Impact of acoustic airflow nebulization on intrasinus drug deposition of a human plastinated nasal cast: New insights into the mechanisms involved

The impact of 100Hz (Hertz) acoustic frequency airflow on sinus drug deposition of aerosols was investigated using a human plastinated nasal cast. The influence of drug concentration and endonasal anatomical features on the sinus deposition enhanced by the 100Hz acoustic airflow was also examined. P...

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Bibliographic Details
Published in:International journal of pharmaceutics 2011-12, Vol.421 (1), p.63-71
Main Authors: Durand, Marc, Pourchez, Jérémie, Aubert, Gérald, Le Guellec, Sandrine, Navarro, Laurent, Forest, Valérie, Rusch, Philippe, Cottier, Michèle
Format: Article
Language:English
Subjects:
Acoustic airflow
Acoustics
active ingredients
Aerosol therapy
Aerosols
air flow
Air Movements
atomization
Biological and medical sciences
Computed tomography
Drug deposition
Drugs
Endoscopy
General pharmacology
Gentamicin
Gentamicins - administration & dosage
Gentamicins - pharmacokinetics
Humans
Male
Maxilla
Maxillary sinus
Medical sciences
metrology
Models, Anatomic
Nasal Cavity
nose
Paranasal Sinuses
Pharmaceutical technology. Pharmaceutical industry
Pharmacology. Drug treatments
Plastination
Sinus
sinuses
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Summary:The impact of 100Hz (Hertz) acoustic frequency airflow on sinus drug deposition of aerosols was investigated using a human plastinated nasal cast. The influence of drug concentration and endonasal anatomical features on the sinus deposition enhanced by the 100Hz acoustic airflow was also examined. Plastinated models were anatomically, geometrically and aerodynamically validated (endoscopy, CT scans, acoustic rhinometry and rhinomanometry). Using the gentamicin as a marker, 286 experiments of aerosol deposition were performed. Changes of airborne particles metrology produced under different nebulization conditions (100Hz acoustic airflow and gentamicin concentration) were also examined. Aerodynamic and geometric investigations highlighted a global behaviour of plastinated models in perfect accordance with a nasal decongested healthy subject. The results of intrasinus drug deposition clearly demonstrated that the aerosols can penetrate into the maxillary sinuses. The 100Hz acoustic airflow led to increase the deposition of drug into the maxillary sinuses by a factor 2–3 depending on the nebulization conditions. A differential intrasinus deposition of active substance depending on maxillary ostium anatomical features and drug concentration was emphasized. The existence of a specific transport mechanism of penetration of nebulized particles delivered with acoustic airflow was proposed.
ISSN:0378-5173
1873-3476
DOI:10.1016/j.ijpharm.2011.09.023