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Retinal Image AnalysisPosted by: National Institutes of Health (NIH)
Posted date: 2020-May-01
The Section on Unit on Clinical Investigation of Retinal Disease, Division of Intramural Research (DIR), National Eye Institute (NEI), National Institutes of Health (NIH) in Bethesda, Maryland, USA, conducts prospective clinical studies in normal and abnormal functioning of the retina, particularly those of retina degenerations – including complex retina diseases such as age-related macular degeneration (AMD), drug toxicities, and monogenic retina disease. The major aims of the section include an understanding of the pathophysiology of retinal disease as assessed with functional testing and multi-modal imaging to develop and assess appropriate outcome measurements in clinical trials. Acquired images are from the following modalities: optical coherence tomography (OCT) and angiography, fundus color photographs, fundus autofluorescence (FAF), and adaptive optics (AO). Accumulated datasets of longitudinal, multimodal images collected prospectively are used to answer both hypothesis-driven and hypothesis-generating research to add to the understanding of the anatomic changes occurring in retinal disease.
Led by Catherine (Cathy) Cukras MD, PhD, https://irp.nih.gov/pi/catherine-cukras the lab consists of clinical research personnel, ophthalmic photographers, psychophysicists and computational and image processing experts. The retina is uniquely accessible for non-invasive multimodal imaging in both 2D and 3D. With large amounts of longitudinally collected data, there is great ability to use image analysis for translatable insights into disease pathophysiology of retinal degenerations.
The unit is looking for a skilled and motivated researcher with expertise in image processing, algorithm development, and deep learning to develop automatic segmentation algorithms to detect/segment/quantify ocular anatomical/pathological structures seen on ophthalmic imaging systems (such as OCT, FAF, AO). Researchers with experience in processing these types of data/images in prior work will be given priority.
The prospective scientist will also develop automated software, using deep learning and other advanced machine learning technologies, to objectively detect and evaluate the biomarkers for onset and progression of the retinal diseases studied. Computational analyses will involve combinatorial assessment of disparate data types (i.e. patient demographics, risk factors, genetic information, different imaging modalities, etc.) into comprehensive classification and regression models.
The scientist will participate in experimental design, data collection, data analysis and manuscript preparation; assist intramural staff, including students and postdoctoral fellows; stay current with scientific literature; stay informed about new approaches and technologies, including participation in conferences, workshops, and/or formal classroom instruction; independently locate and utilize scientific resources; and co-author peer reviewed publications.Qualifications:
The ideal candidate will:
Interested candidates may contact Dr. Catherine Cukras via email with their CV, cukrascnei.nih.gov, for additional information about the position. To apply, candidates must submit a curriculum vitae, statement of research interests, and contact information for three referees who will be asked to provide letters of reference.
This post will be available until August 1, 2020 or until filled.
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