Assessing the quality of conformal treatment planning: a new tool for quantitative comparison

Menhel, J.; Levin, D.; Alezra, D.; Symon, Zvi; Pfeffer, Raphael

doi:10.1088/0031-9155/51/20/019

Cited by 28 publications

(21 citation statements)

References 8 publications

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“…The COSI tool was found to be objective, quick and accurate tool in choosing the best plan. Similar to our results, Menhel et al found that a non-coplanar 3D plan was superior to the IMRT plan 25 . Levin et al in their retrospective study on ten patients with maxillary sinus tumors compared treatment plans of 9-field IMRT, directionally optimized IMRT, and 3D noncoplanar planning in terms of critical organ sparing and TC 27 .…”

Section: Discussionsupporting

confidence: 92%

“…In addition to that, two more indexes were calculated to account for the irradiation of all OARs regarding their tolerance. One of these indexes is the Critical Organ Scoring Index (COSI) which takes into account both the target coverage and the critical organ irradiation 25,26 . The main advantage of this index is its ability to account of the irradiation of all OARs simultaneously in one index.…”

Section: Discussionmentioning

confidence: 99%

“…Typically; the coverage index should be at least 95%. TC is expressed as: TC = VT,PI / VT 25 . COSI may also be expressed as:…”

Section: Discussionmentioning

confidence: 99%

“…The COSI was described by Menhel et al in 2006 as a new index to compare between radiotherapy plans 25 . They tested the new index on the planning of the following sites: head and neck, cavernous sinus and pancreas.…”

Section: Discussionmentioning

confidence: 99%

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Dosimetric Evaluation of Advanced Radiotherapy Techniques in Treating Patients with Prostatic Cancer

Amin

Sayed

Ezzat

2017

Kasr-Al-Aini J.of Clin. Onc. and Nuc. Med.

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Background: Different radiotherapy techniques were developed to deliver optimal dose to prostate cancer while sparing nearby organs at risk (OARs). Aim: To compare different dosimetric methods used to evaluate sparing of OARs and to select radiotherapy plan which provides the most OARs sparing during prostate cancer treatment. Methods: We used computed tomography data sets of 10 patients. For each data set, six plans were calculated; two RapidArc, two intensity-modulated radiation therapy (IMRT), and two 3-dimensional conformal radiotherapy (3DCRT) plans. Isodose distribution and dose volume histograms (DVHs) were used for plan analysis and evaluation. The dose to OAR was compared by calculating the DVH for each OAR in different plans. The dose (D) delivered to certain percentage (n) of an organ (Dn) was then determined. In addition, the Critical Organ Scoring Index (COSI) and the modified COSI (mCOSI) were calculated. Results: 3DCRT with 5 fields produced the lowest rectal dose, RapidArc with bladder avoidance sector (RapidArcBladder) produced the lowest bladder dose and IMRT with 9 beams produced the lowest dose to the femoral heads. The COSI and MCOSI values of the two IMRT plans were significantly lower than those of 3DCRT and RapidArc (<0.0001). The calculation of mCOSI produced similar results to that obtained with COSI (<0.0001). Conclusion:The results of this study showed that COSI and MCOSI are better dosimetric methods in selecting the plan with more sparing of OARs than Dn. Meanwhile among advanced radiotherapy techniques, RapidArc and 3DCRT are more sparing of OARs than IMRT.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionmentioning

confidence: 99%

“…Typically; the coverage index should be at least 95%. TC is expressed as: TC = VT,PI / VT 25 . COSI may also be expressed as:…”

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Dosimetric Evaluation of Advanced Radiotherapy Techniques in Treating Patients with Prostatic Cancer

Amin

Sayed

Ezzat

2017

Kasr-Al-Aini J.of Clin. Onc. and Nuc. Med.

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“…This index could not provide dissociable information either, and there were no considerations for the tolerance levels of individual OARs. To overcome this drawback, Menhel et al 21 proposed the critical organ scoring index to compare individual involvement of the OARs specifically at various dose levels. Wagner et al 22 proposed the conformity/gradient index (CGI), which is an average of the conformity score (CGI c ) and gradient score (CGI g ).…”

mentioning

confidence: 99%

New conformity indices based on the calculation of distances between the target volume and the volume of reference isodose

Park

et al. 2014

BJR

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Objective: To present conformity indices (CIs) based on the distance differences between the target volume (TV) and the volume of reference isodose (V RI ). Methods: The points on the three-dimensional surfaces of the TV and the V RI were generated. Then, the averaged distances between the points on the TV and the V RI were calculated (CI distance ). The performance of the presented CIs were evaluated by analysing six situations, which were a perfect match, an expansion and a reduction of the distance from the centroid to the V RI compared with the distance from the centroid to the TV by 10%, a lateral shift of the V RI by 3 cm, a rotation of the V RI by 45°and a spherical-shaped V RI having the same volume as the TV. The presented CIs were applied to the clinical prostate and head and neck (H&N) plans. Results: For the perfect match, CI distance was 0 with 0 as the standard deviation (SD). When expanding and reducing, CI distance was 10 and 210 with SDs ,1.3, respectively. With shifting and rotating of the V RI , the CI distance was almost 0 with SDs .11. The average value of the CI distance in the prostate and H&N plans was 0.13 67.44 and 6.04 623.27, respectively. Conclusion: The performance of the CI distance was equal or better than those of the conventional CIs. Advances in knowledge: The evaluation of target conformity by the distances between the surface of the TV and the V RI could be more accurate than evaluation with volume information.The goal of radiation therapy is the conformal delivery of a prescription dose to whole target volumes (TVs) homogeneously, while minimizing the dose delivered to adjacent normal tissues. [1][2][3][4] In order to achieve this goal, various state-of-the-art techniques, such as intensitymodulated radiation therapy and volumetric-modulated arc therapy (VMAT) have gained popularity.5-12 A tool to compare the quality of different plans in terms of target conformity was required, thus the conformity index (CI) was proposed by the Radiation Therapy Oncology Group (RTOG) in 1993 and described in Report 62 of the International Commission on Radiation Units and Measurements. 13,14The CI is an indicator that assesses the degree of congruence between a shape of the reference isodose volume (V RI ) and the shape of the TV. Two concepts are included in the CI, which are target coverage and degree of normal tissue sparing in the proximity of the target. Although this could be verified by a manual review of dose distributions calculated on patient CT images slice by slice, detailed comparisons among several treatment plans would be inconvenient.2 The conformity could also be verified by reviewing dose-volume histograms (DVHs) of each structure calculated by the treatment planning system. Since the pre-requisite of the evaluation with DVHs is the contouring of organs at risk (OARs), healthy tissues crossed by the beam could not be taken into account owing to the difficulties of contouring and the absence of sufficient data concerning the dose-volumetric tolerance information of these ti...

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Temporally feathered intensity‐modulated radiation therapy: A planning technique to reduce normal tissue toxicity

et al. 2018

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TFRT is a novel technique for treatment planning and optimization of therapeutic radiotherapy that considers the nonlinear aspects of normal tissue repair to optimize toxicity profiles. Model-based simulations of TFRT to carefully conceptualized clinical cases have demonstrated potential for radiation-induced toxicity reduction in a previously described dynamical model of normal tissue complication probability (NTCP).

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Assessing the quality of conformal treatment planning: a new tool for quantitative comparison

Cited by 28 publications

References 8 publications

Dosimetric Evaluation of Advanced Radiotherapy Techniques in Treating Patients with Prostatic Cancer

Dosimetric Evaluation of Advanced Radiotherapy Techniques in Treating Patients with Prostatic Cancer

New conformity indices based on the calculation of distances between the target volume and the volume of reference isodose

Temporally feathered intensity‐modulated radiation therapy: A planning technique to reduce normal tissue toxicity

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