As individuals age, their brains may experience difficulties in learning and decision-making due to a decrease in brain cells and cognitive function. However, neuroscientists have found that the brain can rewire connections to compensate for age-related cognitive decline through a process known as compensatory scaffolding. This involves forming new connections in the brain, strengthening existing ones, and even generating new brain cells. Yet, the specifics of how these new connections operate and interact, as well as their limitations, remain unclear.
Research conducted by Leonardo Bonetti and colleagues indicates that older individuals may exhibit more compensatory scaffolding and less unilateral brain activity compared to younger individuals when processing auditory information like music. Previous studies have shown that certain brain areas involved in memory and task processing decline faster in aging individuals, prompting Bonetti’s team to investigate how age impacts the brain’s response to compensatory scaffolding during music processing.
To test their hypothesis, Bonetti and his team studied brain activity in 37 young adults (aged 18-25) and 39 older adults (aged 60 and above) as they listened to music. Using magnetoencephalography and magnetic resonance imaging devices, the researchers mapped brain activity in specific regions responsible for sound processing and decision-making, such as the temporal lobe, frontal lobe, and hippocampus.
During the study, participants were asked to memorize a musical sequence and distinguish between the original version and modified versions with altered notes. Older participants showed less brain activity in most regions compared to younger participants, except for the left auditory cortex. This increased activity in the left auditory cortex suggested that the aging brain can reorganize and maintain function in certain areas, despite decreased activity in memory-related regions.
Notably, younger participants displayed more brain activity in memory and working memory areas, enabling them to detect modified musical sequences more effectively than older participants. The study also revealed that individuals with strong working memory were better at recognizing modified sequences, regardless of age group.
Overall, the research highlights that parts of the brain linked to memory and cognitive function may decline with age, but healthy aging can trigger brain reorganization to mitigate functional decline. Bonetti’s findings challenge previous notions that aging does not impact brain pathways associated with memory, decision-making, and other executive functions.
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Source: sciworthy.com
