HOW MUSIC AND ART TUNE AND SCULPT YOUR BRAIN’S ARCHITECTURE

Your brain is constantly changing as you grow up and get older. Throughout your life you have all kinds of experiences, and your brain has the amazing ability to respond to those experiences in various ways. For example, when you learn something new, such as how to play a new game or speak a new language, your brain makes new connections, and these connections get stronger the more you practice or use what you learned. The experiences you had when you were younger can have lasting effects on your brain as an adult. In this article, we will talk about how playing musical instruments and creating visual art can change your brain, how these changes affect your future adult brain, and examples of a few technologies that have been used to help scientists visualize brain changes.

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better you get and the easier it feels?That is because when you learn something new, your brain is creating new cells called neurons NEURON A brain cell that sends messages back and forth between the brain and body.
and making new connections between neurons.With repeated practice, these connections get stronger, making it easier for neurons to communicate with one another which, in turn, makes you do better.Your brain's ability to make new neurons and strengthen connections is called neural plasticity.Neural plasticity is an important part of

NEURAL PLASTICITY
The brain's ability to make new neurons and strengthen connections between neurons in response to experiences.

PLAYING MUSIC
When you play a musical instrument, many processes must come together to make it sound good.Your hands might be doing two di erent things, you might be reading sheet music, all while you are listening and keeping track of how fast or loud you are playing, coordinating your playing with that of others, and ignoring distractions that might cause you to make a mistake.Thus, playing an instrument requires many brain skills including executive functions.Executive

EXECUTIVE FUNCTIONS
A set of mental skills that allow a person to e ectively set goals, learn, pay attention, control their behaviors, and manage their daily life.functions help us to set goals, learn, pay attention, and control our behaviors.
Repeated musical practice is believed to put a high demand on the brain areas that control executive functions, leading to changes in these brain areas.This is important because these brain areas and the skills they control help you navigate your daily life-and the more you use and exercise them, the stronger and more e cient these neural connections become.Playing music does not just create functional changes in your brain, it can also change the brain's physical structure.Researchers have found that musicians who have practiced and played for many years show structural di erences in brain areas involved in hearing, movement, and visual skills as compared with non-musicians.These structural di erences may be related to better skills-for example, musicians may have better hearing skills than non-musicians [ ]. what you are drawing.Another important executive function is the ability to switch attention between the bigger picture and the details.When sketching, you first map the larger shapes and then gradually add details, while making sure these details fit the larger image.Studies that compare visual artists to non-artists show that artists are better at storing visual information in working memory [ ]. Furthermore, college art students can process things they see more quickly and accurately than non-art students can [ ].The reason for these findings might be because drawing uses many of the same brain regions responsible for skills that might help people pay attention in class, for example.

MUSIC, ART, AND THE AGING BRAIN
Did you ever notice that you adapt quickly to changes in your environment or to new technologies, without putting in much thought?While adapting to new technologies is easy for young people, it often requires more work for older adults.This is because our brains change as we get older.The brain reaches maturity, or stops growing, when people are in their mid to late s, which is when executive functions and memory are at their best.In older adults, executive functions and memory start to show age-related changes and gradually become less optimal.This can make some things more challenging, such as reacting quickly or remembering to get a cake for someone's birthday [ ].However, some individuals experience these changes earlier or later than other people do.Both our genes and what we experience in our day-to-day lives could cause these di erences in brain changes.Specifically, life-long engagement in of activities that can contribute to a healthy brain.
Researchers have found that older adults who have been musicians for more than years have better executive functions compared with non-musicians [ , ]. Older adult musicians also have better hearing skills than non-musicians.For example, they may have an easier time hearing conversations in noisy environments [ ].Such results suggest that musical training and practice when you are younger can have long-lasting impacts on your adult brain, and might even slow down the negative e ects of brain aging.How? Scientists believe that practicing music over time may lead to permanent physical changes in brain structures that a ect brain performance as adults, even if adults do not practice music as much anymore.
Visual art and drawing from observation are also gaining attention as tools to improve memory and executive functions which contribute to healthy aging.For example, older adults taking art classes in their s show increased connections between brain regions responsible for working memory [ ].Additionally, using drawing as a memory strategy can improve memory in older adults [ ].Although this field is still developing, current research suggests that taking time to create visual art can cause lasting brain changes.Artistic training may be particularly impactful during in early education, as the brains of young children are more ready to change.

HOW DO WE KNOW WHAT THE BRAIN IS DOING?
Scientists use various technologies to see what our brains look like and how they function while doing specific tasks.Commonly used technologies include magnetic resonance imaging (MRI) and

MAGNETIC IMAGING (MRI)
A technique used to make images of the inside of objects, like the brain, using a magnetic resonance scanner.

FUNCTIONAL MAGNETIC RESONANCE IMAGING (FMRI)
A technique used to measure changes in blood flow using a magnetic resonance scanner, a machine that works using magnetic fields and radio waves.
An MRI scanner allows scientists to collect images of soft tissues within our bodies, like our brains (Figure A).The MRI scanner uses powerful magnets and radio waves to create detailed D images, allowing scientists to capture the brain's exact shape and structure.For example, scientists can use MRI to test whether there are structural di erences in brain areas when people play music or do art for many years.
What if we want to know what parts of the brain are especially active while we are doing something like moving our hands or using working memory?The same kind of MRI scanner can produce an fMRI scan, which allows researchers to see di erences in oxygenated and non-oxygenated blood in the brain.Whenever your brain is engaged with a certain task, oxygen-containing blood flows to those areas to help the neurons to work.In comparison, brain areas that are less Weaver et al.In one task, the person was asked to listen to two melodies and decide whether they were the same.The verbal task was similar but used words.Colors represent brain areas activated while completing these tasks.Red shows activation of the brain while doing the music task.Blue shows activation while completing the verbal task.Yellow shows brain areas that were used for both the music and verbal tasks ( involved in the task need less oxygenated blood because they are not working as hard.For an fMRI scan, a person lies down in an MRI scanner and is given a task to do, such as looking at pictures or doing mental math.The scanner's computer creates a color-coded map of brain activity, which can identify brain regions that are active during certain tasks or whether there are di erences between individuals performing the same task ( Scientists can also use a special technology to detect the brain's electrical activity.The brain is an electrical system that works by constantly sending signals through a network of neurons.

ELECTRO ENCEPHALOGRAPHY
A method that measures the brain's electrical activity using electrodes that are put on a person's head.occurs when large groups of neurons are active while you are doing a task, using an electrode-containing cap worn on the head (Figure ).
EEG records the brain's electrical activity as a series of waves.The sizes and shapes of the waves indicate di erent brain states.EEG is very good at capturing tiny signals and giving precise information right when something is happening in the brain-within a fraction of a second.But compared to fMRI, EEG is not as good at telling scientists specifically where something is happening in the brain.Nonetheless, in art research, EEG has shown di erences between artists and non-artists when they are performing tasks that require executive functions.This research has shown that when drawing from memory, artists have an easier time staying focused on the task as compared to non-artists.
development, but your brain can continue to change all throughout your life, allowing you to learn new things even when you are older.Engaging with music and art are examples of experiences that can change your brain (Figure ).

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FigurePlaying music or making art can help the brain create new neurons and strengthen the connections between neurons (Image created using Canva.com).

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Figure (A) An MRI scanner.(B) fMRI images of the brain surface (top) and "slices" through the brain (bottom) while the person is completing two memory-related tasks.In one task, the person was asked to listen to two melodies and decide whether they were the same.The verbal task was similar but used words.Colors represent brain areas activated while completing these tasks.Red shows activation of the brain while doing the music task.Blue shows activation while completing the verbal task.Yellow shows brain areas that were used for both the music and verbal tasks (Figure credits: A Getty Images; B [ ]).
Figure B).For example, fMRI can be used to see di erences in brain activation between musicians and non-musicians when they are listening to pleasant and unpleasant sounds [ ]. fMRI can also show which brain regions are active following art production.This technique has been used to study the connectivity between brain regions in older adults who create art compared to those who examine art in a gallery [ ].To learn more about fMRI, check out this Frontiers for Young Minds article.

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Figure Weaver et al. certain activities may protect the brain against age-related cognitive decline [ ]. Playing a musical instrument and making art are examples