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Press releases

Being spoiled for choice – what happens in the human brain

Who has not faced this situation? Having too many choices when shopping for a product creates a feeling that we call “being spoiled for choice.” Academic studies have proven for some time that consumers find a large selection of products attractive, but this makes it increasingly difficult for them to decide what to buy. A team centered on the Tübingen scientist, Dr. Axel Lindner, from the University Hospital for Psychiatry and Psychotherapy and the Hertie Institute for Clinical Brain Research has now discovered what takes place in our brains when we are “spoiled for choice.” The brain activity in particular areas was always strongest when people were confronted with the preferred mid-level number of options. If the number becomes too large, the cognitive effort involved in making a decision exceeds the benefits – brain activity declines and we face a “spoiled for choice” situation. The subjective impression of being “spoiled for choice” can therefore now be tangibly and objectively measured. Knowing about how the brain calculates the relationship between effort and benefit might not only be relevant to provide us with a better understanding of decision processes – e.g. during the next shopping trip – but also help to explain individual symptoms in neuropsychiatric disorders in a better way.

The number of products that are available in our consumer-oriented society is increasing all the time. This seems on the surface to enable corporations to ideally satisfy the most varied needs of individuals. At the latest since the ground-breaking “jam study” published by Sheena Iyengar and Mark Lepper in 2000, we have known that consumers may find a large selection attractive (24 different sorts of jam), but when it comes to deciding what to buy, it is difficult for them to select one item. They often return home without any of the products in their bag at all. In fact, more people make a purchase if the number of options available is smaller (6 kinds of jam).  

How does this “being spoiled for choice” situation develop and what causes it in neurobiological terms? Scientists suspect that the more options people face, the less they benefit from the larger selection – that is to say, the probability that an even better option exists will decrease. Conversely, the costs of making a decision increase progressively: People need more time and cannot take note of all the options and the comparison process becomes more difficult. At some stage, the cognitive expenditure exceeds the benefits of having a greater number of options (the effort exceeds the benefits) and we experience that “spoiled for choice” sensation: We become demotivated, dissatisfied with our decision or end up not making a purchase at all. 

Elena Reutskaja (IESE Business School in Barcelona) and Axel Lindner (University Hospital Tübingen, Clinic for Psychiatry and Psychotherapy and the Hertie-Institute for Clinical Brain Research, University of Tübingen) – working with cooperation partners at the California Institute of Technology (Colin Camerer and Richard Andersen) and at the Pompeu Fabra University in Barcelona (Rosemarie Nagel) – have investigated what takes place in a person’s brain when we are “spoiled for choice.” In their test persons not only worked for a monetary reward, but also received a photo product of their choice (e.g. a t-shirt or a beaker). Their task in the experiment involved selecting the picture that was to be immortalized on the photo product from a varying number of pictures. While the participants were making their decisions, their brain activity was measured using functional magnetic resonance imaging (fMRI).

The following results emerged: The test persons said that a small number of pictures (6 photos) was too low, but selecting one from 24 photos was too difficult. The ideal number of options was 12 photos for most of the participants.  

The brain activity in the dorsal striatum and the anterior cingulate cortex – these are the brain areas involved in decision processes and “motivate” our motor acts and our thinking processes with their activity – reflected the preferred mid-level number of options: The brain activity in these areas was always highest when 12 photos were available for selection. If the number was too small or too large, the brain activity declined. If a very attractive photo was added to the selection to make things easier for the test person, the brain activity increased overall, but was still highest for the mid-level number of choices.    

Reutskaja and Lindner suggest that the activity in the dorsal striatum and the anterior cingulate cortex reflects the difference between the increasingly small benefit of a progressively larger number of options and the upsurge in processing costs. If the number of options is too large, the effort transcends the benefits – brain activity declines and we are “spoiled for choice.” However, if the costs are reduced – for example, if a computer assists the test person in making their choice – the brain areas mentioned above reflect our preference for a large number of options; the brain activity was always greatest in this case if 24 photos were available for selection. 

The experiments conducted by Reutskaja and Lindner provide some insight into how “being spoiled for choice” occurs in the brain and which factors play a role in this process. Their experiments will make it possible to better understand the processes that lead to “being spoiled for choice.” The subjective sensation of “being spoiled for choice” can be measured objectively. The reduction in motivation and in motor drive, as some healthy people experience when “being spoiled for choice,” are also observed in certain neuropsychiatric disorders. Knowing how the brain calculates the relationship between effort and benefit could therefore not only lead to a better understanding of decision processes, e.g. during the next shopping trip, but also help to better explain individual symptoms in these diseases.  

 

Original publication

Reutskaja E., Lindner A., Nagel R., Andersen R.A., and Camerer C.F. (2018) “Choice overload reduces neural signatures of choice set value in dorsal striatum and anterior cingulate cortex”, Nature Human Behaviour
DOI: 10.1038/s41562-018-0440-2 (http://dx.doi.org/)

 

Further information

The California Institute of Technology (Caltech), who was involved in the study, has published a YouTube video on the results: 
youtu.be/GHwtv9IkWj4

 

Image

Copyright: Axel Lindner, 2018

 

Author contact

Dr. Axel Lindner
University Hospital Tübingen
Clinic for Psychiatry and Psychotherapy
& Hertie Institute for Clinical Brain Research
Calwerstrasse 14, 72076 Tübingen

Tel. 07071 29-82686
e-mail: a.lindner@medizin.uni-tuebingen.de

 

Press contact 

Dr. Mareike Kardinal
Director of Communications
Hertie Institute for Clinical Brain Research
Otfried-Müller-Str. 27
72076 Tübingen

Tel.: +49 7071 29-88800
Email: mareike.kardinal@medizin.uni-tuebingen.de

 

Press release as PDF file

Press contact
Dr. Mareike Kardinal mareike.kardinalmedizin.uni-tuebingen.de Address

Hertie Institute for Clinical Brain Research
Director of Communications

Otfried-Müller-Str. 27
72076 Tübingen

Phone: +49 (0)7071 29-88800
Fax: +49 (0)7071 29-25154