Discover better designs, faster, and solve drug delivery challenges for the pharmaceutical and medical device industries
Thursday, January 19, 2017

In order to design effective drug delivery devices one has to master the physics of liquids, solids, gases and any of their combinations. From drug formulation, drug transport all the way to drug delivery, from powders, solids to fluids and vapors, computational fluid dynamics (CFD) can be a powerful tool to tackle these challenging processes and enable design exploration for device design and process parameteroptimization. Examples of how CFD can optimize these processes range from modeling syringes and inhalers, mixing devices, particle deposition into lungs, assessing the efficacy of inhaled medications, or injections into the bloodstream or spinal fluid.

In this On-Demand webinar, we discuss the role of 3D simulation for pharmaceutical and medical device design applications, specifically the digital twin concept for drug delivery devices.

Leading medical device design and pharmaceutical companies have realized that investment in terms of recruitment, as well as technology, is critical. They have started integrating simulation into clinical trial studies and are applying it to modernize their manufacturing processes.

To demonstrate what is possible today, guest speaker Barzin Gavtash will give a deep dive into pMDI spray modeling with his presentation, “Multi-physics theoretical approach to predict pMDI spray characteristics.”

Kristian Debus
Barzin Gavtash
Speaker Company: 
Siemens PLM