Research Results in Pharmacology (Dec 2019)

Correction of retinal ischemic injuries by using non-selective imidazoline receptor agonists in the experiment

  • Elena A. Levkova,
  • Anton L. Pazhinsky,
  • Sergey S. Lugovskoy,
  • Anna A. Peresypkina,
  • Victoria V. Bashuk,
  • Leonid V. Pazhinsky,
  • Mikhail A. Martynov,
  • Evgeniya A. Beskhmelnitsyna

DOI
https://doi.org/10.3897/rrpharmacology.5.38498
Journal volume & issue
Vol. 5, no. 4
pp. 7 – 17

Abstract

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Introduction: Retinoprotective effects of non-selective imidazoline receptor agonists: potassium salt of С7070; sodium salt of С7070; С7070 processed with CO2 – were investigated in comparison with C7070 on the retinal ischemia-reperfusion model in rats. Materials and methods: The protective effects of the substances were evaluated by using ophthalmoscopy, laser Doppler flowmetry, electroretinography, histological and morphometric studies of retinal layers. Results and discussion: The most pronounced retinoprotective effect was observed in potassium salt of C7070 at a dose of 10 mg/kg, which expresses in approaching the normal eye fundus image, achieving the target values of the retinal blood flow, b/a coefficient, and reaching the norm values of morphometric indicators. A less pronounced protective effect was found in sodium salt of C7070 at a dose of 10 mg/kg, which expresses in a 71% decrease (p < 0.05) in semi-quantitative assessment of the eye fundus changes, an increase in the retinal blood flow level by 70.4% (p < 0.05), in b/a by 94% (p < 0.05) in comparison with the group without correction, and reaching the norm of the morphometric indicators. A retinoprotective effect of the substance C7070 processed with CO2 at a dose of 10 mg/kg is inferior to that of the sodium salt of C7070. Conclusion: The retinoprotective activity of the substances is expressed in descending order: potassium salt of С7070 (10 mg/kg) ≈ С7070 (50 mg/kg) > sodium salt of С7070 (10 mg/kg) > С7070 processed with CO2 (10 mg/kg) ≈ С7070 (10 mg/kg). Injections of glibenclamide leveled the neuroretinoprotective effects of the substances to varying degrees, which confirmed the participation of ATP-dependent potassium channels in the implementation of these effects.