Your search keyword '"Treechairusame T"' showing total 7 results

1. Clinical Outcome Comparison between CT-Guided Versus all MRI-Guided Scenarios in Brachytherapy for Cervical Cancer: A Single-Institute Experience

Author

Dankulchai, P., Prasartseree, T., Sittiwong, W., Chansilpa, Y., Apiwarodom, N., Petsuksiri, J., Thephamongkhol, K., Treechairusame, T., Jitwatcharakomol, T., Setakornnukul, J., Teyateeti, A., Rongthong, W., Thaweerat, W., Suntornpong, N., Veerasarn, V., Tuntapakul, P., Chareonsiriwat, N., and Manopetchkasem, S.

Published

2024

2. The impact of air cavity changes on adaptive plan quality of the intensity modulated radiation therapy in head and neck cancer for magnetic resonance linear accelerator treatment.

Author

Nuchsirikulaphong, N., Dankulchai, P., Thepmongkhol, K., Khachonkham, S., Treechairusame, T., Jaikuna, T., and Sathitwatthanawirot, C.

Subjects

CYCLOTRONS, CONE beam computed tomography, COMPUTED tomography, HEAD & neck cancer, ELECTRON distribution

Abstract

Head and neck cancer (HNC) patients treated with radiotherapy confront the changing of air cavity during the treatment course. Changing air cavities may influence dose distribution due to the electron return effect (ERE) under a magnetic field in magnetic resonance linear accelerator (MRL) and affect plan quality. This study aims to investigate the impact of air cavity change in the inter-fraction of HNC patients on the adaptive intensity-modulated radiotherapy (IMRT) plan quality. In this study, the five computed tomography (CT) and fifteen surrogate cone-beam CT (CBCT) images at the beginning and middle of the treatment course from five oropharyngeal cancer patients were arbitrarily selected for this retrospective study by considering the dimension of planning target volume in the superior-inferior direction less than 20 cm. Tumor, organs at risk, and air cavity within planning target volume (PTV) were segmented on the CT image by an experienced radiation oncologist and transformed to the CBCT images using rigid registration by the Eclipse treatment planning system. Nine-field IMRT was generated on the CT image using the Monaco Unity treatment planning system and used as an initial plan. This study investigated two scenarios of the air cavity affect plan quality 1) a treatment plan without adaptive radiotherapy (ART) and 2) a treatment plan with ART using the adapt to shape (ATS), adapt to shape lite (ATS-lite), and replan. The initial plan was transferred and recalculated on each surrogate CBCT using CBCT to electron density (ED) correlation curve to investigate the effect of air cavity change without ART (recal technique). For the ATS plan, the full re-optimization was performed based on segmented contours of the actual anatomical border and assigned the Hounsfield unit (HU) of each contour on CBCT using mean ED from the CT image (Bulk density-assigned). The re-optimization plan based on a transferred contour from CT to CBCT using either rigid or deformable registration was observed in the ATS-lite. In addition, the replanning process (replan technique) was performed based on the HU in each voxel on CBCT and used as a reference plan. The recal, ATS, and ATS-lite plans were compared with replan technique by considering the plan quality index, including dose difference at D95%, D98%, and D2% extracted from the dose-volume histogram of PTV and three-dimensional (3D) dose distribution difference via 3D global gamma analysis (3%3mm criteria with 10% threshold). Additionally, the volume and location of 105% of the prescription dose was observed. This study considered the statistically significant at p<0.05 by ANOVA test using Stata version 17.0. The air cavity volume within PTV extracted from each CBCT was changed on average 0.99 ± 2.71 cm3 compared to the CT image. The most considerable dose difference was observed in the high dose region at D2%, around 1.25 ± 0.64 Gy for the recal technique compared to the initial plan, while the difference at D95%, D98% is less than 1 Gy. This study found statistical differences among ART techniques (p<0.05). The most significant difference between the ART and replan techniques was found in ATS-lite with a rigid contour approach by increasing the dose at D2% 0.42 ± 0.77 Gy. In contrast, ATS-lite with a deformed approach and ATS were 0.29 ± 0.67 Gy, and 0.09 ± 0.61 Gy, respectively. However, the coverage doses at D95% and D98% were decreased compared to the replan technique in all ART approaches. The lowest dose difference of D95% and D98% was found when using the ATS technique (0.10 ± 0.42 Gy and 0.27 ± 0.49 Gy for D95% and D98%). The high passing rate of gamma analysis was found in ATS, ATS-lite techniques with a rigid- and deformed-contour, about 86.76 ± 0.07 %, 84.07 ± 0.08 % and 83.37 ± 0.05 % consecutively, compared to replan technique. As expected, the recal technique yielded the lowest gamma passing rate (80.32 ± 0.05 %). The mean difference of the volume received 105% prescription dose was about 20.91 ± 18.97 cm3, 14.99 ± 18.21 cm3, 13.65 ± 13.33 cm3, and 13.02 ± 16.81 cm3 for the recal, ATS, ATS-lite with rigid-, and ATS-lite with deformed-contour compared to the replan which is located within PTV and close to the pharynx, glottis supra, mandibles, oral cavities, and parotids. Accordingly, the air cavity in the HNC patient's PTV changes throughout the treatment course and affects the quality of the IMRT plan. ART in MRL has a significantly improving treatment plan quality, but minimal impact in clinic. The correlation of time series, the volume of the air cavity, and dose will be investigated in the future study. [ABSTRACT FROM AUTHOR]

Published

2024

3. Robotic Radiosurgery for the Treatment of Pediatric Arteriovenous Malformations.

Author

Treechairusame, T., Kim, L., Chiang, J.S., White II, Z.B., Jackson, S., Quon, J., Mehta, S.S., Appelboom, G., Chang, S.D., Soltys, S.G., Guzman, R., Cheshier, S., Dodd, R.L., Grant, G.A., Edwards, M.S.B., and Gibbs, I.C.

Subjects

*CEREBRAL arteriovenous malformations, *SURGICAL robots, *PROPORTIONAL hazards models, *CHILD patients, *PEDIATRIC therapy

Abstract

Pediatric intracranial arteriovenous malformations (AVM) have a greater cumulative lifetime risk of rupture than adults. While obliteration after radiation occurs in a dose-dependent manner, increasing radiation doses also pose a higher risk of adverse radiation effects (ARE). Radiosurgery is effective in adults, but less is known about the efficacy and safety of robotic radiosurgery for pediatric intracranial AVMs. We performed a retrospective review of consecutive pediatric patients with AVMs at a single institution with minimum follow-up of 1.75 years who underwent robotic radiosurgery between 2005 and 2021 with one of 3 radiosurgery dosing schedules: 1) single-stage unfractionated, 2) single-stage fractionated, 3) volumetrically multi-staged treatment. Cox proportional hazards regression models were performed to identify predictors of AREs and obliteration. 95 patients (age:1-21 years, M:F 50:45) with 100 intracranial AVMs were identified for analysis. Median follow-up time was 4.5 years (range = 1.75-15.25 years). Forty-four (46.3%) patients presented with ruptured AVMs. The mean AVM volume was 10.0 cm3 ± 11.88 (range = 0.11-71.86 cm3). Most had Spetzler-Martin grade III (36.2%) and IV (31.9%). The overall rate of total obliteration was 52.6% (78.8% in single-stage unfractionated, 24.2% in single-stage fractionated, and 10% in multi-staged treatment) with a median obliteration time of 3.25 years (2.8- 4.1 years). Partial obliteration was achieved in 23.2% (17.3% in single-stage unfractionated, 30.3% in single-stage fractionated, and 30% in multi-staged treatment). In the univariate analysis, higher obliteration rate was associated with small volume (hazard ratio; HR = 0.876, 0.812 – 0.945) (P = 0.001), lower Spetzler-Martin grade (HR = 0.437, 0.320 – 0.597) (P = <0.001), and higher single-fraction equivalent dose (HR = 1.160, 1.020 – 1.198) (P = 0.015), respectively. Pretreatment hemorrhages were found in 51 patients (59.6 % in unfractionated, 45.5 % in fractionated, and 50% in multi-staged treatment). Thirteen patients experienced hemorrhage in the post-treatment period (3.8% in unfractionated, 12% in fractionated, and 60% in staged treatment). AREs were found in 31.6% of patients, many of whom (50%) had deep subcortical lesions. Male gender and V12Gy correlated with AREs (HR = 0.447, 0.199 – 1.004) (P = 0.051) and (HR = 1.020, 1.000 – 1.041) (P = 0.053), respectively. Single-fraction radiosurgery is very effective in treating smaller pediatric AVMs with obliteration rates of 79%. While single-stage fractionated treatment was less effective in achieving total obliteration (24%), this approach significantly reduced the posttreatment hemorrhage rate by at least half. Unfortunately, only 10% of AVMs in the multi-staged cohort were obliterated and post-treatment hemorrhage rates were not reduced. AVMs located in deeper cortical regions and those with higher Spetzler-Martin grade remain challenging. [ABSTRACT FROM AUTHOR]

Published

2024

4. PO-1237: Assessing the role of IMRT relative to VMAT in children with medulloblastoma treated with CSI

Author

Rongthong, W., primary, Pleanarom, S., additional, Suntornpong, N., additional, Treechairusame, T., additional, and Thephamongkhol, K., additional

Published

2020

5. PO-1238: Dosimetric study comparing IMRT to VMAT in completed resection pediatric abdominal neuroblastoma

Author

Treechairusame, T., primary, Suntornpong, N., additional, Thephamongkhol, K., additional, Ieumpongpaibool, P., additional, and Rongthong, W., additional

Published

2020

6. Carbon ion radiation therapy in prostate cancer: The importance of dosage.

Author

Treechairusame T and Taweesedt PT

Abstract

In this article, we comment on the article by Ono et al . We focus specifically on the carbon ion radiotherapy studies and the method to calculate the dosing schedule. While photon hypofractionated radiotherapy in prostate cancer has demonstrated improvement in tumor control with reduced gastrointestinal toxicity compared to conventional radiotherapy, carbon ion radiotherapy (CIRT) offers additional physical and biological advantages. Recent findings, including those from Ono et al , have established new dose constraints of CIRT for prostate cancer treatment and risk factors for rectal bleeding. Due to limited data on CIRT dosing, this study underscores the need for more research to refine dose calculation methods and better understand their effects on clinical outcomes., Competing Interests: Conflict-of-interest statement: All the authors report no relevant conflicts of interest for this article., (©The Author(s) 2024. Published by Baishideng Publishing Group Inc. All rights reserved.)

Published

2024

7. Comparison of dosimetric parameters for predicting radiation-induced cataract in paediatric patients.

Author

Leangcharoensap S, Thephamongkhol K, Chanwichu P, Treechairusame T, Suntornpong N, and Rongthong W

Subjects

Humans, Child, Female, Male, Child, Preschool, Adolescent, Radiotherapy Dosage, Retrospective Studies, Head and Neck Neoplasms radiotherapy, Cranial Irradiation adverse effects, Cataract etiology, Radiation Injuries etiology, Lens, Crystalline radiation effects

Abstract

Introduction: This study compared the predictive ability of radiation-induced cataract between maximum point dose of the lens (Lens Dmax) ≥7 Gy, mean lens dose (Lens Dmean) ≥7 Gy, Lens Dmax ≥10 Gy, and Lens Dmean ≥10 Gy., Methods: Patients aged 3-18 years received cranial irradiation or radiation therapy at head and neck area between January 2010 and December 2019 at our institute were included. Patients without baseline and/or follow-up eye examination were excluded. Receiver operating characteristic (ROC) curves identified potential predictors and Cox regression analysed correlations between potential factors and cataract occurrence., Results: Sixty-three patients (122 eyes) were analysed. Cataracts were detected in 14 eyes (11.5%). Median follow-up time was 4 years (range 0.5-10 years), with cataract developing in a median of 2.5 years (range 0.3-7 years). Three patients (21.4%) developed grade ≥3 cataract. Lens Dmean ≥10 Gy was associated with cataract formation., Conclusion: Lens Dmean ≥10 Gy showed the highest ability for predicting radiation-induced cataract in paediatric patients. Net reclassification improvement (NRI) suggested that changing lens dose constraint from Dmax <7 Gy to Dmean <10 Gy would miss 7% of cataract cases but avoid 28% of unnecessary restrictions. Adopting a mean lens dose <10 Gy was suggested as a constraint for lens dose., (© 2024 The Author(s). Journal of Medical Imaging and Radiation Oncology published by John Wiley & Sons Australia, Ltd on behalf of Royal Australian and New Zealand College of Radiologists.)

Published

2024