Neuroscientists reveal that the part of the brain that receives and processes visual information in sighted people develops a unique connectivity pattern in people born blind. They say this pattern in the primary visual cortex is unique to each person -- akin to a fingerprint. A study led by Georgetown University neuroscientists reveals that the
Drug repurposing shows promise in the treatment of retinal degenerations, according to a new study. A combination treatment incorporating three existing drugs -- tamsulosin, metoprolol and bromocriptine -- slowed disease progression in pre-clinical retinopathy models. Drug repurposing shows promise in the treatment of retinal degenerations, according to a new study by an international team of
Neuroscientists reveal that the part of the brain that receives and processes visual information in sighted people develops a unique connectivity pattern in people born blind. They say this pattern in the primary visual cortex is unique to each person -- akin to a fingerprint. A study led by Georgetown University neuroscientists reveals that the
Neuroscientists reveal that the part of the brain that receives and processes visual information in sighted people develops a unique connectivity pattern in people born blind. They say this pattern in the primary visual cortex is unique to each person -- akin to a fingerprint. A study led by Georgetown University neuroscientists reveals that the
When doctors sit at hospitalized patients' bedsides, it can have a more positive impact than if they stand, a review of data suggests -- but a new study seeks to find out for sure. Doctors and others who take care of hospitalized patients may want to sit down for this piece of news. A new
Drug repurposing shows promise in the treatment of retinal degenerations, according to a new study. A combination treatment incorporating three existing drugs -- tamsulosin, metoprolol and bromocriptine -- slowed disease progression in pre-clinical retinopathy models. Drug repurposing shows promise in the treatment of retinal degenerations, according to a new study by an international team of
University have used genetically engineered mice to address how one mutation in the gene for the light-sensing protein rhodopsin results in congenital stationary night blindness. This breakthrough research has the potential to revolutionize our understanding of genetic vision disorders and pave the way for new treatments. The study showcases the cutting-edge genetic engineering techniques and the collaborative efforts of neuroscientists, offering hope for individuals affected by this debilitating condition
Eye. This innovative approach could lead to early detection and improved treatment of conditions such as glaucoma and myopia, ultimately preventing vision loss. The 3D imaging provided by this technology offers a new level of insight into the delicate structure of the eye, making it a game-changing tool for ophthalmologists and researchers in the field. With its potential to revolutionize eye care, polarization-sensitive optical computed tomography is a groundbreaking advancement in the fight against eye diseases
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
Introducing an innovative multi-electrode Electroretinography (ERG) system, built on comfortable soft contact lenses instead of traditional hard ones. This groundbreaking technology offers a more comfortable and user-friendly experience for diagnosing and studying ocular diseases. Researchers have successfully tackled the issue of discomfort, making this system a game-changer in the field of ophthalmology
Can continuously monitor intraocular pressure, providing early detection and personalized treatment for glaucoma. This innovative technology offers a non-invasive and convenient way to manage this sight-threatening condition, potentially revolutionizing the way glaucoma is diagnosed and treated in the future. With its potential to greatly improve patient outcomes, this smart contact lens is a game-changer for the field of ophthalmology
Gothenburg, and the University of Linköping have developed a groundbreaking implant that could potentially restore vision for the blind. This innovative implant features electrodes the size of a single neuron, allowing for precise stimulation of retinal cells. Additionally, its ability to remain intact in the body over time sets it apart from other vision implants. The implant holds great potential for revolutionizing the field of vision restoration and could significantly improve the quality of life for individuals with visual impairments
Brain responsible for regulating attention and arousal. By using optogenetics to stimulate LC neurons, researchers were able to demonstrate the link between heightened neuronal activity and improved attention. This breakthrough has important implications for understanding the brain mechanisms underlying attention and could lead to advancements in treating attention-related disorders. The study's findings shed light on the potential for targeted neural manipulation to enhance cognitive function and open up new possibilities for researching and treating neurological conditions
Development of atherosclerosis may also play a crucial role in why some individuals do not respond to the most common treatment for neovascular age-related macular degeneration (AMD). This discovery could pave the way for more personalized and effective therapies for those with the condition
Can aid in the diagnosis and monitoring of posterior and panuveitis, highlighting its potential to improve patient outcomes. The review discusses the distinctive qualities of FAF as a valuable tool in identifying and assessing the progression of uveitis, emphasizing its pivotal role in guiding treatment and enhancing the overall management of this challenging disease
At the task. This discovery could have significant implications for understanding attention and cognitive performance. The study's findings suggest that pupil dilation could serve as a biomarker for cognitive effort and performance, potentially leading to new ways of measuring and improving concentration and focus
Study, the method accurately detected neurodegeneration in the patients with Parkinson's, showcasing its potential as a non-invasive and cost-effective monitoring tool. With further refinement, this method could revolutionize the way Parkinson's disease is monitored and managed, offering a more accessible and efficient solution for patients and healthcare professionals. Its ability to detect neurodegeneration early could lead to better treatment outcomes and improved quality of life for those living with Parkinson's. This breakthrough has the potential to make a significant impact in the field of Parkinson's disease research and management
Developed by OpenAI -- has the potential to revolutionize the field of ophthalmology by offering accurate and reliable diagnostic assessments. Its advanced capabilities and potential to bridge gaps in healthcare access make it a game-changer in the medical industry. With its ability to accurately analyze and provide advice on eye problems, GPT-4 has the potential to improve patient care and outcomes on a global scale