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Technician Steven Flanders oversees the additive equipment at IMDS’s Orlando office, which includes the EOS machine for metal parts and Stratasys 3D printers for plastic parts. Most of the work at this site is engineering, including tailoring the product in anticipation of full production through additive manufacturing.
In the medical device industry, the potential benefits of additive manufacturing are almost outrageously numerous. Creating precise and intricate components through an additive process instead of machining or molding can reduce expense, speed development, allow for cost-effective small batches and even allow for patient customization. Plus, this method of manufacturing provides the designer with geometric freedom—not just the freedom to refine the form to improve functionality, but also the freedom to innovate into areas not currently covered by intellectual property claims.
However, practically no medical inventor knows how to access these benefits. A surgeon devising a new implant or instrument knows surgery, not whether additive production is appropriate or how to design for this choice. Meanwhile, the additive equipment suppliers don’t know how to reach the inventors who are imagining products that could benefit from an additive process.
That is where Innovative Medical Device Solutions (IMDS) enters in. The company aims to help navigate this distance.
Headquartered in Fort Worth, Texas, this contract manufacturer of medical products agreed last year to become a “lighthouse partner” for additive manufacturing machine maker EOS. That is, IMDS will be a beacon for designers who do not yet know that additive manufacturing is what they need.
The established company has plants in three states. What makes IMDS distinctive is the way it couples this production capacity with in-house expertise related to medical products. The result is “Co-Innovation,” the company’s term for a range of services that includes testing, IP assessment, feasibility studies and regulatory evaluation before a proposed medical device is even considered for production. According to IMDS’s Michael Siemer, additive manufacturing fits right into this model.
Siemer, the company’s additive manufacturing engineering manager, is based at a Co-Innovation office in Orlando, Florida. Here, IMDS has begun to apply EOS’s direct metal laser sintering to help customers engineer new product designs. Among the part designs that are successfully prototyped, refined and proven out through this process are many that will proceed into full production using this same technology. For examples of ways the company is using additive manufacturing, see these images.
Labeling IMDS is difficult. The company engages customers earlier than manufacturers usually do, helping them develop and validate ideas prior to production. Thus, while the company is a manufacturer, it is also something more. And additive manufacturing makes this “something more” increasingly important.
That’s because additive manufacturing expands production options. It also pushes forward the choice of what option to use, because accepting or rejecting additive has dramatic implications for design. As a result, additive manufacturing increases the value of bringing innovation and manufacturing together—as IMDS has done.
In fact, this role of engaging product designers early, so as to guide their work into the appropriate production choice, is so valuable that it seems likely that other manufacturers will move to fill it—not just in medical but in other industries, too. That is, other lighthouses will be raised. Whatever else IMDS might be, it is a model for how additive manufacturing will find its applications.blog comments powered by Disqus