1 May 2011 Feasibility of intrafraction whole-body motion tracking for total marrow irradiation
Author Affiliations +
J. of Biomedical Optics, 16(5), 058002 (2011). doi:10.1117/1.3575645
With image-guided tomotherapy, highly targeted total marrow irradiation (TMI) has become a feasible alternative to conventional total body irradiation. The uncertainties in patient localization and intrafraction motion of the whole body during hour-long TMI treatment may pose a risk to the safety and accuracy of targeted radiation treatment. The feasibility of near-infrared markers and optical tracking system (OTS) is accessed along with a megavoltage scanning system of tomotherapy. Three near-infrared markers placed on the face of a rando phantom are used to evaluate the capability of OTS in measuring changes in the markers' positions as the rando is moved in the translational direction. The OTS is also employed to determine breathing motion related changes in the position of 16 markers placed on the chest surface of human volunteers. The maximum uncertainty in locating marker position with the OTS is 1.5 mm. In the case of normal and deep breathing motion, the maximum marker position change is observed in anterior-posterior direction with the respective values of 4 and 12 mm. The OTS is able to measure surface changes due to breathing motion. The OTS may be optimized to monitor whole body motion during TMI to increase the accuracy of treatment delivery and reduce the radiation dose to the lungs.
Manju Sharma, Troy Dos Santos, Susanta K. Hui, Nikolaos P. Papanikolopoulos, "Feasibility of intrafraction whole-body motion tracking for total marrow irradiation," Journal of Biomedical Optics 16(5), 058002 (1 May 2011). https://doi.org/10.1117/1.3575645

Optical tracking

Near infrared


Imaging systems

Motion measurement

Image registration


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