22.06.2015
Pressemitteilung: Wie das Gehirn Entscheidungen trifft
Es ist oft schwierig und dauert lange, Entscheidungen zu treffen. Wenn wir jedoch an einfache Entscheidungen in unserem Alltag denken, werden diese oft schnell und einfach getroffen. Wenn Sie einen Anruf erwarten, wenn Ihr Telefon klingelt, kramen Sie Ihr Telefon aus der Tasche und nehmen es sofort ab. Wenn ein Anruf Sie jedoch stört, während Sie ein Gespräch führen oder einem Konzert lauschen, schalten Sie das Telefon in der Regel schnell stumm. Solche kontextabhängigen Entscheidungen sind eine Grundlage für intelligentes Verhalten (Press release in English only).
Tübingen Neuroscientist Markus Siegel (Werner Reichardt Centre for Integrative Neuroscience – CIN / MEG Center) together with colleagues from the MIT and from Princeton University (USA) now shows how brain regions interact during flexible decisions, with the results published in “Science”. The new study provides important information on how the healthy brain makes decisions. These insights also help to better understand disorders of cognition and perception in neuropsychiatric diseases such as schizophrenia and, in the long term, may help to develop new treatments.
The brain constantly combines sensory inputs – the phone ringing – with the current behavioral context – expecting a call or listening to a concert – to choose an action. How does this work within the brain? Which brain regions encode the context, and which brain regions make the decision? Does a single region decide, or is it a network of brain regions? How is the decision relayed to the executing stages? The new study by Tübingen Neuroscientists gives important answers to these fundamental questions.
The researchers are able to show that decisions are not made in a single brain region, but that they evolve concurrently in a dense network of frontoparietal regions in the so-called association cortex. From there, neuronal choice signals are relayed not only to motor regions, which control behavioral responses, but also to sensory regions, which first encode the information that the choice is based on. Thus, choice signals are also fed back along the sensorimotor pathway to where sensory information is first processed. Furthermore, Siegel and his colleagues’ findings suggest that the frontoparietal association network is critical for neural processing of the behavioural context. During decision-making, context signals are broadcast from this network to other sensory and motor regions.
Thus, even simple behavioural decisions are based on a complex interplay of widely distributed brain regions. Answering or muting the phone as prompted by the current situation feels effortless and simple. But in our brain, a widely distributed network of brain regions does the heavy lifting in split seconds: sensory inputs are processed and assessed, inputs are combined with the current context, information is exchanged within the network – everything to finally initiate what feels to us like ‘the natural thing’ to do.
Publication: Markus Siegel, Timothy J. Buschman, Earl K. Miller: Cortical information flow during flexible sensorimotor decisions. Science (2015), 19. Juni 2015.
Organization:
- Werner Reichardt Centre for Integrative Neuroscience
Reseach Group: Large-Scale Neuronal Interactions
Contact: Prof. Dr. Markus Siegel