AI Article Synopsis
- Developed a nonmagnetic outer sheath that can switch between rigid and flexible modes for surgical use.
- The device has a controlled bending distal end driven by nylon wires and is made from MRI-compatible plastics.
- In tests on swine, it effectively inserted a flexible endoscope and biopsy forceps into hard-to-reach areas of the body, proving its utility for surgical procedures.
Article Abstract
We developed a nonmagnetic rigid and flexible outer sheath with pneumatic interlocking mechanism using flexible toothed links and a wire-driven bending distal end. The outer sheath can be switched between rigid and flexible modes easily depending on surgical scenes, and the angle of its distal end can be controlled by three nylon wires. All components of flexible parts are made of MRI-compatible nonmagnetic plastics. We manufactured the device with 300-mm long, 16-mm outer diameter, 7-mm inner diameter and 90-mm bending distal end. Holding power of the device in rigid mode was maximum 3.6 N, which was sufficient for surgical tasks in body cavity. In vivo experiment using a swine, our device performed smooth insertion of a flexible endoscope and a biopsy forceps into reverse side of the liver, intestines and spleen with a curved path. In conclusion, our device shows availability of secure approach of surgical instruments into deep cavity.
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| http://dx.doi.org/10.1007/978-3-642-04268-3_52 | DOI Listing |
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