4 Ways to Accelerate the Development of Medical Implants with Design Automation
A major factor that influences design decisions during the product development of medical devices is time-to-market. Accelerating or automating your design processes can give you a distinct advantage over your competitors. Here are…
Flexible Metal – Leveraging Powerful Design Tools to Create Compliant Medical Devices
Titanium is the blank canvas on which advanced additive designs can be placed.
Keeping Your Medical Device Design Process Traceable
When it comes to regulatory oversight, traceability is more a requirement than a recommendation. However, that doesn’t mean implementing it into your processes needs to be an obstacle; nTop Platform offers traceability right…
A New Way to Design for Additive Orthopedic Implants
Designing for additive medical devices is only painful when you're not properly equipped to do the job. What if you could use a design software that gives you the tools you need to…
How to Design and Optimize a Patient Specific Additively Manufactured Hip Implant Stem
Read below to see how a student used nTop Platform to design a novel hip implant stem and won an award for his design
Impact Resistant Bio-Structures
Taking a look at what nature can teach us about mitigating collisions. The third NFL Helmet Challenge DfAM eSeries Guest Blog
Designing Lattice Structures for Biologically-Relevant Medical Implants
Software solutions like nTop Platform enable engineers to design medical implants that are biologically-relevant and optimized for osseointegration.
Intentional Design of Surface Roughness for Orthopedic Parts
Surface roughness in metal additive manufacturing has always been viewed as a by-product of the process instead of a design feature - specifically in the biomedical space. As additive machines become increasingly more…