The absolute bioavailability and effect of food on the pharmacokinetics of zolmitriptan in healthy volunteers.

AIMS: Zolmitriptan (Zomig (formerly 311C90)) is a novel 5-HT1B/1D receptor agonist developed for the acute oral treatment of migraine. A highly sensitive LCMS-MS assay has been developed which allows quantification of plasma concentrations of zolmitriptan and its active metabolite, 183C91, after therapeutic doses. Two studies using this assay method were conducted to investigate the pharmacokinetics, including absolute bioavailability, of 2.5 and 5 mg oral doses of zolmitriptan in men and women, the dose-proportionality of 2.5, 5 and 10 mg doses and the effect of food on the pharmacokinetics of a 5 mg oral dose. METHODS: Two randomized, balanced, open-label, 4-period crossover studies were conducted in a total of 32 healthy volunteers. The first study determined the absolute bioavailability of 2.5 and 5 mg doses of zolmitriptan and compared the pharmacokinetics in men and women. The second study examined the dose-proportionality in pharmacokinetics after fasting doses of 2.5, 5 and 10 mg, and the effect of food on a 5 mg dose. Blood pressure, heart rate, ECG, clinical chemistry, haematology and adverse events were also monitored. RESULTS: The mean (s.d.) absolute oral bioavailability was 0.41 (0.14 and 0.40) 0.09 after 2.5 mg and 0.48+/-0.14 and 0.36+/-0.07 after 5 mg in women and men, respectively. Without adjustment for bodyweight, plasma concentrations of zolmitriptan, but not 183C91, were higher in women than men. Mean (+/-s.d.) AUC was 32.7+/-10.1 and 60.2+/-26.8 ng ml(-1) h after 5 mg in men and women, respectively (95% CI for ratio 0.43-0.77). After 2.5 mg mean (+/-s.d.) AUC was 18.4+/-5.4 and 23.1+/-9.9 ng ml(-1) h in men and women, respectively (95% CI for ratio 0.61-1.09). However, these differences were of no clinical significance. Cmax and AUC of oral zolmitriptan were dose-proportional and there was a 13 and 16% fall in mean zolmitriptan Cmax and AUC, respectively, when administered after food. Adverse effects were minor, predominantly mild and transient, and there were no clinically significant effects on ECG, blood pressure, or laboratory parameters. CONCLUSIONS: At therapeutic doses zolmitriptan has good oral bioavailability in healthy volunteers and has dose-proportional pharmacokinetics that are not affected by food to any clinically relevant extent.

The pharmacodynamics and pharmacokinetics of the 5HT1B/1D-agonist zolmitriptan in healthy young and elderly men and women.

OBJECTIVE: Zolmitriptan is a selective 5HT1B/1D-agonist for the treatment of migraine. In this study we investigated the cardiovascular and central nervous system effects and the pharmacokinetics of zolmitriptan in young and elderly adults. METHODS: Twelve young adult and 12 elderly volunteers received single doses of 5, 10, and 15 mg zolmitriptan during a randomized, double-blind, placebo-controlled study. Blood pressure, heart rate, ECG, and central nervous system effects were monitored, and pharmacokinetic parameters of zolmitriptan and its metabolites calculated. RESULTS: Zolmitriptan did not affect heart rate and had little effect on systolic blood pressure in the young adults. In the elderly, mean peak supine systolic blood pressure values were 9 to 16 mm Hg higher after zolmitriptan than after placebo. Mean peak diastolic pressure was 6 to 10 mm Hg higher in both age groups. These changes were transient. Postural changes in blood pressure were unaffected. There was a dose-related increase in sedation, but the magnitude of the effects was small. Mean observed peak plasma concentration (Cmax) and area under the plasma concentration-time profile [AUC(0-infinity)] for zolmitriptan and its active N-desmethyl metabolite were similar in both age groups but higher in young women than in young men. Metabolite/parent ratios probably the result of greater first-pass metabolism in young men. Zolmitriptan half-life was 2.8 to 3.6 hours in the elderly compared with 2.7 to 2.9 hours in young adults. Mean Cmax and AUC(0-infinity) for the inactive, N-oxide, and the indole acetic acid metabolites were higher in the elderly, associated with lower renal clearance. CONCLUSIONS: Zolmitriptan was well tolerated, with an effect of age on its effects on blood pressure and the pharmacokinetics of its metabolites. The data suggest no need for dose adjustment for age. In young subjects, concentrations were higher in women than in men, but the differences were insufficient to justify dosage adjustment.

The novel anti-migraine compound zolmitriptan (Zomig 311C90) has no clinically significant interactions with paracetamol or metoclopramide.

OBJECTIVE: This study investigated potential pharmacokinetic or pharmacodynamic interactions between the novel anti-migraine compound zolmitriptan (Zomig, formerly 311C90) and paracetamol and/or metoclopramide. METHODS: In an open-label, randomised, crossover study, 15 healthy volunteers received single oral doses of 10 mg zolmitriptan alone, 1 g paracetamol alone, 10 mg zolmitriptan + 1 g paracetamol, 10 mg zolmitriptan + 10 mg metoclopramide or 10 mg zolmitriptan + 1 g paracetamol + 10 mg metoclopramide on five separate occasions. RESULTS: Metoclopramide had no significant effects on the pharmacokinetics of zolmitriptan or the active zolmitriptan metabolite 183C91, nor did it affect interactions between zolmitriptan and paracetamol. Paracetamol marginally increased the maximum plasma concentration (Cmax) (11%) and the area under the curve (AUC) (11%) and reduced the renal clearance of zolmitriptan (9%); similar small effects were seen on 183C91. The AUC, Cmax and half-life of paracetamol were reduced by concomitant zolmitriptan (by 11%, 31% and 8%, respectively), whilst the mean residence time showed a small increase (+0.7 h). There was a trend towards a transient increase in blood pressure following all regimens containing zolmitriptan; this effect was small, was consistent between all zolmitriptan regimens as well as with previous studies, and was considered to be clinically insignificant. Zolmitriptan was well tolerated after all treatment regimens. CONCLUSION: Concomitant administration of zolmitriptan and paracetamol resulted in a slight increase in bioavailability of zolmitriptan and a reduced rate and extent of paracetamol absorption. These findings are considered to be of no clinical significance and there is no reason to avoid concomitant administration of paracetamol and/or metoclopramide with zolmitriptan.

The interaction between propranolol and the novel antimigraine agent zolmitriptan (311C90).

AIMS: Zolmitriptan (Zomig, formerly known as 311C90), a selective 5HT1B/1D agonist is under development as an acute oral treatment for migraine. Despite the use of prophylactic medication, such as propranolol, breakthrough attacks often occur in patients. Consequently we investigated the effects of propranolol on the pharmacokinetics of, and cardiovascular responses to, zolmitriptan. METHODS: A double-blind, randomized, crossover study of the effects of pre-treatment with propranolol 160 mg daily for 7 days or placebo on the pharmacokinetics and effects on blood pressure of a single 10 mg dose of zolmitriptan in 12 healthy volunteers. RESULTS: Propranolol increased mean zolmitriptan Cmax and AUC by 56% and 37% respectively; mean t1/2 was prolonged from 3.1 to 4.0 h. Mean Cmax and AUC of the pharmacologically active N-desmethyl metabolite were reduced by 24% and 11% respectively and the metabolite:parent AUC ratio (AUCm/AUCp) fell from 0.46 to 0.26. Mean Cmax and AUC for the inactive indole acetic acid metabolite were both reduced by 13% and AUCm/AUCp from 1.04 to 0.59. A small pressor effect of short duration was observed following zolmitriptan with mean peak rises of 13 and 11 mmHg in systolic and diastolic pressures respectively; propranolol had no effect on the pressor response. CONCLUSIONS: The results suggest that propranolol inhibits biotransformation of zolmitriptan but with no change in the small pressor response to zolmitriptan. It is therefore unlikely that the pharmacokinetic changes will lead to clinically important changes in pharmacological effects and dosage adjustment of zolmitriptan is not required in patients taking propranolol for migraine prophylaxis.