Aqueous Agenda

Aqueous Agenda: Advances in Formulation and Devices

Friday • May 8, 2025 • 9:00–10:00 AM
Moderator: Darragh Murnane, Ph.D., University of Hertfordshire, UK

Acoustic Wave Nebulization: Reshaping Ultrasonic Nebulizers for the Future
Elijah Nazarzadeh
Nebu~Flow
AI Formulation Science for Solutions: Breathing New Life into Respiratory Drug Delivery with Self Driving Labs
David Shorthouse
University College London

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Biologics for Nebulization: An Approach to Formulation and Manufacture
Alan Watts and Jean-Francois Boe
Catalent
From Botanicals to Biologics: Matching the Molecule with a Delivery Platform and Formulation Approach
Sandy Munro, Charlie Schumacher, Phil Swanbury and Geraldine Venthoye
Phillips Medisize
Optimizing Inhalation of a Monoclonal Antibody: Transitioning from Nebulization to a Dry Powder Inhaler
Luis Marques
Hovione
Aerosolization of Wegovy® and Prototype Formulations of Semaglutide with the MRX004 Soft Mist Inhaler
Mark Parry
Intertek
Ultrasonically Actuated Platform Integrating a Drug-Loaded Cartridge with Microfluidics: Delivering High-Viscosity Solutions with Adjustable Flow Rates
Tuncay Alan
Monash University
Experimental Investigation of the Air and Droplet Dynamics of a Soft Mist Inhaler
Michael Pangestu and Nicolas Buchmann
Monash University
An Acoustic Nebulizer Platform for Aerosolization of Biologics
Kiing Seng Wong
Nebu~Flow
A New Nebulizer Architecture Using Coupling Layer-free Superstrates Allows Easier Cleaning and Better Performance Over Time
David Tatnell
Nebu~Flow
Novel Method for Sized Aerosol Sampling in the Characterization of Nebulized Biologics
Sarina Saeidi
Nebu~Flow
Advancing Cleaning and Disinfection Standards for Mesh Nebulizers: A Patient-Centric Study Introducing Zerowater®
Iain Ross
Phillips Medisize
Development of a Single Actuation Impaction Method for Aerosolization Assessment of Soft Mist Inhalers: Comparison for MRX004 and Respimat®
Giorgia Vaccaro and Darragh Murnane
University of Hertfordshire
Assessing Fitness-for-Purpose to Support Clinical Application of an Adaptive Breath-Actuated Nebulizer
Lois Slator
University of Hertfordshire
Influence of Viscosity and Surface Tension on Droplet Size Distribution and Plume Characteristics of the Respimat® Soft Mist Inhaler
Benjamin Mignot
University of Leeds
Evaluation of the Resyca® PFSI™ Soft Mist Inhaler for Efficient Delivery of mRNA-lipid Nanoparticles to the Lungs
Patrick He
Woolcock Institute of Medical Research
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