SLO angiography: arterio‐venous filling times in monkey and minipig

Rosolen, Serge G.; Saint-Macary, Gérard; Gautier, Vincent; Gargasson, Jean-François Le

doi:10.1046/j.1463-5224.2002.00203.x

Cited by 7 publications

(5 citation statements)

References 9 publications

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“…Previous studies requiring well-focused and detailed images of the animal eye fundus had to make use of a retinograph, an angiograph, or a cSLO, calling for expensive equipment. 14,15 SLO images can be produced from different layers of the retina, providing detailed information that cannot be generated by our endoscopic technique. However, the cSLO is a large device that requires tight alignment of the laser beam, and it cannot be easily moved.…”

Section: Discussionmentioning

confidence: 99%

A Low-Cost and Simple Imaging Technique of the Anterior and Posterior Segments: Eye Fundus, Ciliary Bodies, Iridocorneal Angle

Guyomard

Rosolen

Pâques

et al. 2008

Invest. Ophthalmol. Vis. Sci.

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This topical endoscopic technique provides a unique tool for single eye examinations. The authors obtained a circular view of the anterior (iridocorneal angle) and the posterior (fundus) eye segments from all animal species studied. This technique is inexpensive and easy to use. It can be easily moved to the eye of the patient who cannot move to stand in front of classic apparatus, offering new opportunities in ophthalmology.

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Section: Discussionmentioning

confidence: 99%

A Low-Cost and Simple Imaging Technique of the Anterior and Posterior Segments: Eye Fundus, Ciliary Bodies, Iridocorneal Angle

Guyomard

Rosolen

Pâques

et al. 2008

Invest. Ophthalmol. Vis. Sci.

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“…A search on PubMed http://www.ncbi.nlm.nih.gov/pubmed using the key words ‘pig eye’ yielded 4320 references. The pig model has been extensively used to study the ciliary epithelium, the trabecular meshwork, aqueous outflow, the neuro‐retina and the retinal vascularization, as well as for the development of new imaging 1,2 and neuro‐retinal functional testing procedures 1–3 . It has been used for the development of glaucoma 4 and cataract 5 experimental models, as well as for the development of retinal, 6 vitreous, and cataract surgeries.…”

Section: Introductionmentioning

confidence: 99%

Comparison of the pig and feline models for full thickness corneal transplantation

Brunette

Rosolen

Carrier

et al. 2011

Veterinary Ophthalmology

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“…It minimizes blurring and reflected images and enhances contrast by illuminating only a limited portion of tissue at selected depths in the retina. The fundus image is reconstructed point by point on a monitor [225,228] . This new technology allows the investigator to evaluate retinal microcirculation in great detail in FA examination in animal models (minipig and monkey) and to see some macular alterations that are not detected in conventional AF 580-nm excitation [225,228] .…”

Section: Scanning Laser Ophthalmoscopymentioning

confidence: 99%

Retinal and Ocular Toxicity in Ocular Application of Drugs and Chemicals – Part I: Animal Models and Toxicity Assays

et al. 2010

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Aims: Experimental retinal research has gained great importance due to the ophthalmic pharmacotherapy era. An increasing number of drugs are constantly released into the market for the treatment of retinal diseases. In this review, animal species, animal models and toxicity assays in retinal research are discussed. Methods: An extensive search of the literature was performed to review various aspects of the methods of investigation of drug toxicity. The different types of animal species, as well as single animal models available for the evaluation of safety and efficacy of retinal pharmacotherapy, were identified. In addition, a large variety of reported laboratory techniques were critically examined. Results: In vitro studies are the first-line experiments for the development of a new drug for retinal diseases, using retinal pigment epithelial cells and other cell lines. The next step involves in vivo animal studies where nonhuman primates are considered the gold standard. However, cost and legal issues make their use difficult. Mice and rats provide genetically controlled models for investigations. Pigs, dogs and cats represent good large-size animal models, while rabbits are one of the most used species for retinal toxicity evaluations. Various laboratory methods were identified, including light microscopy, electron microscopy, electroretinography and new emerging methods, such as optical coherence tomography and scanning laser ophthalmoscopy for experimental purposes. Conclusions: A great number of animal species and models are available that simulate retinal diseases and provide experimental data for further human use. Work with animal models should include properly designed toxicity assays to obtain reliable results for safety and efficacy.

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SLO angiography: arterio‐venous filling times in monkey and minipig

Cited by 7 publications

References 9 publications

A Low-Cost and Simple Imaging Technique of the Anterior and Posterior Segments: Eye Fundus, Ciliary Bodies, Iridocorneal Angle

A Low-Cost and Simple Imaging Technique of the Anterior and Posterior Segments: Eye Fundus, Ciliary Bodies, Iridocorneal Angle

Comparison of the pig and feline models for full thickness corneal transplantation

Retinal and Ocular Toxicity in Ocular Application of Drugs and Chemicals – Part I: Animal Models and Toxicity Assays

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