Sarah Berlin scite author profile

Drug interactions often result from multiple pharmacokinetic changes, such as after rifampicin (RIF) and clarithromycin (CLA) in the treatment of abscessing lung diseases. Comedication of RIF may interact with CLA disposition by either induction of presystemic elimination processes and/or inhibition of uptake mechanisms because it regulates gene transcription and modulates function of various CYP enzymes, multidrug efflux and uptake transporters for which CLA is a substrate. To distinguish the transcriptional changes from the modulating interaction components upon CLA absorption and pulmonary distribution, we initiated a repeated-dose study in 12 healthy foals with CLA (7.5 mg/kg, p.o., b.i.d.) in comedication with RIF (10 mg/kg, p.o., b.i.d.) given either concomitantly with CLA or consecutively 4 h after CLA. Affinity of CLA to human P-gp, MRP2, and MRP3 and to OCT1, OCT3, and PEPT1 was measured using Sf9-derived inside-out membrane vesicles and transfected HEK293 cells, respectively. ABCB1 (P-gp) induction by RIF and affinity of CLA to equine P-gp were studied using primary equine hepatocytes. Absolute bioavailability of CLA was reduced from ∼40% to below 5% after comedication of RIF in both schedules of administration, and Tmax occurred ∼2-3 h earlier. The loss of bioavailability was not associated with increased 14-hydroxyclarithromycin (14-OH-CLA) exposure. After consecutive dosing, absolute bioavailability and pulmonary penetration of CLA increased ∼2-fold compared to concomitant use. In vitro, CLA showed affinity to human and equine P-gp. Expression of ABCB1 mRNA was upregulated by RIF in 7 of 8 duodenal biopsy specimens and in primary equine hepatocytes. In conclusion, the major undesired influence of RIF on oral absorption and pulmonary distribution of CLA is associated with induction of intestinal P-gp. Consecutive administration to avoid competition with its intestinal uptake transport results in significantly, although not clinically relevant, improved systemic exposure.

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Pharmacological indices and pulmonary distribution of rifampicin after repeated oral administration in healthy foals

Berlin

Kirschbaum²,

Spieckermann³

et al. 2017

Equine Veterinary Journal

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Pharmacokinetics and pulmonary distribution of gamithromycin after intravenous administration in foals

Berlin

Randow²,

Scheuch

et al. 2017

Vet Pharm & Therapeutics

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The long-acting azalide antibiotic gamithromycin is marketed for intramuscular treatment of bovine and swine infections. Off-label use in foals leads to severe local lesions likely caused by hyperosmolality of the injected solution. We provide evidence from a pharmacokinetic study in 10 warm-blooded healthy foals for intravenous bolus injection of gamithromycin diluted in distilled water to be a safe and well tolerated alternative. By intravenous dosing, markedly higher plasma exposure and better penetration into bronchoalveolar lavage cells but lower distribution into epithelial lining fluid are achieved as after intramuscular or subcutaneous administration. Intravenously injected gamithromycin was tolerated without any adverse drug reactions. The protocols for treatment of equine pulmonary infections caused by Rhodococcus equi should be revised accordingly.

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Assessment of OMT-28, a synthetic analog of omega-3 epoxyeicosanoids, in patients with persistent atrial fibrillation: Rationale and design of the PROMISE-AF phase II study

Berlin¹,

Goette

Summo³

et al. 2020

IJC Heart & Vasculature

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We designed a placebo controlled, double-blind, randomized, dose-finding phase II study on OMT-28 in the maintenance of sinus rhythm after electrical cardioversion (DCC) in patients with persistent atrial fibrillation (PROMISE-AF). OMT-28 is a first-in-class, synthetic analog of 17,18-epoxyeicosatetetraenoic acid, a bioactive lipid mediator generated by cytochrome P450 enzymes from the omega-3 fatty acid eicosapentaenoic acid. OMT-28 improves Ca 2+ -handling and mitochondrial function in cardiomyocytes and reduces pro-inflammatory signaling. This unique mode of action may provide a novel approach to target key mechanism contributing to AF pathophysiology. In a recent phase I study, OMT-28 was safe and well tolerated and showed favorable pharmacokinetics. The PROMISE-AF study (NCT03906799) is designed to assess the efficacy (primary objective), safety, and population pharmacokinetics (secondary objectives) of three different doses of OMT-28, administered once daily, versus placebo until the end of the follow-up period. Recruitment started in March 2019 and the study will include a total of 120 patients. The primary efficacy endpoint is the AF burden (% time with any AF), evaluated over a 13-week treatment period after DCC. AF burden is calculated based on continuous ECG monitoring using an insertable cardiac monitor (ICM). The primary efficacy analysis will be conducted on the modified intention-to-treat (mITT) population, whereas the safety analysis will be done on the safety population. Although ICMs have been used in other interventional studies to assess arrhythmia, PROMISE-AF will be the first study to assess antiarrhythmic efficacy and safety of a novel rhythm-stabilizing drug after DCC by using ICMs.

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Intestinal and hepatic contributions to the pharmacokinetic interaction between gamithromycin and rifampicin after single‐dose and multiple‐dose administration in healthy foals

Berlin

Wallstabe²,

Scheuch

et al. 2018

Equine Veterinary Journal

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Sarah Berlin

Pharmacokinetics and Pulmonary Distribution of Clarithromycin and Rifampicin after Concomitant and Consecutive Administration in Foals

Pharmacological indices and pulmonary distribution of rifampicin after repeated oral administration in healthy foals

Pharmacokinetics and pulmonary distribution of gamithromycin after intravenous administration in foals

Assessment of OMT-28, a synthetic analog of omega-3 epoxyeicosanoids, in patients with persistent atrial fibrillation: Rationale and design of the PROMISE-AF phase II study

Intestinal and hepatic contributions to the pharmacokinetic interaction between gamithromycin and rifampicin after single‐dose and multiple‐dose administration in healthy foals

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