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Glaucoma

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Deep learning-assisted (automatic) diagnosis of glaucoma using a smartphone.

The British journal of ophthalmology Jul 14, 2021
BACKGROUND/AIMS: To validate a deep learning algorithm to diagnose glaucoma from fundus photography obtained with a smartphone.
Humans Smartphone Fundus Oculi Optic Disk Photography Glaucoma Deep Learning ROC Curve
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Clinically Verified Hybrid Deep Learning System for Retinal Ganglion Cells Aware Grading of Glaucomatous Progression.

IEEE transactions on bio-medical engineering Jun 17, 2021
OBJECTIVE: Glaucoma is the second leading cause of blindness worldwide. Glaucomatous progression can be easily monitored by analyzing the degeneration of retinal ganglion cells (RGCs). Many researchers have screened glaucoma by measuring cup-to-disc ...
Tomography, Optical Coherence Retinal Ganglion Cells Humans Diagnostic Techniques, Ophthalmological Glaucoma Intraocular Pressure Deep Learning
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Automated AI labeling of optic nerve head enables insights into cross-ancestry glaucoma risk and genetic discovery in >280,000 images from UKB and CLSA.

American journal of human genetics Jun 1, 2021
Cupping of the optic nerve head, a highly heritable trait, is a hallmark of glaucomatous optic neuropathy. Two key parameters are vertical cup-to-disc ratio (VCDR) and vertical disc diameter (VDD). However, manual assessment often suffers from poor a...
Glaucoma Artificial Intelligence Algorithms Female Humans Image Processing, Computer-Assisted Polymorphism, Single Nucleotide Optic Disk Inheritance Patterns Nerve Net Photography Risk Factors Aged Middle Aged Intraocular Pressure Adult Genome-Wide Association Study Male
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Joint optic disc and optic cup segmentation based on boundary prior and adversarial learning.

International journal of computer assisted radiology and surgery May 8, 2021
PURPOSE: The most direct means of glaucoma screening is to use cup-to-disc ratio via colour fundus photography, the first step of which is the precise segmentation of the optic cup (OC) and optic disc (OD). In recent years, convolution neural network...
Humans Neural Networks, Computer Glaucoma Fundus Oculi Optic Disk Diagnostic Techniques, Ophthalmological
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Deep Learning Estimation of 10-2 and 24-2 Visual Field Metrics Based on Thickness Maps from Macula OCT.

Ophthalmology Apr 23, 2021
PURPOSE: To develop deep learning (DL) systems estimating visual function from macula-centered spectral-domain (SD) OCT images.
Female Aged Humans Glaucoma Benchmarking Visual Fields Macula Lutea Middle Aged Cross-Sectional Studies Follow-Up Studies Deep Learning Intraocular Pressure Tomography, Optical Coherence Male
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Automatic glaucoma detection based on transfer induced attention network.

Biomedical engineering online Apr 23, 2021
BACKGROUND: Glaucoma is one of the causes that leads to irreversible vision loss. Automatic glaucoma detection based on fundus images has been widely studied in recent years. However, existing methods mainly depend on a considerable amount of labeled...
Fundus Oculi Automation Glaucoma Humans Image Processing, Computer-Assisted Neural Networks, Computer
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Predicting eyes at risk for rapid glaucoma progression based on an initial visual field test using machine learning.

PloS one Apr 16, 2021
OBJECTIVE: To assess whether machine learning algorithms (MLA) can predict eyes that will undergo rapid glaucoma progression based on an initial visual field (VF) test.
Male Prognosis Humans Middle Aged Visual Field Tests Female Disease Progression Glaucoma Aged Machine Learning
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Deep Learning Ensemble Method for Classifying Glaucoma Stages Using Fundus Photographs and Convolutional Neural Networks.

Current eye research Apr 6, 2021
: This study developed and evaluated a deep learning ensemble method to automatically grade the stages of glaucoma depending on its severity.: After cross-validation of three glaucoma specialists, the final dataset comprised of 3,460 fundus photograp...
Visual Field Tests Diagnostic Techniques, Ophthalmological Photography Reproducibility of Results Neural Networks, Computer Severity of Illness Index Deep Learning Fundus Oculi Glaucoma Retrospective Studies Humans Visual Fields ROC Curve Area Under Curve
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Hierarchical deep learning models using transfer learning for disease detection and classification based on small number of medical images.

Scientific reports Mar 1, 2021
Deep learning is being employed in disease detection and classification based on medical images for clinical decision making. It typically requires large amounts of labelled data; however, the sample size of such medical image datasets is generally s...
Deep Learning Image Processing, Computer-Assisted Tomography, Optical Coherence Clinical Decision-Making Humans Female Male Neural Networks, Computer Glaucoma
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Transformation-Consistent Self-Ensembling Model for Semisupervised Medical Image Segmentation.

IEEE transactions on neural networks and learning systems Feb 4, 2021
A common shortfall of supervised deep learning for medical imaging is the lack of labeled data, which is often expensive and time consuming to collect. This article presents a new semisupervised method for medical image segmentation, where the networ...
Reproducibility of Results Neural Networks, Computer Deep Learning Supervised Machine Learning Glaucoma Dermatology Imaging, Three-Dimensional Algorithms Liver Skin Diseases Humans Optic Disk Image Processing, Computer-Assisted Databases, Factual Diagnostic Imaging Tomography, X-Ray Computed Fundus Oculi
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