Quantitative analysis of intravitreal injections in the rat

Intravitreal injections are currently used in the rat to introduce a therapeutic factor in the eye, especially for experimental treatments of retinal degenerations. The injected volume and its location can influence the quantification of results. We have investigated the quantitative effect of a sin...

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Bibliographic Details
Published in:Current eye research 2001, Vol.22 (1), p.74-77
Main Authors: Dureau, Pascal, Bonnel, Sébastien, Menasche, Maurice, Dufier, Jean-Louis, Abitbol, Marc
Format: Article
Language:English
Subjects:
Aging
Animals
Carbon
Coloring Agents - administration & dosage
Eye - anatomy & histology
Injections
Rats
Vitreous Body - anatomy & histology
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Summary:Intravitreal injections are currently used in the rat to introduce a therapeutic factor in the eye, especially for experimental treatments of retinal degenerations. The injected volume and its location can influence the quantification of results. We have investigated the quantitative effect of a single intravitreal injection in rats at different ages and for different volumes. Albinos rats aged three weeks or two months received intravitreal injections of 1, 3, 5 or 10 µl China ink. Animals were sacrificed immediately after injection, eyes were enucleated, fixated, embedded in paraffin and microtomy was performed in a sagittal plane. Regularly spaced sections were analyzed to reconstruct the vitreous and injected dye volumes. The measured vitreous volume was 6.76 ± 0.37 mm 3 in three weeks old rats and 13.36 ± 0.64 mm 3 in two months old rats. Mean intravitreal ink volumes immediately after injection were 0.8 mm 3 for 1 µl injections, 2 mm 3 for 3 µl, 2.3 to 2.6 mm 3 for 5 µl and 3.2 mm 3 for 10 µl. The percentage of vitreous volume involved by the injection ranged from 4.4% to 33.2%. The injected volume is limited by the large lens size of the rat. Extraocular loss of injected solution increases for higher injected volumes, with larger standard deviations. In this model, the dye tends to localize behind the lens. A 3 or 5 µl volume appears to have the best reproducibility with minimum loss of solution.
ISSN:0271-3683
1460-2202
DOI:10.1076/ceyr.22.1.74.6974