This talk is an overview of 3D structural and thermodynamics simulations for pharma, packaging, medical devices, and implants in realistic conditions with Abaqus. Examples of applications such as drug delivery device design and stent deployment will be demonstrated while taking into account the in-vivo boundary conditions variability. Finally, a review of the plastic moulding simulation capabilities for packaging optimization will be shown.
New and novel biologic therapeutics, and their delivery to patients is complicated as they can be viscous or delivered in large volumes. Hence “Wearable Large Volume Injectors” are bound to play a key role in the future success of these new therapeutics and thus the design of these devices is critical. We will showcase the core values of the 3DExperience platform in relation to design and development of devices: modeling & simulation, with end-to-end digital continuity and data integrity.
We will showcase our solution, the 3DExperience platform that will bring reduced cycle times, accelerated design and development processes, improved productivity, and reduced cost of design errors, lower cost of quality.
The full set of SIMULIA simulation tools for Computational Fluid Dynamics problems will be presented. The recent trend of in vivo simulations for medical devices brings together multiple physics in a complex simulations scenarios. Simulations of fluid-structure interactions and specific applications are the topic of this talk.
As measurement is typically not an option inside the human body, Electromagnetics and Multiphysics simulations are the only way to analyze the complex field distribution inside the body, to ensure the functionality of the device as well as to understand and avoid hazards due to the power absorption inside the tissues. We will showcase how CST Studio Suite can perform those simulations in a realistic virtual human environment.
Recent trend of medical technology is increasingly moving towards in-vivo personalized approach for specific devices, such as grafts. The challenges in designing of patient specific devices are several: one-off manufacturing, choice of device, patient biometrics and anatomy, automated workflow and multidisciplinary technology integration. We will demonstrate how to optimize an additive manufacturing solution for tackling this challenge.
We will show how the 3DExperience platform can maximize the efficiency for data management for precision medicine and personalized healthcare, bioserenity, drug safety, population models and machine learning.