Robotics Institute: Flexible Needle Steering System for Percutaneous Access to Deep Zones of the Brain


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Flexible Needle Steering System for Percutaneous Access to Deep Zones of the Brain
J.A. Engh, MD, G. Podnar, S. Khoo, and C. Riviere
Proceedings of the IEEE 32nd Annual Northeast Bioengineering Conference, April, 2006, pp. 103 - 104.

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Abstract

The authors describe a minimally invasive flexible needle-steering system to access deep areas of the brain. The design exploits the inherent bending of a beveled-tip needle when passing through tissue. Precise control of the rotation of the needle allows for an unlimited variety of trajectories. Potential advantages to this system include the possibility of catheter-based therapy delivery within the brain with minimal trauma to surrounding structures, and the ability to navigate around critical cerebral structures to reach deep zones within the brainstem, thalamus or other subcortical regions.

Notes

Associated center: MRTC
Associated lab/group: Medical Instrumentation Lab
Associated project: Needle Steering for Brain Surgery

Number of pages: 2

Text Reference

J.A. Engh, MD, G. Podnar, S. Khoo, and C. Riviere, "Flexible Needle Steering System for Percutaneous Access to Deep Zones of the Brain," Proceedings of the IEEE 32nd Annual Northeast Bioengineering Conference, April, 2006, pp. 103 - 104.

BibTeX Reference

@inproceedings{Engh_2006_5497,
   author = "Engh, MD, Johnathan A and Gregg Podnar and Si Yi Khoo and Cameron Riviere",
   title = "Flexible Needle Steering System for Percutaneous Access to Deep Zones of the Brain",
   booktitle = "Proceedings of the IEEE 32nd Annual Northeast Bioengineering Conference",
   month = "April",
   year = "2006",
   pages = "103 - 104"
}

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