The Relative Biological Effect of Spread-Out Bragg Peak Protons in Sensitive and Resistant Tumor Cells

Lin, Yu‐Fen; Chen, Benjamin P.; Li, Wende; Perkó, Zoltán; Wang, Yi; Testa, M.; Schneider, Robert; Lü, Haitao; Gerweck, Leo E.

doi:10.14338/ijpt-17-00025.1

Cited by 7 publications

(2 citation statements)

References 27 publications

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“…Given the timing of sampling with respect to irradiation, two phenomena may account for these modifications: either radiation-induced DNA modifications or tumor cellular heterogeneity. Proton particles irradiation result in multiple single and double strand breaks, randomly disseminated over all 46 chromosomes, as ascertained by experimental [29,30] and simulation models [31,32]. DNA modifications between pre- and post-irradiation samples showed a preferential location on certain chromosomes (notably 3, 8q, 6, and 4), and consisted often in additions or deletions of large chromosome segments, not only focal breaks, arguing against a consequence of proton beam irradiation.…”

Section: Discussionmentioning

confidence: 99%

Comparative Cytogenetic Abnormalities in Paired Choroidal Melanoma Samples Obtained Before and After Proton Beam Irradiation by Transscleral Fine-Needle Aspiration Biopsy and Endoresection

Matet

Rais

Denis

et al. 2019

Cancers

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This study compared the cytogenetic profiles of choroidal melanoma samples retrieved before and after proton beam irradiation. Twenty-four consecutive patients who underwent both fine-needle aspiration biopsy (FNAB) during tantalum clip positioning, and endoresection within three months of irradiation, were retrospectively included. Chromosome alterations were explored by array comparative genomic hybridization. Age at diagnosis was 50 ± 14 years, tumor thickness was 8.6 ± 1.7 mm and tumor diameter was 12.4 ± 2.3 mm. Six FNAB samples were non-contributive (25%), versus one endoresection sample (4%) (p = 0.049). Among 17 cases with paired contributive samples, the profiles of chromosomes 3 and 8 were identical in all cases, except one with partial chromosome 3 loss on the FNAB sample only. Three cases presented additional discordant aberrations on chromosomes other than 3 or 8q. Overall, we identified monosomy 3 in two cases, 8q gain in six cases, and both alterations in three cases. All cases presented GNAQ or GNA11 mutations assessed by a custom next-generation sequencing panel. Among the six cases with non-contributive initial FNAB, three cases presented abnormal 3 or 8q chromosomes detected on the endoresection material. These results demonstrate the higher rentability of endoresection material for cytogenetic analysis compared to FNAB, and provide clinical evidence of tumor heterogeneity in choroidal melanoma.

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Section: Discussionmentioning

confidence: 99%

Comparative Cytogenetic Abnormalities in Paired Choroidal Melanoma Samples Obtained Before and After Proton Beam Irradiation by Transscleral Fine-Needle Aspiration Biopsy and Endoresection

Matet

Rais

Denis

et al. 2019

Cancers

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“…Beam delivery is the process of transporting heavy ion beam from accelerator to target area for irradiation therapy. During the active beam delivery, the accelerator actively changes the energy of the particles to change the incidence depth of the ion beam [ 12 ]. Meanwhile, the magnetic scanning system is used to guide the pencil beam to carry out conformal or intensity-modulated irradiation therapy on the tumor target region.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the Dose Drop at the Edge of the Target Area in Heavy Ion Radiotherapy

Zhang

Meng

et al. 2021

Computational and Mathematical Methods in Medicine

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Background. The dose distribution of heavy ions at the edge of the target region will have a steep decay during radiotherapy, which can better protect the surrounding organs at risk. Objective. To analyze the dose decay gradient at the back edge of the target region during heavy ion radiotherapy. Methods. Treatment planning system (TPS) was employed to analyze the dose decay at the edge of the beam under different incident modes and multiple dose segmentation conditions during fixed beam irradiation. The dose decay data of each plan was collected based on the position where the rear edge of the beam began to fall rapidly. Uniform scanning mode was selected in heavy ion TPS. Dose decay curves under different beam setup modes were drawn and compared. Results. The dose decay data analysis showed that in the case of single beam irradiation, the posterior edge of the beam was 5 mm away, and the posterior dose could drop to about 20%. While irradiation in opposite direction, the posterior edge of the beam was 5 mm away, and the dose could drop to about 50%. In orthogonal irradiation of two beams, the posterior edge of the beam could drop to about 30-38% in a distance of 5 mm. Through the data analysis in the TPS, the sharpness of the dose at the back edge of the heavy ion beam is better than that at the lateral edge, but the generated X-ray contamination cannot be ignored. Conclusions. The effect of uneven CT value on the dose decay of heavy ion beam should also be considered in clinical treatment.

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Harnessing the targeting potential of differential radiobiological effects of photon versus particle radiation for cancer treatment

Zhang

Gan

et al. 2020

Journal Cellular Physiology

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Radiotherapy is one of the major modalities for malignancy treatment. High linear energy transfer (LET) charged-particle beams, like proton and carbon ions, exhibit favourable depth-dose distributions and radiobiological enhancement over conventional low-LET photon irradiation, thereby marking a new era in high precision medicine. Tumour cells have developed multicomponent signal transduction networks known as DNA damage responses (DDRs), which initiate cell-cycle checkpoints and induce double-strand break (DSB) repairs in the nucleus by nonhomologous end joining or homologous recombination pathways, to manage ionising radiation (IR)-induced DNA lesions. DNA damage induction and DSB repair pathways are reportedly dependent on the quality of radiation delivered. In this review, we summarise various types of DNA lesion and DSB repair mechanisms, upon irradiation with low and high-LET radiation, respectively. We also analyse factors influencing DNA repair efficiency. Inhibition of DNA damage repair pathways and dysfunctional cell-cycle checkpoint sensitises tumour cells to IR.

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The Relative Biological Effect of Spread-Out Bragg Peak Protons in Sensitive and Resistant Tumor Cells

Cited by 7 publications

References 27 publications

Comparative Cytogenetic Abnormalities in Paired Choroidal Melanoma Samples Obtained Before and After Proton Beam Irradiation by Transscleral Fine-Needle Aspiration Biopsy and Endoresection

Comparative Cytogenetic Abnormalities in Paired Choroidal Melanoma Samples Obtained Before and After Proton Beam Irradiation by Transscleral Fine-Needle Aspiration Biopsy and Endoresection

Analysis of the Dose Drop at the Edge of the Target Area in Heavy Ion Radiotherapy

Harnessing the targeting potential of differential radiobiological effects of photon versus particle radiation for cancer treatment

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