Aerosol deposition and emission from a United States Pharmacopeia‐induction port when using a pressurized metered‐dose inhaler with and without a valved holding chamber

Abstract: The testing of pharmaceutical aerosols includes measuring the aerodynamic particle size distribution, which is usually performed on cascade impactors. In the next generation impactor (NGI), the aerosol dose is introduced through an induction port (IP), being separated into different aerodynamic diameter ranges by seven stages and a micro‐orifice collector. The IP plays an important role in estimating the oropharyngeal deposition fraction. While the IP retains mainly large particles, it also tends to retain par… Show more

“…The first contribution is the paper entitled "Aerosol Deposition and Emission from a United States Pharmacopeia-Induction Port When Using a Pressurized Metered-Dose Inhaler With and Without a Valved Holding Chamber," by Yamila de Charras et al [1] In this paper, the authors tested pharmaceutical aerosols and studied their particle size distribution both experimentally and numerically using CFD. The CFD results corroborated the experimental results and allowed for a correlation to be proposed to accurately predict the particles leaving the aerosol.…”

Process design in chemical engineering CFD symposium

“…The first contribution is the paper entitled "Aerosol Deposition and Emission from a United States Pharmacopeia-Induction Port When Using a Pressurized Metered-Dose Inhaler With and Without a Valved Holding Chamber," by Yamila de Charras et al [1] In this paper, the authors tested pharmaceutical aerosols and studied their particle size distribution both experimentally and numerically using CFD. The CFD results corroborated the experimental results and allowed for a correlation to be proposed to accurately predict the particles leaving the aerosol.…”

Process design in chemical engineering CFD symposium