The in vitro and in vivo investigation of inhaled migraine therapies using a novel aerosol delivery system consisting of an air pressurized capsule device (APCD) in combination with a pMDI spacer for endotracheal dosing into beagle dogs

• Published in: Drug development and industrial pharmacy Vol. 41; no. 12; p. 1989
• Main Authors: Sellers, Shari, Horodnik, Walter, House, Aileen, Wylie, Jennifer, Mauser, Peter, Garber, Natalie, Pu, Yu Elaine, Berry, Julianne, Donovan, Brent
• Format: Journal Article
• Language: English
• Published: England 02.12.2015
• Subjects: Administration, Inhalation; Aerosols; Animals; Bronchodilator Agents - administration & dosage; Bronchodilator Agents - metabolism; Capsules; Dogs; Dose-Response Relationship, Drug; Drug Delivery Systems - methods; Dry Powder Inhalers - methods; Male; Migraine Disorders - drug therapy; Nebulizers and Vaporizers; Trachea - drug effects; Trachea - metabolism; inhalation; AeroChamber HC MV; Abbreviated Andersen cascade impactor; preclinical dosing; dry powder delivery
• ISSN: 1520-5762
• DOI: 10.3109/03639045.2015.1029936

Aerosol delivery to animals in preclinical settings has historically been very challenging, requiring the use of techniques, such as intratracheal instillation and dry powder insufflation, that are somewhat invasive, inefficient and not representative of clinical inhalation. The objective of this work is to develop a system to deliver dry powder to dogs in an efficient and effective manner for the study of new anti-migraine compounds in development. The new device uses a metered aliquot of a dry gas to force dry powder drug from a pre-filled HPMC capsule into an AeroChamber® spacer for subsequent inhalation by the animal. The delivery of two invesigational migraine drugs via the new device was assessed in vitro using abbreviated Andersen cascade impaction and showed the device is capable of generating a reproducible delivered dose of up to ∼68% with more than 50% of the dose in the respirable range. In vivo studies have also been performed showing that this device effectively delivered the migraine drugs to spontaneously breathing dogs using a proprietary validated dog inhalation model. Results confirmed that the air pressurized capsule device (APCD) was effective in delivering the APIs to lungs of the animals. The in vivo data verified the advantages of inhaled delivery over oral delivery for this class of drugs and were used to establish the cardiopulmonary and respiratory side effect liability profile for these compounds. This work has demonstrated the utility of this device for quick and accurate screening of prospective drug candidates, representing a significant improvement in ease of use and reprodicibility over current delivery methods.