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Transforming Healthcare with Precision 3D Printing

From surgical planning and anatomical models to patient-specific guides and rehabilitation devices, 3D printing helps improve precision, efficiency, and patient outcomes.

From Medical Imaging to Clinical Solutions

Transforming patient data into accurate physical models, surgical guides, and customized medical devices.

Medical 3D printing converts CT and MRI data into patient-specific anatomical models, surgical guides, rehabilitation devices, and other customized healthcare solutions. By bridging the gap between digital imaging and physical reality, clinicians can better understand complex anatomy, optimize surgical planning, and improve treatment outcomes.

Four Core Applications

Preoperative Planning

Convert CT and MRI data into detailed 3D reconstructions, allowing clinicians to evaluate anatomy from multiple perspectives and prepare for complex procedures.

Anatomical Models

Create life-size physical replicas of patient anatomy to visualize complex structures and support diagnosis, treatment planning, and patient communication.

Patient-Specific Surgical Guides

Customized guides transfer digital surgical plans directly into the operating room, helping surgeons achieve greater precision, consistency, and safety.

Surgical Simulation

Practice procedures before entering the operating room, helping surgeons evaluate surgical approaches, identify risks, and optimize treatment strategies.

Delivering Measurable Clinical Benefits

Medical 3D printing enables more accurate planning, safer procedures, and improved patient outcomes across a wide range of healthcare applications.

Case Study

Orthopedic Surgery: Tibial Plateau Fracture Planning

For a complex Schatzker Type VI tibial plateau fracture, CT data was converted into a patient-specific 3D printed anatomical model. Surgeons used the model to perform virtual planning, simulate the procedure, and pre-contour the fixation plate prior to surgery. The approach improved surgical preparation, reduced intraoperative adjustments, and contributed to successful fracture reduction and joint surface restoration.

Key Benefits

  • Enhanced fracture visualization

  • Pre-contoured fixation plates

  • Reduced operating room time

  • Improved implant fit

  • Better surgical outcomes

Customized Spine Rehabilitation Orthosis

Patient-specific rehabilitation braces were designed and manufactured using 3D scanning and additive manufacturing technologies. Compared with conventional standardized supports, the customized orthosis provides improved fit, comfort, and ventilation while delivering reliable spinal stabilization throughout the recovery process.

Key Benefits

  • Personalized anatomical fit

  • Lightweight and breathable design

  • Enhanced patient comfort

  • Improved rehabilitation compliance

  • Faster customization and delivery

Need a Solution Tailored to Your Industry?

From healthcare and aerospace to robotics and manufacturing, we help organizations adopt the right additive manufacturing technologies for their unique challenges and goals.

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Close-up of a 3D printer nozzle extruding colorful polymer filament in a bright workshop.
Close-up of a 3D printer nozzle extruding colorful polymer filament in a bright workshop.

Whether you're exploring 3D printing technologies, evaluating equipment, or looking for manufacturing support, we're here to help.