How OsseoLabs Redefines Orthopedic Surgery Through Technology

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How is OsseoLabs transforming the future of orthopedic surgery?

"For too long, orthopedic surgery has been limited by generic implants, disjointed planning workflows, and lengthy production timelines," says Assoc. Prof. Patcharapit Promoppatum, CTO and co-founder of OsseoLabs. "Our goal at OsseoLabs has always been to solve these pain points—not incrementally, but fundamentally—through precision, personalization, and integration."

At the heart of this transformation is OsseoVision™, the company’s AI-powered surgical planning platform. “With OsseoVision™, we use deep learning and transformer-based models to automatically segment anatomical structures from CT scans,” he explains. “It enables surgeons to accurately visualize and plan procedures in advance, reducing human error and cutting planning time by over 90%.”

The platform also supports real-time implant simulation, allowing clinicians to assess surgical risk and precision before entering the operating room. "It turns static pre-op imaging into a dynamic decision-making tool," Patcharapit notes.

What about the manufacturing process?

"Surgical planning is just the start—true personalization requires customized implants," he continues. "We use Laser Powder Bed Fusion (LPBF) 3D printing to fabricate titanium implants at micron-level precision, directly from the digital models generated in OsseoVision™."

OsseoLabs is also pioneering biodegradable magnesium alloys that dissolve inside the body once bone healing is complete—eliminating the need for secondary removal surgeries. “This is the future: intelligent implants that adapt to the body and then disappear,” he adds.

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And how does OsseoLabs support bone healing?

That’s where OsseoMatrix™ comes in—an advanced internal scaffold design based on Triply Periodic Minimal Surface (TPMS) structures. “TPMS allows us to engineer implants that mimic natural bone properties—not just in porosity and fluid flow, but also in mechanical behavior, such as Young’s modulus,” Patcharapit says.

By tailoring pore size and wall thickness to different bone regions, OsseoMatrix™ enhances osseointegration and minimizes complications like stress shielding and bone resorption. “It bridges engineering mathematics with human biology,” he reflects.

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What makes OsseoLabs’ platform unique?

"It’s a fully integrated, end-to-end ecosystem—from AI diagnosis to biomimetic design to on-demand printing. And it’s all accessible via the cloud," he explains. This seamless collaboration between clinicians and engineers shortens production cycles from weeks to days—without compromising quality or safety.

“We’re not just making implants,” Patcharapit emphasizes. “We’re setting a new standard for orthopedic care—where personalization, precision, and technology converge to improve recovery, reduce hospital stays, and empower surgeons.”

As medicine shifts toward personalized orthopedics, OsseoLabs stands at the forefront of a movement reshaping the surgical landscape—not only in Thailand, but globally.