Queen’s students develop 3D-printed prosthetics

For Emese Elkind, a biomedical computing student at Queen’s University, a summer volunteer placement in Southeast Asia during her undergraduate studies turned into a years-long mission to bring accessible prosthetic technology to some of the world’s most vulnerable people.

Through a partnership with the – an NGO based in Thailand, near the Myanmar border – Elkind has spent the past three years leading a team of engineering students to design and develop 3D-printed prosthetics for migrants fleeing one of the world’s longest-running civil wars.

A partnership two decades in the making

The collaboration traces its roots back nearly 20 years, when Queen’s researchers Eva Purkey (Family Medicine) and Colleen Davison (Public Health) began travelling annually to a clinic in north-west Thailand to support health workshops and policy reform. They started working with BCMF, an organization supporting underserved communities in Thailand and Burma to access surgical treatment in Thailand. Over the years, the organization expanded to include other services, including eye screening, wheelchair distribution and fitting, and more. In 2019 it launched a 3D prosthesis project with financial support from an Australian donor and training by Thai Reach – 3D Printing to Extend & Enable.

Following the launch, Drs. Purkey and Davison connected with colleagues in the School of Computing, Gabor Fichtinger and Parvin Mousavi, who brought technical expertise to the 3D printing project and were able to secure funding from the Faculty of Arts and Science, MITACS and others. As part of the program Queen’s students have been able to do 90-day placements with BCMF. The first was Olivia Radcliffe in 2023, followed by Elkind in 2024, and then Amina Najib in 2025. This year, with a new partnership between Queen’s, BCMF, and Inter Pares from Ottawa, two students – Cole McCauley and Hailey Parker – are providing support and gaining a valuable, immersive experience as undergraduate students.

“This is an example of a really special collaboration that I believe is truly mutually beneficial both to the students and to the host organization,” Dr. Purkey says. “These types of experiences are difficult to find. They can be transformative for students, and it is so important that they be useful for hosts as well.”

3D-printed prosthetics displayed on a white folding table

��˴�Ƭ students, including members of the Queen’s Biomedical Innovation Team (QBiT), continue to work on developing and fine-tuning designs for prosthetics that can be created using a 3D printer. (Photo courtesy Burma Children Medical Fund)

Filling the Gap: The above-elbow prosthetic

BCMF already had access to open-source prosthetic designs and donated 3D printers to produce and test them with patients. But there was a critical gap – no open-source design existed for above-elbow amputees. Every time a patient with that type of amputation came through the door, the team struggled to find a solution as more joints are involved and most designs use electronics.

Determined to solve the problem, Elkind returned to Queen’s and connected with the , assembling a dedicated group of engineering students to tackle the challenge.

“We collaborate with BCMF on anything they need, including modifications to existing prosthetics and software user interfaces, but the main project is the above-elbow prosthetic, which is complex because we need to recreate both elbow movement and hand function simultaneously, by only using the patient’s body movements,” Elkind says.

Through two years of iterative design, they achieved a functioning harness system capable of independently moving both the elbow and each finger individually – without relying on electronics or robotics, which would be impossible to maintain in the resource-limited border region.

Recognition and giving back

The team’s work has earned recognition at engineering competitions across North America, including a first-place finish at Rehabilitation Engineering and Assistive Technology Society of North America (RESNA) Conference in Chicago and runner-up at Rice University in Houston. Half of the prize money has been donated directly to BCMF, helping fund surgeries, translation services, and transitional housing for patients who cannot access care locally. Queen’s has also been able to extend free access to professional design software to the BCMF team.

“Our collaboration with Queen’s University has greatly benefited our 3D team, our beneficiaries, and the Queen’s students interning with us,” BCMF founder Kanchana Thornton says. “Our 3D team’s capacity has grown throughout this collaboration, while Queen’s students have gained valuable hands-on experience applying skills gained during their placements in real time. We hope to continue this partnership for years to come, to continue to reach more people in need.”

A life-changing experience

For Elkind, the impact of the work extends far beyond engineering. Conducting patient interviews and writing donor reports for BCMF brought the human stakes of the project into sharp focus.

“BCMF’s patients often need to work every single day to support their families. Having a prosthetic that is durable, functional, and useful to them can completely change what they’re able to do independently,” she says. “This experience has been life changing, and has reshaped the way I think about engineering, where our job isn't just to make new technology, it's to solve real problems. Of course, none of this would be possible without my team and the support and mentorship I’ve received from my professors.”

Now preparing to begin a master’s degree, Elkind is transitioning to a senior advisory role for the project, but has no intention of stepping away entirely. She has worked to establish a sustainable leadership pipeline within QBiT, ensuring that students returning from placements carry the project forward, keeping the work – and its purpose – firmly alive.

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