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OCT, Adaptive Optics Net €1M Vision Science Award

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LISBON, Portugal, Sept. 17, 2012 — Pioneers in optical coherence tomography and adaptive optics for retina visualization received the 2012 António Champalimaud Vision Award late last week in recognition of the techniques' applications to in vivo study, diagnosis and monitoring.

"These two techniques for visualizing the living retina have already provided fundamentally important details about the structure of the eyes of living patients, in tissue cross section at macroscale by OCT and cell organization en fas at microscale by AO," the Champalimaud Foundation said in a statement. "Previously unknown details of the malleability of the human retina have emerged through application of OCT and AO in health and disease. These methods are dramatically changing ophthalmic practice and our understanding and management of ocular aging and disease.

"The imaging properties of these two techniques — alone and, potentially, together — hold enormous promise for three-dimensional in vivo cell-scale imaging that will further advance research discovery and clinical care."

David WilliamsThe OCT founders who were honored were James Fujimoto and Eric Swanson of MIT, and David Huang of Oregon Health & Science University; also honored for clinical ocular application of OCT were Carmen Puliafito of the University of Southern California and Joel Schuman of the University of Pittsburgh. The five shared half of the prize, about USD $630,000 to split among them.

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The other half went to David Williams of the University of Rochester for his use of adaptive optics techniques for sharp focus on retinal cells, which enables in vivo counting of individual cone photoreceptors.

Williams said he was delighted to share the award, as "Together these two technologies make it possible for us to image the retina with unsurpassed resolution and move us further down the path to understanding of retinal disease."

The Champalimaud Award is given in even-numbered years and offers €1 million for contributions to vision research, the largest amount of any award in the fields of vision science and ophthalmology.

For more information, visit: www.fchampalimaud.org

Published: September 2012
Glossary
adaptive optics
Adaptive optics (AO) is a technology used to improve the performance of optical systems by reducing the effects of atmospheric distortions. The Earth's atmosphere can cause light passing through it to experience distortions, resulting in image blurring and degradation in various optical applications, such as astronomical observations, laser communications, and imaging systems. Adaptive optics systems actively adjust the optical elements in real-time to compensate for these distortions. Key...
eye
The organ of vision or light sensitivity.
ophthalmology
Ophthalmology is a branch of medicine that focuses on the anatomy, physiology, and diseases of the eyes and visual system. Ophthalmologists are medical doctors who specialize in the diagnosis, treatment, and prevention of eye disorders and diseases. They are trained to provide comprehensive eye care, including medical, surgical, and optical interventions. Key areas within ophthalmology include: General eye care: Ophthalmologists perform routine eye examinations to assess visual acuity,...
optical coherence tomography
Optical coherence tomography (OCT) is a non-invasive imaging technique used in medical and scientific fields to capture high-resolution, cross-sectional images of biological tissues. It provides detailed, real-time, and three-dimensional visualization of tissue structures at the micrometer scale. OCT is particularly valuable in ophthalmology, cardiology, dermatology, and various other medical specialties. Here are the key features and components of optical coherence tomography: Principle of...
retina
The retina is a light-sensitive tissue layer located at the back of the eye, opposite the lens. It plays a crucial role in the process of vision by converting light into neural signals that are sent to the brain for visual recognition. Layers: The retina is composed of several layers of specialized cells, each with distinct functions: Photoreceptor layer: Contains two types of photoreceptor cells — rods and cones — that convert light into electrical signals. Bipolar...
adaptive opticsAmericasAOBiophotonicsCarmen PuliafitoChampalimaud FoundationChampalimaud Vision Awardcone photoreceptorsDavid HuangEric SwansonEuropeeyeImagingJames FujimotoJoel SchumanMITOCTophthalmologyoptical coherence tomographyOpticsOregon Health & Science UniversityResearch & TechnologyretinaUniversity of PittsburghUniversity of RochesterUniversity of Southern Californiavisionvision science

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