PO-1590: Spirometer guided breathhold breast VMAT on Halcyon verified with portal images and surface tracking

Abstract Aim: In radiation therapy, accurate dose distribution in target volume requires accurate treatment setup. The set-up errors are unwanted and inherent in the treatment process. By achieving these errors, a set-up margin (SM) of clinical target volume (CTV) to planning target volume (PTV) can be determined. In the current study, systematic and random set-up errors that occurred during prostate cancer radiotherapy were measured by an electronic portal imaging device (EPID). The obtained values were used to propose the optimum CTV-to-PTV margin in prostate cancer radiotherapy. Materials and methods: A total of 21 patients with prostate cancer treated with external beam radiation therapy (EBRT) participated in this study. A total of 280 portal images were acquired during 12 months. Gross, population systematic (Σ) and random (σ) errors were obtained based on the portal images in Anterior–Posterior (AP), Medio-Lateral (ML) and Superior–Inferior (SI) directions. The SM of CTV to PTV were then calculated and compared by using the formulas presented by the International Commission on Radiation Units and Measurements (ICRU) 62, Stroom and Heijmen and Van Herk et al. Results: The findings showed that the population systematic errors during prostate cancer radiotherapy in AP, ML and SI directions were 1·40, 1·95 and 1·94 mm, respectively. The population random errors in AP, ML and SI directions were 2·09, 1·85 and 2·29 mm, respectively. The SM of CTV to PTV calculated in accordance with the formula of ICRU 62 in AP, ML and SI directions were 2·51, 2·68 and 3·00 mm, respectively. And according to Stroom and Heijmen, formula were 4·23, 5·19 and 5·48 mm, respectively. And Van Herk et al. formula were 4·96, 6·17 and 6·45 mm, respectively. Findings: The SM of CTV to PTV in all directions, based on the formulas of ICRU 62, Stroom and Heijmen and van Herk et al., were equal to 2·73, 4·98 and 5·86 mm, respectively; these values were obtained by averaging the margins in all directions.

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Output Regulation in Bimodal Systems With Application to Surface Tracking in the Presence of Contact Vibrations

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.4007550 ◽

2012 ◽

Vol 135 (2) ◽

Cited By ~ 1

Author(s):

Zhizheng Wu ◽

Foued Ben Amara

Keyword(s):

Output Regulation ◽

Synthesis Algorithm ◽

Stabilizing Controllers ◽

Surface Tracking ◽

Input Signals ◽

Random Components ◽

Random Disturbances ◽

Proposed Regulation ◽

Regulation Approach ◽

Contact Vibrations

Motivated by a class of surface tracking problems in mechanical systems subject to contact vibrations, this paper considers a regulation problem for discrete-time switched bimodal linear systems where it is desired to achieve output regulation against exogenous input signals featuring known deterministic and unknown random components. A first step in the regulator design involves constructing a set of observer-based parameterized stabilizing controllers that satisfy a sufficient regulation condition for the switched system against the known deterministic disturbance or reference signals. In the second step, an additional performance constraint is added to identify, from among the already constructed regulators, those that provide the best regulation performance against the unknown random disturbances. A corresponding regulator synthesis algorithm is developed based on iteratively solving properly formulated bilinear matrix inequalities. The proposed regulator is successfully evaluated on an experimental setup involving a switched bimodal mechanical system subject to contact vibrations, hence demonstrating the effectiveness of the proposed regulation approach.

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Maximizing setup accuracy using portal images as applied to a conformal boost technique for prostatic cancer

Radiotherapy and Oncology ◽

10.1016/0167-8140(92)90233-k ◽

1992 ◽

Vol 24 (4) ◽

pp. 261-271 ◽

Cited By ~ 151

Author(s):

Jurrien Bijhold ◽

Joos V. Lebesque ◽

Augustinus A.M. Hart ◽

Ron E. Vijlbrief

Keyword(s):

Prostatic Cancer ◽

Setup Accuracy ◽

Portal Images

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The role of Digitally Reconstructed Radiographs in the verification process

Journal of Radiotherapy in Practice ◽

10.1017/s1460396999000187 ◽

1999 ◽

Vol 1 (3) ◽

pp. 103-108 ◽

Cited By ~ 4

Author(s):

N. S. Stanley

Keyword(s):

Digital Imaging ◽

Digitally Reconstructed Radiographs ◽

Verification Methods ◽

Digital Imaging Technology ◽

Potential Impact ◽

Portal Images ◽

Verification Process ◽

Effective Representation ◽

Radiotherapy Treatment

This article reviews the development and potential impact of Digitally Reconstructed Radiographs (DRR's) in the planning and verification of radiotherapy treatments. It explores the requirements for the creation of usable DRR's their integration into current verification methods and it highlights some of the factors that may influence the routine use of DRR's. Continuing developments in radiotherapy techniques demand increasingly accurate verification methods. DRR's provide an efficient and effective representation of planned treatments for comparison with both simulator and portal images, encompassing the digital imaging technology which is the future of radiotherapy treatment verification.

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