2016
DOI: 10.1111/bcp.12805
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Population pharmacokinetics of nalmefene in healthy subjects and its relation to μ‐opioid receptor occupancy

Abstract: AIMSThe aims of this study were to develop a population pharmacokinetic (PK) model to describe the PK of nalmefene in healthy subjects and to relate the exposure of nalmefene to the μ-opioid receptor occupancy by simulations in the target population. METHODSData from nine phase I studies (243 subjects) with extensive blood sampling were pooled and used for the population PK model building. Data from four other phase I studies (85 subjects) were pooled and used as an external validation dataset. Eight subjects … Show more

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Cited by 18 publications
(16 citation statements)
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“…and p.o. Phase 1 studies of nalmefene [36]. In dogs, the oral bioavailability of 1.3% is low and contrasts with the value of 40% reported in man [7].…”
Section: Pharmacokinetics Of Nalmefene In Dogs Following Bolus Dosingmentioning
confidence: 88%
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“…and p.o. Phase 1 studies of nalmefene [36]. In dogs, the oral bioavailability of 1.3% is low and contrasts with the value of 40% reported in man [7].…”
Section: Pharmacokinetics Of Nalmefene In Dogs Following Bolus Dosingmentioning
confidence: 88%
“…Our approach was based on the successful strategy employed for antipsychotics, for example haloperidol decanoate [29,30] and paliperidone palmitate [31,32], in which a lipophilic prodrug in an oil depot formulation is administered intramuscularly [33,34]. Our target plasma concentrations of 0.5-1.0 ng/ml since were based upon the observation that a plasma nalmefene concentration of 0.34 ng/ml occupies 50% of human brain μ opioid receptors [35,36] and that 60-90% levels of occupancy required for efficacy [36].…”
Section: Graphical Abstractmentioning
confidence: 99%
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“…It is known that both κ-agonism and μ-antagonism can cause activation of the HPA axis in humans and nonhuman primates (Maqueda et al, 2016;Pascoe et al, 2008;Schluger et al, 1998). The IV dose of both naltrexone and nalmefene administered here (10 mg) is expected to cause maximal occupancy of μ-receptor populations (Broksoe Kyhl et al, 2016;Ingman et al, 2005;Webster, Johnson, Stauffer, Setnik, & Ciric, 2011). The pharmacokinetic half-life of IV nalmefene in humans is thought to be longer than that of naltrexone (Dixon et al, 1986;Webster et al, 2011), although they have never been compared in the same study, to our knowledge.…”
Section: Acth and Cortisolmentioning
confidence: 92%
“…The use of the IV route allowed for a comparison of the pharmacodynamic effects of naltrexone and nalmefene, decreasing the potential impact of different oral pharmacokinetics and bioavailability of these two compounds. Oral or IV pharmacokinetics and bioavailability of naltrexone and nalmefene have never been directly compared, to our knowledge (Broksoe Kyhl et al, 2016;Kogan, Verebey, & Mule, 1977). The selection of the 10-mg IV dose was guided by the goal of achieving comparability with prior studies (Bart et al, 2005;Schluger et al, 1998) and is substantially greater than IV doses of either naltrexone or nalmefene, which are needed to cause μ-receptor antagonism in humans (Moore, Bikhazi, Tuttle, & Weidler, 1990;Webster et al, 2011).…”
Section: Design Considerations and Limitationsmentioning
confidence: 99%