|Year : 2017 | Volume
| Issue : 1 | Page : 14-17
Comparison of rapid arc and intensity-modulated radiotherapy plans using unified dosimetry index and the impact of conformity index on unified dosimetry index evaluation
Jayapalan Krishnan1, Jayarama Shetty2, Suresh Rao1, Sanath Hegde1, C Shambhavi1
1 Department of Radiation Oncology, Mangalore Institute of Oncology, Mangalore, Karnataka, India
2 Department of Radiation Oncology, K. S. Hegde Medical Academy, Mangalore, Karnataka, India
|Date of Submission||20-Oct-2016|
|Date of Decision||29-Dec-2016|
|Date of Acceptance||03-Jan-2017|
|Date of Web Publication||17-Mar-2017|
Department of Radiation Oncology, Mangalore Institute of Oncology, Mangalore, Karnataka
Source of Support: None, Conflict of Interest: None
| Abstract|| |
The aim of this study was to evaluate the impact of conformity index in the unified dosimetry index (UDI) score for two different planning techniques namely intensity-modulated radiotherapy (IMRT) and Rapid Arc. Rapid Arc and IMRT plans of 57 patients were evaluated and compared using UDI score which incorporates four indices. To determine the impact of conformity index on the IMRT and Rapid Arc plans, UDI at conformity index one of all plan (UDIunit_CI) score was calculated by assuming conformity index is equal to one. Mean and standard deviations of all indices were calculated. Rapid Arc technique plans of different treatment sites of all patients scored lesser UDI than IMRT plans, and the conformity index of Rapid Arc plan was significantly better than IMRT plan. The average dose gradient, homogeneity, coverage, and conformity index of all sites with Rapid Arc plans were 0.212 ± 0.05, 1.123 ± 0.03, 0.959 ± 0.03, and 1.056 ± 0.09; with IMRT plans were 0.190 ± 0.05, 1.113 ± 0.04, 0.950 ± 0.04, and 1.172 ± 0.16, respectively. UDI score value with actual conformity index of Rapid Arc and IMRT plans differed significantly (P < 0.001). However, UDIunit_CIscore values with assumed conformity index equal to one did not differ significantly (P = 0.528). In the comparison of IMRT and Rapid Arc plans using the UDI score, the impact of conformity index was significant.
Keywords: Conformity index, intensity-modulated radiotherapy, Rapid Arc, unified dosimetry index
|How to cite this article:|
Krishnan J, Shetty J, Rao S, Hegde S, Shambhavi C. Comparison of rapid arc and intensity-modulated radiotherapy plans using unified dosimetry index and the impact of conformity index on unified dosimetry index evaluation. J Med Phys 2017;42:14-7
|How to cite this URL:|
Krishnan J, Shetty J, Rao S, Hegde S, Shambhavi C. Comparison of rapid arc and intensity-modulated radiotherapy plans using unified dosimetry index and the impact of conformity index on unified dosimetry index evaluation. J Med Phys [serial online] 2017 [cited 2020 May 26];42:14-7. Available from: http://www.jmp.org.in/text.asp?2017/42/1/14/202420
| Introduction|| |
The basic principle of radiotherapy is to deliver higher and uniform dose to tumour and to reduce dose to organ at risks (OARs) as low as possible which reduces the morbidity and in turn improves the quality of life of patients. Although the conventional techniques provide better tumor coverage, there is some limitation in achieving OARs tolerance dose.
To overcome this difficulty, modern delivery techniques such as intensity-modulated radiotherapy (IMRT) and Rapid Arc have been used widely. These techniques can deliver a higher dose to tumor and limit the dose to OARs. The degree of confirmed dose delivery using these techniques improves the plan quality. Usually, plan quality has been evaluated using various dosimetry indices. Most of the articles contain conformity index, coverage index, homogeneity index, and dose gradient (DG) index for plan evaluation. The conformity can be determined in many ways using a different definition. An ideal plan is defined as one with full uniform dose coverage; exact conformed to the target and step-wise fall-off dose outside the target.,,, Akpati et al. introduced one more approach called unified dosimetry index (UDI) that computes an overall score which integrates contribution from all four dosimetry components mentioned above. The UDI score of each plan can be ranked and selected the least scored plan as a better plan. There are fewer articles published that employed UDI score. This study utilized UDI score for the comparison of IMRT and Rapid Arc plans of various sites and also studied the impact of conformity index on UDI-based plan evaluation.
| Materials and Methods|| |
Dose coverage is defined as 100% of the planning target volume (PTV) receiving the prescribed dose. It gives a measure of how well the PTV is covered by the prescribed dose. Dose conformity, on the other hand, is defined as the ratio of the total volume of all tissues receiving prescribed dose versus the PTV. Dose conformity gives a measure of how well the prescribed dose is confined to the PTV. DG is defined as the ratio of the volume receiving the prescribed dose and the volume receiving half the prescribed dose. Homogeneity index (HI) is defined as the ratio of the maximum dose at any point 2 mm beyond the PTV (DMax) to the prescribed dose.
The mathematical logic-based UDI formula is:
Where DIk is dosimetry index of each index of the four indices and Wk denotes weighting factors that reflect the relative importance of the four components.
For ideal plan, unified index (UDI) is equal to 1:
Where C-coverage index (DI1), CF-conformity index (DI2), HI (DI3) and DG-gradient index (DI4). Akpati et al. used the following equations to calculate all indices and explained full detail about UDI and method of calculation.
Where PTV is the PTV; PTVPI = PTV receiving the prescribed isodose (PI); DVPI = Dose volume of the PI; DVHPI = dose volume of the half the prescribed dose; DMax = Maximum dose at any point 2 mm beyond the PTV; DPI = Dose value of the PI.
Using this approach, we compared two different techniques IMRT and Rapid Arc. CT data of 57 patients (13 Ca. Prostate, 12 Ca. Endometrium, 6 Ca. Cervix, and 26 Ca. Oesophagus) were utilized in this study. IMRT and Rapid Arc plans were generated by inverse planning method using Eclipse treatment planning system (V-10.0.39, Varian Medical Systems, USA). All plans use 6MV photon energy and optimized by assigning the target and OAR goals.
The plans were evaluated using all four indices separately. The UDI scoring values of all plans were ranked and lesser value scored plan considered as a better plan for the patient. For determining the impact of conformity index in the comparison of IMRT and Rapid Arc plan, a UDI score of the plans was calculated by assuming confidence interval = 1 UDI at conformity index one of all plan (UDIunit_CI), and it was compared against the UDI score calculated with actual conformity index. Mean and standard deviations of all indices were calculated, and statistical analysis was performed using SPSS (version 16.0.0, SPSS, Chicago, USA).
| Results|| |
[Table 1] shows an overview of the mean and standard deviations of DG index, HI, coverage index, conformity index, UDI score and UDIunit_CI score for IMRT and Rapid Arc techniques planned for each site of the patients. [Table 2] shows the mean and standard deviations of the different indices for all 57 patients compared.
|Table 1: Mean and standard deviations of dose gradient index, homogeneity index, coverage index conformity index, unified dosimetry index score and unified dosimetry index at conformity index one of all plans score of each treatment site|
Click here to view
|Table 2: Mean and standard deviations of dose gradient index, homogeneity index, coverage index conformity index, unified dosimetry index score, and unified dosimetry index at conformity index one of all plans score of all patients|
Click here to view
It is observed that the conformity index and UDI of Rapid Arc plan were significantly better than IMRT plan. The average DG index, HI, coverage index and conformity index of all sites with Rapid Arc plans were 0.212 ± 0.05, 1.123 ± 0.03, 0.960 ± 0.03, and 1.056 ± 0.09; with IMRT plans were 0.190 ± 0.05, 1.113 ± 0.04, 0.950 ± 0.04, and 1.172 ± 0.16, respectively.
[Figure 1],[Figure 2],[Figure 3] show the radar graph of UDI scores from Rapid Arc and IMRT plans of various treatment sites. In the figures, the lowest score denotes the minimum deviation from an ideal dosimetry plan (toward to one), and highest score denotes the maximum deviation from an ideal dosimetry plan (outward from one). The radar graph shows that Rapid Arc plans are better than IMRT plans for all treatment sites.
|Figure 1: The unified dosimetry index score of each patient's Rapid Arc and intensity-modulated radiotherapy plans of Ca.Prostate.|
Click here to view
|Figure 2: The unified dosimetry index score of each patient's Rapid Arc and intensity-modulated radiotherapy plans of Ca.Cervix and endometrium.|
Click here to view
|Figure 3: The unified dosimetry index score of each patient's Rapid Arc and intensity-modulated radiotherapy plans of Ca.lower third oesophagus.|
Click here to view
| Discussion|| |
The method of UDI score-based plan evaluation and comparison of different techniques plans can be useful for establishing a benchmark. Although many numbers of indices have been proposed for plan evaluation, it is difficult to understand as to which system is better or useful. The radiation therapy oncology group has suggested that a quality treatment plan has to evaluate using three separate indices of dose coverage, conformity, and homogeneity. The UDI used here incorporates all four dosimetry indices into a single overall score. In this study, the plans of similar techniques were analyzed and compared to find a better plan for patient treatment using this UDI score.
Conformity index may vary according to the isodose selected. The conformity index can be reduced while selecting lower isodose level as the reference, and therefore increasing the volume of reference isodose. Therefore, in the evaluation of different techniques, this index would help to take clinical decision.
It is observed that the conformity index was significantly higher with Rapid Arc plan than IMRT (P< 0.001). While considered the conformity index as unit, the UDIunit_CI of both plans did not differ significantly (P = 0.527). However, the UDI score values of both planning techniques were calculated with actual conformity index was better with Rapid Arc than IMRT significantly (P< 0.001). Subsequent effect of better conformity index, better DG index could be achieved with Rapid Arc plans. Therefore, critical structure dose (especially prescribed dose region) was controlled with Rapid Arc plan significantly than IMRT plan (P < 0.011). The dose-volume histogram values of different critical structures in the treatment of different sites were controlled significantly with Rapid Arc plans than IMRT.
From [Figure 1],[Figure 2],[Figure 3], it is noted that the UDI score spikes for few plans. This result was observed in the bulky patients and whose tumor size is relatively large. The conformity index was relatively lesser due to the higher dose spillage outside the target.
For all plans studied, the coverage index, HI did not differ significantly between both IMRT and Rapid Arc. The same results were observed in various studies.,,,, Therefore, it can be concluded that the higher degree of confined dose delivery of Rapid Arc technique provides better treatment plans when compared with IMRT.
| Conclusion|| |
For all compared treatment sites in this study, Rapid Arc plans scored better UDI value as well as better OARs sparing. In the comparison of IMRT and Rapid Arc plans using the UDI score, the impact of conformity index was significant.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Shaw E, Kline R, Gillin M, Souhami L, Hirschfeld A, Dinapoli R, et al.
Radiation therapy oncology group: Radiosurgery quality assurance guidelines. Int J Radiat Oncol Biol Phys 1993;27:1231-9.
Wagner TH, Bova FJ, Friedman WA, Buatti JM, Bouchet LG, Meeks SL. A simple and reliable index for scoring rival stereotactic radiosurgery plans. Int J Radiat Oncol Biol Phys 2003;57:1141-9.
van't Riet A, Mak AC, Moerland MA, Elders LH, van der Zee W. A conformation number to quantify the degree of conformality in brachytherapy and external beam irradiation: Application to the prostate. Int J Radiat Oncol Biol Phys 1997;37:731-6.
Paddick I. A simple scoring ratio to index the conformity of radiosurgical treatment plans. Technical note. J Neurosurg 2000;93 Suppl 3:219-22.
Baltas D, Kolotas C, Geramani K, Mould RF, Ioannidis G, Kekchidi M, et al.
A conformal index (COIN) to evaluate implant quality and dose specification in brachytherapy. Int J Radiat Oncol Biol Phys 1998;40:515-24.
Akpati H, Kim C, Kim B, Park T, Meek A. Unified dosimetry index (UDI): A figure of merit for ranking treatment plans. J Appl Clin Med Phys 2008;9:2803.
Feuvret L, Noël G, Mazeron JJ, Bey P. Conformity index: A review. Int J Radiat Oncol Biol Phys 2006;64:333-42.
Krishnan J, Rao S, Hegde S, Shetty J, Shambhavi C. A dosimetric comparison of double arc volumetric modulated arc therapy with large field intensity modulated radiation therapy for head and neck cancer. Int J Med Phys Clin Eng Radiat Oncol 2015;4:353-63.
Cozzi L, Dinshaw KA, Shrivastava SK, Mahantshetty U, Engineer R, Deshpande DD, et al.
A treatment planning study comparing volumetric arc modulation with RapidArc and fixed field IMRT for cervix uteri radiotherapy. Radiother Oncol 2008;89:180-91.
Palma D, Vollans E, James K, Nakano S, Moiseenko V, Shaffer R, et al.
Volumetric modulated arc therapy for delivery of prostate radiotherapy: Comparison with intensity-modulated radiotherapy and three-dimensional conformal radiotherapy. Int J Radiat Oncol Biol Phys 2008;72:996-1001.
Clivio A, Fogliata A, Franzetti-Pellanda A, Nicolini G, Vanetti E, Wyttenbach R, et al.
Volumetric-modulated arc radiotherapy for carcinomas of the anal canal: A treatment planning comparison with fixed field IMRT. Radiother Oncol 2009;92:118-24.
Wagner D, Christiansen H, Wolff H, Vorwerk H. Radiotherapy of malignant gliomas: Comparison of volumetric single arc technique (RapidArc), dynamic intensity-modulated technique and 3D conformal technique. Radiother Oncol 2009;93:593-6.
[Figure 1], [Figure 2], [Figure 3]
[Table 1], [Table 2]