by Magnus Hanses, Adler Simon, Norbert Elkmann
Abstract:
In this work, we present the integration of an o -the-shelf light-weight robot into the work ow of image-guided spine interventions, which have high precision requirements due to nearby risk structures. Furthermore, the surgeon stays under considerable physical stress during these interventions and is directly exposed to radiation emitted from the imaging system. Therefore, the potential of an assistant robot to reduce the given stress factors is examined. We present work in progress methods and technologies to ensure safe human-robot interaction and describe the implemented control strategies. In addition, we evaluate the developed system through rst experiments integrating the system into an angiography lab. These experiments indicate improvements in pre- cision, ergonomics and radiation hygiene with minimal overhead compared to conventional image-guided spine interventions.
Reference:
Robotic assistance in spine interventions (Magnus Hanses, Adler Simon, Norbert Elkmann), In Proceedings of the annual meeting of the German Society for Computer and Robot Assisted Surgery (CURAC), 2016.
Bibtex Entry:
@inproceedings{hanses_robotic_2016,
	address = {Bern, Schweiz},
	title = {Robotic assistance in spine interventions},
	abstract = {In this work, we present the integration of an o -the-shelf light-weight robot into the work ow of image-guided spine interventions, which have high precision requirements due to nearby risk structures. Furthermore, the surgeon stays under considerable physical stress during these interventions and is directly exposed to radiation emitted from the imaging system. Therefore, the potential of an assistant robot to reduce the given stress factors is examined. We present work in progress methods and technologies to ensure safe human-robot interaction and describe the implemented control strategies. In addition, we evaluate the developed system through rst experiments integrating the system into an angiography lab. These experiments indicate improvements in pre- cision, ergonomics and radiation hygiene with minimal overhead compared to conventional image-guided spine interventions.},
	booktitle = {Proceedings of the annual meeting of the {German} {Society} for {Computer} and {Robot} {Assisted} {Surgery} ({CURAC})},
	author = {Hanses, Magnus and Simon, Adler and Elkmann, Norbert},
	year = {2016},
	pages = {231--236}
}