RTM Ortopedia Personalizzata prosthetic molds achieve new fit with 3D printing.
January 26, 2022
FDM 3D printing technology has cut RTM Ortopedia Personalizzata's tooling time by 93%.
A worldwide leader in prosthetics breaks mold.
Customized prostheses by their very nature demand high precision, functionality and durability
to withstand everyday use. RTM Ortopedia Personalizzata (RTM), a worldwide leader in
customized prostheses, based on Budrio, Italy, used chalk molds to cast lower limb and hand
prostheses. With the ethos that every patient has different medical and physical requirements,
the company ensures that each individual prosthesis meets the user’s need for comfort,
durability and aesthetics.
However, the fragility of these chalk molds led to frequent breakages during transit.
“The process
was unreliable as we could never guarantee that we would receive the mold undamaged,” said Elio
Antenucci, CAD Systems Manager at RTM. Additionally, importing heavy molds from as far away
as China resulted in expensive shipping costs and lengthy delivery times of around 30 days before
reaching the Italian manufacturing house.
By introducing Stratasys 3D printing in-house we can receive a customer scan from anywhere in the world in a matter of minutes and can rapid prototype the mold within a few hours. Since installing the technology, we have cut our prosthetic tool turnaround time by as much as 93%.
Elio Antenucci, RTM Ortopedia Personalizzata
Subtractive manufacturing a negative for prosthetics.
RTM moved to using 7- axis robots to make leg prostheses from delicate
foam, but that required several hours of bathing in resin to harden. This is
a laborious process, and in the case of hand prosthetics, the robot needs
to carve sections in between the fingers that the drill cannot reach without
cutting them off,” said Antenucci. This made the process fall short of the
company’s rigorous standards.
After years of enduring expensive mold costs, the company turned to 3D
printing for a more advanced, cost-effective and efficient rapid prototyping
solution that would also improve the accuracy of the prosthesis molds.
Using its Stratasys FDM 3D printer, the company produces
a number of prosthesis that surpass those produced on its
industrial robots.Previous prosthesis molds produced in chalk
resulted in expensive shipping costs and
were prone to damage during transit.
Cut tooling turnaround time.
RTM turned to Stratasys’ 3D printing technology to produce prototypes with
greater and more affordable personalization. This improves patient outcomes,
usability and affordability. Additionally, 3D printing is a clean process, enabling
manufacturers to go from scan to design to print in a digital-only environment.
“3D printing skips this time-consuming resin-soaking process and eliminates
the restrictions of the foam. For us, Stratasys’ technology gives us greater
manufacturing freedom than chalk molding and far surpasses those of other
artisan prosthetics,” said Antenucci.
3D printing allows RTM to produce individual prosthesis molds by mirroring
scans of the unaffected limb. These are then covered in silicon to produce
the final prosthesis, with the 3D printed core model later removed.
3D printed
in FDM thermoplastics, these prosthesis molds are mechanically strong and
perform much like the final product.
The growing demand for personalized prosthetics requires the ability to
customize quickly and with reliable results. By using additive manufacturing,
RTM can produce durable prosthetics with unparalleled precision in a wide
range of advanced 3D printing materials to save both time and costs.
“By introducing Stratasys 3D printing in-house we can receive a customer
scan from anywhere in the world in a matter of minutes and can rapid
prototype the mold within a few hours. Since installing the technology,
we have cut our prosthetic tool turnaround time by as much as 93%,”
said Antenucci.