Combined Treatment Modalities for High-Energy Proton Irradiation: Exploiting Specific DNA Repair Dependencies

Deycmar, Simon; Pruschy, Martin

doi:10.14338/ijpt-18-00020.1

Cited by 2 publications

(4 citation statements)

References 48 publications

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“…12,21,22 Although in vitro experiments suggest that proton therapy typically yields more DNA damage for the same dose relative to photons, there is no concrete evidence to suggest that biochemical control for prostate cancer is superior with PBT. 8,9 There is, however, a dosimetric advantage with respect to volumetric dose delivered to the bladder and rectum with PBT compared to photon-based EBRT. Therefore, the more likely advantage of PBT to be realized in future clinical trials lies with the toxicity profile.…”

Section: Discussionmentioning

confidence: 99%

“…[3][4][5][6] Furthermore, preclinical studies have demonstrated higher relative biologic effectiveness (RBE) and more complex DNA damage for proton therapy compared with photon therapy. 7,8 Thus, compared to photon-based radiation, proton therapy might result in enhanced disease control and also fewer side effects in patients with high-risk prostate cancer. Despite these theoretical advantages, the use of proton therapy for prostate cancer remains a controversial topic due to its relatively high costs and lack of level 1 evidence to demonstrate that the dosimetric advantages of proton therapy translate to clinical benefits.…”

Section: Introductionmentioning

confidence: 99%

“…For the treatment of high‐risk prostate cancer, especially when seminal vesicles and pelvic lymph nodes are included, protons can substantially reduce the volume of normal tissue exposed to low‐moderate doses of radiation 3–6 . Furthermore, preclinical studies have demonstrated higher relative biologic effectiveness (RBE) and more complex DNA damage for proton therapy compared with photon therapy 7,8 . Thus, compared to photon‐based radiation, proton therapy might result in enhanced disease control and also fewer side effects in patients with high‐risk prostate cancer.…”

Section: Introductionmentioning

confidence: 99%

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Proton therapy for high‐risk prostate cancer: Results from the Proton Collaborative Group PCG 001‐09 prospective registry trial

et al. 2023

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Background Data for proton therapy in high‐risk prostate cancer (HRPC) are limited. Using the Proton Collaborative Group prospective registry, we evaluated outcomes for HRPC patients treated with proton therapy. Methods A totsl of 605 men with localized HRPC treated with proton therapy from 8/2009 to 3/2019 at nine institutions were selected. Outcomes examined included freedom from progression (FFP), metastasis free survival (MFS), overall survival (OS), and toxicity. Multivariable cox/binomial regression models were used to assess predictors of FFP and toxicity. Results Median age was 71 years. Gleason grade groups 4 (49.4%) and 5 (31.7%) were most common, as were clinical stage T1c (46.1%) and cT2 (41.3%). The median pretreatment prostate specific antigen (PSA) was 9.18 and median International Prostate Symptom Score (IPSS) was 6. Androgen deprivation therapy was given in 63.6%. Median dose was 79.2 GyE in 44 fractions. Pelvic lymph nodes were treated in 58.2% of cases. Pencil beam scanning was used in 54.5%, uniform scanning in 38.8%, and a rectal spacer in 14.2%. At a median followup of 22 months, the 3‐ and 5‐year FFP were 90.7% and 81.4%, respectively. Five‐year MFS and OS were 92.8% and 95.9%, respectively. Independent correlates of FFP included Gleason ≥8, PSA > 10, and cT2 (all p < 0.05). No grade 4 or 5 adverse events were reported. There were 23 (5%) grade 2 and 0 grade 3 gastrointestinal events. Prevalence of late grade 3, late grade 2, acute grade 3, and acute grade 2 genitourinary toxicity was 1.7%, 5.8%, 0%, and 21.8%, respectively. Prevalence of grade 2 and 3 erectile dysfunction at 2 years was 48.4% and 8.4%, respectively. Conclusions In the largest series published to date, our results suggest early outcomes using proton therapy for HRPC are encouraging for both safety and efficacy. Further evaluation is needed to determine if an advantage exists to use protons over other radiation techniques in this population.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Proton therapy for high‐risk prostate cancer: Results from the Proton Collaborative Group PCG 001‐09 prospective registry trial

et al. 2023

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“…As a consequence, proton therapy produces greater complexity of DNA damage which requires different mechanisms for DNA repair. This may lead to enhanced disease control compared with photon‐based therapy . In addition, the gene expression responses suggest that protons may result in greater downregulation of certain genes that could impact metastases …”

Section: Opening Statementsmentioning

confidence: 99%

Three Discipline Collaborative Radiation Therapy (3DCRT) Special Debate: I would treat prostate cancer with proton therapy

Liao

Mendenhall

Guerrieri

et al. 2019

J Applied Clin Med Phys

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Combined Treatment Modalities for High-Energy Proton Irradiation: Exploiting Specific DNA Repair Dependencies

Cited by 2 publications

References 48 publications

Proton therapy for high‐risk prostate cancer: Results from the Proton Collaborative Group PCG 001‐09 prospective registry trial

Proton therapy for high‐risk prostate cancer: Results from the Proton Collaborative Group PCG 001‐09 prospective registry trial

Three Discipline Collaborative Radiation Therapy (3DCRT) Special Debate: I would treat prostate cancer with proton therapy

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