Robert Chun, OD

Languages: English, Korean, Portuguese, Spanish
Specialties: Clinical Research, Genetic Eye Disease, Low Vision, Ocular Disease, Opthalmic Imaging, Primary Eye Care, Rare Eye Conditions, Retina

Bio

Dr. Rob Chun graduated magna cum laude with an undergraduate degree in engineering and mathematics from Vanderbilt University. He received both his doctor of optometry and residency training from the Illinois College of Optometry. Thereafter, he completed a research fellowship at the Pangere Center for Inherited Retinal Diseases.

Before SUNY, he was an Assistant Professor of Ophthalmology at the Johns Hopkins School of Medicine, where he was heavily involved in curriculum development for residents and fellows as Division Education Champion.

Given his unique expertise in rare forms of genetic eye disease and vision impairment classification, he has been invited to complete more than 20 international trips to evaluate visually impaired athletes for the International Paralympic Committee and the International Blind Sports Federation. He also advises the United States Olympic & Paralympic Committee, in addition to the United States Blind Hockey Team, on sports classification procedures for proper assessment of vision impairment.

He remains active in the American Academy of Optometry as a Fellow and speaker.

Specialities

  • Clinical Research
  • Genetic Eye Disease
  • Low Vision
  • Ocular Disease
  • Opthalmic Imaging
  • Primary Eye Care
  • Rare Eye Conditions
  • Retina

Education

  • OD, Doctor of Optometry, Illinois College of Optometry, 2011
  • BS, Engineering & Mathematics, Vanderbilt University, 2006

Residency/Other Post Graduate Training

  • Research Fellowship - Pangere Center for Inherited Retinal Diseases, Chicago Lighthouse, 2012
  • Low Vision Rehabilitation & Ocular Disease - Illinois College of Optometry, 2011
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Awards/Honors

  • The Johns Hopkins Faculty Leadership Program, 2019
  • Fellow of the American Academy of Optometry, 2013
  • William Feinbloom Low Vision Award, 2011
  • Howard Hughes Medical Institute (HHMI) Undergraduate Research Award, 2006

Professional Experience

  • Associate Clinical Professor, SUNY College of Optometry, 2022 - Present
  • Assistant Professor of Ophthalmology, Johns Hopkins University School of Medicine, 2017 - 2021
  • Clinical Assistant Professor, Loyola University (Chicago) Stritch School of Medicine, 2014 - 2017
  • Clinical Director, Spectrios Institute for Low Vision (Deicke House), 2013 - 2015

Research Interests

My prior work and training has allowed me to master a basic understanding of complex genetic eye diseases including Retinitis Pigmentosa (RP) and Stargardt disease. In particular, the additional time I have spent working with patients affected by these eye conditions has helped me to understand their unique visual deficits. The past few years, I have been working to develop and validate outcome measures for patients with RP. My goal is to not only develop better outcome measures for visually impaired patients with inherited retinal disease, but also to advance our understanding of how and when various aspects of functional endpoints are impacted with disease progression.

Clinical Interests

I am trained as a low vision specialist but also see patients for primary care and urgent eye care services. I am also interested in EMR/clinical informatics, the Merit-based Incentive Payment System (MIPS), and proper billing and coding compliance.

Publications

  • Deemer A, Chun R, Bradley C, Fujiwara K, Deremeik J, Gobeille MR, Werbin F, Massof RW. Visual function outcome measures of a comparative home trial of low vision enhancement head-mounted display systems (HMD)., Investigative Ophthalmology & Visual Science 63 (7): 4232-A0160 4232-A0160, 2022
  • Kubota R, Joshi N, Fitzgerald T, Samandarova I, Oliva M, Selenow A, Gupta A, Ali S, Mitchell L, Chun R, and Ciuffreda KJ. Biometric and refractive changes following the monocular application of peripheral myopic defocus using a novel augmented-reality optical system in adults. , Scientific Reports 12 (11875): 1-9 1-9, 2022
  • Chun R, Deemer A, Fujiwara K, Gobeille M, Deremeik J, Bradley C, Werblin FS, Massof RW. Investigating Phoria Measures and Visual Discomfort Symptoms of Low Vision Patients Using a Head-Mounted Electronic Low Vision Enhancement System (eLVES). , Investigative Ophthalmology & Visual Science 62 (8): 3563 3563, 2021
  • Chun R, Creese M, Massof RW. Topical Review: Understanding Vision Impairment and Sports Performance Through a Look at Paralympic Classification. , Optometry and Vision Science 98 (7): 759-763 759-763, 2021
  • Chun R, Massof RW. Characterizing Differences in Functional Ability Between RP Low Vision Patients and Non-RP Low Vision Patients., Investigative Ophthalmology & Visual Science 61 (7): 938 938, 2020
  • Deemer A, Fujiwara K Bradley C, Deremeik J, Chun R, Werblin FS, Massof RW. Usage of Head-Mounted Video Display (HMD) Systems During a Comparative Study Home Trial. , Investigative Ophthalmology & Visual Science 61 (7): 930 930, 2020
  • Massof RW, Deemer A, Deremeik J, Bradley C, Fujiwara K, Chun R, Werblin FS. Comparison of Visual Performance Measures With Virtual Bioptic Versus Full-Field Magnification in a Head-Mounted Electronic Low Vision Enhancement System (eLVES)., Investigative Ophthalmology & Visual Science 61 (7): 934 934, 2020
  • Chun R, Massof RW, Bradley C, Allen P, Ravensbergen R, Mann D. Effects of Visual Acuity Loss on Running Performance among Visually Impaired Paralympic Athletes., Investigative Ophthalmology & Visual Science 60 (9): 1043 1043, 2019
  • Fujiwara K, Deemer A, Bradley C, Chun R, Werblin FS, Massof RW. Feasibility of Testing Visual Motor Function Through a Smartphone App in a Comparative Study Evaluating Head-Mounted Display Systems., Investigative Ophthalmology & Visual Science 60 (9): 4038 4038, 2019
  • Contrast Sensitivity and Visual Field Perimetry in Low Vision (book chapter), Low Vision Rehabilitation 240-278 240-278, 2019
  • Chun R, Dagnelie G, Massof RW. Feasibility of Developing a Single Disease Severity Scale for Retinitis Pigmentosa., Investigative Ophthalmology & Visual Science 59 (9): 1072 1072, 2018
  • Chun R, Cucuras M, Jay WM. Current Perspectives of Bioptic Driving in Low Vision., Neuro-Ophthalmology 40 (2): 53-58 53-58, 2016
  • Cucuras M, Chun R, Lee P, Pusateri G, Jay WM. GPS Usage in a Population of Low Vision Drivers., Seminars in Ophthalmology 32 (4): 438-442 438-442, 2016
  • Jay WM, Cucuras M, Lee P, Chun R, and Pusateri G. GPS Usage in Bioptic and Non-Bioptic Neuro-Ophthalmic Low Vision Drivers. , Neuro-Ophthalmology 39 (S1): S42 S42, 2015
  • Lee P, Cucuras M, Jay W, Chun R. GPS Usage in Bioptic and Non-Bioptic Low Vision Drivers., Investigative Ophthalmology & Visual Science 56 (7): 502 502, 2015
  • Robinson J, Braimah V, Chun R, Pusateri G, Jay WM. Usage of Accessibility Options for the iPhone and iPad in a Visually Impaired Population. Seminars in Ophthalmology., Seminars in Ophthalmology 7 (1): 1-9 1-9, 2015
  • Braimah V, Robinson J, Chun R, Jay WM. Usage of Accessibility Options for the iPhone/iPad in a Visually Impaired Population. , Investigative Ophthalmology & Visual Science 55 (13): 4151 4151, 2014
  • Robinson J, Chun R, Zemke A, Irvine D, Braimah V, Jay WM. Characteristics of Low Vision Patients That Prefer Reverse Contrast Settings on Closed Circuit Televisions (CCTVs) and iPads., Investigative Ophthalmology & Visual Science 55 (13): 4153 4153, 2014
  • Chun R, Fishman GA, Collison FT, Stone EM, Zernant J, Allikmets R. The Value of Retinal Imaging with Infrared Scanning Laser Ophthalmoscopy (SLO) in Patients with Stargardt Disease., Retina 34 (7): 1391-1399 1391-1399, 2014
  • Irvine D, Zemke A, Pusateri G, Gerlach L, Chun R, Jay WM. Tablet and smartphone accessibility features in low vision rehabilitation., Neuro-ophthalmology 38 (2): 53-59 53-59, 2014
  • Chun R, Collison F, May M, Fishman F. The Value of Retinal Imaging and Functional Testing of Patients with Stargardt Disease., Investigative Ophthalmology & Visual Science 54 (15): 3626 3626, 2013
  • Chun R, Flynn-Roberts M, O’Leary K. A Ciliopathic Syndrome Initially Identified as Retinitis Pigmentosa Alone., American Academy of Optometry 24330 (1): 1 1, 2013
  • Chun R, Bhakhri R, Coalter J, Jay WM. Smartphone Usage in Patients with Optic Atrophy., Neuro-Ophthalmology 36 (5): 193-195 193-195, 2012

Presentations

  • Current Concepts of Retinitis Pigmentosa in Low Vision: Decoding Natural History Findings to Guide Your Management of Common but Difficult Scenarios, 2021
  • Visual Assessment Methods in the Paralympic Classification of Low Vision Athletes, 2021
  • Conventional Perimetry, Microperimetry, and Dark-Adapted Perimetry in Retinitis Pigmentosa, 2020
  • Low Vision Rehabilitation in Geriatric Medicine, 2019
  • Properly Managing Vision Impairment and Disability in Outpatient Settings, 2019
  • Understanding Vision Impairment through Paralympic Classification of Low Vision Athletes, 2019
  • Advancements in Classification Research for Low Vision Athletes, 2018
  • Breaking Bad News in Low Vision, 2018
  • Autoimmune Retinopathy, 2016
  • Driving Eligibility in Low Vision Patients, 2015
  • Review of Inherited Retinal Disease and Electrophysiology, 2015
  • Tapetal-like Reflex in X-Linked Retinitis Pigmentosa Carriers, 2014
  • Stargardt Disease, 2013
  • Foster-Kennedy Syndrome, 2012
  • Bardet-Biedl Syndrome, 2011
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