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Peer-reviewed veterinary case report

Photography method to measure eye drop clearance in German Shepherd

By Oriá, Arianne Pontes et al.·Published in BMC veterinary research·2018·School of Veterinary Medicine and Zootechny, Brazil·View original on PubMed

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Original publication title: Photography-based method for assessing fluorescein clearance test in dogs.

Species:
dog

Plain-English summary

A group of eight healthy German Shepherds underwent a fluorescein clearance test to assess how well their eyes retained a special dye used to evaluate tear film. The dogs received either one or two drops of fluorescein, and researchers measured how much dye remained on a test strip over time. Results showed that using two drops led to more dye retention on the strips compared to one drop, indicating better performance. This photography-based method for testing is practical and reliable, making it useful for veterinarians in diagnosing eye problems in dogs.

People also search for: dog eye problems fluorescein test · German Shepherd eye drops · how long does fluorescein stay in dog eyes

Abstract

BACKGROUND: The fluorescein clearance test (FCT) provides insight into the tear film dynamics. The purpose of this study was to describe an inexpensive and practical method for assessing FCT in dogs, using photography and software analysis, and to assess the retention time of 1 vs. 2 eye drops on the canine ocular surface. METHODS: (i) In vivo - Eight healthy German Shepherd dogs were recruited. Following topical anesthesia with 0.5% proxymetacaine, each eye sequentially received (1&#xa0;week apart) either 1 drop (35&#xa0;&#x3bc;L) or 2 drops (70&#xa0;&#x3bc;L) of 0.5% fluorescein. A Schirmer strip was inserted in the ventral conjunctival fornix for 10&#xa0;s at the following times: each 10&#xa0;min for 100&#xa0;min, 24&#xa0;h, 48&#xa0;h and 72&#xa0;h. (ii) In vitro - Schirmer strips were placed for 10&#xa0;s in contact with microplate wells containing 1 or 2 drops of 0.5% fluorescein. In both experiments, the fluorescein-impregnated Schirmer strips were immediately imaged, and the area and intensity of fluorescein uptake were analyzed with ImageJ software. For the in vitro experiment, images were evaluated by the same examiner (repeatability) or two examiners (reproducibility). RESULTS: Photography-based FCT was easy to perform and showed high repeatability and reproducibility (coefficients of variation &#x2264;2.75%). In vivo, the area and intensity of fluorescein uptake on Schirmer strips were significantly greater at 30&#xa0;min and 40&#xa0;min post- fluorescein instillation in the 2 drops vs. 1 drop groups (p&#xa0;&#x2264;&#xa0;0.044). Compared to baseline, the residual fluorescein uptake on Schirmer strips was <&#x2009;5% at 60&#xa0;min and 90&#xa0;min in the 1 drop and 2 drops groups, respectively. CONCLUSIONS: Photography-based FCT is a practical and reliable diagnostic tool with various clinical and research applications in veterinary medicine. Instillation of two drops provided greater amount and longer retention on the anesthetized canine ocular surface than a single drop. Fluorescein clearance time of a single drop in dolichocephalic dogs is 60&#xa0;min.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/30176905/