Ear

A new collaboration explores the neural substrates of blushing in a MRI scanner. A new collaboration between researchers from the Netherlands Institute for Neuroscience, the University of Amsterdam and the University of Chieti explores the neural substrates of blushing in a MRI scanner. Most of us know what it feels like to blush. The face

Researchers have used gene editing to restore hearing in adult mice with a type of inherited hearing loss. They showed that shutting down a damaged copy of a gene called a microRNA (miRNA) enabled the animals to regain hearing. The approach may eventually lead to potential treatments for inherited hearing loss in people. Researchers have

The human brain is remarkably adept at adjusting what we hear based on contexts, like our current environment or priorities, but it's still unknown how exactly the brain helps us detect, filter and react to sounds. Now, biologists are a step closer to solving that mystery. Using an animal model, the researchers found that the

Researchers restored hearing in preclinical mouse models with a specific form of inherited deafness called DFNA50 caused by mutations in microRNA, by using a novel in vivo CRISPR genome editing approach. Since mouse and human microRNAs have identical sequences, the researchers hope this work can one day be translated into applications for humans. A team

Researchers developed a prototype of an implantable microphone for a cochlear implant. Their device, which senses the movement of the ear drum in the inner ear, performed as well as commercial hearing aids and could someday enable a fully internalized cochlear implant. Cochlear implants, tiny electronic devices that can provide a sense of sound to

In a concert, members of the audience can respond emotionally to music, owing to their biological synchronization to the audio input. However, the mechanism underlying this biological response is unclear. Now, a pioneering study has found that music-induced heart-rate synchronization is highly correlated within an individual, compared to between two randomly selected individuals. It has

Study focused on the role of a protein called prestin in the cochlea, which plays a crucial role in the amplification of sound signals. By genetically engineering mice to have an overexpression of prestin, the researchers were able to significantly enhance the mice's ability to hear faint sounds. This groundbreaking research not only paves the way for potential treatments for hidden hearing loss in humans but also sheds light on the underlying mechanisms of hearing amplification. The findings of this study have the potential to revolutionize our understanding of hearing loss and lead to innovative therapies for those affected

With inherited deafness using gene therapy in both ears, resulting in remarkable improvements in multiple aspects of hearing and communication. The groundbreaking success of this treatment offers hope for children with inherited deafness and highlights the potential of gene therapy in providing transformative benefits for individuals with genetic hearing loss

That can differentiate between background noise and important speech. These cutting-edge headphones not only provide superior noise-canceling capabilities but also allow users to remain aware of important information and conversations in noisy environments. With their AI-based technology, these headphones are a game-changer for anyone who needs to focus in a busy, disruptive world. Whether you're working in a bustling office or trying to relax on a noisy commute, these headphones will provide the peace and quiet you need without sacrificing awareness of your surroundings

Immersive audio experience, but this new AI system takes it a step further by isolating and enhancing the voice of a specific speaker in real time. This revolutionary technology has the potential to improve communication in loud and busy environments, making it a game-changer for public speaking, conference calls, and more. With its ability to seamlessly adapt to different speakers and environments, this AI system is set to redefine the way we listen and communicate

Of California, Berkeley, the study outlines key features necessary for developing robot guide dogs that meet the needs of blind individuals. By consulting guide dog users and trainers, the researchers identified essential qualities such as navigational abilities, social interaction, and adaptability to various environments. This innovative approach to creating robotic assistance animals sets a new standard for accessibility and independence for the visually impaired

From, paving the way for the development of more versatile and efficient hearing devices. This groundbreaking discovery by Macquarie University could revolutionize the hearing aid and smartphone industry by enabling the creation of devices that can adapt to different listening environments with greater accuracy. With this new understanding of sound localization, the potential for improved hearing technology is vast, offering hope for a future where individuals with hearing loss can experience a wider range of sounds with greater clarity and ease