In:
Medical Physics, Wiley, Vol. 34, No. 10 ( 2007-10), p. 3926-3942
Abstract:
A fully integrated system for treatment planning, application, and verification for automated multileaf collimator (MLC) based, intensity‐modulated, image‐guided, and adaptive radiation therapy (IMRT, IGRT and ART, respectively) is proposed. Patient comfort, which was the major development goal, will be achieved through a new unit design and short treatment times. Our device for photon beam therapy will consist of a new dual energy linac with five fixed treatment heads positioned evenly along one plane but one electron beam generator only. A minimum of moving parts increases technical reliability and reduces motion times to a minimum. Motion is allowed solely for the MLCs, the robotic patient table, and the small angle gantry rotation of . Besides sophisticated electron beam guidance, this compact setup can be built using existing modules. The flattening‐filter‐free treatment heads are characterized by reduced beam‐on time and contain apertures restricted in one dimension to the area of maximum primary fluence output. In the case of longer targets, this leads to a topographic intensity modulation, thanks to the combination of “step and shoot” MLC delivery and discrete patient couch motion. Owing to the limited number of beam directions, this multislice cone beam serial tomotherapy is referred to as “multibeam tomotherapy.” Every patient slice is irradiated by one treatment head at any given moment but for one subfield only. The electron beam is then guided to the next head ready for delivery, while the other heads are preparing their leaves for the next segment. The “Multifocal MLC‐positioning” algorithm was programmed to enable treatment planning and optimize treatment time. We developed an overlap strategy for the longitudinally adjacent fields of every beam direction, in doing so minimizing the field match problem and the effects of possible table step errors. Clinical case studies show for the same or better planning target volume coverage, better organ‐at‐risk sparing, and comparable mean integral dose to the normal tissue a reduction in treatment time by more than 50% to only a few minutes in comparison to high‐quality 3‐D conformal and IMRT treatments. As a result, it will be possible to incorporate features for better patient positioning and image guidance, while sustaining reasonable overall treatment times at the same time. The virtual multibeam tomotherapy design study TOM’5‐CT contains a dedicated electron beam CT (TOM'AGE) and an objective optical topometric patient positioning system (TOPOS ® ). Thanks to the wide gantry bore of and slim gantry depths of , patients can be treated very comfortably, in all cases tumor‐isocentrically, as well as with noncoplanar beam arrangements as in stereotactic radiosurgery with a couch rotation of up to . The TOM’5 treatment unit on which this theoretical concept is based has a stand‐alone depth of and an outer diameter of ; the focus‐isocenter distance of the heads is with a field size of and leaves, which operate perpendicular to the axis of table motion.
Type of Medium:
Online Resource
ISSN:
0094-2405
,
2473-4209
Language:
English
Publisher:
Wiley
Publication Date:
2007
detail.hit.zdb_id:
1466421-5
Bookmarklink