Multidirectional X-Ray Positioning with Minimal Physical Effort

Tangent collaborated with researchers at the University of British Columbia to develop a power assist device for the moving and positioning of mobile fluoroscopic x-ray c-arm systems. The device was required to provide x-ray technicians with a full linear multidirectional positioning system that required minimal physical effort. Fluoroscopic x-ray c-arm systems offer several advantages in diagnostic imaging to assist minimally invasive surgical procedures, but the systems weigh several hundred pounds. The weight of the system makes fine adjustment, transportation and storage difficult to manage.

Tangent's design team designed, prototyped and tested two holonomic drive systems that enabled full zero backlash bidirectional movement. The system used a novel optical handle design invented by Tangent to provide feedback on desired position and speed. Initial prototyping was accomplished through testing of a small scale proof of concept prototype. The initial POC prototype was validated and scaled up to a full scale pre-commercial prototype (with a c-arm).

The positioning system is currently ready for pre-commercial trials, and has generated interest in the automation of modern surgical suites. The development of this product was guided by Tangent's ISO 13485 registered quality management system.

Client:

University of British Columbia Researchers

Project Location

Calgary, Alberta, Canada

Services Provided

Concept Design, Proof of Concept Prototyping, Mechanical Engineering, Electrical Engineering, Design Validation

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