TY - JOUR
T1 - Integrating diagnostic B-mode ultrasonography into CT-based radiation treatment planning
AU - Wein, Wolfgang
AU - Röper, Barbara
AU - Navab, Nassir
N1 - Funding Information:
Manuscript received December 3, 2006; revised February 6, 2007. This research was supported by Siemens Corporate Research, Princeton, NJ, under an academic grant. Asterisk indicates corresponding author. *W. Wein is with Computer Aided Medical Procedures, TU Munich, Munich, Germany, and Siemens Corporate Research, Inc., Princeton, NJ 08540 USA (e-mail: [email protected]). B. Röper is with the Clinic and Policlinic of Radiation Oncology, Klinikum Rechts der Isar, TU Munich, Munich, Germany (e-mail: barbara.roeper@lrz. tum.de). N. Navab is with Computer Aided Medical Procedures, TU Munich, Munich, Germany (e-mail: [email protected]). Color versions of one or more of the figures in this paper are available online at http://ieeexplore.ieee.org. Digital Object Identifier 10.1109/TMI.2007.895483
PY - 2007/6
Y1 - 2007/6
N2 - This paper presents methods and a clinical procedure for integrating B-mode ultrasound images tagged with position information with a planning computed tomography (CT) scan for radiotherapy. A workflow is described that allows the integration of these modalities into the clinic. A surface mapping approach provides a preregistration of the ultrasound image borders onto the patient's skin. Successively, a set of individual ultrasound images from a freehand sweep is chosen by the physician. These images are automatically registered with the planning CT scan using novel intensity-based methods. We put a particular focus on deriving an appropriate similarity measure based on the physical properties and artifacts of ultrasound. A combination of a weighted mutual information term, edge correlation, clamping to the skin surface, and occlusion detection is able to assess the alignment of structures in ultrasound images and information reconstructed from the CT data. We demonstrate the practicality of our methods on five patients with head and neck tumors and cervical lymph node metastases and provide a detailed report on the conducted experiments, including the setup, calibration, acquisition, and verification of our algorithms. The mean target registration error on nine data sets is 3.9 mm. Thus, the additional information about intranodal architecture and fulfillment of malignancy criteria derived from a high-resolution ultrasonography of lymph nodes can be localized and visualized in the CT scan coordinate space and is made available for further radiation treatment planning.
AB - This paper presents methods and a clinical procedure for integrating B-mode ultrasound images tagged with position information with a planning computed tomography (CT) scan for radiotherapy. A workflow is described that allows the integration of these modalities into the clinic. A surface mapping approach provides a preregistration of the ultrasound image borders onto the patient's skin. Successively, a set of individual ultrasound images from a freehand sweep is chosen by the physician. These images are automatically registered with the planning CT scan using novel intensity-based methods. We put a particular focus on deriving an appropriate similarity measure based on the physical properties and artifacts of ultrasound. A combination of a weighted mutual information term, edge correlation, clamping to the skin surface, and occlusion detection is able to assess the alignment of structures in ultrasound images and information reconstructed from the CT data. We demonstrate the practicality of our methods on five patients with head and neck tumors and cervical lymph node metastases and provide a detailed report on the conducted experiments, including the setup, calibration, acquisition, and verification of our algorithms. The mean target registration error on nine data sets is 3.9 mm. Thus, the additional information about intranodal architecture and fulfillment of malignancy criteria derived from a high-resolution ultrasonography of lymph nodes can be localized and visualized in the CT scan coordinate space and is made available for further radiation treatment planning.
KW - Computed tomography (CT)
KW - Fusion
KW - Radiation therapy
KW - Registration
KW - Ultrasound
UR - http://www.scopus.com/inward/record.url?scp=34249661227&partnerID=8YFLogxK
U2 - 10.1109/TMI.2007.895483
DO - 10.1109/TMI.2007.895483
M3 - Article
C2 - 17679337
AN - SCOPUS:34249661227
SN - 0278-0062
VL - 26
SP - 866
EP - 879
JO - IEEE Transactions on Medical Imaging
JF - IEEE Transactions on Medical Imaging
IS - 6
ER -