Aims/hypothesis. Glucagon-like peptide-1 (GLP-1), a polypeptide hormone secreted by the l-cells in the gastrointestinal tract, has shown promising effects as a new treatment modality for patients with Type II (non-insulin-dependent) diabetes mellitus. However, the pharmacokinetic profile of native GLP-1 with a rapid elimination has limited its therapeutic potential. NN2211 is a fatty acid derivative of GLP-1, which pre-clinically has shown a protracted pharmacokinetic profile, while maintaining its biological activity. This study aimed to investigate the safety, tolerability, pharmacokinetics and pharmacodynamics of NN2211 in healthy male subjects following seven days treatment. Methods. In a double-blind, randomized, dose escalation, placebo controlled study, healthy male subjects were enrolled at five consecutive dose levels of NN2211 (1.25, 5.0, 7.5, 10.0, 12.5 mg/kg). Six subjects were allocated at random at each dose level to active or placebo treatment with a ratio of 2:1. Dosing with NN2211 was performed on day 1, and days 5±11. The 84-h pharmacokinetics and 24-h glucose and insulin profiles were assessed on day 1 and day 11. Results. Following s. c. administration the half-life of NN2211 was found to be 12.6 1.1 h, with a subsequent accumulation index after a daily dose for seven days of 1.4±1.5. There were dose-proportional increases in exposure (AUC and C max ) with increasing doses. Overall, there were no statistically significant differences from placebo in the 24-h glucose and insulin profiles. In subjects treated with NN2211 rather than placebo, there was a higher incidence of adverse events, most notably dizziness and adverse events related to the gastrointestinal system. There were no serious adverse events but three subjects were nonetheless withdrawn because of dizziness, fever and nausea. There were no clinically relevant changes in vital signs, ECG parameters, physical examination or safety laboratory parameters. A significantly lower diuresis was observed in the actively treated subjects, without a clinically relevant change in packed cell volume. Conclusions/interpretation.This study shows NN2211 has a pharmacokinetic profile supporting a daily dose in human beings, but also that subjects treated with NN2211 rather than placebo, had a higher incidence of adverse events, most notably dizziness and adverse events related to the gastrointestinal system. [Diabetologia (2002) 45: 195±202] Keywords GLP-1, NN2211, Type II diabetes, pharmacokinetics, controlled clinical trial, pharmacokinetics, pharmacodynamics, safety. Corresponding author: M. Zdravkovic, Novo Nordisk, Department of Clinical Drug Development, Bagsvñrd, Denmark, e-mail: mzd@novonordisk.com Abbreviations: AUC, Area under the curve from time 0 to infinity; AUC 0±24 , area under the curve from 0 to 24 h; Cmax, maximal plasma concentration; CL/f, oral clearance; DPP-IV, dipeptidyl peptidase IV; GLP-1, glucagon-like peptide-1; LLOQ, lower limit of quantification; PCV, packed cell volume; Rac, accumulation ratio; t max , time ...
OBJECTIVE—The primary objective of the present study was to investigate the safety, tolerability, and pharmacokinetics of a single dose of NN2211, a long-acting glucagon-like peptide 1 (GLP-1) derivative, in healthy male subjects. The secondary objective was to investigate the pharmacodynamics of NN2211. RESEARCH DESIGN AND METHODS—In a double-blind, randomized dose, escalation, placebo-controlled study, healthy male subjects were enrolled at eight consecutive dose levels (1.25, 2.5, 5.0, 10.0, 12.5, 15.0, 17.5, and 20.0 μg/kg) with eight subjects per dose level at a 3:1 active:placebo randomization. After subcutaneous dosing with NN2211, 48-h pharmacokinetic, and 24-h glucose, insulin and glucagon profiles were assessed. In addition, three subjects at each dose level were randomly assigned (one placebo/two active) to an intravenous glucose tolerance test (IVGTT) 9 h after the dose (corresponding to the time to maximal plasma concentration of NN2211). RESULTS—After subcutaneous administration, the half-life of NN2211 was found to be 11–15 h. Overall, although there were no statistically significant differences compared with placebo in the area under the curve (0–9 h for insulin or glucagon), there was a borderline- significant lowering of glucose levels (P = 0.066). During the IVGTT, there was a statistically significant increase in insulin secretion (P = 0.0002), but there was no significant effect on glucagon levels. Although no significant effect was observed on glucose levels during the IVGTT, there was a dose-dependent increase in the glucose disappearance constant. Whereas no serious adverse events were observed, there was a higher incidence of adverse events after active treatment compared with placebo treatment (notably headache, dizziness, nausea, and vomiting). CONCLUSIONS—This study provides evidence that NN2211 has a pharmacokinetic profile consistent with once-daily dosing in humans.
1 To determine whether cimetidine altered the renal handling of metformin, seven subjects took 0.25 g metformin daily with and without cimetidine 0.4 g twice daily. Blood and urine samples were collected and assayed for metformin, cimetidine and creatinine by h.p.l.c. 2 Cimetidine significantly increased the area under the plasma metformin concentrationtime curve by an average of 50% and reduced its renal clearance over 24 h by 27% (P < 0.008). There was no alteration in the total urinary recovery of metformin when cimetidine was co-administered. 3 The effect of cimetidine on the renal clearance of metformin was time dependent, being significantly reduced up to 6 h following cimetidine. These results appeared to be consistent with competitive inhibition of renal tubular secretion. 4 Cimetidine had no effect on the renal clearance of creatinine, but time-dependent variations in both metformin and creatinine renal clearance were observed. Metformin had no effect on cimetidine disposition. 5 It is concluded that cimetidine inhibits the renal tubular secretion of metformin in man, resulting in higher circulating plasma concentrations. Because of its propensity for causing dose and concentration-dependent adverse effects, the dose of metformin should be reduced when cimetidine is co-prescribed.
The present results indicate acceptable within-session test-retest reliability of TS and DNIC. The results support the possibility of future experimental studies examining factors affecting TS and DNIC.
AimsThe objective of the study was to evaluate the pharmacokinetics (and how they are affected by food), CNS pharmacodynamics and the adverse event profile of brivaracetam after single increasing doses. MethodsHealthy males (n = 27, divided into three alternating panels of nine subjects) received two different single oral doses of brivaracetam (10-1400 mg) and one dose of placebo during three periods of a randomized, double-blind, placebo-controlled study. The effect of food on its pharmacokinetics was assessed using a standard two-way crossover design in a further eight subjects who received two single oral doses of brivaracetam (150 mg) in the fasting state and after a high fat meal. ResultsAdverse events, none of which were serious, were mostly CNS-related and included somnolence, dizziness, and decreased attention, alertness, and motor control. Their incidence, severity and duration were dose-related. The maximum tolerated dose was established to be 1000 mg. Severe somnolence lasting 1 day occurred in one subject following 1400 mg. Brivaracetam was rapidly absorbed under fasting conditions, with a median tmax of approximately 1 h. Cmax was dose-proportional from 10 to1400 mg, whereas AUC deviated from dose linearity above 600 mg. A high-fat meal had no effect on AUC (point estimate 0.99, 90%CI: 0.92-1.07) but delayed tmax (3 h) and decreased Cmax (point estimate 0.72, 90%CI: 0.66-0.79). ConclusionsBrivaracetam was well tolerated after increasing single doses that represent up to several times the expected therapeutic dose. Brivaracetam was found to have desirable pharmacokinetic properties. The most common adverse events were somnolence and dizziness.
Recent studies of the visual cortex in patients with migraine have generally concluded that migraine (particularly migraine with aura) is associated with a state of functional cortical hyperexcitability. The mechanisms giving rise to this hyperexcitability have hitherto been unclear. This paper reports two studies that used a novel investigative technique, derived from basic research in vision science, to examine specific deficits of inhibitory processing in primary visual cortex. The technique is termed the metacontrast test, and it examines visual masking under highly specified conditions. In Study 1, 12 migraine with aura patients (MA), 12 age-matched migraine without aura patients (MO) and 12 age- and sex-matched headache-free control subjects (C) were compared using the metacontrast test. MA patients were significantly less susceptible to visual masking in the metacontrast test than both MO and C groups: this result is highly consistent with a deficit in cortical inhibitory processing in MA patients. Study 2 examined MA patients taking a variety of migraine prophylactics, again using the metacontrast test. Test results normalized in those MA patients taking sodium valproate, but not in those taking other prophylactics. Sodium valproate is a GABA-A agonist that is known to cross the blood-brain barrier: GABA-ergic networks act as the primary inhibitory mechanism in visual cortex. Taken together, the results of these studies argue that cortical hyperexcitability, at least in MA patients, is likely to be a result of deficient intracortical inhibitory processes.
WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT• The pharmacokinetic profile, metabolism and proof of concept of a single oral dose of brivaracetam have been reported.• Previous studies have shown that it was well absorbed, had linear kinetics and was well tolerated, and suggested effective doses of 10-80 mg in photoparoxysmal epilepsy. WHAT THIS STUDY ADDS• We now report the pharmacokinetics, pharmacodynamics and tolerability in healthy volunteers after multiple doses. AIMSBrivaracetam is a novel synaptic vesicle protein 2A ligand that has shown potent activity in animal models of epilepsy. This study examined the pharmacokinetics, central nervous system pharmacodynamics and adverse event profile of multiple oral doses of brivaracetam in healthy male subjects. METHODSThree successive panels of 12 healthy male subjects received double-blind brivaracetam 200, 400 or 800 mg day -1 (all doses well above the expected therapeutic range) or placebo (9 : 3), in two divided doses, for 14 days. RESULTSBrivaracetam was rapidly absorbed (tmax~2 h) and eliminated (t1/2 7-8 h). Volume of distribution was slightly lower than total body water. A small fraction of the dose (5-8%) was excreted unchanged in urine together with significant levels of metabolites, suggesting predominantly metabolic clearance. Based on 6-b-hydroxycortisol/cortisol ratios in urine, there was no evidence of induction of CYP3A4 activity. Saliva and plasma brivaracetam levels were highly correlated. Adverse events were mostly mild to moderate, central nervous system-related and resolved within the first day of treatment. No clinically relevant changes were observed in laboratory tests, vital signs, physical examinations or ECGs. Pharmacodynamic tests showed dose-related sedation and decreased alertness that only persisted at 800 mg daily. CONCLUSIONSBrivaracetam was well tolerated by healthy male volunteers at doses of 200-800 mg daily for 2 weeks, well above the expected clinically effective dose range. Brivaracetam had a favourable pharmacokinetic profile in this population, characterized by rapid absorption, volume of distribution limited to total body water, apparent single-compartment elimination and dose proportionality.
Ibudilast is a relatively nonselective phosphodiesterase inhibitor which has been marketed for almost 20 years in Japan for treating asthma. More recently it has been found to have anti-inflammatory activity in both the peripheral immune system and in the CNS via glial cell attenuation. This CNS-directed anti-inflammatory activity is of potential use in the treatment of multiple sclerosis, neuropathic pain, and in the improved efficacy and safety of opioids by decreasing opioid tolerance, withdrawal and reinforcement. Its suitable pharmacokinetics and generally good tolerability make it a promising potential treatment for these conditions.
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