Effects of ibopamine eye drops on intraocular pressure and aqueous humor flow in healthy volunteers and patients with open-angle glaucoma.

PURPOSE: On the basis of intraocular pressure measurements and fluorophotometry we assessed the effects of 2% ibopamine eye drops on aqueous humor production in normal and glaucomatous eyes. METHODS: Thirty subjects (15 healthy volunteers and 15 open-angle glaucoma patients with ocular hypertension) were included in a placebo-controlled study with random assignment of treatment from masked containers. All subjects underwent ophthalmologic examinations and intraocular pressure (IOP) measurements. Fluorophotometry was done in both eyes at baseline (without treatment) and during treatment. Each subject was treated with 1 drop of 2% ibopamine in one eye and 1 drop of placebo in the fellow eye 30 minutes before fluorophotometric scans and every hour after the first instillation (for a total of 4 times). Safety was evaluated by recording adverse events and ocular symptoms and signs. Aqueous humor flow data were analyzed using the paired t-test, comparing ibopamine and placebo-treated eyes. RESULTS: No changes in IOP were detected in normal eyes, whereas glaucomatous eyes showed a mean increase of 4 mmHg (95% CI 3.46-4.51) from baseline. The difference in IOP between healthy eyes and those with glaucoma was significant (p < 0.0001). In normal eyes and patients with glaucoma ibopamine led to a significant increase in aqueous humor flow compared with placebo-treated eyes (p < 0.01). The safety profile of ibopamine was very good. CONCLUSIONS: The results seem to confirm that ibopamine increases aqueous humor production in normal and glaucomatous eyes, raising IOP only in eyes with glaucoma.

A new protein antidenaturant agent, bindarit, reduces secondary phase of adjuvant arthritis in rats.

Bindarit (or 2-[(1-benzyl-indazol-3-yl)methoxy]-2-methyl propionic acid) reduces heat induced denaturation of bovine and rat serum albumin in vitro (EC50 = 8.5 and 65 micrograms/ml, respectively) and inhibits heat induced serum albumin denaturation after in vivo (12.5-25-50 mg/kg po) administration in rats. To assess the relationship between protein denaturation and the development of chronic inflammatory diseases, the drug (0.5 or 0.12% medicated diet) was studied in comparison with indomethacin (1 mg/kg po daily) in rats injected with complete Freund's adjuvant. Bindarit appeared different from aspirin-like drugs, antiinflammatory steroids and immunosuppressants because it does not reduce primary inflammation of arthritic rats and was shown to be completely inactive on cyclo and lipooxygenase activity in vitro and on immune reactions of mice in vivo. Nevertheless, the drug strongly reduced the development of the secondary phase of adjuvant induced arthritis. The most significant effect of bindarit in this phase was a strong inhibition of serum albumin denaturation in arthritic rats. Assessment of both electrophoretic and quantitative changes suggests that the reduction of albumin during inflammation is due, at least in part, to a denaturation of native albumin, which loses its electrophoretic mobility. The involvement of protein denaturation in the production of new antigenic determinants, their pathogenic relevance in the development of adjuvant arthritis and the possibility that protein stabilization by bindarit could be the mechanism of action of the drug are discussed.

Validation of a HPLC method for the determination of bendazac and its main metabolite 5-hydroxybendazac in human plasma.

The purpose of this study was to validate an analytical method for the determination of bendazac and its main metabolite 5-hydroxybendazac in human plasma. The results obtained indicate that the method is reproducible, accurate, precise, sensitive and specific for the measurement of bendazac and 5-hydroxybendazac in the human plasma. Therefore it can be considered suitable for experimental purposes, routine application for drug monitoring and regulatory requirements.

Effects of intraocular dapiprazole in the rabbit eye.

Dapiprazole produces miosis by blocking the alpha 1 receptors in the radial muscle of the iris; its intraocular effect has not yet been investigated. In this preliminary experimental animal study, we investigated the intracameral use of 0.2 ml of 0.005%, 0.0075%, 0.01%, and 0.05% dapiprazole to reverse mydriasis by 10% phenylephrine plus 0.5% tropicamide. With the 0.05% dapiprazole concentration, the values (mean +/- S.E.) of pupillary diameter were as follows: prior to the experiment, 5.3 +/- 0.31 mm; after mydriatics, 8.7 +/- 0.22 mm; after intraocular dapiprazole, 5.6 mm +/- 0.29. The results showed a dose-related miotic effect of dapiprazole. No difference in the toxicity parameters (inflammatory score, corneal thickness, endothelial cell counting, aqueous humor protein concentration, and intraocular pressure) was found between dapiprazole-treated eyes and saline-solution-treated eyes. Intraocular 0.01% and 0.05% dapiprazole is an effective miotic agent that may be helpful during surgery when the reversal of sympathomimetic mydriasis is needed.

Effects of benzydamine eye drops on the rabbit's eye reaction to surgical, physical, and chemical stimuli.

The effects of benzydamine eye drops on the ocular reaction to different irritating stimuli in rabbits are reported. Benzydamine at the concentration of 0.1% reduces inflammatory tissue changes induced by AgNO3 burning of the cornea and inhibits the blood-aqueous barrier breakdown due to peripheral iridectomy or laser irradiation of the iris. Benzydamine reduces the aqueous PGE2 concentration to a similar extent as a 0.5% commercially available eye drop formulation of piroxicam. This result is in contrast with previous in vitro results demonstrating that benzydamine is devoid of any effects on PG synthesis. The possibility that PGE2 reduction is an indirect effect due to other biochemical activities of benzydamine is discussed. In the normal eye benzydamine manifests a local anaesthetic effect which is not accompanied by irritative changes in the anterior segment of the eye, changes in the intraocular pressure or pupillary size. It is suggested that in the clinical use of benzydamine eye drops the local anaesthetic activity may contribute to reducing both the neurogenic component of ocular inflammation and acute pain following injuries to the eye.