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Direction modulated brachytherapy (DMBT) for treatment of cervical cancer: A planning study with 192 Ir, 60 Co, and 169 Yb HDR sources
Author(s) -
Safigholi Habib,
Han Dae Yup,
Mashouf Shahram,
Soliman Abraam,
Meigooni Ali S.,
Owrangi Amir,
Song William Y.
Publication year - 2017
Publication title -
medical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.473
H-Index - 180
eISSN - 2473-4209
pISSN - 0094-2405
DOI - 10.1002/mp.12598
Subject(s) - brachytherapy , nuclear medicine , radiation treatment planning , dosimetry , imaging phantom , cervical cancer , medicine , radiation therapy , cancer , radiology
Purpose To evaluate plan quality of a novel MRI‐compatible direction modulated brachytherapy (DMBT) tandem applicator using 192 Ir, 60 Co, and 169 Yb HDR brachytherapy sources, for various cervical cancer high‐risk clinical target volumes (CTV HR ). Materials and Methods The novel DMBT tandem applicator has six peripheral grooves of 1.3‐mm diameter along a 5.4‐mm thick nonmagnetic tungsten alloy rod. Monte Carlo (MC) simulations were used to benchmark the dosimetric parameters of the 192 Ir, 60 Co, and 169 Yb HDR sources in a water phantom against the literature data. 45 clinical cases that were treated using conventional tandem‐and‐ring applicators with 192 Ir source ( 192 Ir‐T&R) were selected consecutively from int E rnational M RI‐guided BRA chytherapy in CE rvical cancer (EMBRACE) trial. Then, for each clinical case, 3D dose distribution of each source inside the DMBT and conventional applicators were calculated and imported onto an in‐house developed inverse planning optimization code to generate optimal plans. All plans generated by the DMBT tandem‐and‐ring (DMBT T&R) from all three sources were compared to the respective 192 Ir‐T&R plans. For consistency, all plans were normalized to the same CTV HR D90 achieved in clinical plans. The D 2 cm3 for organs at risk (OAR) such as bladder, rectum, and sigmoid, and D90, D98, D10, V100, and V200 for CTV HR were calculated. Results In general, plan quality significantly improved when a conventional tandem (Con.T) is replaced with the DMBT tandem. The target coverage metrics were similar across 192 Ir‐T&R and DMBT T&R plans with all three sources ( P  > 0.093). 60 Co‐DMBT T&R generated greater hot spots and less dose homogeneity in the target volumes compared with the 192 Ir‐ and 169 Yb‐DMBT T&R plans. Mean OAR doses in the DMBT T&R plans were significantly smaller ( P  < 0.0084) than the 192 Ir‐T&R plans. Mean bladder D 2 cm3 was reduced by 4.07%, 4.15%, and 5.13%, for the 192 Ir‐, 60 Co‐, and 169 Yb‐DMBT T&R plans respectively. Mean rectum (sigmoid) D 2 cm3 was reduced by 3.17% (3.63%), 2.57% (3.96%), and 4.65% (4.34%) for the 192 Ir‐, 60 Co‐, and 169 Yb‐DMBT T&R plans respectively. The DMBT T&R plans with the 169 Yb source generally resulted in the greatest OAR sparing when the CTV HR were larger and irregular in shape, while for smaller and regularly shaped CTV HR (<30 cm 3 ), OAR sparing between the sources were comparable. Conclusions The DMBT tandem provides a promising alternative to the Con.T design with significant improvement in the plan quality for various target volumes. The DMBT T&R plans generated with the three sources of varying energies generated superior plans compared to the conventional T&R applicators. Plans generated with the 169 Yb‐DMBT T&R produced best results for larger and irregularly shaped CTV HR in terms of OAR sparing. Thus, this study suggests that the combination of the DMBT tandem applicator with varying energy sources can work synergistically to generate improved plans for cervical cancer brachytherapy.

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