Tissue thickness estimation for high precision head-tracking using a galvanometric laser scanner - A case study

Marker-less optical head-tracking constitutes a comfortable alternative with no exposure to radiation for realtime monitoring in radiation therapy. Supporting information such as tissue thickness has the potential to improve spatial tracking accuracy. Here we study how accurate tissue thickness can...

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Published in	2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society Vol. 2014; pp. 3106 - 3109
Main Authors	Wissel, Tobias, Stuber, Patrick, Wagner, Benjamin, Durichen, Robert, Bruder, Ralf, Schweikard, Achim, Ernst, Floris
Format	Conference Proceeding Journal Article
Language	English
Published	United States IEEE 01.01.2014
Subjects	Accuracy Adaptive optics Cameras Forehead Head - diagnostic imaging Humans Iterative closest point algorithm Kernel Lasers Magnetic Resonance Imaging Normal Distribution Phantoms, Imaging Radiography Spectroscopy, Near-Infrared
Online Access	Get full text
ISSN	1094-687X 1557-170X
DOI	10.1109/EMBC.2014.6944280

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Abstract	Marker-less optical head-tracking constitutes a comfortable alternative with no exposure to radiation for realtime monitoring in radiation therapy. Supporting information such as tissue thickness has the potential to improve spatial tracking accuracy. Here we study how accurate tissue thickness can be estimated from the near-infrared (NIR) backscatter obtained from laser scans. In a case study, optical data was recorded with a galvanometric laser scanner from three subjects. A tissue ground truth from MRI was robustly matched via customized bite blocks. We show that Gaussian Processes accurately model the relationship between NIR features and tissue thickness. They were able to predict the tissue thickness with less than 0.5 mm root mean square error. Individual scaling factors for all features and an additional incident angle feature had positive effects on this performance.
AbstractList	Marker-less optical head-tracking constitutes a comfortable alternative with no exposure to radiation for realtime monitoring in radiation therapy. Supporting information such as tissue thickness has the potential to improve spatial tracking accuracy. Here we study how accurate tissue thickness can be estimated from the near-infrared (NIR) backscatter obtained from laser scans. In a case study, optical data was recorded with a galvanometric laser scanner from three subjects. A tissue ground truth from MRI was robustly matched via customized bite blocks. We show that Gaussian Processes accurately model the relationship between NIR features and tissue thickness. They were able to predict the tissue thickness with less than 0.5 mm root mean square error. Individual scaling factors for all features and an additional incident angle feature had positive effects on this performance.
Author	Schweikard, Achim Bruder, Ralf Wagner, Benjamin Wissel, Tobias Durichen, Robert Ernst, Floris Stuber, Patrick
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25570648$$D View this record in MEDLINE/PubMed
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SubjectTerms	Accuracy Adaptive optics Cameras Forehead Head - diagnostic imaging Humans Iterative closest point algorithm Kernel Lasers Magnetic Resonance Imaging Normal Distribution Phantoms, Imaging Radiography Spectroscopy, Near-Infrared
Title	Tissue thickness estimation for high precision head-tracking using a galvanometric laser scanner - A case study
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