journal Neuropsychopharmacology, a team of researchers at Cambridge’s Department of Psychiatry, in collaboration with a group at Aarhus University in Denmark, has shown a strong association between increased behavioural impulsivity in young adults and abnormalities in nerve cells in the putamen, a key brain region involved in addictive disorders.
As part of the study, 99 young adults aged 16 to 26 carried out a computer-based measure of impulsivity. The researchers also scanned the volunteers’ brains using a sequence that is sensitive to myelin content. Myelin is a protein-rich sheath that coats the axis of a nerve cell, analogous to the plastic coating that surrounds electrical wiring, and is essential to fast nerve conduction in the brain and body.
The team found that those young adults who displayed higher measures of behavioural impulsivity also had lower levels of myelin in the putamen. This work builds on similar findings in rodent models of impulsivity from scientists at Cambridge and elsewhere.
“People who show heightened impulsivity are more likely to experience a number of mental health issues, including substance and behavioural addictions, eating disorders, and ADHD,” says Dr Camilla Nord of the MRC Cognition and Brain Sciences Unit, lead author on the study.
This suggests that impulsivity is an ‘endophenotype’, say the researchers; in other words, a set of behavioural and brain changes that increases people’s general risk for developing a group of psychiatric and neurological disorders.
“We know that most mental health symptoms are not specific to particular disorders,” says Dr Nord. “This work provides an important piece of the puzzle in establishing brain signatures that are general across a number of mental health disorders, rather than specific to any single one.”
The putamen is a key brain hub in addiction, sending dopamine signals elsewhere in the brain, and helping mediate how impulsively we behave. “The significance of decreased myelination implies there are tiny microstructural changes in this part of the brain affecting its function, and thereby affecting impulsivity,” says senior author Dr Valerie Voon, also from Cambridge.
“The degree of myelination alters the speed and efficiency of neuronal communication, meaning that if a population has decreased myelination only in one particular region, as we show, there is something highly local about any changes in neural speed and efficiency,” add co-author Dr Seung-Goo Kim.
Although it is not possible to say definitely whether the decreased myelination causes individuals to behave impulsively, the fact that all participants were healthy and had not been diagnosed with addiction or any other psychiatric diagnosis suggests a more causal link than has been demonstrated in previous studies.
In future, the finding may help in predicting an individual’s risk of developing a problem with addiction, say the researchers, but they caution that this would require further research and testing.
The research was funded by the Aarhus University Research Foundation, the Danish Ministry for Social Affairs and the Interior and the UK Medical Research Council. The work was also supported by NIHR Cambridge Biomedical Research Centre.
Reference
Nord CL, Kim S, Rømer Thomsen,K, Callesen MB, Kvamme TL, Jensen M, Pedersen MU, Voon V. The myeloarchictecture of impulsivity: premature responding in youth is associated with decreased myelination of ventral putamen. Neuropsychopharmacology; 15 Feb 2019; DOI: 10.1038/s41386-019-0343-6
Young adults at risk of developing problems with addiction show key differences in an important region of the brain, according to an international team led by researchers at the University of Cambridge.
Dr Camilla Nord is interested in mental health disorders, and in particular how we translate what we have learnt about the brain from neuroscience into better and more effective treatments.
“What most motivates me about my own research is working out how to test specific hypotheses about mental health—say, if a specific brain region is under-active in depression— in a way that could improve our ability to predict, diagnose, and treat mental health disorders,” she says.
A key aim of her work at the MRC Cognition and Brain Sciences Unit and at Addenbrooke’s Hospital is to develop more refined ways of predicting treatment outcome – “in other words, when someone shows a certain set of symptoms, we could run computer-based tests or brain imaging scans that would give us some indication of the best treatment for that individual person.
“These tests will never exist without a series of experiments developing and testing different possible predictors. I hope to run these sorts of early-stage studies in the next few years, before taking these studies forward into clinical trials in the future, in collaboration with the NHS and other large-scale organisations.”
Ultimately, she hopes this will lead to is a future where it is possible to tailor mental health treatments to each patient.
Camilla’s research involves working with volunteers on a daily basis for computer-based experiments at the MRC unit, or at Addenbrooke’s for brain stimulation experiments.
“When I am not running experiments, I am analysing data, including brain scans, using statistical models to test my hypotheses, or writing papers and giving talks to communicate my findings to the rest of the field and the public.”
It is the public engagement side of her work that can be particularly insightful. “I think some of the most interesting opportunities I’ve had were when I’ve been given the chance to discuss my work with patients, hear their feedback, and listen to their ideas about what might be most fruitful for our future directions of research. I think this sort of research-patient interaction will be vital to developing better ways of treating mental health difficulties in future.”
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