Experts provide neural evidence for the glimpsing model of speech perception

Researchers led by Dr. Nima Mesgarani at Columbia University, US, report that the brain treats speech in a crowded room differently depending on how easy it is to hear, and whether we are focusing on it. Publishing June 6th in the open access journal PLOS Biology, the study uses a combination of neural recordings and computer modeling to show that when we follow speech that is being drowned out by louder voices, phonetic information is encoded differently than in the opposite situation. The findings could help improve hearing aids that work by isolating attended speech.

Focusing on speech in a crowded room can be difficult, especially when other voices are louder. However, amplifying all sounds equally does little to improve the ability to isolate these hard-to-hear voices, and hearing aids that try to only amplify attended speech are still too inaccurate for practical use.

In order to gain a better understanding of how speech is processed in these situations, the researchers at Columbia University recorded neural activity from electrodes implanted in the brains of people with epilepsy as they underwent brain surgery. The patients were asked to attend to a single voice, which was sometimes louder than another voice ("glimpsed") and sometimes quieter ("masked").

The researchers used the neural recordings to generate predictive models of brain activity. The models showed that phonetic information of "glimpsed" speech was encoded in both primary and secondary auditory cortex of the brain, and that encoding of the attended speech was enhanced in the secondary cortex. In contrast, phonetic information of "masked" speech was only encoded if it was the attended voice. Lastly, speech encoding occurred later for "masked" speech than for "glimpsed' speech. Because "glimpsed" and "masked" phonetic information appear to be encoded separately, focusing on deciphering only the "masked" portion of attended speech could lead to improved auditory attention-decoding systems for brain-controlled hearing aids.

When listening to someone in a noisy place, your brain recovers what you missed when the background noise is too loud. Your brain can also catch bits of speech you aren't focused on, but only when the person you're listening to is quiet in comparison."

Vinay Raghavan, Study Lead Author, Columbia University

Source:

PLOS

Journal reference:

Raghavan, V. S., et al. (2023) Distinct neural encoding of glimpsed and masked speech in multitalker situations. PLOS Biology. doi.org/10.1371/journal.pbio.3002128.

Posted in: Molecular & Structural Biology | Cell Biology

Tags: AIDS, Auditory Cortex, Brain, Brain Surgery, Cortex, Deafness, Epilepsy, Hearing, Speech, Surgery

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