Jessica I.W. Morgan, Ph.D.

faculty photo
Assistant Professor of Ophthalmology
Department: Ophthalmology
Graduate Group Affiliations

Contact information
3400 Civic Center Blvd.
Ophthalmology 3rd floor WEST 3-113W
Philadelphia, PA 19104-6100
Office: 215-614-4196
BA (Mathematics with honors)
Wake Forest University, 2002.
BS (physics with honors)
Wake Forest University, 2002.
MS (Optical Engineering)
University of Rochester, 2005.
PhD (Optical Engineering)
University of Rochester, 2008.
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Description of Research Expertise

Of all of our senses, we rely on vision to provide timely and accurate information so that we can interact with our environment. Visual experience begins when light enters the eye and is focused by the cornea and lens onto the retina. Cone and rod photoreceptors (the primary light sensitive cells in the retina) capture this light and initiate phototransduction, thereby transforming the retinal image to electrical signals that are then relayed from the eye to the brain. The photoreceptors are thus crucial for vision, and diseases that interrupt their function cause blindness. Such diseases include age-related macular degeneration along with most of the more than 220 different types of inherited retinal degenerations. Thus, understanding the structure and function of the photoreceptors and the mechanisms through which they degenerate is critical for developing treatments for blinding conditions.

Dr. Morgan’s laboratory investigates the structure and function of individual photoreceptors in the living human retina, noninvasively. To do this, the lab uses numerous high-resolution retinal imaging techniques, the primary technique being adaptive optics in combination with scanning light ophthalmoscopy (AOSLO). Adaptive optics ophthalmoscopy involves measuring the optical aberrations of a person’s eye and compensating for those aberrations through use of a wavefront corrector such as a deformable mirror. This enables diffraction-limited imaging through the dilated eye, and enables visualization of the cone and rod photoreceptor mosaic noninvasively.

One goal of the Morgan lab is to use AOSLO to image photoreceptor structure and thereby characterize photoreceptor phenotypes and investigate the mechanisms of photoreceptor degeneration in inherited retinal diseases as compared with normal sighted individuals. Recently, Dr. Morgan’s team has shown that patients with Choroideremia can retain normal cone density at many retinal locations while other locations exhibit reduced cone density. However, despite having normal or near normal densities, the Choroideremia patients’ cone photoreceptors showed abnormalities; cones were dim and misshapen and half of patients less than 20 years old displayed hyper-reflective clumps of cones throughout the photoreceptor mosaic. (Morgan et al. “High-Resolution Adaptive Optics Retinal Imaging of Cellular Structure in Choroideremia.” IOVS, 2014;55:6381–6397.) Dr. Morgan’s team continues to study the presentation and progression of photoreceptor degeneration in Choroideremia, and in collaboration with Drs. Aleman, Bennett, and Maguire, is investigating the photoreceptor response to experimental gene therapy. In addition to Choroideremia, Dr. Morgan’s team is investigating photoreceptor involvement in other inherited retinal degenerations including: Stargardt’s, retinitis pigmentosa, and achromatopsia.

A second goal of the Morgan lab is to investigate individual photoreceptor function. Standard tests of visual system function evaluate vision on a significantly coarser scale than that which is routinely used for structural imaging. However, by incorporating functional testing protocols through the AOSLO imaging system, the lab is able to study photoreceptor function at the same resolution with which they image. The functional protocols in use include: 1) testing sensitivity thresholds of individual cones and small spots using adaptive optics-guided cellular-scale microperimetry and 2) measuring stimulus-evoked intrinsic optical signals by quantifying changes in cone near infrared reflectance in response to visual stimuli. One long-term objective of this work is to develop cellular scale functional biomarkers to understand the pathogenesis and progression of retinal disease and assess the safety and efficacy of experimental interventions for these blinding conditions.

Students who are interested in joining the lab should contact Dr. Morgan by email and attach an up-to-date CV/resume.

Selected Publications

Aleman TA, Han G, Serrano LW, Fuerst NM, Charlson ES, Pearson DJ, Chung DC, Traband A, Pan W, Ying G, Bennett J, Maguire AM, Morgan JIW. : Natural History of the Central Structural Abnormalities in Choroideremia: A Prospective Cross-Sectional Study.” Ophthalmology. 2016 Oct; in press. Ophthalmology Dec epub ahead of print 2016.

Fuerst N, Serrano L, Han G, Morgan JIW, Maguire A, Leroy B, Kim B, Aleman T. : Detailed Functional and Structural Phenotype of Bietti Crystalline Dystrophy Associated with Mutations in CYP4V2 Complicated by Choroidal Neovascularization. Ophthalmic Genetics 37(4): 445-452, Dec 2016.

Chen M, Cooper RF, Han GK, Gee J, Brainard DH, Morgan JIW.: Multi-modal automatic montaging of adaptive optics retinal images. Biomedical Optics Express 7(12): 4899-4918, Nov 2016.

Song D, Kanu LN, Li Y, Kelly KL, Bhuyan RK, Aleman T, Morgan JI, Dunaief JL. : AMD-like retinopathy associated with intravenous iron. Exp Eye Res 151: 122-33, Oct 2016.

Ramachandran PS, Lee V, Wei Z, Casal G, Cronin T, Willett K, Huckfeldt R, Morgan JIW, Aleman TS, Maguire AM, Bennett J.: Evaluation of dose and safety of AAV7m8 and AAV8BP2 in the non-human primate retina. Human Gene Therapy Oct epub ahead of print 2016.

Morgan, JIW: The fundus photo has met its match: OCT and AO are here to stay. Ophthalmic and Physiological Optics 36(3): 218-39, May 2016.

Bonafede, L., Ficicioglu, C., Serano, L., Han, G., Morgan, JIW, Mills, M., Forbes, B., Davidson, S., Binenbaum, G., Kaplan, P., Nichols, C., Verloo, P., Leroy, B., Maguire, A., Aleman, T. : Cobalamin C Deficiency Shows a Rapidly Progressing Maculopathy with Severe Photoreceptor and Ganglion Cell Loss. Invest Ophthalmol Vis Sci 56(13): 7875-87, Dec 2015.

Morgan JI, Han G, Klinman E, Maguire WM, Chung DC, Maguire A, Bennett J : High-resolution adaptive optics retinal imaging of cellular structure in choroideremia. Invest Ophthalmol Vis Sci 4(55): 6381-97, Sep 2014.

Morgan JI, Pugh EN Jr.: Scanning laser ophthalmoscope measurement of local fundus reflectance and autofluorescence changes arising from rhodopsin bleaching and regeneration. Invest Ophthalmol Vis Sci 54(3): 2048-59, Mar 2013.

Hunter JJ, Morgan JI, Merigan WH, Sliney DH, Sparrow JR, Williams DR: The susceptibility of the retina to photochemical damage from visible light. Prog Retin Eye Res 31(1): 28-42, Jan 2012.

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Last updated: 06/16/2017
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