Inhaled antibiotics in critical care: State of the art and future perspectives - 08/09/22
, Maxime Desgrouas b, Stephan Ehrmann cHighlights |
• | Critically ill patients may develop ventilator-associated pneumonia, potentially due to multidrug-resistant and extensively-drug-resistant microorganisms. Inhaled antibiotics are one potential means of treating these infections, while limiting the emergence of new resistant strains. |
• | Inhaled antibiotics permit delivery of high doses of antibiotics directly to the lung with low systemic exposure, avoiding toxicities of systemic antimicrobials (nephrotoxicity…) and limiting the emergence of multidrug-resistant bacteria; these advantages most likely outweigh potential respiratory adverse events. |
• | To optimize inhaled drug delivery, various parameters need to be controlled: nebulizer type, position of the device in the ventilator circuit, gas humidification, and ventilator settings. |
• | In critically ill patients, some studies suggest a benefit of aerosolized antibiotic, which is primarily considered for the treatment of ventilator-associated pneumonia involving extensively drug-resistant bacteria and classically prescribed jointly with an intravenous antibiotic as a therapy of last resort, on a case-by-case basis. To date, nebulized antibiotics cannot be considered as a substitute for intravenous treatment. |
• | The use of aerosolized antibiotics is not without side effects and may cause cough, desaturation, hypoxemia, bronchoconstriction, or bronchospasm. Occlusion of the expiratory filter can be responsible for cardiac arrest. The filter needs to be changed after each aerosol session. |
Abstract |
Administration of inhaled antibiotics in intensive care units (ICU) remains confidential compared to bronchodilators, not withstanding extensive pre-clinical and clinical research and potential indications associated with the emergence of bacterial antibiotic resistances. Inhaled antibiotic administration enables delivery of high doses of antibiotics directly to the lung. Local antibiotic concentrations are pronouncedly higher than the minimum inhibitory concentration of causative pathogens of lung infection, and also higher than the minimal concentrations preventing resistant emergence, with low systemic passage and resulting side effects. In the available armamentarium face to multidrug-resistant bacteria spread, inhaled antibiotics may have a role, insofar they remain effective and prevent further emergence of resistance. In critically ill patients, some studies have documented the benefits of aerosolized antibiotic therapy compared to intravenous treatment. Prophylactic administration of inhaled antibiotics to prevent ventilator-associated pneumonia has yielded encouraging results. In ICUs, nebulized antibiotics may be considered for treatment of ventilator-associated pneumonia caused by resistant pathogens in patients at high risk of therapeutic failure, or as a last resort in case of uncontrolled infection with intravenous antibiotics. In this review, we address the rationale for this treatment method and provide a short technical update, followed by a discussion of potential indications for inhaled antibiotics in critically ill patients. Lastly, we present the innovations and future developments of inhaled antimicrobial therapies that could benefit ICU patients.
Le texte complet de cet article est disponible en PDF.Keywords : Mechanical ventilation, Aerosol, Ventilator-associated pneumonia, Multidrug-resistant bacteria, Intensive care
Plan
Vol 52 - N° 6
P. 327-333 - septembre 2022 Retour au numéro
Article précédent
- Editorial board
- Antibiotic resistance patterns of carbapenemase-producing Enterobacterales in Mohammed VI University Hospital of Marrakech, Morocco
- I. Dilagui, S. Loqman, A. Lamrani Hanchi, N. Soraa
Bienvenue sur EM-consulte, la référence des professionnels de santé.
L’accès au texte intégral de cet article nécessite un abonnement.
Déjà abonné à cette revue ?