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The research involved brain imaging studies of 15 young adults with little or no musical background who were scanned before and after they underwent six weeks of musical training. Participants were required to learn simple piano pieces. Brain activity in certain areas changed after learning, indicating the effect of training. But the activity in a different set of brain structures, measured before the training session had started, predicted which test subjects would learn quickly or slowly.

Predisposition

鈥淧redisposition plays an important role for auditory-motor learning that can be clearly distinguished from training-induced plasticity,鈥� says Dr. Robert Zatorre, a cognitive neuroscientist at The Neuro who co-directs Montreal鈥檚 International Laboratory for Brain, Music and Sound Research (BRAMS) and is lead author of the study in Cerebral Cortex. 鈥淥ur findings pertain to the debate about the relative influence of 鈥榥ature or nurture,鈥� but also have potential practical relevance for medicine and education.鈥�

The research could help to create custom-made interventions for students and for neurological patients based on their predisposition and needs.

Future cognitive neuroscience studies will explore the extent to which individual differences in predisposition are a result of brain plasticity due to previous experiences and to people鈥檚 genetics.

• Musical chills: why they give us thrills
• How the brain recognizes familiar music

The study was conducted by Dr. Zatorre鈥檚 trainees, Sibylle Herholz and Emily Coffey at The Neuro and BRAMS, and by Christo Pantev at the Institute for Biomagnetism and Biosignalanalysis, University of M眉nster, Germany.

This study was funded by the Canadian Institutes of Health Research, the Canada Fund for Innovation, Deutsche Forschungsgemeinschaft and a Vanier Canada Graduate Scholarship.

Link to study in Cerebral Cortex:

The Montreal Neurological Institute and Hospital: