Geographic atrophy is posing a serious threat to the aging European demographic. The E.U. has assembled leading experts in the field of ophthalmology to identify policy action that can address this disease on an EU-wide scale. Geographic atrophy (GA) from age-related macular degeneration (AMD) remains a leading cause of vision loss. However, the SING IMT™️ opens up new possibilities for late-stage AMD patients. Clinical studies demonstrate that as the first intraocular telescope, the SING IMT™️ enhances the visual acuity of patients with end-stage age-related macular degeneration. Read more about the policy action here: https://lnkd.in/eNKfgsRp Jason Herod
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Mammography readers interesting in contributing to research: head to the noticeboard on our homepage at www.breastradiology.org to learn about getting involved with the MEDICI trial.
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At Cobiomic we are at the forefront of groundbreaking research in eye health. Our cutting-edge technology, Olink Proximity Extension Assay (PEA), is revolutionizing the way we measure biomarkers in ocular fluids like never before! Ocular fluids, such as tears and aqueous humor, hold a wealth of information about the health and condition of our eyes. By analyzing these fluids, we can gain valuable insights into various eye diseases, monitor treatment effectiveness, and even predict potential risks. PEA is a highly sensitive and precise method that allows us to simultaneously measure multiple protein biomarkers in 1 microliter of any biological fluid by qPCR. Imagine a future where eye diseases can be diagnosed and managed with greater precision, leading to improved patient outcomes and enhanced quality of life. That's the potential of Proximity Extension Assay in ocular fluids! At Cobiomic Bioscience SL we are committed to pushing the boundaries of eye research and advancing the field of ophthalmology. Our dedicated team of scientists and researchers are harnessing the power of PEA to unlock the secrets hidden within ocular fluids, paving the way for a brighter future in eye health. More info: https://lnkd.in/dH2wxQ-V #innovation #precisionmedicine Universidad de Córdoba, IMIBIC Carlos Pérez Sánchez, Clementina López Medina, Yas Hanaee, Julio Manuel Martínez Moreno, Adrián Llamas Urbano.
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📢 📢 📢 Want to know more about my PhD work? Come to my presentation at #ISMRM24 in Singapore 🌏 this Wednesday at 1:30pm, in the Advances in Data Acquisition session 🚀(Abstract #0945) In this work, I aim to improve myocardial scar detection with black-blood LGE while reducing cardiac implant artifacts using the wideband concept. To retrieve the anatomical information lacking with black-blood LGE, I have combined it with bright-blood LGE. Wideband black-blood and wideband bright-blood LGE images can then be merged into a single image, providing excellent anatomical information while improving myocardial scar detection, without artifacts from cardiac implants on the myocardium 🫀🚀 Aurelien Bustin, PhD Matthias Stuber Hubert Cochet Guido Caluori Dounia El Hamrani Marion Constantin Konstantinos Vlachos Soumaya Sridi Frederic Sacher Pierre Jaïs CHUV | Lausanne university hospital Department of diagnostic and interventional radiology | CHUV IHU LIRYC - Heart rhythm disease Institute
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I'm pleased to share our follow-up work on dark adaptation #optoretinography. A major challenge in functional measurements of the retina involves the requisite dark adaptation. Approaching this challenge from a different perspective, we've investigated changes in the #OCT signal of a light-adapted retina upon exposure to darkness in live mouse models. We observed alterations in the outer retinal signal similar to those induced by light, although the underlying biology remains underappreciated. Furthermore, in this new study, we identified abnormal patterns of OCT signal variability and retinal thickness in rd10 mice, a model for #RetinitisPigmentosa, during dark adaptation. 🌟
Intrinsic signal optoretinography of dark adaptation abnormality due to rod photoreceptor degeneration
ebm-journal.org
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It's day four of #ARVO2024! The latest myopia-related abstracts include: -Assessing the Efficacy of Glaucoma Screening in Highly Myopic Populations: Insights from a Large-scale High Myopia Population -Associations in genetic architecture of myopia and open-angle glaucoma Characterizing Posterior Globe Contour in Myopia Using Ultrasound and 3D Modeling Techniques -Differences in anterior ocular biometric characteristics among slow and fast myopia progress children: a 2-year longitudinal study -Longitudinal Peripheral Optical Quality in Young Children at Low or High Risk for Myopia -Myopia Progression in Children with Intermittent Exotropia Myopia control -Red Light Therapy: Ocular Effects and Mechanism of Action for Myopia. -The role of light exposure in ocular development and myopia -Time outdoors, light exposure and myopia in children. -Transcriptome analysis of patient derived microphthalmia and myopia optic vesicles identifies key pathways influencing axial length Association for Research in Vision and Ophthalmology (ARVO)
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New at the Journal of Computer Assisted Tomography 'Segmentation-Based Analysis of T2- and T1-Weighted Dynamic Magnetic Resonance Images Provides Adequate Observer Agreement in the Evaluation of Interstitial Lung Disease' JanFeb'24Issue dlvr.it/T1hkZh Au: Ruano, Carina A. MD∗,†,‡; Veiga, José MD∗; Antunes, Natalie MD∗,§; Carvalho, Vera B. MD∗; Fernandes, Otília MD∗,†; Borba, Alexandra MD∥; Oliveira, Francisco P. M. PhD¶; Moraes-Fontes, Maria Francisca MD, PhD#; Bilhim, Tiago MD, PhD∗∗; Irion, Klaus L. MD, PhD†† #radiology #thoracicimaging #ct #lung #interstitial
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Beautiful images of a human heart via a collaboration between ESRF - The European Synchrotron and UCL 🫀 HiP-CT revealed histologic-level 🔬detail of the myocardium, valves, coronary arteries, and cardiac conduction system across length scales. Moreover, virtual sectioning of the cardiac conduction system provided information on fatty infiltration, vascular supply, and pathways between the cardiac nodes and adjacent structures. You can read the full paper 👉🏽 https://lnkd.in/eyTMZ72a
Peer inside the human heart. Amazing science. This is the most detailed 3D image of a whole heart we’ve ever seen. From the surface down to the cellular level, an advanced synchrotron technique called HiP-CT, developed at ESRF - The European Synchrotron with UCL and the support of the Chan Zuckerberg Initiative has allowed scientists to map the human heart in unprecedented 3D detail. High-resolution 3D imaging like this can help researchers uncover new information about the structures of organs, what goes wrong when organs are diseased and support the development of new treatments for arrhythmia or other cardiovascular diseases. 📸 Brunet et al. In Radiology
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Not jet for clinical use but incredibly fascinating
Peer inside the human heart. Amazing science. This is the most detailed 3D image of a whole heart we’ve ever seen. From the surface down to the cellular level, an advanced synchrotron technique called HiP-CT, developed at ESRF - The European Synchrotron with UCL and the support of the Chan Zuckerberg Initiative has allowed scientists to map the human heart in unprecedented 3D detail. High-resolution 3D imaging like this can help researchers uncover new information about the structures of organs, what goes wrong when organs are diseased and support the development of new treatments for arrhythmia or other cardiovascular diseases. 📸 Brunet et al. In Radiology
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Peer inside the human heart. Amazing science. This is the most detailed 3D image of a whole heart we’ve ever seen. From the surface down to the cellular level, an advanced synchrotron technique called HiP-CT, developed at ESRF - The European Synchrotron with UCL and the support of the Chan Zuckerberg Initiative has allowed scientists to map the human heart in unprecedented 3D detail. High-resolution 3D imaging like this can help researchers uncover new information about the structures of organs, what goes wrong when organs are diseased and support the development of new treatments for arrhythmia or other cardiovascular diseases. 📸 Brunet et al. In Radiology
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🔍Traditional heart #imaging techniques like #Ultrasound, #CT & #MRI are effective for diagnosing cardiovascular disease but lack detailed structural resolution. Histology offers more detail but limits the field of view. 🚀Enter HiP-CT: a new #synchrotron X-ray imaging technique providing a detailed 3D view of the entire adult human heart. “𝐇𝐢𝐏-𝐂𝐓 bridges the gap between traditional imaging and histology with unprecedented resolution,”🎙️says Professor Peter Lee of UCL. This work contributes to the Human Organ Atlas project (https://lnkd.in/eTq97qJJ), which aims to establish an #openscience image database of all human organs in #health and disease. The project is co-funded by the Chan Zuckerberg Initiative (CZI). The results are published in Radiology ➡️https://lnkd.in/dXeTVA2T
Peer inside the human heart. Amazing science. This is the most detailed 3D image of a whole heart we’ve ever seen. From the surface down to the cellular level, an advanced synchrotron technique called HiP-CT, developed at ESRF - The European Synchrotron with UCL and the support of the Chan Zuckerberg Initiative has allowed scientists to map the human heart in unprecedented 3D detail. High-resolution 3D imaging like this can help researchers uncover new information about the structures of organs, what goes wrong when organs are diseased and support the development of new treatments for arrhythmia or other cardiovascular diseases. 📸 Brunet et al. In Radiology
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