The brain-training is big business. For companies like BrainHQ, Luminosity, and Cogmed, it’s actually a multimillion dollar business that is expected to surpass $3 billion by 2020. But, do the actually benefit your brain?

Research doesn’t believe so. In fact, the the University of Illinois determined that there’s little or no evidence that these games improve anything more than the specific tasks being trained. Luminosity was even fined $2 million for false claims.

So, if these brain games don’t work, then what will keep your brain sharp? The answer? Learning to play a musical instrument.

Why Being a Musician Is Good For Your Brain

Science has shown that musical training can change brain structure and function for the better. It can also improve long-term memory and lead to better brain development for those who start at a young age.

Furthermore, musicians tend to be more mentally alert, according to new research from aUniversity of Montreal study.

“The more we know about the impact of music on really basic sensory processes, the more we can apply musical training to individuals who might have slower reaction times,” said lead researcher Simon Landry.

“As people get older, for example, we know their reaction times get slower. So if we know that playing a musical instrument increases reaction times, then maybe playing an instrument will be helpful for them.”

Previously, Landry found that musicians have faster auditory, tactile, and audio-tactile reaction times. Musicians also have an altered statistical use of multi-sensory information. This means that they’re better at integrating the inputs from various senses.

“Music probably does something unique,” explains neuropsychologist Catherine Loveday of the University of Westminster. “It stimulates the brain in a very powerful way, because of our emotional connection with it.”

Unlike brain-games, playing an instrument is a rich and complex experience. This is because it’s integrating information from senses like vision, hearing, and touch, along with fine movements. This can result long-lasting changes in the brain. This can also beapplicable in the business world.

Changes in the Brain

Brains scans have been able to identify the difference in brain structure between musicians and non-musicians. Most notably, the corpus callosum, a massive bundle of nerve fibres connecting the two sides of the brain, is larger in musicians. Also, the areas involving movement, hearing, and visuospatial abilities appear to be larger in professional keyboard players.

Initially, these studies couldn’t determine if these differences were caused by musical training of if anatomical differences predispose some to become musicians. Ultimately, longitudinal studies showed that children who do 14 months of musical training displayed more powerful structural and functional brain changes.

These studies prove that learning a musical instrument increases grey matter volume in various brain regions, It also strengthens the long-range connections between them. Additional research shows that musical training can enhance verbal memory, spatial reasoning, and literacy skills.

Long Lasting Benefits For Musicians

Brain scanning studies have found that the anatomical change in musicians’ brains is related to the age when training began. It shouldn’t be surprising, but learning at a younger age causes the most drastic changes.

Interestingly, even brief periods of musical training can have long-lasting benefits. A 2013 study found that even those with moderate musical training preserved sharp processing of speech sounds. It was also able to increase resilience to any age-related decline in hearing.

Researchers also believe that playing music helps speech processing and learning in children with dyslexia. Furthermore, learning to play an instrument as a child can protect the brain against dementia.

“Music reaches parts of the brain that other things can’t,” says Loveday. “It’s a strong cognitive stimulus that grows the brain in a way that nothing else does, and the evidence that musical training enhances things like working memory and language is very robust.”

Other Ways Learning an Instrument Strengthens Your Brain

Guess what? We’re still not done. Here are eight additional ways that learning an instrument strengthens your brain.

1. Strengthens bonds with others. This shouldn’t be surprising. Think about your favorite band. They can only make a record when they have contact, coordination, and cooperation with each other.

2. Strengthens memory and reading skills. The Auditory Neuroscience Laboratory at Northwestern University states that this is because music and reading are related via common neural and cognitive mechanisms.

3. Playing music makes you happy. McMaster University discovered that babies who took interactive music classes displayed better early communication skills. They also smiled more.

4. Musicians can process multiple things at once. As mentioned above, this is because playing music forces you to process multiple senses at once. This can lead superior multisensory skills.

5. Musical increases blood flow in your brain. Studies have found that short bursts of musical training increase the blood flow to the left hemisphere of the brain. That can be helpful when you need a burst of energy. Skip the energy drink and jam for 30 minutes. 6. Music helps the brain recover. Motor control improved in everyday activities with stroke patients.

7. Music reduces stress and depression. A study of cancer patients found that listening and playing music reduced anxiety. Another study revealed that music therapy lowered levels of depression and anxiety.

8. Musical training strengthens the brain’s’ executive function. Executive function covers critical tasks like processing and retaining information, controlling behavior, making, and problem-solving. If strengthened, you can boost your ability to live. Musical training can improve and strengthen executive functioning in both children and adults.

And, wrap-up, check out this awesome short animation from TED-Ed on how playing an instrument benefits your brain.