In-sights into depression

Connection between pupil reaction and listlessness proven

January 12, 2024

In a study, researchers found a clear link between pupil response and loss of pleasure. This discovery contributes to a better understanding of the physiological mechanisms behind depression.

Scientists from the Max Planck Institute of Psychiatry measured the pupillary reaction of participants while they were solving a task. In healthy participants, the pupils dilated during the task in anticipation of a reward, but this reaction was less pronounced in participants with depression: "The reduced pupil reaction was particularly noticeable in patients who could no longer feel pleasure and reported a loss of energy," says Andy Brendler, first author of the study. This feeling of listlessness is one of the most common symptoms of depression.

"This finding helps us to better understand the physiological mechanisms behind listlessness," explains research group leader Victor Spoormaker. Amongst other things, the pupillary reaction is a marker for activity in the locus coeruleus, the brain structure with the highest concentration of noradrenergic neurons in the central nervous system. Noradrenergic neurons react to the neurotransmitter norepinephrine, an important component in the stress response and the upregulation of arousal, in other words the activation of the nervous system. "The reduced pupillary response in patients with more listlessness indicates that the lacking activation of the locus coeruleus is an important physiological process that underlies the feeling of listlessness," says Spoormaker.

The study also found the pupil response to be weaker the more depressive symptoms participants had. This replicates the findings of a previous study by the same research group. The replicability of neuropsychiatric methods is more the exception than the rule, and demonstrates the reliability of pupillometry as a method.

Pupillometry could be used as a supplementary method for diagnosis. It could also contribute to the development of individualized treatment strategies for depression. For example, if a patient shows a significantly reduced pupil response, antidepressants that act on the noradrenergic system could be more effective than other medications. The medication dosage could also be optimized based on the pupil reaction. Considering that an estimated 30% of depressive patients do not improve using the currently available medications[1], understanding the physiological mechanisms behind depression and fine-tuning diagnosis and treatment accordingly is urgently required.

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