𝔖 Bobbio Scriptorium
✦   LIBER   ✦

Optimized port placement for in vivo biosensors

✍ Scribed by Brady W. King; Luke A. Reisner; R. Darin Ellis; Michael D. Klein; Gregory W. Auner; Abhilash K. Pandya

Publisher
Wiley (Robotic Publications)
Year
2009
Tongue
English
Weight
307 KB
Volume
5
Category
Article
ISSN
1478-5951

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✦ Synopsis

Abstract

Background

We discuss the implementation of an automated port placement system for use with laparoscopic in vivo biosensors. Biosensors have physical limitations that make port placement crucial to proper data collection. The port placement process is prohibitively complex to execute optimally by human estimation.

Methods

Port placement algorithms were integrated into an image‐guided surgery system. Variables for optimization of ports include biosensor length, data collection restrictions, obstacles, and regions of interest. The port placement is applied to 3D virtual β€˜patients’ created from medical imaging data. An example implementation for a Raman biosensor probe was created.

Results

The prototype system can correctly find ideal port locations on a virtual patient based on biosensor limitations and regions of interest. Conversely, the system can evaluate and score an individual port selected by a user.

Conclusion

As biosensors become incorporated into laparoscopic surgical environments, an automated port placement system would enable their optimized integration. Copyright Β© 2009 John Wiley & Sons, Ltd.

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