TY - JOUR ID - 17881 TI - Dosimetric Impact of Contrast Medium on Different Photon Energies Using Conformal & IMRT Techniques in the Treatment of Carcinoma Cervix and Its Validation with Indigenous Phantom JO - Iranian Journal of Medical Physics JA - IJMP LA - en SN - AU - Tripathi, Deepak AU - Bhushan, Manindra AU - Yadav, Girigesh AU - Kumar, Lalit AU - Barik, Soumitra Ranjan AU - Tandon, Sarthak AU - Kumar, Pawan AU - Mitra, Swarupa AU - Gairola, Munish AD - Amity School of Applied Sciences, Amity University (AUUP), NOIDA, India AD - Amity School of Applied Sciences, Amity University (AUUP), NOIDA, India Division of Medical Physics & Department of Radiation Oncology, Rajiv Gandhi Cancer Institute and Research Centre, New Delhi, India AD - Medical Physics Division, Elekta Medical Systems, India AD - Medical Physics Division & Radiation Oncology Department, Rajiv Gandhi Cancer Institute and Research Center, New Delhi, India AD - Division of Medical Physics & Department of Radiation Oncology, Rajiv Gandhi Cancer Institute and Research Centre, New Delhi, India Y1 - 2022 PY - 2022 VL - 19 IS - 2 SP - 125 EP - 135 KW - Contrast KW - Enhanced Intensity KW - Modulated Box KW - Technique Photon Beam Carcinoma Cervix DO - 10.22038/ijmp.2021.54553.1896 N2 - Introduction: Considering the unwanted exposure to organs in the path of the beam, 4-field (4F) and subsequently, Intensity-modulated-radiation-therapy (IMRT), is known as the standard mode of treatment of carcinoma cervix. It is routine practice to inject intravenous contrast during simulation scan which elopes after that from the patient body. Therefore, the impact of contrast media should be investigated for radiation dose calculations. Material and Methods: An indigenously made phantom, named as ‘original contrast (OC)’, was used with dimensions 15 x 15 x 30 cm3. A sleeve was given to place the ionization chamber at the isocentre of the planning target volume (PTV) inside the cylindrical vial of iodinized contrast. Similarly, a virtual phantom was created with similar dimensions in the presence and absence of contrast media, called as ‘virtual contrast (VC)’ and ‘virtual without contrast (VWC)’ phantom. Plans were generated with photon energies (6MV/10MV/15MV/6FFF/10FFF) using 4F and IMRT technique. Plans were evaluated for PTV (D99%, D10%, Dmean) and Bladder & Rectum (V30Gy, V10Gy). Normal-tissue-integral-dose (NTID) and total-monitor-units (TMU) were also evaluated. Results: D99% of the PTV was comparable in VC and VWC phantoms but was decreased for OC phantom. Similarly, D10% was reportedly higher as 54.03 Gy (4F, 6 MV), 54.71 Gy (4F, 15 MV), 55.78 Gy (4F, 6 FFF) and 57.64 Gy (4F, 10 FFF) for OC phantom. D30% of the bladder and also the NTID was lesser for IMRT cases in all the selected phantoms. Additionally, 4F has shown lesser spillage with 6MV/15 MV photon beam energies in OC phantom. The ‘total monitor units (TMU)’ required for IMRT plans were significantly higher. Conclusion: The contrast material under-estimates the planned dose yet has an insignificant influence on the dose calculation. Therefore, unnecessary exposure of dual scans should be avoided the use of 6MV and IMRT technique should be continued in the clinics. UR - https://ijmp.mums.ac.ir/article_17881.html L1 - https://ijmp.mums.ac.ir/article_17881_bc27153b809b4a0395c9013c435d4775.pdf ER -