Respiratory Tract Penetration of Quinolone Antimicrobials: A Case in Study

Ritrovato, Charles A.; Deeter, Robert G.

doi:10.1002/j.1875-9114.1991.tb03596.x

Cited by 10 publications

References 54 publications

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Penetration of Levofloxacin into Lung Tissue after Oral Administration to Subjects Undergoing Lung Biopsy or Lobectomy

Lee,

Sha,

Gotfried

et al. 1998

Pharmacotherapy

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Study Objective. To evaluate the pulmonary tissue distribution of levofloxacin, the new once‐daily fluoroquinolone, after a single 500‐mg oral dose.Design. Open‐label study.Setting. One pulmonary clinic and two university‐affiliated teaching hospitals.Patients. Eighteen adults undergoing lung biopsy or lobectomy.Interventions. Levofloxacin plasma and lung tissue concentrations were determined by high‐performance liquid chromatography with fluorescence detection. Lung tissue levofloxacin concentrations were corrected for blood contamination by measuring hemoglobin.Measurements and Main Results. After a single 500‐mg oral dose, concentrations of levofloxacin in lung tissue consistently exceeded those in plasma at every time point over the 24‐hour sampling period, with tissue:plasma penetration ratios of 2.02 (2–3 hrs), 5.02 (4–6 hrs), 5.13 (11–17 hrs), and 4.13 (22–25 hrs). The mean penetration ratio over the 24‐hour sampling period was 3.95 (range 1.06–9.98). Lung tissue concentrations of levofloxacin also exceeded minimum inhibitory concentration values for most community‐acquired respiratory tract pathogens over the 24 hours.Conclusion. This study supports clinical evaluation of levofloxacin as once‐daily oral therapy for community‐acquired lower respiratory tract infections.

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Penetration of Levofloxacin into Lung Tissue after Oral Administration to Subjects Undergoing Lung Biopsy or Lobectomy

Lee,

Sha,

Gotfried

et al. 1998

Pharmacotherapy

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Antitubercular drugs

Barber¹,

Goldman²,

Avicolli³

et al. 1995

Tuberculosis

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Effects of the antibiotic component on in-vitro bacterial killing, physico-chemical properties, aerosolization and dissolution of a ternary-combinational inhalation powder formulation of antibiotics for pan-drug resistant Gram-negative lung infections

Mangal

Huang

Shetty

et al. 2019

International Journal of Pharmaceutics

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Combinational antibiotic formulations have emerged as an important strategy to combat antibiotic resistance. The main objective of this study was to examine effects of individual components on the antimicrobial activity, physico-chemical properties, aerosolization and dissolution of powder aerosol formulations when three synergistic drugs were co-spray dried. A ternary dry powder formulation consisting of meropenem (75.5 %w/w), colistin (15.1 %w/w) and rifampicin (9.4 %w/w) at the selected ratio was produced by spray drying. The ternary formulation was characterized for in-vitro antibacterial activity, physico-chemical properties, surface composition, aerosol performance and dissolution. All of the formulations demonstrated excellent aerosolization behavior achieving a fine particle fraction of >70%, which was substantially higher than those for the Meropenem-SD and Colistin-Meropenem formulations. The results indicated that rifampicin controlled the surface morphology of the ternary and binary combination formulations resulting in the formation of highly corrugated particles. Advanced characterization of surface composition by XPS supported the hypothesis that rifampicin was enriched on the surface of the combination powder formulations. All spray-dried formulations were amorphous and absorbed substantial amount of water at the elevated humidity. Storage at the elevated humidity caused a substantial decline in aerosolization performance for the Meropenem-SD and Colistin-Meropenem, which was attributed to increased inter-particulate capillary forces or particle fusion. In contrast, the ternary combination and binary Meropenem-Rifampicin formulations showed no change in *

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Respiratory Tract Penetration of Quinolone Antimicrobials: A Case in Study

Cited by 10 publications

References 54 publications

Penetration of Levofloxacin into Lung Tissue after Oral Administration to Subjects Undergoing Lung Biopsy or Lobectomy

Penetration of Levofloxacin into Lung Tissue after Oral Administration to Subjects Undergoing Lung Biopsy or Lobectomy

Antitubercular drugs

Effects of the antibiotic component on in-vitro bacterial killing, physico-chemical properties, aerosolization and dissolution of a ternary-combinational inhalation powder formulation of antibiotics for pan-drug resistant Gram-negative lung infections

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