AI Article Synopsis
- The study investigates how amikacin, an antibiotic, is distributed in the lungs when administered via ultrasonic nebulizer versus intravenous infusion during mechanical ventilation.
- The results showed that aerosolized amikacin reached the lungs more effectively, achieving tissue concentrations over ten times higher than those from intravenous administration.
- This method provided high amikacin levels in lung tissue, significantly surpassing the necessary concentrations to inhibit most gram-negative bacteria.
Article Abstract
The tissue concentration of aminoglycosides in lung parenchyma is the main determinant of bactericidal efficiency. The aim of the study was to compare the lung deposition of amikacin administered either by an ultrasonic nebulizer or by intravenous infusion during mechanical ventilation. Eighteen healthy ventilated piglets received a single daily dose of amikacin by intravenous infusion (15 mg. kg(-1)) and 18 by aerosol (1 g in 12 ml). The amount of aerosolized amikacin reaching the tracheobronchial tree represented 40 +/- 5% of the initial dose with an aerodynamic size distribution showing 50% of particles ranging between 0.5 and 5 microm mass median diameter. Animals were killed at different time intervals after the second dose. Tissue concentrations of amikacin were determined on cryomixed multiple lung specimen by an immunoenzymatic method. The lung concentrations of nebulized amikacin, peaking at 208 +/- 76 microg. g(-1), were more than 10-fold higher than the lung concentrations of intravenous amikacin and were homogeneously distributed throughout the lung parenchyma. Amikacin plasma concentrations lower than 5 mmol. l(-1) were measured after the sixth hour after the nebulization. In conclusion, the ultrasonic nebulization of amikacin resulted in high tissue concentrations, far above the minimal inhibitory concentrations of most gram-negative strains.
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| http://dx.doi.org/10.1164/ajrccm.165.2.2107025 | DOI Listing |
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