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Capsule-Based dry powder inhaler evaluation using CFD-DEM simulations and next generation impactor data

Lucilla Coelho de Almeida, Rahul Bharadwaj, Avi Eliahu, Carl Wassgren, Karthik Nagapudi, Ariel R. Muliadi

2022European Journal of Pharmaceutical Sciences19 citationsDOIOpen Access PDF

Abstract

Capsule-based, single-dose dry powder inhalers (DPIs) are commonly-used devices to deliver medications to the lungs. This work evaluates the effect of the drug/excipient adhesive bonding and the DPI resistances on the aerosol performance using a combination of empirical multi-stage impactor data and a fully-coupled computational fluid dynamics (CFD) and discrete element method (DEM) model. Model-predicted quantities show that the primary modes of powder dispersion are a function of the device resistance. Lowering the device resistance increases its capacity to transport a wider range of particle size classes toward the outlet and generate more intense turbulence upstream therein. On the other hand, a higher device resistance increases the velocity of the tangential airflow along the device walls, which in turn increases the intensity of particle/device impaction. Correlating model data and experimental results shows that these differing powder dispersion mechanisms affect different formulations differently, with finer aerosols tending to result when pairing a lower resistance device with formulations that exhibit low API/excipient adhesion, or when pairing a high resistance device with more cohesive formulations.

Topics & Concepts

Dry-powder inhalerExcipientMaterials scienceDiscrete element methodComputational fluid dynamicsParticle sizeParticle (ecology)TurbulenceMechanicsAirflowAerosolDispersion (optics)Composite materialInhalerMechanical engineeringChemistryChromatographyChemical engineeringMeteorologyEngineeringOpticsPhysicsGeologyMedicineOceanographyAsthmaInternal medicineInhalation and Respiratory Drug DeliveryAerosol Filtration and Electrostatic PrecipitationGranular flow and fluidized beds
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