Following a single-dose, open-label, pilot pharmacokinetic study in six subjects, the systemic pharmacokinetics and metabolic effects of dorzolamide after topical ocular administration were investigated in a double-blind, randomised, placebo-controlled study in 12 healthy volunteers. The subjects received a controlled diet on the 5 days before treatment initiation and throughout the study. For 14 days, a bilateral q. i. d. regimen of 3 % dorzolamide, consisting of approximately 7.7 ~g per day (21.3 ~mol) dorzolamide hydrochloride, or placebo was given. Blood and urine electrolytes and acid-base profiles were measured 1 day prior to treatment and on days 1, 7 and 14 of treatment, and 24-h urine samples were collected daily.
Topically applied dorzolamide was slowly taken up in erythrocytes and eliminated with a half life of approximately 120 days. Compared to the pre-study values, no significant treatment effect was observed in either the daily profiles or the 14-day cumulative sodium, potassium and citrate excretions. Two other volunteers given acetazolamide (125 mg q.i.d.) and assessed with the identical set of observations demonstrated marked metabolic changes.
In spite of the prolonged and marked inhibition of carbonic anhydrase in red blood cells by dorzolamide, clinically significant metabolic and renal effects were not observed. The ocular tolerability profile was acceptable to all subjects. Key worfls Dorzolamide, Glaucoma; carbonic anhydrase, pharmacokinetics, renal effects Elevated intraocular pressure is considered a risk factor for the development of glaucomatous optic-nerve damage, and clinical studies suggest that a significant de-