Tag Archives: neuroaesthetics

The Real Art Connoisseurs

Posted on June 4, 2019 by | 3 comments

Coming to Paris the first thing I noticed was the architecture. As an architectural studies minor, I love seeing new styles of building and the effects they have on how we perceive a city. Just from the buildings, Paris is already classier than any city I’ve been to in the U.S. I was even told that the reason most apartment buildings don’t have air conditioning is because Parisians don’t want to mar the beautiful façade of the buildings with ugly air conditioning units (I don’t disagree with this decision).

Classy Parisian apartment building

Not only is the architecture beautiful in Paris but also the artwork in the plethora of museums. Just in this first week I’ve visited three museums: the Musée de l’Orangerie, Musée d’Orsay and the Louvre. Each one is always filled with people admiring the artwork. The interesting aspect about art is that its beauty is subjective and intangible, and yet, it is relatable to many. After all, there is a reason that 10.2 million people visited the Louvre in 2018 (taking into account the fact that some people go just to say they’ve gone). This absurd number of people has me thinking, is there a way to detect the real art connoisseurs from the charlatans who only go to the museums for the Instagram post?

Entrance to the Louvre, designed by I.M. Pei

One way to answer this question is to find evidence that there is a difference in brain activity between art experts and non-experts when viewing a piece of art. Such a study was done by Kirk et al. in which the authors asked architects and non-architects to rate the aesthetic value of building images while fMRI studies tracked neural activity (Kirk et al., 2009). Before this study, it was already

The ACC and OFC are involved in processing reward

known that brain areas that are active in processing reward such as the striatum, orbitofrontal cortex (OFC) and the anterior cingulate cortex (ACC) are also active when perceiving visual aesthetics such as paintings (Vartanian and Goel, 2004). Because of this, Kirk et al. focused on fMRI studies of these brain locations in architects and non-architects to see if there was a difference in neural activity. It should be noted though that other areas such as the parahippocampal gyrus are activated during visual perception and judgement of value, but are not explicitly studied in this experiment (Chatterjee and Vartanian, 2016).

Eleven architects/grad or postgrad architecture students and 13 undergrad/grad students with no formal art-related education were asked to rate the level of aesthetic appeal for 168 building images by pressing buttons 1 (lowest appeal) to 5 (highest appeal) while in the fMRI scanner. Results showed that there was a significant increase in ACC and OFC activity in architects compared to non-architects when asked to make an aesthetic judgement of the building (Kirk et al., 2009). These results are controlled by data that show no significant difference in neural activity when architect and non-architect were asked to make an aesthetic judgement on a neutral stimulus such as a face (Kirk et al., 2009). Thus we know that the difference in neural activity in the ACC and OFC is due to the judgement of buildings specifically. Interestingly enough, other areas of the brain active during reward that are predicted to also be active during aesthetic judgement such as the nucleus accumbens show no significant difference in activation between architect and non-architect during building aesthetic evaluation (Kirk et al., 2009). Overall, we can conclude that the anterior cingulate cortex and orbitofrontal cortex have different neural activities in art experts vs non-experts when asked to judge the beauty of an artwork.

So what does this mean in terms of differentiating the connoisseurs from the charlatans? Essentially there is no real way to tell the difference without access to fMRI scans of everyone’s brains, since behavior in making aesthetic judgements (such as reaction time in aesthetic judgement) is not significantly different between experts and non-experts when viewing a piece of art (Kirk et al., 2009). So good news for us charlatans, no one will be exposing us anytime soon during our next museum visit!

References

Chatterjee, A., & Vartanian, O. (2016). Neuroscience of aesthetics. Annals of the New York Academy of Sciences, 172-194.

Kirk, U., Skov, M., Christensen, M. S., & Nygaard, N. (2009). Brain correlates of aesthetic expertise: A parametric fMRI study. Brain and Cognition, 69, 306-315.

10.2 million visitors to the Louvre in 2018. (2019, January 3). Retrieved from https://presse.louvre.fr/10-2-million-visitors-to-the-louvre-in-2018/

Vartanian, O., & Goel, V. (2004). Neuroscience correlates of aesthetic preference for paintings. NeuroReport, 15(5), 893-897.

https://www.researchgate.net/profile/Sung-il_Kim/publication/310736855/figure/fig4/AS:585435621380101@1516590137404/The-valuation-pathway-Brain-regions-involved-in-the-value-based-decisionmaking-process.png

 

 

 

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Louis XIV’s Crib Was Cool, But Those Flowers Though

Posted on June 4, 2019 by | 4 comments

Now coming up on two weeks into my stay in Paris, I’m amazed at how much art seeing (and walking!) opportunities there are across the city. I went to the Palace of Versailles  this past weekend and learned a little bit more about myself in the process. The overall aesthetics of some of the rooms, like the Hall of Mirrors, were breathtaking. Throughout my time in France, the distinct architecture of everything still astonishes me. The fact that people could see a vision that combined order and beauty is a testament of the human ability. However, even though the palace exemplified all of these things with the added adventure of getting around, I still found myself more at peace and grounded in the presence of flowers. In a larger than life palace with years of French history intertwined in it, it was nothing compared to the gardens, random buildings’ intricate flower arrangements across town, and especially the unique paintings of gorgeous flower bouquet and sceneries that truly made me stop and smell the roses.

A random but greatly appreciated restaurant I came across while walking the Shakespeare and Company bookstore in the 5th Arrondissement of Paris.

I couldn’t imagine why the Palace didn’t resonance with me as much as moving through a museum did; it was kind of a museum in some respects. My sister was shocked to learn I didn’t have plans to go to the Palace before this past weekend. It had been one of her favorite places in France, and she expected me to have the same experience. Surprisingly, I didn’t get that overwhelming feeling of wonder and disbelief at the magnitude  that she and some of the people at the palace had. So, I started to research why do people have different aspects artistic expression that resonances with them more than others and came across the world of neuroaesthetics.

A map of the extensive grounds in the Palace of Versailles.

Neuroaesthetics is this field in neuroscience where researchers are trying to figure out what neural connections activate and interact while someone is having an aesthetic experience that causes joy or disgust (Belfi et al., 2019). The greater question of this field is exactly the question I was trying to answer: what makes something more appealing to one person opposed to another? The field has a large reach with questions like why humans  chose the mates that we do, why we decide on one consumer product over the other, and perception’s effect on how we communicate (Chatterjee and Vartanian, 2014).

Neuroaesthetics continues to shine light on subjects such as what neural networks are involved when we view visual art. One study did this looking at how perception paintings as aesthetically pleasing or not affected what brain networks and structures were activate or deactivated (Belfi et al., 2019). Previous research found that the default mode network (DMN) was active when the person viewed artwork they thought was more moving, so the study recorded the DMN with fMRI processing as participants examined 90 paintings at various time lengths (Vessel et al., 2012) (Belfi et al., 2019). They found more DMN activation while the participants viewed a painting they thought was aesthetically pleasing compared to non-aesthetically pleasing works (Belfi et al., 2019). More DMN activation could lead brain system to associate a pleasing reward to the stimulus leading to a strong emotional response (Belfi et al., 2019).

So, while the Palace was objectively amazing to witness in real life, my perception of the art was not as high as the ones in the Musee D’Orsay leading me to some conclusions that my DMN could have been less active.

The Hall of Mirrors at the Palace of Versailles. My favorite part of the entire experience with the sunlight glittering on the chandeliers.

The museum experience is also a big determinate when viewing art as well. One study had a group of people examine art in a museum in Vienna and in a computer program to see if the way in which people received art would change their perception of it and their memory of the art (Brieber, Nadal, and Leder, 2015). Those that experienced the art through the museum had better recall of the art they saw and found the art to be more “arousing and pleasing” (Briber, Nadal, and Leder, 2015). So, there is the possibility that, in addition to a pretty weak DMN response, actually being in a museum where I expected to see this great art colored my perception of the paintings there compared to the palace’s paintings. The palace’s paintings I saw was great, but the palace did not support the type of art enjoying experience that a museum did. The participants in the study could stop and absorb a work as much as they wanted to much like my experience in the Musee D’Orsay: wandering around not knowing which work would capture me (Briber, Nadal, and Leder, 2015). This might have made the difference in my perception of the Palace as a whole.

It is pretty cool that even though we have the same brain systems activated with the aesthetically pleasuring figures, our internal states as well as the manner in which we consume art affects what we consider to be life changing pieces of art. I didn’t expect to stumble upon a whole section of neuroscience that I never encountered before to understand why Louis XVI’s chambers did not stimulate my DMN as much as Monet’s 1878 Chrysanthemums painting could.

Monet’s Chrysanthemums painting done in 1878. One of my many favorites by my favorite artist.

If you want to learn more about the neuroaesthetics, Anjan Chatterjee is a cognitive neuroscientist that specializes in neuroaesthetics with research on how “certain configurations of line, color, and form” affect what humans consider to be beautiful (“Anjan Chatterjee: How your brain decides what is beautiful | TED Talk,” n.d.) . He talks all about his study in this 2016 Ted Talk.

From what I’ve learned in my research, your surroundings have just as much to do how you perceive the beauty as your brain networks do. Appreciation of art is never linear, so even if something doesn’t elicit a strong DMN engagement, it’s can still be a great experience, nonetheless.

Next stop, fingers crossed, the Catacombs!

References

Anjan Chatterjee: How your brain decides what is beautiful | TED Talk. (n.d.). Retrieved June 4, 2019, from https://www.ted.com/talks/anjan_chatterjee_how_your_brain_decides_what_is_beautiful

Belfi, A. M., Vessel, E. A., Brielmann, A., Isik, A. I., Chatterjee, A., Leder, H., … Starr, G. G. (2019). Dynamics of aesthetic experience are reflected in the default-mode network. NeuroImage, 188, 584–597. https://doi.org/10.1016/j.neuroimage.2018.12.017

Brieber, D., Nadal, M., & Leder, H. (2015). In the white cube: Museum context enhances the valuation and memory of art. Acta Psychologica, 154, 36–42. https://doi.org/10.1016/j.actpsy.2014.11.004

Chatterjee, A., & Vartanian, O. (2014). Neuroaesthetics. Trends in Cognitive Sciences, 18(7), 370–375. https://doi.org/10.1016/j.tics.2014.03.003

Vessel, E. A., Starr, G. G., & Rubin, N. (2012). The brain on art: intense aesthetic experience activates the default mode network. Frontiers in Human Neuroscience, 6. https://doi.org/10.3389/fnhum.2012.00066

Image #2: [Screenshot of the grounds at the Palace of Versailles]. Retrieved from https://www.google.com/maps/place/Palace+of+Versailles/@48.8047375,2.1106368,15z/data=!4m5!3m4!1s0x0:0x538fcc15f59ce8f!8m2!3d48.8048649!4d2.1203554

Image #1, #3, and #4 were taken by me

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