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Showing 3 results for Haghparast
Influence of the contrast agents on dose-volume histograms in radiotherapy treatment planning based on CT-scan
Sahel Heydarheydari , Negin Farshchian , Abbas Haghparast , Seyed Masoud Rezaeijo,
Volume 75, Issue 11 (February 2018)
Abstract
Background: In three-dimensional conformal radiation therapy (3D-CRT), contrast-enhanced CT (CECT) image is commonly used to assist radiation oncologists in diagnosing regions of interest, so that normal and target tissues can be better delineated. CECT causes the temporary increase in the CT number and the corresponding electron density (ρe). Administrated contrast agents (CA) during CT simulation and altering the ρe of structures can be effective on radiation calculations and dose-volume histograms (DVHs) in radiotherapy treatment planning. Therefore, present study was designed and performed to determine the influence of the administrated CA on DVHs.
Methods: Current study performed as a self-controlled clinical trial study with before/after method at Imam Reza Hospital, Kermanshah City, during the period from June 2015 till August 2016. Ten patients with pelvic cancer included in this study through simple sampling. Cases with prior reactions to CA, diabetes, renal diseases, and asthma were excluded. Two sets of CT-scans were taken for each patient in the same position and coordinates. Primary study sets contained pre-contrast images and secondary study sets were performed post-contrast. Both sets of CT images were transferred to the treatment planning system (ISOgray® software, Version 4.1.3.23 L, DOSIsoft®, Cachan, France). All treatment plans were generated on pre-contrast and subsequently copied to the post-contrast CT. Quantitative calculations were performed in treatment planning including the difference in ρe before and after CA administration.
Results: The prostate (1.27%), the bladder (0.62-0.79%) and the rectum (0.43-0.56%) showed the largest changes in average ρe increase. The results confirm the expected relationship of increasing attenuation, CT number, and ρe with increased tissue density due to the CA. However, the DVHs showed insignificant difference between pre-and post-contrast CTs for 18 MV photon beam.
Conclusion: The results showed statistical insignificant difference between with and without CA CTs treatment plan in pelvic field for targets and OARs. These results may serve as a reference to justify the use of CECT data sets for 3D-CRT planning of pelvic region cancers using DosiSoft ISOgray system.

The role of rectal sparing devices in post-prostatectomy radiotherapy: a review article
Arezoo Mehrabian, Hamed Ghaffari, Soheila Refahi , Mohammad Haghparast , Abolhasan Rezaeyan,
Volume 80, Issue 12 (March 2023)
Abstract

                                                                
Adjuvant or salvage radiotherapy can control biochemical relapse after radical prostatectomy and reduce the risk of distant metastases. Dose-escalated radiotherapy after radical prostatectomy can lead to improved biochemical relapse-free survival. Over the last decades, despite the technological advancements in prostate radiotherapy, radiation-induced rectal toxicity is still the main limiting factor for dose escalation owing to the anatomical proximity of the prostate gland to the rectum. To this end, several rectal sparing devices, including Endorectal balloons (ERBs), prostate-rectum spacers (e.g. SpaceOAR hydrogel), and rectal retractor have been explored to increase the distance between the prostate and the rectum to reduce rectal radiation doses and toxicities. Over the last decade, several studies applied these devices during post-prostatectomy radiotherapy setting. Therefore, the purpose of this review is to evaluate the impact of rectal sparing devices on dose-volume parameters of anorectal, radiation-induced rectal toxicity, and prostate bed motion during post-prostatectomy radiotherapy. The results showed that although using ERBs can lead to stability in the target volume position, it cannot reduce rectal radiation doses, in particular dose to the anterior rectal wall. The application of ERBs can reduce the received dose of the anal wall and increase the geometric reproducibility of the clinical target volume (CTV) position. However, the role of ERBs in reducing the received dose of the rectal wall is still controversial, which can be associated with the displacement of the anterior rectal wall towards the prostate bed (high radiation dose area). The use of SpaceOAR hydrogel can significantly increase the distance between the rectum and the prostate bed and ultimately reduce the dose received by the rectal wall. Also, the use of rectal retractor remarkably reduces rectal radiation doses. The dosimetric and clinical results of the use of SpaceOAR hydrogel and rectal retractor are very promising, and these devices can be used for patients after the necessary evaluations by radiation oncologist in post-prostatectomy radiotherapy. However, further studies will be required to elucidate the efficacy of SpaceOAR hydrogel and rectal retractor in reducing radiotherapy-induced rectal toxicity following post-prostatectomy radiotherapy.

Keywords: prostatectomy, prostate cancer, radiotherapy, rectum.


Evaluation of the accuracy of MAGIC polymer gel dosimeter in measuring dose in small electron fields in radiotherapy
Soraya Ahmadian Mask , Abbas Haghparast,
Volume 82, Issue 10 (January 2025)
Abstract
Background: Recent advances in modern radiotherapy techniques such as Intensity-Modulated Radiation Therapy (IMRT) and Stereotactic Radiosurgery (SRS) have significantly increased the need for accurate and reliable dosimetry in radiation therapy. Accurate dose delivery is particularly critical in small electron fields, which are increasingly used in targeted treatments. However, these fields pose unique challenges due to factors such as electron disequilibrium, increased lateral scatter, and steep dose gradients. These physical characteristics can introduce significant uncertainties in dose distribution, thereby reducing the effectiveness and safety of the treatment if not properly accounted for. Traditional dosimeters often struggle to maintain accuracy under such conditions. The aim of this study was to evaluate the performance of MAGIC polymer gel as a three-dimensional (3D) dosimeter in small electron fields and to compare its dosimetric characteristics with standard dosimeters including diode, semiflex, and pinpoint.
Methods: This experimental and applied study was conducted at the Radiotherapy Department of Imam Reza Hospital, Kermanshah, Iran, over a one-year period from December 2022 to December 2023. Five electron field sizes (2×2, 2.5×2.5, 3×3, 4×4, and 5×5 cm²) were generated using an Elekta linear accelerator at two electron beam energies of 6 and 9 MeV. MAGIC polymer gel phantoms were irradiated accordingly and scanned with a 1.5 Tesla MRI system to obtain three-dimensional dose distributions. These were compared to measurements obtained from diode, semiflex, and pinpoint dosimeters.
Results: The depth dose curves of MAGIC gel exhibited greater agreement with diode measurements compared to those from semiflex and pinpoint detectors. As field size decreased and beam energy increased, discrepancies in absorbed dose readings between different dosimeters became more apparent. These results underscore the importance of selecting appropriate dosimetric tools for accurate dose evaluation in small-field electron beams.
Conclusion: MAGIC polymer gel demonstrated strong potential as a reliable 3D dosimeter for small electron field dosimetry, showing the highest compatibility with the diode dosimeter.

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