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- Title
Detailed functional and structural characterization of a macular lesion in a rhesus macaque.
- Authors
Dominik Fischer, M.; Zobor, Ditta; Keliris, Georgios; Shao, Yibin; Seeliger, Mathias; Haverkamp, Silke; Jägle, Herbert; Logothetis, Nikos; Smirnakis, Stelios
- Abstract
Purpose: Animal models are powerful tools to broaden our understanding of disease mechanisms and to develop future treatment strategies. Here we present detailed structural and functional findings of a rhesus macaque suffering from a naturally occurring bilateral macular dystrophy (BMD), partial optic atrophy and corresponding reduction of central V1 signals in visual fMRI experiments when compared to data in a healthy macaque (CTRL) of similar age. Methods: Retinal imaging included infrared and autofluorescence recordings, fluorescein and indocyanine green angiography and spectral domain optical coherence tomography (OCT) on the Spectralis HRA + OCT platform. Electroretinography included multifocal and Ganzfeld-ERG recordings. Animals were killed and eyes analyzed by immunohistochemistry. Results: Angiography showed reduced macular vascularization with significantly larger foveal avascular zones (FAZ) in the affected animal (FAZ = 8.85 mm vs. FAZ = 0.32 mm). OCT showed bilateral thinning of the macula within the FAZ (total retinal thickness, TRT = 174 ± 9 µm) and partial optic nerve atrophy when compared to control (TRT = 303 ± 45 µm). Segmentation analysis revealed that inner retinal layers were primarily affected (inner retinal thickness, IRT = 33 ± 9 µm vs. IRT = 143 ± 45 µm), while the outer retina essentially maintained its thickness (ORT = 141 ± 7 µm vs. ORT = 160 ± 11 µm). Altered macular morphology corresponded to a preferential reduction of central signals in the multifocal electroretinography and to a specific attenuation of cone-derived responses in the Ganzfeld electroretinography, while rod function remained normal. Conclusion: We provided detailed characterization of a primate macular disorder. This study aims to stimulate awareness and further investigation in primates with macular disorders eventually leading to the identification of a primate animal model and facilitating the preclinical development of therapeutic strategies.
- Subjects
ANIMAL models in research; RHESUS monkeys; INDOCYANINE green; FLUORESCEIN; SPECTRUM analysis; OPTICAL coherence tomography
- Publication
Documenta Ophthalmologica, 2012, Vol 125, Issue 3, p179
- ISSN
0012-4486
- Publication type
Article
- DOI
10.1007/s10633-012-9340-3