OBJECTIVES: The primary aim was to demonstrate that moxonidine, given in an experimental sustained release (SR) formulation, had no clinically relevant central nervous system (CNS) effects after 4 weeks of treatment. A clinically relevant CNS effect was predefined as more than 45 degrees s-1 reduction in saccadic peak velocity (SPV), corresponding to the effects of one night's sleep deprivation. METHODS: In a randomized, double-blind fashion, 35 patients with mild to moderate essential hypertension receivedplacebo run-in medication for 2 weeks, followed by 4 weeks' moxonidine sustained release (1.5 mg o.d.) or placebo. On the first day and 1 and 4 weeks following the start of treatment, blood pressure was measured and CNS effects were assessed using SPV, visual analogue scales and EEG. RESULTS: On day 1 there was a significant, but not clinically relevant, reduction in the time-corrected area under the effect curve (AUEC) for SPV in the moxonidine group compared with placebo [difference of 38 degrees s-1; 95% confidence interval (CI) 23, 52]. This difference was no longer significant after one (9 degrees s-1; 95% CI -17, 35) and 4 weeks (6.9 degrees s-1; 95% CI -16, 30). Visual analogue scales for alertness showed similar results. A decrease in EEG alpha- and beta-power and an increase in delta-power were only found on day 1 of moxonidine treatment. The AUEC for systolic/diastolic blood pressure relative to placebo was 23 (95% CI 17, 29)/13 (9, 16) mmHg lower on day 1 and remained reduced by 20 (11, 30)/12 (6, 17) and 15 (6, 25)/9 (3, 15) mmHg after 1 and 4 weeks' moxonidine treatment. CONCLUSIONS: Four weeks' treatment with an experimental SR formulation resulted in tolerance to CNS effects (equivalence to placebo) while blood pressure-lowering effects remained adequate. The tolerance to CNS effects was already observed after 1 week of treatment.
RCT Entities:
OBJECTIVES: The primary aim was to demonstrate that moxonidine, given in an experimental sustained release (SR) formulation, had no clinically relevant central nervous system (CNS) effects after 4 weeks of treatment. A clinically relevant CNS effect was predefined as more than 45 degrees s-1 reduction in saccadic peak velocity (SPV), corresponding to the effects of one night's sleep deprivation. METHODS: In a randomized, double-blind fashion, 35 patients with mild to moderate essential hypertension received placebo run-in medication for 2 weeks, followed by 4 weeks' moxonidine sustained release (1.5 mg o.d.) or placebo. On the first day and 1 and 4 weeks following the start of treatment, blood pressure was measured and CNS effects were assessed using SPV, visual analogue scales and EEG. RESULTS: On day 1 there was a significant, but not clinically relevant, reduction in the time-corrected area under the effect curve (AUEC) for SPV in the moxonidine group compared with placebo [difference of 38 degrees s-1; 95% confidence interval (CI) 23, 52]. This difference was no longer significant after one (9 degrees s-1; 95% CI -17, 35) and 4 weeks (6.9 degrees s-1; 95% CI -16, 30). Visual analogue scales for alertness showed similar results. A decrease in EEG alpha- and beta-power and an increase in delta-power were only found on day 1 of moxonidine treatment. The AUEC for systolic/diastolic blood pressure relative to placebo was 23 (95% CI 17, 29)/13 (9, 16) mmHg lower on day 1 and remained reduced by 20 (11, 30)/12 (6, 17) and 15 (6, 25)/9 (3, 15) mmHg after 1 and 4 weeks' moxonidine treatment. CONCLUSIONS: Four weeks' treatment with an experimental SR formulation resulted in tolerance to CNS effects (equivalence to placebo) while blood pressure-lowering effects remained adequate. The tolerance to CNS effects was already observed after 1 week of treatment.
Authors: A L Van Steveninck; J W Mandema; B Tuk; J G Van Dijk; H C Schoemaker; M Danhof; A F Cohen Journal: Br J Clin Pharmacol Date: 1993-08 Impact factor: 4.335
Authors: Marieke Liem-Moolenaar; Mandana Rad; Stefano Zamuner; Adam F Cohen; Francesca Lemme; Kari L Franson; Joop M A van Gerven; Emilio Merlo Pich Journal: Br J Clin Pharmacol Date: 2011-06 Impact factor: 4.335