Interfraction Variation and Dosimetric Changes in Patients With Cervical Cancer Treated With Intracavitary Brachytherapy

Co, Jayson; Bojador, Maureen; Mejia, Michael Benedict A.; Ortin, Teresa T. Sy; Ganzon, Domingo E.

doi:10.1200/jgo.2016.008557

Cited by 2 publications

(2 citation statements)

References 14 publications

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“…Garipagaoglu et al showed a significant variation in the interfraction position of applicators accounting for different doses delivered to the bladder and rectal tissues, but with no remarkable differences in the radiobiological effective doses 11 whereas the study by Jason et al in his recent retrospective review of 29 patients, showed evidence of the safely considering the first plan using the same source position and dwell time for the subsequent fractions but however do not currently recommend it as a standard of care. 12 This study with a sample size of 133 patients, convey that when the source position and dwell time of the first implemented fraction plan when applied to the subsequent second and third brachytherapy applications, there is a statistically significant difference between the doses received to the point B, rectum and bladder points, which necessitates replanning for every session of brachytherapy. The results of this study is in accordance to the current American Brachytherapy Society recommendation for replanning with every fraction.…”

Section: Discussionmentioning

confidence: 90%

“…Jason et al in his recent retrospective review of 29 patients, showed the proof of safely considering the first plan for the subsequent fractions using same source position and dwell time but however do not currently recommend it as a standard of care. 12 Our study aimed to determine the correlation of interfraction variations in positioning of applicator and its relationship with relative dosimetry if the dwell time and source positions of the plan of first fraction were applied to other subsequent fractions.…”

Section: Introductionmentioning

confidence: 99%

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Dosimetric changes and interfraction anatomical variations during high dose rate brachytherapy of cervical cancers- Can replanning be avoided?

Athiyamaan¹,

Sridhar²

2020

IJPO

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Background: Interfraction variations occur due to tumour regression during cervical intarcavitary brachytherapy (ICR) requiring replanning with every fraction. This study aimed to determine the correlation of interfraction variations in positioning of applicator and its relationship with relative dosimetry if the dwell time and source positions of the plan of first fraction were applied to other subsequent fractions. Materials and Methods: This is a retrospective review of the orthogonal radiographs of cervical cancer patients treated from 2013 to 2016 in our institute, receiving ICR with the same dose prescription to point A using a tandem and two ovoids applicators. A hypothetical second and third plan were obtained by applying the same source positions and dwell time as in the first fraction plan. The dose delivered to point A, point B, cervical point, bladder point and rectal point were determined. The actual doses in the treated second and third fractions were compared with these hypothetical plans for any significant change in relative dosimetry. Statistical differences between groups were analysed using 2 tailed paired t test.Results: There was consistant increase in the doses to the point B, bladder point and rectal point in all the hypothetical plans with statistically significant difference observed for point B (p=0.001), rectal point (p=0.000) and bladder point(p=0.041). Conclusion:The conception of avoiding the replanning if similar interfraction conditions are achieved looks promising but the significant findings observed in this study warrants strongly to continue as per current recommendation of replanning with every fraction of brachytherapy.

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Section: Discussionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Dosimetric changes and interfraction anatomical variations during high dose rate brachytherapy of cervical cancers- Can replanning be avoided?

Athiyamaan¹,

Sridhar²

2020

IJPO

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Monte Carlo dosimetry for BEBIG Cobalt-60 brachytherapy source with gynecological applicator in the presence of inhomogeneities

Moradi,

Sani,

Mahyuddin

et al. 2024

Polish Journal of Medical Physics and Engineering

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Introduction: High-dose-rate (HDR) 60Co brachytherapy necessitates accurate dose calculations to minimize normal tissue toxicity and late malignancy risks. Conventionally, the American Association of Physicists in Medicine (AAPM) Task Group 43 (TG-43) formalism, utilizing table-based dose superposition, has been employed for dose calculations, overlooking tissue inhomogeneity effects. Material and methods: This study focuses on characterizing the high-dose-rate BEBIG 60Co brachytherapy source, in combination with a gynecological applicator, using Monte Carlo simulations. The investigation is based on the model of the modified BEBIG 60Co source (Co0.A86) implemented at the University of Malaya Medical Center. Dosimetric properties are evaluated according to AAPM TG-43 formalism, with validation against existing published data. Results: Our investigation presents comprehensive MC dosimetric properties of the high-dose-rate BEBIG 60Co brachytherapy source, highlighting its accuracy in dose calculations compared to established data. The study also examined the impact of the applicator on depth dose calculations within a Krieger phantom and explored the influence of various tissue inhomogeneities on the depth dose. Conclusions: Our findings revealed that the applicator had a relatively minimal effect on the delivered dose, with only marginal differences observed. Furthermore, we investigated the depth doses along the central axis of the applicator, within a segment characterized by various tissue inhomogeneities where dose differences of up to 12% were observed, with the lowest and highest doses recorded within bone and adipose tissues, respectively. This study underscores the valuable role of MC simulations in estimating doses at locations where physical measurements are unfeasible, such as the intra-uterine tube surface, as well as in scenarios featuring tissue inhomogeneities.

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Interfraction Variation and Dosimetric Changes in Patients With Cervical Cancer Treated With Intracavitary Brachytherapy

Cited by 2 publications

References 14 publications

Dosimetric changes and interfraction anatomical variations during high dose rate brachytherapy of cervical cancers- Can replanning be avoided?

Dosimetric changes and interfraction anatomical variations during high dose rate brachytherapy of cervical cancers- Can replanning be avoided?

Monte Carlo dosimetry for BEBIG Cobalt-60 brachytherapy source with gynecological applicator in the presence of inhomogeneities

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