Lyophilization model can help optimize freeze-drying steps for continuous manufacturing processes, according to MIT researchers.

The benefits of continuous biologics manufacturing are generally accepted, but transitioning to continuous processing from batch processing is hindered by the lack of modeling and simulation tools.

Kaltra is proud to announce the release of the next-generation MCHEdesign, now fully integrated with its online coil selection and simulation platform MCHEselect. This major update delivers instant ...

An estimated two million different types of medical devices are in the global market today, according to the World Health Organization. 1 From pacemakers to continuous glucose monitors, healthcare ...

In this special guest feature from Scientific Computing World, Jan Rowell looks at the growing use of digital twins which is being driven by the use of HPC and IOT. The concept of a digital twin—the ...

Eli Lilly’s breast cancer med Verzenio may look like your standard drug tablet—ovular, off-white, emblazoned with the dosage on the front and Lilly’s logo on the reverse—but behind that modest façade ...

Figure 1. (click to enlarge) Part-level flow simulation. The diversity and complexity of medical devices are likely to increase with time, as will the associated design risks and manufacturing ...

Auburn University has expanded its advanced manufacturing capabilities with the purchase of a CF3D Enterprise® cell from ...

Continuous Composites, a pioneer of advanced® composite 3D printing technology, has been chosen by NASA’s Small Business Innovation Research (SBIR) Program to additively manufacture low Coefficient of ...

Historically, pharmaceutical products have been produced in a traditional ‘batch’ system, in which every operation is executed separately using a defined quantity of materials. In batch manufacturing ...

Learn how to successfully address the integration of new safety technologies with legacy systems. Find out how to reduce human error with sensors. Get insights into ...