Mammal brains, unlike bones, do not fossilize. This fact presents a conundrum for scientists trying to understand how we came to be how we are. For example, scientists have long argued over how humans ...

The discovery is analogous to finding a fossil that illuminates evolutionary history. However, unlike bones, brains did not fossilize. Thus, neuroscientists infer what the brains of common ancestors ...

Scientists have discovered an earlier origin to the human language pathway in the brain, pushing back its evolutionary origin by at least 20 million years. Previously, a precursor of the language ...

Researchers have shed new light on the language pathway in the human brain, suggesting that its origins lie around 25 million years ago—twenty million years earlier than previously thought. Brain ...

Scientists have discovered an earlier origin to the human language pathway in the brain, pushing back its evolutionary origin by at least 20 million years. Previously, a precursor of the language ...

A study has demonstrated a new technique for mapping the human auditory pathway, granting insights into the development of the auditory-language network in children with profound hearing loss.

A Calgary organization is providing an opportunity for more people to learn how to speak Blackfoot and Cree, unlocking the chance for participants to learn about Indigenous culture in a deeper way.

Researchers have developed a non-invasive method for mapping the human auditory pathway, which could potentially be used as a tool to help clinicians decide the best surgical strategy for patients ...