Medical prints made with Formlabs 3D printers

Medical prints made with Formlabs 3D printers [Photo courtesy of Formlabs]

3D printer accessibility and affordability are enabling small device firms to develop and market a wave of personalized devices.

Gaurav Manchanda, Formlabs

Healthcare is becoming more efficient, and patients are beginning to expect a personalized approach. 3D printing isn’t a newly minted manufacturing technology, yet it’s reached an inflection point for bringing change in healthcare and dental applications.

Traditionally, 3D printing was prohibitively expensive and only available to the largest, best-resourced medical centers and device manufacturers. But these days, 3D printers have become more affordable and accessible. As a result, additive manufacturing is surging in healthcare as medical providers and device manufacturers tap into the ability to safely produce novel, patient-specific, biocompatible and sterilizable parts.

As 3D printing becomes the method of choice for a growing number of medical devices, implants, surgical guides, orthotics, prosthetics, and other medical applications, medical device firms and manufacturers must consider the technology for the commercialization of end-use parts.

The road to 3D printing commercialization in healthcare

Medical products made with SLS 3D printing

Medical products made with SLS 3D printing [Photo courtesy of Formlabs]

The healthcare sector has begun to embrace 3D printing, a trend expected to grow as providers and manufacturers implement personalized care, create new medical devices and improve patient education. Also, there is the development of technology to improve part production, deliver new materials and reduce production time.

3D printing manufacturers and healthcare leaders are teaming up to further advance additive manufacturing. Major group purchasing organization (GPO) Vizient listed a 3D printing company in its catalog for the first time, and other partnerships are accelerating the delivery of life-changing medical devices while maintaining regulatory compliance.

This support from the industry dovetails with advancements enabling new applications and faster workflows, which will further advance 3D printing toward commercialization in healthcare. Beyond 3D printing hardware and software, materials are also a critical component to advancing 3D printing commercialization in the space.

A variety of medical products made by 3D printing

3D-printed medical products made with BioMed resins [Photo courtesy of Formlabs]

Healthcare providers, manufacturers, and facilities require biocompatible, sterilizable materials such as BioMed Clear, BioMed White and BioMed Black Resins. These materials are made in an ISO 13485 certified, FDA-registered facility and are designed for applications requiring contact with skin, blood, tissue, dentin, mucosal membrane or gas pathways in healthcare. They’re also compatible with common solvent disinfection and sterilization methods. Designed with patient safety in mind, these SLA materials — and biocompatible nylon materials for an SLS printer — are critical for creating medical devices, surgical instruments, surgical guides, and new innovations in ground-breaking healthcare research.

Designing 3D printing technology with healthcare commercialization in mind will enable the industry to reach the end goal of improving patient care sooner. Small and large medical manufacturers have started creating medical devices, dentures, implants, prosthetics and more using 3D printing.

Small firms already commercializing devices

Small firms are commercializing 3D-printed medical devices — including surgical instruments, inhalers, smart prosthetic hands, metabolic analyzer masks and more — and can show the path forward. Companies using 3D printing for manufacturing and prototyping can develop new innovative treatments and devices that are customized to patients while remaining affordable.

Medical device company Coalesce Product Development (recently acquired by Novartis) is using 3D printing to develop novel, affordable drug delivery devices such as inhalers and injectors for generic inhalation products that offer significantly better value than brand name alternatives that can cost over $380 per month.

Another company, Restor3d, is bringing the benefits of 3D printing to surgery. Stainless steel instruments traditionally go into more than 132,000 anterior cervical discectomy and fusion procedures performed per year in the U.S. But these instruments had high upfront and ongoing inventory costs and often presented complications in the surgical workflow. Restor3d uses the design freedom and constant improvement enabled by 3D printing to change how spine surgeons operate and improve surgical care delivery. The company’s first 3D-printed, procedure-specific polymer instruments for foot and ankle and cervical spine implants were made from a combination of metal and 3D-printed polymer parts, benefitting hospitals with reduced sterilization and inventory costs.

A 3D printed medical device

The 3D-printed Tension Square [Photo courtesy of Formlabs]

The medical device industry has also begun to see applications of 3D-printed parts outside of the human body. Mychael Overstreet — a veteran, firefighter and paramedic — used 3D printing to create Tension Square, a portable device that holds a needle decompression catheter securely in place while preventing damaging kinking, folding or dislodgement and preventable deaths in the field due to pneumothorax or collapsed lungs. With no formal engineering experience, relied on 3D printing to test and finalize his design, enabling him to try a mix of materials to achieve a long-lasting, accurate, lightweight, skin-safe and durable design that is being commercialized with SLS 3D printers.

These companies and innovators have successfully commercialized 3D-printed end-use parts, as the technology stack is now more accessible than ever. Collaboration within the industry will enable medical device firms to learn from these early examples to chart their own path to commercialization and improve patient outcomes, reduce costs and improve efficiency.

Designing medical devices with 3D printing

Formlabs 3D printers

Formlabs 3D printers [Photo courtesy of Formlabs]

Utilizing 3D printing to create commercialized healthcare devices has become an attainable goal, but it’s not yet the norm. Companies can approach 3D printing design and production to deliver precision healthcare across point-of-care facilities and create new medical devices by:

Gaurav Manchanda is medical market development director at Formlabs. [Photo courtesy of Formlabs]

Gaurav Manchanda, medical market development director at Formlabs, launched and leads the medical division for the 3D printing company, where his goal is to advance 3D printing in the healthcare industry by combining clinically-validated 3D printing technology, in-house QA/RA expertise, accessible pricing, and a wide range of materials. Manchanda leads 3D printing market development in priority segments including medical devices, point-of-care, orthotics and prosthetics, medical education, and the life sciences.

The opinions expressed in this post are the author’s only and do not necessarily reflect those of MedicalDesignandOutsourcing.com or its employees.