Radiotherapy Fractionation Research Articles

RBIO-10. RADIATION FRACTION SIZE DIFFERENTIALLY AFFECTS MYELOID-DERIVED SUPPRESSOR CELL (MDSC) SUBSETS IN WHO GRADE 1 MENINGIOMA

Abstract Meningiomas are often cured after focal therapy with surgical resection and/or radiotherapy (RT); however, a small proportion still recur. RT dose can be used to modulate anti-tumor immune responses, potentially through regulating immunosuppressive MDSCs. Here, we investigate the effect of a single fraction of RT (2Gy vs. 15Gy) on frequency and activation status of MDSC subsets in patients with WHO grade 1 meningioma. We hypothesize that 2Gy will promote immunosuppressive MDSC activity more than 15Gy. Fresh tumor cells from patients with a presumed diagnosis of meningioma were digested into primary cell cultures and treated with a single fraction of 2 or 15 Gy or were sham irradiated using a XRAD 320 Biological Irradiator. Cells were incubated for 18hrs prior to flow cytometric analysis. MDSC populations were identified as Live/Dead-CD11b+CD33+HLA-DR-. MDSC subsets were then divided into M-MDSC (CD14+CD15-) or G-MDSC (CD15+CD14-). Five WHO grade 1 meningiomas were analyzed. The total frequency of MDSCs in tumors increased from 3% with sham RT to 4% after irradiation with 2Gy (p=0.03). This was driven by a 2-fold increase in frequency of total M-MDSCs, as G-MDSCs decreased by half after 2Gy (p=0.03). After irradiation with 15Gy, M-MDSC frequency was nearly half that of 2Gy. The frequency of TGF-β+MDSCs increased after 15 Gy (p=0.02). The frequency of IL-10+G-MDSCs increased in response to 2Gy (p =0.03) but decreased 4-fold after 15Gy. 18hrs after 2Gy, IFN-γ+M-MDSCs increased compared to sham (p=0.01). In this small cohort of grade 1 meningiomas, a 2Gy fraction of RT appeared to support expansion of the M-MDSC subset. RT at both fraction sizes increased immunosuppressive cytokine producing-MDSCs: M-MDSC-IL-10; G-MDSC-TGF-β. These findings indicate the need for further studies to understand the subset-specific impact of RT on MDSC, a key immune cell type in brain cancers.

DNAR-10. PHASE I CLINICAL TRIAL OF PEPOSERTIB PLUS RADIOTHERAPY IN ADULTS WITH NEWLY-DIAGNOSED MGMT-UNMETHYLATED GLIOBLASTOMA

Abstract BACKGROUND DNA-dependent protein kinase (DNA-PK) is an attractive target in GBM because it promotes unwanted DNA repair and renders cancer cells less vulnerable to DNA damaging agents, such as radiotherapy (RT). Peposertib, a small molecule inhibitor of DNA-PK, has demonstrated pre-clinical efficacy in sensitizing GBM to RT, resulting in tumor regression. METHODS 21 patients with newly-diagnosed MGMT-unmethylated GBM received peposertib plus 6-weeks of RT to determine the maximum-tolerated dose (MTD) based on the Bayesian Optimal Interval design. The dose-limiting toxicity (DLT) period was 10-weeks. Patients received at least 6-cycles of adjuvant temozolomide (NCT04555577). Single-nuclei RNA-sequencing (snRNA-Seq) and spatial transcriptomics (Visium, 10x Genomics) were performed on matched pair primary-recurrent tumors and controls, incorporating tumor cell state and cell type definitions by automated cluster classification and differential expression of marker genes. RESULTS The MTD of peposertib in combination with RT was 300mg per RT fraction day. One DLT (G3 radiation necrosis @300mg) was observed. After a median follow-up of 15.4 months (interquartile-range 8.9-18.5), mPFS was 10.8 months (95%CI 8.33-NR) and mOS was 22.9 months (95%CI 16-NR). 6/21 (29%) patients have undergone re-resection to date. snRNA-Seq on 102,709 cells from 12 primary and 3 recurrent tumors revealed that pre-treatment tumor cell states were progenitor-like, while treatment with peposertib plus RT was associated with differentiated and inflammatory malignant cell states, along with macrophage infiltration. Spatial transcriptomics of 8 matched primary-recurrent tumors (20,793 transcriptomes) confirmed malignant cell differentiation and enrichment of pro-inflammatory macrophages after inhibition of DNA-PK. 5 patients will be enrolled into a window-of-opportunity expansion cohort to evaluate intratumoral drug concentration. CONCLUSION The combination of peposertib and intracranial RT was safe. Survival data for this MGMT-unmethylated GBM population was promising. Single nuclei and spatial transcriptomic analyses revealed enrichment of pro-inflammatory macrophages in the tumor microenvironmentafter DNA-PK inhibition. The study was supported by EMD-Serono (CrossRef Funder ID: 10.13039/100004755).

Magnetic resonance imaging-guided single-fraction preoperative radiotherapy for early-stage breast cancer (the RICE trial): feasibility study

BackgroundOver the past decade, the adoption of screening programs, digital mammography, and magnetic resonance imaging (MRI) has increased early-stage breast cancer diagnosis rates. Mortality rates have decreased due to early detection and improved treatments, including personalized therapies. Accelerated partial-breast irradiation (APBI) is emerging as a convenient and effective treatment for some patients, with studies exploring its preoperative use. Preoperative APBI, especially with MRI guidance, offers improved tumor targeting and potentially reduced side effects. Magnetic Resonance Imaging-Guided Single-Fraction Pre-Operative Radiotherapy for Early-Stage Breast Cancer (RICE trial) aims to assess the feasibility and efficacy of MRI-guided single-dose radiotherapy (RT) for early-stage breast cancer.MethodsThe RICE study is a prospective, single-arm study evaluating single-fraction preoperative, APBI treatment for patients with early-stage breast cancer using a magnetic resonance imaging linear accelerator (MRI linac). Eligible patients enrolled in this study will have a core biopsy to confirm estrogen receptor-positive and HER2-negative sub-type. RT planning will use a planning computed tomography (CT) co-registered with a MRI with the patient in either the supine or prone position. For the diagnostic workup, [18F] fluorodeoxyglucose positron emission tomography/CT ([18F] FDG PET/CT) and [18F] fluoroestradiol positron emission tomography/CT ([18F] FES PET/CT) will be performed prior to treatment. Thirty patients will receive a single ablative RT dose of 21 Gray to the tumor. Pre-treatment and post-treatment MRI scans will be acquired at baseline and 5 weeks post-RT respectively. Breast-conserving surgery will be scheduled for 6 weeks after APBI treatment using the MRI linac.The primary study endpoint is the successful administration of a single fraction of preoperative breast RT under the guidance of an MRI linac. Secondary endpoints include evaluating the utility of MRI, [18F] FDG PET/CT, and [18F] FES PET/CT as a non-invasive method for assessing treatment response in patients undergoing single-fraction preoperative APBI.ConclusionThe RICE trial represents a significant step in breast cancer treatment, offering insights that could lead to treatment protocols with minimized RT appointments and enhanced patient outcomes.Trial registrationThis trial is registered with the Australian New Zealand Clinical Trials Registry (ANZCTR). Registered 31st of May 2021. Registration number: ACTRN12621000659808.

CBCT-based online adaptive radiotherapy of the prostate bed: first clinical experience and comparison to nonadaptive conventional IGRT.

Conventional image-guided radiotherapy (IGRT) of the prostate bed is challenged by the varying anatomy due to dynamic changes of surrounding organs such as the bladder and rectum. This leads to changed dose coverage of target and surrounding tissue. The novel online adaptive radiotherapy (oART) aims to improve target coverage as well as reduce dose exposure to surrounding healthy tissues by daily reoptimization of treatment plans. Here we set out to quantify the resulting changes of this adaptation for patients and treatment team. Atotal of 198 fractions of radiotherapy of the prostate bed (6patients) were treated using oART with the Ethos accelerator (Varian Medical Systems, Palo Alto, CA, USA). For each fraction, volumes and several dose-volume parameters of target volumes and organs at risk were recorded for the scheduled plan (initial plan, recalculated based on daily cone beam computed tomography [CBCT]), the adapted plan, and the verification plan, which is the dose distribution of the applied plan recalculated on the closing CBCT after the adaptation process. Clinical acceptability for all plans was determined using given dose-volume parameters of target volumes. Additionally, the time needed for the adaptation process was registered and compared to the time required for the daily treatment of five conventional IGRT patients. Volumes of target and organs at risk (OAR) exhibited broad variation from day to day. The differences in dose coverage D98% of the clinical target volume (CTV) were significant through adaptation (p < 0.0001; median D98% 97.1-98.0%) and further after verification CBCT (p < 0.001; median D98% 98.1%). Similarly, differences in D98% of the planning target volume (PTV) were significant with adaptation (p < 0.0001; median D98% 91.8-96.5%) and after verification CBCT (p < 0.001; median D98% 96.4%) with decreasing interquartile ranges (IQR). Dose to OAR varied extensively and did not show aconsistent benefit from oART but decreased in IQR. Clinical acceptability increased significantly from 19.2% for scheduled plans to 76.8% for adapted plans and decreased to 70.7% for verification plans. The scheduled plan was never chosen for treatment. The median time needed for oART was 25 min compared to 8 min for IGRT. Target dose coverage was significantly improved using oART. IQR decreased for target coverage as well as OAR doses indicating higher repeatability of dose delivery using oART. Differences in doses after verification CBCT for targets as well as OAR were significant compared to adapted plans but did not offset the overall dosimetric gain of oART. The median time required is three times higher for oART compared to IGRT.

Once-a-Week Ablative Radiotherapy as Replacement of Prolonged Fractionation in Frail Patients: Feasibility and Toxicity Results

Introduction The aim of this work was to explore the use of an original once-weekly radiotherapy fractionation in elderly or frail patients with recurrence or metastasis from different solid malignancies. Material and Methods A retrospective analysis was conducted on 29 patients treated from 2011 to 2019 with a once-weekly radiotherapy schedule. Patients received a median dose of 27.5 Gy, with weekly fractions of 4-5 Gy over 7-10 weeks. The treatment aimed at both palliative and cytoreductive objectives. Primary endpoints were feasibility and compliance, secondary outcome was acute toxicity. Results All patients completed the planned radiotherapy without interruptions. Acute toxicity was mild, with only one patient developing grade 3 toxicity (bowel perforation). Three months post-treatment, 74% of patients experienced symptom relief and tumor response. One-year local control rates were 26.7%, and treatment was generally well-tolerated. Conclusion This once-weekly hypofractionated radiotherapy regimen demonstrated feasibility, good tolerance, and promising tumor response in frail and elderly patients. Although limited by a small sample size, the approach offers a practical alternative for patients unable to undergo conventional daily radiotherapy. Further studies on larger cohorts are required to validate these findings.

Real-world Pattern-of-Care Analysis of Cutaneous Lymphomas Radiotherapy Among EORTC Members.

We aim to determine the current treatment patterns and recommendations among physicians for cutaneous lymphomas and to identify the types of skin lymphomas for which existing radiation regimens need improvement. A questionnaire from the European Organisation for Research and Treatment of Cancer (EORTC) was distributed to all members of the Cutaneous Lymphoma Tumour Group and radiation oncology scintific council. This online survey included 13 questions regarding treatment practices for patients with cutaneous lymphoma. The survey was conducted from August 21 to December 18, 2023. Frequency distributions and subgroup comparisons were calculated and analyzed. We collected 51 completed questionnaires from investigators from 19 countries specializing in cutaneous lymphoma treatment. Radiation doses varied significantly (range, 4-60 Gy). Based on the histologic entity, up to one-third of the investigators delivered hypofractionated regimens (range, 14% - 35%). Reduced-dose radiotherapy was considered by 27% to 63% of investigators. Meanwhile, 18 (35%) investigators considered adapting the radiation dose to the response to immunochemotherapy when treating primary cutaneous diffuse large B-cell lymphomal-leg type. Regarding total skin electron beam therapy, 91% of centres delivered reduced-dose regimens, and 18% of investigators applied ultra-hypofractionated protocols. Radiotherapy of cutaneous lymphoma patients is highly heterogeneous among EORTC centres. Development of evidence-based recommendations for radiotherapy dose, fractionation, and technique for cutaneous lymphomas is required for optimization and standardization of treatment.

Privacy-friendly evaluation of patient data with secure multiparty computation in a European pilot study

In multicentric studies, data sharing between institutions might negatively impact patient privacy or data security. An alternative is federated analysis by secure multiparty computation. This pilot study demonstrates an architecture and implementation addressing both technical challenges and legal difficulties in the particularly demanding setting of clinical research on cancer patients within the strict European regulation on patient privacy and data protection: 24 patients from LMU University Hospital in Munich, Germany, and 24 patients from Policlinico Universitario Fondazione Agostino Gemelli, Rome, Italy, were treated for adrenal gland metastasis with typically 40 Gy in 3 or 5 fractions of online-adaptive radiotherapy guided by real-time MR. High local control (21% complete remission, 27% partial remission, 40% stable disease) and low toxicity (73% reporting no toxicity) were observed. Median overall survival was 19 months. Federated analysis was found to improve clinical science through privacy-friendly evaluation of patient data in the European health data space.

Hypofractionated versus standard fractionation radiotherapy for merkel cell carcinoma

Purpose/Objective(s)Merkel cell carcinoma (MCC) radiation treatment has historically consisted of standard 1.8–2 Gy fractions treated daily over 4–6 weeks. Hypofractionated treatment regimens have demonstrated tumor control and toxicity equivalence to standard fractionation regimens for common cutaneous malignancies such as basal cell and squamous cell carcinomas. Herein we report the outcomes of hypofractionated versus standard fractionation radiotherapy for MCC at our institution.Materials/MethodsThe study involved a retrospective review of MCC patients treated with radiotherapy. Treatment characteristics and patient outcomes, including acute toxicities, disease recurrence and survival data were collected. The cumulative incidence of local and distant failures was estimated, with death as a competing risk.ResultsA total of 29 treatment courses for 24 patients were included, of which 13 involved standard fractionation with curative intent, 10 involved hypofractionated radiotherapy with curative intent, and 6 involved single fraction (8 Gy) palliative radiation. Half the patients were treated to a head/neck site. A subset of patients treated adjuvantly with curative intent included 8 standard fractionation and 8 hypofractionated radiotherapy patients. No statistically significant differences in local and/or distant failure or overall survival was observed between the patient groups.ConclusionHypofractionated radiotherapy for MCC was associated with similar treatment outcomes relative to standard fractionation. In our limited patient sample, hypofractionated radiation treatment achieved similar results with similar toxicity and fewer treatments. Further analysis of a larger patient population with longer follow up is needed to confirm treatment tolerability and efficacy.

Phase-change ultrasound contrast agents for proton range verification: towards an in vivo application

Objective.In proton therapy, range uncertainties prevent optimal benefit from the superior depth-dose characteristics of proton beams over conventional photon-based radiotherapy. To reduce these uncertainties we recently proposed the use of phase-change ultrasound contrast agents as an affordable and effective range verification tool. In particular, superheated nanodroplets can convert into echogenic microbubbles upon proton irradiation, whereby the resulting ultrasound contrast relates to the proton range with high reproducibility. Here, we provide a firstin vivoproof-of-concept of this technology.Approach.First, thein vitrobiocompatibility of radiation-sensitive poly(vinyl alcohol) perfluorobutane nanodroplets was investigated using several colorimetric assays. Then,in vivoultrasound contrast was characterized using acoustic droplet vaporization (ADV) and later using proton beam irradiations at varying energies (49.7 MeV and 62 MeV) in healthy Sprague Dawley rats. A preliminary evaluation of thein vivobiocompatibility was performed using ADV and a combination of physiology monitoring and histology.Main results.Nanodroplets were non-toxic over a wide concentration range (<1 mM). In healthy rats, intravenously injected nanodroplets primarily accumulated in the organs of the reticuloendothelial system, where the lifetime of the generated ultrasound contrast (<30 min) was compatible with a typical radiotherapy fraction (<5 min). Spontaneous droplet vaporization did not result in significant background signals. Online ultrasound imaging of the liver of droplet-injected rats demonstrated an energy-dependent proton response, which can be tuned by varying the nanodroplet concentration. However, caution is warranted when deciding on the exact nanodroplet dose regimen as a mild physiological response (drop in cardiac rate, granuloma formation) was observed after ADV.Significance.These findings underline the potential of phase-change ultrasound contrast agents forin vivoproton range verification and provide the next step towards eventual clinical applications.

State opioid prescribing laws and associations with radiotherapy delays and radiotherapy completion.

122 Background: In July 2018, Missouri introduced a 7-day limit for initial opioid prescriptions, though there was an exemption for cancer-related pain. However, some worry that the exemptions may be inadequate for patients with cancer who experience cancer-related pain. Since some courses of radiotherapy can cause pain (eg, mucositis, esophagitis), appropriate opioid access is important for helping patients complete radiotherapy in a timely manner, which is associated with oncologic outcomes. Methods: Patients with cancer of all ages treated with radiotherapy from 2018-2019 at a large academic institution in Missouri were identified. More recent data were excluded due to the COVID-19 pandemic and Missouri Medicaid expansion. Trends over time in the proportion of missed/delayed radiotherapy fractions, incomplete radiotherapy courses, and a composite measure of excessive delays (≥5 days) or incomplete course were evaluated in linear and linear probability models. Additional analyses included patients from Illinois, an adjacent state without opioid prescribing legislation, and we subsequently performed difference-in-differences analyses comparing the outcomes from pre- to post- Missouri opioid legislation between the states. We conducted unadjusted analyses as well as analyses adjusted for age, sex, site, radiotherapy modality and fractions, as well as other covariates that could impact access to radiotherapy (ZIP code deprivation, distance from the facility, insurance status, and social work referral for unmet needs). Subgroup analyses focused on patients with head and neck cancer and lung cancer receiving definitive radiotherapy, who are at high risk of radiotherapy-related pain. Results: A total of 2613 and 1518 patients from Missouri and Illinois were identified, respectively. 4.7% of fractions were missed/delayed, 3.7% of patients did not complete treatment, and 8.1% of patients had either an incomplete course or excessive delays. There were no statistically significant increases (ie, worsening) in any outcome in any quarter after opioid policy implementation, and there were significant decreases in the composite outcome in multiple post-policy quarters in both unadjusted and adjusted analyses. In difference-in-differences analyses comparing trends over time with patients from Illinois, there were no significant associations of policy implementation with any of the outcomes. Results were similar in subgroup analyses for patients with head and neck and lung cancers. Conclusions: Missouri legislation limiting opioid prescribing for non-cancer-related pain was not associated with significant changes in a patient’s ability to undergo radiotherapy. Limitations of the study include evaluation of a single center in a single state and the lack of other intermediate outcomes important to patients including access to opioid medication itself, which we will examine in future work.

Response Of Radiation Therapy Between 30 Gy In 10 Fractions Versus 20 Gy In 5 Fractions In The Management Of Bony Metastasis

Background: Bone metastases are a common complication of advanced-stage cancers, particularly affecting patients with lung, breast, and prostate cancers. Palliative radiotherapy is a primary modality used to alleviate pain and improve quality of life. This study aimed to compare the efficacy and toxicity of two radiotherapy fractionation schedules—20 Gy in 5 fractions versus 30 Gy in 10 fractions—in managing bone metastases in a resource-limited setting. Methods: This prospective, quasi-experimental study was conducted at the National Institute of Cancer Research and Hospital in Dhaka, Bangladesh, from July 2014 to December 2014. A total of 60 patients were divided into two arms: Arm A received 20 Gy in 5 fractions, and Arm B received 30 Gy in 10 fractions. Radiological and laboratory investigations were conducted pre- and post-treatment, and toxicity was monitored. Patient responses were assessed using RECIST version 2.0 criteria. Results: Complete response was achieved in 60.00% of Arm A patients and 66.67% of Arm B patients. Partial responses were observed in 36.67% of patients in Arm A and 33.33% in Arm B. Genitourinary toxicity was significantly higher in Arm A (p = 0.003), while skin toxicity resolved in all patients after 3 months. SGPT levels were significantly higher in Arm B both after 1 month (p = 0.001) and 3 months (p = 0.001). Conclusion: Both fractionation schedules were effective in managing bone metastases, with comparable pain relief and response rates. However, toxicity profiles differed, highlighting the importance of individualized treatment planning, especially in resource-limited settings.

Radiotherapy-associated Sensorineural Hearing Loss in Pediatric Oncology Patients.

During the radiotherapeutic treatment of pediatric oncology patients, they would be at a latent risk of developing ionizing radiation-induced ototoxicity when the cochlea or auditory nerve is located within the radiation field. Sensorineural hearing loss (SNHL) is an irreversible late complication of radiotherapy, and its incidence depends on various factors such as the patient's hearing sensitivity, total radiation dose to the cochlea, radiotherapy fractionation regimen, age and chemoradiation. Importantly, this complication exhibits serious challenges to adult survivors of childhood cancer, as it has been linked to impairments in academic achievement, psychosocial development, independent living skills, and employment in the survivor population. Therefore, early detection and proper management can alleviate academic, speech, language, social, and psychological morbidity arising from hearing deficits. In the present review, we have addressed issues such as underlying mechanisms of radiation-induced SNHL, audiometric findings of pediatric cancer patients treated with radiotherapy, and management and protection measures against radiation-induced ototoxicity.

Lymphopenia Induced by Different Neoadjuvant Chemo-Radiotherapy Schedules in Patients with Rectal Cancer: Bone Marrow as an Organ at Risk.

Radiotherapy (RT)-induced lymphopenia may hinder the anti-tumor immune response. Preoperative RT or chemo-RT (CRT) for locally advanced rectal cancer is a standard therapeutic approach, while immunotherapy has been approved for mismatch repair-deficient rectal tumors. We retrospectively analyzed 98 rectal adenocarcinoma patients undergoing neoadjuvant CRT with VMAT (groups A, B, C) or IMRT (group D) techniques, with four different RT schemes: group A (n = 24): 25 Gy/5 Gy/fraction plus a 0.2 Gy/fraction rectal tumor boost; group B (n = 22): 34 Gy/3.4 Gy/fraction, with a 1-week treatment break after the first five RT fractions; group C (n = 20): 46 Gy/2 Gy/fraction plus a 0.2 Gy/fraction rectal tumor boost; group D (n = 32): 45 Gy/1.8 Gy/fraction followed by 5.4 Gy/1.8 Gy/fraction to the rectal tumor. We examined the effect of the time-corrected normalized total dose (NTD-T) to the BM on lymphopenia. Groups A and B (hypofractionated RT) had significantly higher lymphocyte counts (LCs) after RT than groups C and D (p < 0.03). An inverse association between the LCs after RT and NTD-T was demonstrated (p = 0.01). An NTD-T threshold of 30 Gy delivered to 30% of the BM volume emerged as a potential constraint for RT planning, which could be successfully integrated in the RT plan. Hypofractionated and accelerated RT schemes, and BM-sparing techniques may reduce lymphocytic damage and prove critical for immuno-RT clinical trials.

Localized Radiotherapy for Classic Kaposi's Sarcoma: An Analysis of Lesion Characteristics and Treatment Response.

Classic Kaposi's sarcoma (CKS) is a rare malignancy with diverse clinical presentations, lacking a standard treatment. While localized therapies are commonly used for symptomatic lesions, radiotherapy (RT) has demonstrated effectiveness. This study aims to evaluate the efficacy of RT for treating skin lesions in CKS. A retrospective analysis was conducted on patients with KS treated between April 2012 and January 2024. In total, 69 lesions in 16 patients were included. Treatment response was defined as follows: complete response (CR) indicated the absence of clinically detectable skin lesions and symptoms; partial response (PR) was a reduction in lesion height by more than half or a lighter lesion color compared to before treatment. In-field recurrence was the appearance of new lesions within a previously irradiated field. Logistic regression analysis was used to investigate factors influencing response and in-field recurrence. The median follow-up period was 52 months (range, 3-138 months). The overall response rate was 100%, with 92.8% of the patients achieving CR and 7.2% receiving PR. PR was observed in three patients with five lesions, all of which remained stable. In-field recurrence occurred in two patients with initially advanced disease, and all recurrent lesions responded to RT. No variables were significantly associated with response or in-field recurrence. RT for CKS showed a 100% response rate, with complete symptom relief in all cases. The effectiveness of RT was evident, even in cases involving disseminated lesions. Further research is needed to determine the optimal RT dose and fractionation.

Impact of kV-cone beam computed tomography dose on DNA repair mechanisms: A pilot study

PurposeIn head and neck squamous cell carcinoma (HNSCC), early complications of the radiotherapy (RT) are observed from the beginning of the treatment to a few months after its end. During external radiotherapy treatment, several patient-dependent parameters can cause a modification of the dose distribution compared to the planned distribution due to variation in patient positioning, anatomy, or intra-fractional movements for example. To verify these parameters during treatment sessions, one of the most commonly used solutions is the cone-beam computed tomography (CBCT). Nowadays, the use of CBCT may constitutes a significant part of the total dose at the end of treatment (up to 10 cGy per session) and more often the volume irradiated by imaging is larger than the one irradiated by the treatment, leading to unintentional irradiation of nearby organs.In this study, we asked whether the imaging low dose added to a following fraction dose (2Gy) may affect the biological response in terms of DNA repair. Material and methodsUsing an IVInomad dosimeter and scintillating fiber probes specially designed for this exploratory study, we exposed fibroblasts cells from head and neck cancer (HNC) patients to a CBCT dose followed by a radiotherapy fraction dose. DNA double strand breaks and DNA repair were assessed by immunofluorescence using the biomarkers gamma H2AX (γH2AX) and pATM. ResultsThe median dose of CBCT was measured between 17 to 21 mGy per session. The kinetics of both biomarkers were found to be strongly dependent on the individual factor in radiosensitive patients. For HNC patients, a prior CBCT dose applied few minutes before the 2Gy dose may have a sublinear effect on the DNA repair mechanisms and potentially on observed health tissue toxicity. ConclusionThe preliminary results obtained highlight the importance of individual and tissue factors for recognizing and repairing DSB during a treatment by radiotherapy using CBCT.

Is intensive training with atime interval between instruction and planning CT necessary for deep inspiration breath-hold radiotherapy in breast cancer?

Breathing instruction and exercises and atime gap between training and planning CT scans (pCT) is recommended as part of deep inspiration breath-hold (DIBH) assisted radiotherapy (RT). However, this is associated with additional time expenditure. In two of the authors' treatment centers (TC), patient training took place before the planning CT of DIBH-assisted therapy. In TC1, afurther appointment was made with aminimum interval of 2days to perform the planning CT. At TC2, the planning CT was performed immediately after the first patient instruction. Aretrospective evaluation of the clinical parameters of the therapy was carried out to investigate the relevance of the time gap between DIBH exercises and pCT. Atotal of 72patients were included, 35 of whom were treated in TC1 and37 in TC2. In TC1, an average interval of ~4 days was observed between patient training and planning CT, while in TC2, training and CT were performed immediately after each other. No significant differences in radiation dose exposure of the lung on the treated side, the whole lung, or the heart were found between the two centers. Furthermore, there was no significant difference in the application of the daily RT fraction. The requirement for daily positioning checks was also the same at both treatment centers. This study does not show any advantages for atime gap between instruction/training and pCT. Skipping the time break does not deteriorate any clinically relevant endpoints.

Cherenkov imaging combined with scintillation dosimetry provides real-time positional and dose monitoring for radiotherapy patients with cardiac implanted electronic devices

Background and purposeCardiac implanted electronic devices (CIED) require dose monitoring during each fraction of radiotherapy, which can be time consuming and may have delayed read-out times. This study explores the potential of Cherenkov imaging combined with scintillation dosimetry as an alternative verification system. Methods and materialsTime-gated, complementary metal–oxide–semiconductor (iCMOS) cameras were used to collect video images of anthropomorphic phantoms and patients undergoing radiation treatment near chest wall cardiac devices. Scintillator discs and optically stimulated luminescence dosimeters (OSLDs) were used for dose measurement. Accuracy of spatial delivery was assessed by overlaying predicted surface dose outlines derived from the treatment planning system (TPS) with the Cherenkov images. Dose measurements from OSLDs and scintillators were compared. ResultsIn phantom studies, Cherenkov images visibly indicated when dose was delivered to the CIED as compared to non-overlapping dose deliveries. Comparison with dose overlays revealed congruence at the planned position and non-congruence when the phantom was shifted from the initial position. Absolute doses derived from scintillator discs aligned well with the OSLD measurements and TPS predictions for three different positions, measuring within 10 % for in-field positions and within 5 % for out-of-field positions. For two patients with CIEDs imaged over 18 fractions, Cherenkov imaging confirmed positional accuracy for all fractions, and dose measured by scintillator discs deviated by <0.015 Gy from the OSLD measurements. ConclusionsCherenkov imaging combined with scintillation dosimetry presents an alternative methodology for CIED monitoring with the added benefit of instantly detecting deviations, enabling timely corrective actions or proper patient triage.

Conventional chemoradiation versus accelerated chemoradiation: A prospective study in oropharyngeal cancer

Background: Squamous-cell carcinoma of the head and neck is predominantly a loco regional disease, and the primary treatment methods are surgery and radiotherapy. For patients with locally-regionally advanced oropharyngeal cancer, concurrent chemoradiotherapy is the standard treatment. Material and Method: The aim and objectives of study were a) to compare locoregional response in two arms, b) to compare acute and chronic treatment-related toxicities in the two arms, and c) to compare the quality of life. The study was conducted between August 2014 and April 2016, with 86 patients of histologically proven squamous-cell carcinoma of oropharynx. This is a prospective trial to assess the suitability of five versus six weekly radiotherapy fractions, along with concurrent cisplatin, given to the same total dose, in all stages of oropharyngeal cancer patients. Result: Patients were randomized into two arms: conventional arm (Arm A), which received 5 fractions per week RT -70GY/7 weeks/35#, and accelerated arm (Arm B), which received 6 fractions per week RT -70GY/6 weeks/35. Locoregional squamous-cell carcinoma improved significantly in the accelerated fractionation group compared with that in the conventional RT group. Conclusion: Accelerated RT enhances improvement of locoregional control in the squamous-cell carcinoma of head and neck region, with reduction in overall treatment time and concurrent chemotherapy. Locoregional control of carcinoma improved significantly in the accelerated fractionation group compared with that in the conventional RT group.

An “Older Old” Woman with Large Squamous Cell Carcinoma of the Nasal Pyramid: Excellent Response to Ultra-Hypofractionated Radiation Therapy

A 98-year-old patient with cognitive impairment and a history of squamous cell carcinoma of the nasal pyramid was referred to the radiation oncology department of our institution’s hospital given that surgery was not recommended. The lesion was sized 6 × 6 cm, ulcerated, and bleeding; was significantly impairing the patient’s health-related quality of life, causing pain; and was not responsive to analgesics, including opioids. The patient experienced deterioration of her general conditions, with a Karnofsky performance status of 40. A single radiotherapy (RT) fraction was delivered on a weekly basis for 3 weeks, up to a total dose of 21 Gy, using a VMAT technique (7 Gy/fraction). The patient was given three fractions of radiotherapy, during which she received continuous assistance due to episodes of mental disorientation and an altered sense of consciousness. One month after the conclusion of the treatment, the patient exhibited a nearly complete clinical response, with full pain relief and an improved health-related quality of life. This favourable clinical outcome was maintained for a period of four months following the conclusion of RT. A brief review was performed on the role of hypofractionated radiation therapy in elderly patients with locally advanced skin cancer of the head and neck region.

High-dose hyperfractionated simultaneous integrated boost radiotherapy versus standard-dose radiotherapy for limited-stage small-cell lung cancer in China: a multicentre, open-label, randomised, phase 3 trial

For the past 20 years, twice-daily thoracic radiotherapy with concurrent chemotherapy has been the treatment of choice for limited-stage small-cell lung cancer (LS-SCLC), which has a poor prognosis. We aimed to assess the efficacy and safety of high-dose, accelerated, hyperfractionated, twice-daily thoracic radiotherapy (54 Gy in 30 fractions) versus standard-dose radiotherapy (45 Gy in 30 fractions) as a first-line treatment for LS-SCLC. This open-label, randomised, phase 3 trial was performed at 16 public hospitals in China. The key inclusion criteria were patients aged 18-70 years, with histologically or cytologically confirmed LS-SCLC, who had an Eastern Cooperative Oncology Group (ECOG) performance status of 0-1, and who were previously untreated or had received one course of cisplatin or carboplatin and etoposide. Eligible patients were randomly assigned (1:1) to receive volumetric-modulated arc radiotherapy (VMAT) of 45 Gy in 30 fractions to the gross tumour volume or VMAT with a simultaneous integrated boost of 54 Gy in 30 fractions to the gross tumour volume starting 0-42 days after the first chemotherapy course. Both groups received 10 fractions of twice-daily thoracic radiotherapy per week. The planning target volume was 45 Gy in 30 fractions in both groups. Patients with responsive disease received prophylactic cranial radiotherapy (25 Gy in 10 fractions). Randomisation was performed using a centralised interactive web response system, stratified by ECOG performance status, disease stage, previous chemotherapy course, and chemotherapy choice. The primary outcome was overall survival in the intention-to-treat population. Safety was analysed in the as-treated population. This study was registered at ClinicalTrials.gov, NCT03214003. From June 30, 2017, to April 6, 2021, 224 patients (102 [46%] females and 122 [54%] males; median age 64 years [IQR 58-68]) were enrolled and randomly assigned to the 54 Gy group (n=108) or 45 Gy (n=116) group. The median follow-up was 46 months (IQR 33-56). The median overall survival was significantly longer in the 54 Gy group (60·7 months [95% CI 49·2-62·0]) than in the 45 Gy group (39·5 months [27·5-51·4]; hazard ratio 0·55 [95% CI 0·37-0·72]; p=0·003). Treatment was tolerable, and the chemotherapy-related and radiotherapy-related toxicities were similar between the groups. The grade 3-4 radiotherapy toxicities were oesophagitis (14 [13%] of 108 patients in the 54 Gy group vs 14 [12%] of 116 patients in the 45 Gy group; p=0·84) and pneumonitis (five [5%] of 108 patients vs seven [6%] of 116 patients; p=0·663). Only one treatment-related death occurred in the 54 Gy group (myocardial infarction). The study was prematurely terminated by an independent data safety monitoring board on April 30, 2021, based on evidence of sufficient clinical benefit. Compared with standard-dose thoracic radiotherapy (45 Gy), high-dose radiotherapy (54 Gy) improved overall survival without increasing toxicity in a cohort of patients aged 18-70 years with LS-SCLC. Our results support the use of twice-daily accelerated thoracic radiotherapy (54 Gy) with concurrent chemotherapy as an alternative first-line LS-SCLC treatment option. Chinese Society of Clinical Oncology-Linghang Cancer Research, the Wu Jieping Medical Foundation, and Clinical Research Fund For Distinguished Young Scholars of Peking University Cancer Hospital and Beijing Municipal Administration of Hospitals Incubating Program.