Plern Sutra scite author profile

The objective of this study was to compare the sensitivity and specificity of handheld fundus cameras in detecting diabetic retinopathy (DR), diabetic macular edema (DME), and macular degeneration. Participants in the study, conducted at Maharaj Nakorn Hospital in Northern Thailand between September 2018 and May 2019, underwent an ophthalmologist examination as well as mydriatic fundus photography with three handheld fundus cameras (iNview, Peek Retina, Pictor Plus). Photographs were graded and adjudicated by masked ophthalmologists. Outcome measures included the sensitivity and specificity of each fundus camera for detecting DR, DME, and macular degeneration, relative to ophthalmologist examination. Fundus photographs of 355 eyes from 185 participants were captured with each of the three retinal cameras. Of the 355 eyes, 102 had DR, 71 had DME, and 89 had macular degeneration on ophthalmologist examination. The Pictor Plus was the most sensitive camera for each of the diseases (73–77%) and also achieved relatively high specificity (77–91%). The Peek Retina was the most specific (96–99%), although in part due to its low sensitivity (6–18%). The iNview had slightly lower estimates of sensitivity (55–72%) and specificity (86–90%) compared to the Pictor Plus. These findings demonstrated that the handheld cameras achieved high specificity but variable sensitivities in detecting DR, DME, and macular degeneration. The Pictor Plus, iNview, and Peek Retina would have distinct advantages and disadvantages when applied for utilization in tele-ophthalmology retinal screening programs.

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Metagenomic Deep Sequencing to Investigate for an Infectious Etiology of Iridocorneal Endothelial Syndrome

Sutra

Rose‐Nussbaumer

Gonzales

et al. 2020

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Purpose: Iridocorneal endothelial (ICE) syndrome is a group of rare ocular conditions that result from abnormal corneal endothelial cells leading to secondary glaucoma, iris distortions, and corneal edema. The etiology of ICE is unknown although it has been associated with viral infections, such as herpes simplex virus (HSV). In this study, we sought to identify an infectious etiology for ICE using advanced molecular techniques.Methods: Metagenomic RNA sequencing (MDS) is a high-throughput sequencing approach that can identify all pathogens in any clinical sample, including RNA viruses. Descemet membrane and aqueous fluid from patients with ICE syndrome were subjected to MDS testing.Results: Samples from 3 ICE patients were analyzed. MDS was performed on the aqueous fluid of 3 patients and the Descemet membrane and endothelial cell tissue from 1 patient. Viral pathogens were not identified in any of the samples. Conclusions:We were unable to identify a viral etiology in the tissues of patients with the Chandler's variant of ICE syndrome, although this study was limited by sample size.

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Plern Sutra

Comparative study of 1 DD and 2 DD radius conventional internal limiting membrane peeling in large idiopathic full-thickness macular holes: a randomized controlled trial

Diagnostic accuracy of handheld fundus photography: A comparative study of three commercially available cameras

Metagenomic Deep Sequencing to Investigate for an Infectious Etiology of Iridocorneal Endothelial Syndrome

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