Thiago C. Carvalho scite author profile

Objectives In this review paper, we explore the interaction between the functioning mechanism of different nebulizers and the physicochemical properties of the formulations for several types of devices, namely jet, ultrasonic and vibrating-mesh nebulizers; colliding and extruded jets; electrohydrodynamic mechanism; surface acoustic wave microfluidic atomization; and capillary aerosol generation. Key findings Nebulization is the transformation of bulk liquids into droplets. For inhalation therapy, nebulizers are widely used to aerosolize aqueous systems, such as solutions and suspensions. The interaction between the functioning mechanism of different nebulizers and the physicochemical properties of the formulations plays a significant role in the performance of aerosol generation appropriate for pulmonary delivery. Certain types of nebulizers have consistently presented temperature increase during the nebulization event. Therefore, careful consideration should be given when evaluating thermo-labile drugs, such as protein therapeutics. We also present the general approaches for characterization of nebulizer formulations. Summary In conclusion, the interplay between the dosage form (i.e. aqueous systems) and the specific type of device for aerosol generation determines the effectiveness of drug delivery in nebulization therapies, thus requiring extensive understanding and characterization.

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Formation of Reactive Impurities in Aqueous and Neat Polyethylene Glycol 400 and Effects of Antioxidants and Oxidation Inducers

Hemenway

Carvalho

Rao

et al. 2012

Journal of Pharmaceutical Sciences

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Formulations for Pulmonary Administration of Anticancer Agents to Treat Lung Malignancies

Carvalho

McConville

2011

Journal of Aerosol Medicine and Pulmonary Drug Delivery

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Chemotherapy plays a significant role both as primary and as supportive care for lung cancer treatment. The majority of currently available anticancer agents are administrated intravenously, causing side effects due to the systemic drug distribution. Alternatively, the bioavailability of orally administrated anticancer agents is usually compromised by the first-pass metabolism. Pulmonary administration may be a potential route for anticancer drug delivery to treat lung tumors, due to its site specific delivery, avoidance of first-pass metabolism, possibility of fewer side effects, and improved comfort for cancer patients using a needle-free delivery device. However, to attain an effective inhalational delivery, there is a requirement to design a formulation with appropriate aerodynamic properties with well-suited excipients. This review article explores work to date related to the formulations developed for pulmonary delivery of small molecule antineoplastic agents to treat primary and metastatic lung carcinomas. Ultimately, it highlights the importance of formulation design to define the role of inhalational chemotherapy.

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