Bioinformatics-Driven Technologies for Enhancing Neurobiological Auditory Training: Commercial Opportunities in Health and Education
Jing Gao
Xinxiang Vocational and Technical College, Xinxiang, Henan, 453006, China
DOI:https://doi.org/10.5912/jcb1866
Abstract:
This study investigates the integration of bioinformatics with neurobiological insights into auditory training, specifically within the context of music composition and education. We explore how musical elements—melodic, rhythmic, and harmonic—can influence brain activity and be conceptualized as biological information. This biological data is then processed using a sophisticated bioinformatics model tailored to assess neuroplastic changes associated with music composition and auditory training. Central to our investigation is the application of whole-brain thinking approaches in the teaching of sight-singing and ear training, facilitated through bioinformatics tools that model neuroplasticity. By analyzing the neuroplastic effects of music training, particularly sight-singing, on higher cognitive networks, we identify specific regions of interest (ROI) within the brain, including the frontal middle gyrus, the orbit of the frontal middle gyrus, and the inferior frontal gyrus orbit. Our findings reveal a significant negative correlation between the extent of music composition training and the activity within these ROIs, with correlation coefficients of r=-0.5134 (p=0.0301) and r=-0.6225 (p=0.0015) for the length and daily duration of composition training, respectively. These results underscore the potential of using bioinformatics to enhance traditional music education methods, providing a more profound, scientifically informed understanding of how musical training affects cognitive functions. The implications of this research extend into the development of new educational technologies and therapeutic approaches in music therapy, highlighting substantial commercial opportunities in both health and educational sectors. By leveraging bioinformatics-driven technologies, we can offer innovative solutions that not only enhance cognitive and auditory skills but also pave the way for new market ventures in biotechnological applications related to music and cognitive health.