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Performing Injection into Orbital Lobe of Superior Lacrimal Gland: A Technique for Inducing Dry Eye Disease in Rabbit Model

Performing Injection into Orbital Lobe of Superior Lacrimal Gland: A Technique for Inducing Dry Eye Disease in Rabbit Model

Transcript

The superior lacrimal gland is located laterally above the eyeball. The upper part of this gland is known as the orbital lobe. This lobe exhibits a tubuloalveolar architecture, containing a tubular end that branches into multiple alveoli-shaped sacs.

These sacs are lined by the serous cells that secrete the lacrimal fluid – an aqueous protective secretion. This fluid reaches the lacrimal ducts and flows over the ocular surface to lubricate it. Reduced secretion of this fluid results in dry eye disease, or DED.

To induce DED, place an anesthetized rabbit in the prone position. Apply medial pressure on the eye globe, causing the orbital lobe of the gland to protrude from the posterior incisure in the eye orbit. Advance forceps from the scalp until the protrusion site. Make a small indentation on the scalp to demarcate the needle insertion area.

Take a syringe assembly containing the Concanavalin A, or Con A solution, and insert it perpendicularly until the skull bone. Reorient the needle to reach the orbital lobe and inject the Con A solution into the orbital lobe.

Con A, an immune system activator, induces lymphocyte infiltration in the lacrimal gland. This phenomenon leads to the disintegration of the extracellular matrix network, distorting the gland's tubuloalveolar architecture. Eventually, these changes block the secretion of the lacrimal fluid, producing DED in the rabbit eye.

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