Your search keyword '"Sara M Thomasy"' showing total 2 results

1. Animal models of corneal endothelial dysfunction to facilitate development of novel therapies

Author

Vijay Krishna Raghunathan, Sara M Thomasy, Brian C. Leonard, Sangwan Park, Christopher J. Murphy, Soohyun Kim, Mark J. Mannis, and Jennifer Y. Li

Subjects

Corneal endothelium, genetic structures, medicine.medical_treatment, Disease, Regenerative Medicine, Eye, Bioinformatics, corneal endothelial injury, Rare Diseases, pre-clinical animal models, Corneal edema, In vivo, medicine, Endothelial dysfunction, Genetically modified animal, Eye Disease and Disorders of Vision, Corneal transplantation, fuchs endothelial corneal dystrophy, Transplantation, 5.2 Cellular and gene therapies, business.industry, General Medicine, medicine.disease, eye diseases, corneal endothelial disease, Orphan Drug, sense organs, Development of treatments and therapeutic interventions, Review Article on Novel Tools and Therapies for Ocular Regeneration, business, Fuchs Endothelial Corneal Dystrophy

Abstract

Progressive corneal endothelial disease eventually leads to corneal edema and vision loss due to the limited regenerative capacity of the corneal endothelium in vivo and is a major indication for corneal transplantation. Despite the relatively high success rate of corneal transplantation, there remains a pressing global clinical need to identify improved therapeutic strategies to address this debilitating condition. To evaluate the safety and efficacy of novel therapeutics, there is a growing demand for pre-clinical animal models of corneal endothelial dysfunction. In this review, experimentally induced, spontaneously occurring and genetically modified animal models of corneal endothelial dysfunction are described to assist researchers in making informed decisions regarding the selection of the most appropriate animal models to meet their research goals.

Published

2020

2. Retinal degeneration in mice and humans with neuronal ceroid lipofuscinosis type 8

Author

Elyse Marie Salpeter, Jiong Yan, Suma P. Shankar, Christopher J. Murphy, Kristin N Grimsrud, Sara M Thomasy, Kevin C K Lloyd, Denise M. Imai, Antonio Jacobo Lopez, Rossana Sanchez Russo, Brian C. Leonard, and Ala Moshiri

Subjects

Retinal degeneration, Pathology, medicine.medical_specialty, Retina, Retinal pigment epithelium, business.industry, Retinal, General Medicine, Drusen, medicine.disease, Original Article on Novel Tools and Therapies for Ocular Regeneration, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Genetic model, medicine, Neuronal ceroid lipofuscinosis, sense organs, business, Outer nuclear layer

Abstract

BACKGROUND: Ceroid lipofuscinosis type 8 belongs to a heterogenous group of vision and life-threatening neurodegenerative diseases, neuronal ceroid lipofuscinosis (NCL). Effective therapy is limited to a single drug for treatment of ceroid lipofuscinosis type 2, necessitating animal disease models to facilitate further therapeutic development. Murine models are advantageous for therapeutic development due to easy genetic manipulation and rapid breeding, however appropriate genetic models need to be identified and characterized before being used for therapy testing. To date, murine models of ocular disease associated with ceroid lipofuscinosis type 8 have only been characterized in motor neuron degeneration mice. METHODS: Cln8(−/−) mice were produced by CRISPR/Cas9 genome editing through the International Mouse Phenotyping Consortium. Ophthalmic examination, optical coherence tomography, electroretinography, and ocular histology was performed on Cln8(−/−) mice and controls at 16 weeks of age. Quantification of all retinal layers, retinal pigmented epithelium, and the choriocapillaris was performed using images acquired with ocular coherence tomography and planimetry of histologic sections. Necropsy was performed to investigate concurrent systemic abnormalities. Clinical correlation with human patients with CLN8-associated retinopathy is provided. RESULTS: Retinal degeneration characterized by retinal pigment epithelium mottling, scattered drusen, and retinal vascular attenuation was noted in all Cln8(−/−) mice. Loss of inner and outer photoreceptor segment demarcation was noted on optical coherence tomography, with significant thinning of the whole retina (P=1e-9), outer nuclear layer (P=1e-9), and combined photoreceptor segments (P=1e-9). A global reduction in scotopic and photopic electroretinographic waveforms was noted in all Cln8(−/−) mice. Slight thickening of the inner plexiform layer (P=0.02) and inner nuclear layer (P=0.004), with significant thinning of the whole retina (P=0.03), outer nuclear layer (P=0.01), and outer photoreceptor segments (P=0.001) was appreciated on histologic sections. Scattered lipid vacuoles were noted in splenic red pulp of all Cln8(−/−) mice, though no gross systemic abnormalities were detected on necropsy. Retinal findings are consistent with those seen in patients with ceroid lipofuscinosis type 8. CONCLUSIONS: This study provides detailed clinical characterization of retinopathy in adult Cln8(−/−) mice. Findings suggest that Cln8(−/−) mice may provide a useful murine model for development of novel therapeutics needed for treating ocular disease in patients with ceroid lipofuscinosis type 8.

Published

2021