Pharmacokinetics of Single- and Multiple-Dose Oral Clarithromycin in Soft Tissues Determined by Microdialysis

Traunmüller, Friederike; Zeitlinger, Markus; Zeleny, Petra; Müller, Markus; Joukhadar, Christian

doi:10.1128/aac.00532-07

Cited by 41 publications

(32 citation statements)

References 22 publications

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“…In addition, treatment periods with macrolides, 3 days, is somewhat shorter than those in human. The plasma concentrations of macrolides in monkey during the treatment of macrolides were estimated to be roughly corresponding to those in each clinical study with ERM, CAM, and AZM; C max and AUC in human were 0.5 g/ml and 2.2 g ⅐ h/ml, 2.2 g/ml, and 10.6 g ⅐ h/ml, and 0.6 g/ml and 3.2 g ⅐ h/ml, respectively (Periti et al, 1989; Jain and Danziger, 2004;Traunmüller et al, 2007). As a result, the extent and the rank order of AUC changes caused by macrolide treatments were almost identical between monkeys and humans.…”

Section: Discussionmentioning

confidence: 99%

In Vivo Evaluation of Drug-Drug Interaction via Mechanism-Based Inhibition by Macrolide Antibiotics in Cynomolgus Monkeys

Ogasawara¹,

Negishi²,

Kozakai³

et al. 2009

Drug Metab Dispos

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ABSTRACT:Irreversible inhibition, characterized as mechanism-based inhibition (MBI), of cytochrome P450 in drugs has to be avoided for their safe use. A comprehensive assessment of drug-drug interaction (DDI) potential is important during the drug discovery process. In the present study, we evaluated the effects of macrolide antibiotics, erythromycin (ERM), clarithromycin (CAM), and azithromycin (AZM), which are mechanism-based inhibitors of CYP3A, on biotransformation of midazolam (MDZ) in monkeys. These macrolides inhibited the formation of 1-hydroxymidazolam in monkey microsomes as functions of incubation time and macrolide concentration. Furthermore, the inactivation potentials of macrolides (k inact / K I : CAM Х ERM > AZM) were as effective as that observed in human samples. In in vivo studies, MDZ was administered orally (1 mg/kg) without or with multiple oral dosing of macrolides (15 mg/kg, twice a day on days 1-3). On day 3, the area under the plasma concentration-time curve (AUC) of MDZ increased 7.0-, 9.9-, and 2.0-fold with ERM, CAM, and AZM, respectively, compared with MDZ alone. Furthermore, the effects of ERM and CAM on the pharmacokinetics of MDZ were also observed on the day (day 4) after completion of macrolide treatments (AUC changes: 7.3-and 7.3-fold, respectively). Because the plasma concentrations of macrolides immediately before MDZ administration on day 4 were much lower than the IC 50 values for reversible CYP3A inhibition, the persistent effects may be predominantly caused by CYP3A inactivation. These results suggest that the monkey might be a suitable animal model to predict DDIs caused by MBI of CYP3A.

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Section: Discussionmentioning

confidence: 99%

In Vivo Evaluation of Drug-Drug Interaction via Mechanism-Based Inhibition by Macrolide Antibiotics in Cynomolgus Monkeys

Ogasawara¹,

Negishi²,

Kozakai³

et al. 2009

Drug Metab Dispos

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show abstract

“…For example, a clinical microdialysis study performed with six healthy volunteers evaluated the distribution of clarithromycin in muscle and subcutaneous tissue and compared it with unbound plasma concentrations (87). Following a single dose of clarithromycin (250 mg), the ratios of the area under the unbound drug concentration-time curve from 0 to 24 h (fAUC 0 -24 ) in subcutaneous tissue and skeletal muscle versus plasma were 0.29 Ϯ 0.17 and 0.42 Ϯ 0.18, respectively (Fig.…”

Section: In Vivo Studiesmentioning

confidence: 99%

Importance of Relating Efficacy Measures to Unbound Drug Concentrations for Anti-Infective Agents

2013

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SUMMARY For the optimization of dosing regimens of anti-infective agents, it is imperative to have a good understanding of pharmacokinetics (PK) and pharmacodynamics (PD). Whenever possible, drug efficacy needs to be related to unbound concentrations at the site of action. For anti-infective drugs, the infection site is typically located outside plasma, and a drug must diffuse through capillary membranes to reach its target. Disease- and drug-related factors can contribute to differential tissue distribution. As a result, the assumption that the plasma concentration of drugs represents a suitable surrogate of tissue concentrations may lead to erroneous conclusions. Quantifying drug exposure in tissues represents an opportunity to relate the pharmacologically active concentrations to an observed pharmacodynamic parameter, such as the MIC. Selection of an appropriate specimen to sample and the advantages and limitations of the available sampling techniques require careful consideration. Ultimately, the goal will be to assess the appropriateness of a drug and dosing regimen for a specific pathogen and infection.

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“…However, the lack of pharmacokinetic studies precludes the rational use of this antimicrobial agent in targeted animal species. Pharmacokinetics of clarithromycin has been studied in human being (Ferrero et al 1990), (Chu et al 1992a) (Traunmuller et al 2007), desert tortoise (Wimsatt et al 1999); foals (Jacks et al 2002), beagle dogs (Zhang et al 2008) and cats (Katayama et al 2012). The present study was designed to characterize pharmacokinetic profile of clarithromycin in a not-yet-studied animal species that is broiler chickens after single intravenous (i.v.)…”

Section: Introductionmentioning

confidence: 99%

Pharmacokinetics of clarithromycin after single intravenous and intracrop bolus administrations to broiler chickens

AwadAllah

Awidat

El-Mahmoudy

2016

IJPT

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The pharmacokinetics of clarithromycin at a dose of 7.5 mg/kg body weight was evaluated after single intravenous (i.v.) and intracrop (i.c.) bolus administrations in broilers. An HPLC assay using pure clarithromycin base as a standard was used to measure its concentrations in plasma. Following an i.v. bolus injection, the plasma concentration-time curves of clarithromycin were best represented by twocompartment open models. The drug was rapidly distributed and moderately eliminated with half-lives of distribution (t 1/2α ) and elimination (t 1/2β ) of 0.38 and 4.58 h, respectively. The volume of distribution was large with (V dss ) value of 6.89 L. The total body clearance (Cl B ) was 1.2 L/h. After i.c. bolus administration of the same dose, clarithromycin was moderately absorbed in broilers with an intermediate absorption half-life (T ½ab ) of 0.72 h with peak plasma concentration (C max ) of 1.69 μg/ml attained at 1.7 h (T max ) and systemic bioavailability of 66.54%. The elimination half-life following i.c. administration was 2.11 h. The extent of plasma protein binding percent was 52%. The study recommends the use of clarithromycin in broilers because of its good pharmacokinetic profile indicated by good absorption, bioavailability and plasma concentrations ≥ MICs of many sensitive microorganisms.

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Pharmacokinetics of Single- and Multiple-Dose Oral Clarithromycin in Soft Tissues Determined by Microdialysis

Cited by 41 publications

References 22 publications

In Vivo Evaluation of Drug-Drug Interaction via Mechanism-Based Inhibition by Macrolide Antibiotics in Cynomolgus Monkeys

In Vivo Evaluation of Drug-Drug Interaction via Mechanism-Based Inhibition by Macrolide Antibiotics in Cynomolgus Monkeys

Importance of Relating Efficacy Measures to Unbound Drug Concentrations for Anti-Infective Agents

Pharmacokinetics of clarithromycin after single intravenous and intracrop bolus administrations to broiler chickens

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