Since its foundation over twenty years ago in Italy’s biomedical valley near Modena, Tsunami Medical has continued to evolve and grow its business in response to the market dynamics of the ever-changing global medical implants sector. Now the company is further investing in AM with four new Mlab systems from GE Additive.
At the heart of the company’s evolution, is a robust innovation strategy that embraces and integrates new technologies such as additive manufacturing. This allows it to remain at the very forefront of the design, development and manufacture of medical devices for spinal surgery and invasive procedures.
After quickly establishing expertise in the field of biopsy and vertebroplasty, already in 2010, Stefano Caselli, Tsunami Medical’s founder and general manager and his team had started to explore how metal additive technologies could be applied to spinal cages and implants.
The purchase of its first two GE Additive Concept Laser DMLM machines in 2015 marked a significant major milestone in the company’s additive journey. Fast forward five years to today and Tsunami Medical remains focused on the spinal sector and to date has additively manufactured more than 50,000 pieces for its global customers.
To further scale production, earlier this year, the company acquired two additional GE Additive Concept Laser Mlab systems – doubling its fleet size to four machines.
Fast-paced spinal devices
Innovation in spinal cage implants has come a long way in a relatively short period in time. This is in part thanks to companies like Tsunami Medical, who work hand in hand with forward-thinking orthopedic, neurosurgeons and other medical professionals, to integrate metal additive into their work.
Compared to early PEEK-based implants, metal additive manufacturing now not only makes it possible to calibrate the mechanical properties, elastic modulus and rigidity of a device, it also allows device designers the freedom to create open structures – in a quality that is close to replicating the porous structures of trabecular bone.
Another advantage of additively manufactured structures is that they can be incorporated into the shape of the implant and produced in one production step – without the need for additional coating. This allows for the design of porous structures with customized conformations of pores, thickness and overall porosity.
“That collaboration and shared learning with medical and healthcare professionals around the world is invaluable. Their ideas and continued enthusiasm for metal additive energizes us and helps to influence and shape our innovation strategy going forward,” adds Caselli, himself a biomedical engineer.
DMLM for productivity
Innovation at Tsunami Medical comes in various shapes and forms, but they are typically small and incredibly complex. The company’s latest innovation breakthrough – the Giglio Interspinal Fusion System – focuses on developing implants that are almost ready for use, straight from a metal additive manufacturing machine.
The system is intended for lumbar diseases with an indicated segmental requirement. This covers a wide range of medical conditions, such as; degenerative disc diseases, vertebral instability, review procedures for post-discectomy syndrome, pseudoarthrosis, a lack of spinal fusion or degenerative spinal fusion and adult deformities.
Giglio consists of an interspinal spacer device and the necessary tools for its positioning and fixing within a minimally invasive operation. Five mobile, articulated pieces allow for the extraction of the fins for anchorage to the vertebrae.
The surgical operation is performed by making an incision for the passage of the device. This is correctly positioned using a guidewire that is stretched from the insertion point. Once the device has been positioned, it is tightened by a special tool, which is then removed, together with the guidewire.
Here, Tsunami has been able to take advantage of GE Additive’s DMLM technology in a number of innovative ways. DMLM offers the ability to create precise geometries, including gears and mechanical moving parts – on a very small scale – with no assembly needed.
“DMLM helps us achieve the accuracy, complexity and functional integration we are striving for. It also delivers a great surface quality than reduces or sometimes eliminates the need for typical post-processing, which in turn drives productivity gains,” says Caselli.
“The implant comes out of the machine with an optimized 20-unit printing cycle, without the need for support structures. It is already fully assembled and except for final polishing requires no post-processing. No other machine today would have been able to give us this kind of performance,” he adds.
As demand grows from its international customer base. Caselli plans to scale the business further.
With two decades of sector experience to build on, deep connections to the medical community and the company’s next generation of spinal implants currently going through the regulatory process, 2021 is gearing up to be another definitive year for Tsunami Medical.