Home /Research /Organ motion due to respiration: the state of the art and applications in interventional radiology and radiation oncology
SURGICAL

Organ motion due to respiration: the state of the art and applications in interventional radiology and radiation oncology

Kevin Cleary, Maureen M. Mulcahy, Rohan Piyasena, Tong Zhou, Sonja Dieterich, Sheng Xu, Filip Banovac, Kenneth H. Wong

Year
2005
Citations
2

Abstract

Tracking organ motion due to respiration is important for precision treatments in interventional radiology and radiation oncology, among other areas. In interventional radiology, the ability to track and compensate for organ motion could lead to more precise biopsies for applications such as lung cancer screening. In radiation oncology, image-guided treatment of tumors is becoming technically possible, and the management of organ motion then becomes a major issue. This paper will review the state-of-the-art in respiratory motion and present two related clinical applications. Respiratory motion is an important topic for future work in image-guided surgery and medical robotics. Issues include how organs move due to respiration, how much they move, how the motion can be compensated for, and what clinical applications can benefit from respiratory motion compensation. Technology that can be applied for this purpose is now becoming available, and as that technology evolves, the subject will become an increasingly interesting and clinically valuable topic of research.

Keywords

Medical physicsComputer scienceRadiation oncologyRadiation therapyMotion (physics)Medical imagingMedicineTracking (education)RadiologyArtificial intelligence

Related papers

Browse all SURGICAL papers