Open-Label, Multicenter Study of Flecainide Acetate Oral Inhalation Solution for Acute Conversion of Recent-Onset, Symptomatic Atrial Fibrillation to Sinus Rhythm

BACKGROUND: Oral and intravenous flecainide is recommended for cardioversion of atrial fibrillation. In this open-label, dose-escalation study, the feasibility of delivering flecainide via oral inhalation (flecainide acetate inhalation solution) for acute conversion was evaluated. We hypothesized that flecainide delivered by oral inhalation would quickly reach plasma concentrations sufficient to restore sinus rhythm in patients with recent-onset atrial fibrillation. METHODS: Patients (n=101) with symptomatic atrial fibrillation (for ≤48 hours) self administered flecainide acetate inhalation solution using a nebulizer (30 mg [n=10], 60 mg [n=22], 90 mg [n=21], 120 mg [n=19], and 120 mg in a formulation containing saccharin [n=29]). Electrocardiograms and flecainide plasma concentrations were obtained, cardiac rhythm using 4-hour Holter was monitored, and adverse events were recorded. RESULTS: Conversion rates increased with dose and with the maximum plasma concentrations of flecainide. At the highest dose, 48% of patients converted to sinus rhythm within 90 minutes from the start of inhalation. Among patients who achieved a maximum plasma concentration >200 ng/mL, the conversion rate within 90 minutes was 50%; for those who achieved a maximum plasma concentration <200 ng/mL, it was 24%. Conversion was rapid (median time to conversion of 8.1 minutes from the end of inhalation), and conversion led to symptom resolution in 86% of the responders. Adverse events were typically mild and transient and included: cough, throat pain, throat irritation; at the highest dose with the formulation containing saccharin, these adverse events were reported by 41%, 14%, and 3% of patients, respectively. Cardiac adverse events consistent with those observed with oral and intravenous flecainide were uncommon and included postconversion pauses (n=2), bradycardia (n=1), and atrial flutter with 1:1 atrioventricular conduction (n=1); none required treatment, and all resolved without sequelae. CONCLUSIONS: Administration of flecainide via oral inhalation was shown to be safe and to yield plasma concentrations of flecainide sufficient to restore sinus rhythm in patients with recent-onset atrial fibrillation. REGISTRATION: URL: https://www. CLINICALTRIALS: gov; Unique identifier: NCT03539302

4-Aminoquinolone Piperidine Amides: Noncovalent Inhibitors of DprE1 with Long Residence Time and Potent Antimycobacterial Activity

4-Aminoquinolone piperidine amides (AQs) were identified as a novel scaffold starting from a whole cell screen, with potent cidality on Mycobacterium tuberculosis (Mtb). Evaluation of the minimum inhibitory concentrations, followed by whole genome sequencing of mutants raised against AQs, identified decaprenylphosphoryl-beta-D-ribose 2'-epimerase (DprE1) as the primary target responsible for the antitubercular activity. Mass spectrometry and enzyme kinetic studies indicated that AQs are noncovalent, reversible inhibitors of DprE1 with slow on rates and long residence times of similar to 100 min on the enzyme. In general, AQs have excellent leadlike properties and good in vitro secondary pharmacology profile. Although the scaffold started off as a single active compound with moderate potency from the whole cell screen, structure-activity relationship optimization of the scaffold led to compounds with potent DprE1 inhibition (IC50 < 10 nM) along with potent cellular activity (MIC = 60 nM) against Mtb

4-Aminoquinolone Piperidine Amides: Non-Covalent Inhibitors of DprE1 with Long Residence Time and Potent Antimycobacterial Activity.

4-aminoquinolone piperidine amides (AQs) were identified as a novel scaffold starting from a whole cell screen, with potent cidality on Mycobacterium tuberculosis (Mtb). Evaluation of the minimum inhibitory concentrations, followed by whole genome sequencing of mutants raised against AQs identified decaprenylphosphoryl-β-D-ribose 2'-epimerase (DprE1) as the primary target responsible for the antitubercular activity. Mass spectrometry and enzyme kinetic studies indicated that AQs are non-covalent, reversible inhibitors of DprE1 with slow on rates and long residence times of ~100 minutes on the enzyme. In general, AQs have excellent lead-like properties and good in vitro secondary pharmacology profile. Although, the scaffold started off as a single active compound with moderate potency from the whole cell screen, SAR optimization of the scaffold led to compounds with potent DprE1 inhibition (IC50 <10 nM) along with potent cellular activity (MIC = 60 nM) against Mtb