Modeling experimental glaucoma for screening studies of antiglaucomatous activity

Q3 Pharmacology, Toxicology and Pharmaceutics
Vladimir N. Fedorov, Mikhail K. Korsakov, Vladimir P. Vdovichenko, Salavat S. Suleimanov, Alena N. Tyushina, Anastasiya A. Popova
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 Materials and Methods: 32 male rabbits of the Soviet Сhinchilla breed, 6 male albino rabbits weighing 3-3.5 kg, and 20 outbred white rats weighing 220-250 g were used in total in experiments to reproduce the glaucoma process. All manipulations on the rabbit eye were performed by an ophthalmologist under general anesthesia with telazol. Triamcinolone (vitreous injection) was used to simulate glaucoma in rabbits, lauromacrogol 400 or fine kaolin (anterior chamber injection) was used to simulate glaucoma in rabbits; adrenaline hydrochloride (intraperitoneal administration) was used to simulate glaucoma in rats.
 Results and Discussion: Double intravitreal administration of a suspension of triamcinolone at a dose of 4 mg was the most attractive model in terms of the technique of reproducing the pathology and the results obtained in modeling glaucoma in rabbits. However, this model did not produce a stable increase in intraocular pressure (IOP). Doubling the dose of triamcinolone and replacing chinchilla rabbits with albinos did not lead to a positive result. The introduction of the venous sclerosing drug lauromacrogol 400 into the anterior chamber of the eye proved to be ineffective either. The introduction of finely dispersed kaolin into the anterior chamber of the eye of rabbits led to a persistent increase in IOP. The intraperitoneal administration of epinephrine hydrochloride to rats according to the described method gave no stable results. The increase in IOP became stable only after a significant increase in the dose of adrenaline.
 Conclusion: The conducted studies of four models of glaucoma and their three modifications in animals made it possible to select two of them, which contributed to a stable and fairly long-term increase in IOP in rabbits (introduction of finely dispersed kaolin into the anterior chamber of the eye) and rats (adrenaline-induced model).","PeriodicalId":21030,"journal":{"name":"Research Results in Pharmacology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-10-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Research Results in Pharmacology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.18413/rrpharmacology.9.10043","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Pharmacology, Toxicology and Pharmaceutics","Score":null,"Total":0}
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Abstract

Introduction: In vivo screening studies, in which the efficacy of dozens of drugs is tested to select several applicants for further study of their safety in humans, are the main stage in the study of the pharmacodynamics of promising antiglaucoma drugs. This imposes a number of specific requirements both on experimental models of glaucoma and on laboratory animals used in the experiment. Materials and Methods: 32 male rabbits of the Soviet Сhinchilla breed, 6 male albino rabbits weighing 3-3.5 kg, and 20 outbred white rats weighing 220-250 g were used in total in experiments to reproduce the glaucoma process. All manipulations on the rabbit eye were performed by an ophthalmologist under general anesthesia with telazol. Triamcinolone (vitreous injection) was used to simulate glaucoma in rabbits, lauromacrogol 400 or fine kaolin (anterior chamber injection) was used to simulate glaucoma in rabbits; adrenaline hydrochloride (intraperitoneal administration) was used to simulate glaucoma in rats. Results and Discussion: Double intravitreal administration of a suspension of triamcinolone at a dose of 4 mg was the most attractive model in terms of the technique of reproducing the pathology and the results obtained in modeling glaucoma in rabbits. However, this model did not produce a stable increase in intraocular pressure (IOP). Doubling the dose of triamcinolone and replacing chinchilla rabbits with albinos did not lead to a positive result. The introduction of the venous sclerosing drug lauromacrogol 400 into the anterior chamber of the eye proved to be ineffective either. The introduction of finely dispersed kaolin into the anterior chamber of the eye of rabbits led to a persistent increase in IOP. The intraperitoneal administration of epinephrine hydrochloride to rats according to the described method gave no stable results. The increase in IOP became stable only after a significant increase in the dose of adrenaline. Conclusion: The conducted studies of four models of glaucoma and their three modifications in animals made it possible to select two of them, which contributed to a stable and fairly long-term increase in IOP in rabbits (introduction of finely dispersed kaolin into the anterior chamber of the eye) and rats (adrenaline-induced model).
模拟实验性青光眼用于筛选抗青光眼活性的研究
体内筛选研究是研究有前景的抗青光眼药物的药效学的主要阶段。在体内筛选研究中,对数十种药物的疗效进行测试,以选择几种候选药物进一步研究其在人体中的安全性。这对青光眼的实验模型和实验中使用的实验动物都提出了许多具体的要求。材料与方法:实验共选用苏联Сhinchilla品种公兔32只,体重3 ~ 3.5 kg的白化公兔6只,体重220 ~ 250 g的近交白大鼠20只,进行青光眼过程的再现。所有对兔眼的操作均由眼科医生在泰拉唑全身麻醉下进行。用曲安奈德(玻璃体注射)模拟家兔青光眼,用聚月桂醇400或细高岭土(前房注射)模拟家兔青光眼;采用盐酸肾上腺素(腹腔注射)模拟大鼠青光眼。 结果与讨论:在模拟家兔青光眼的病理和结果方面,双次玻璃体内注射剂量为4mg的曲安奈德悬浮液是最吸引人的模型。然而,该模型并未产生稳定的眼压(IOP)升高。加倍剂量的曲安奈德和用白化兔代替栗鼠并没有导致阳性结果。将静脉硬化药物聚桂醇400引入眼球前房也被证明是无效的。将精细分散的高岭土引入兔眼前房,导致IOP持续升高。按所述方法给大鼠腹腔注射盐酸肾上腺素,结果不稳定。只有在肾上腺素剂量显著增加后,IOP的升高才趋于稳定。 结论:通过对四种青光眼模型的研究,以及对三种青光眼模型的动物修饰,可以选择其中两种模型,使家兔(将分散的高岭土引入眼前房)和大鼠(肾上腺素诱导模型)的IOP稳定且相当长期地升高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Research Results in Pharmacology
Research Results in Pharmacology Medicine-Pharmacology (medical)
CiteScore
1.50
自引率
0.00%
发文量
32
审稿时长
12 weeks
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