Your search keyword '"Brodin N"' showing total 6 results

1. The risk of radiation-induced neurocognitive impairment and the impact of sparing the hippocampus during pediatric proton cranial irradiation.

Author

Gram, Daniel, Brodin, N. Patrik, Björk-Eriksson, Thomas, Nysom, Karsten, and Munck af Rosenschöld, Per

Subjects

*COGNITION disorders, *MEMORY, *HIPPOCAMPUS (Brain), *MILD cognitive impairment, *CANCER chemotherapy, *T-test (Statistics), *PROTONS, *RADIOTHERAPY

Abstract

Hippocampus is a central component for neurocognitive function and memory. We investigated the predicted risk of neurocognitive impairment of craniospinal irradiation (CSI) and the deliverability and effects of hippocampal sparing. The risk estimates were derived from published NTCP models. Specifically, we leveraged the estimated benefit of reduced neurocognitive impairment with the risk of reduced tumor control. For this dose planning study, a total of 504 hippocampal sparing intensity modulated proton therapy (HS-IMPT) plans were generated for 24 pediatric patients whom had previously received CSI. Plans were evaluated with respect to target coverage and homogeneity index to target volumes, maximum and mean dose to OARs. Paired t-tests were used to compare hippocampal mean doses and normal tissue complication probability estimates. The median mean dose to the hippocampus could be reduced from 31.3 GyRBE to 7.3 GyRBE (p <.001), though 20% of these plans were not considered clinically acceptable as they failed one or more acceptance criterion. Reducing the median mean hippocampus dose to 10.6 GyRBE was possible with all plans considered as clinically acceptable treatment plans. By sparing the hippocampus to the lowest dose level, the risk estimation of neurocognitive impairment could be reduced from 89.6%, 62.1% and 51.1% to 41.0% (p <.001), 20.1% (p <.001) and 29.9% (p <.001) for task efficiency, organization and memory, respectively. Estimated tumor control probability was not adversely affected by HS-IMPT, ranging from 78.5 to 80.5% for all plans. We present estimates of potential clinical benefit in terms of neurocognitive impairment and demonstrate the possibility of considerably reducing neurocognitive adverse effects, minimally compromising target coverage locally using HS-IMPT. [ABSTRACT FROM AUTHOR]

Published

2023

2. Volumetric changes of the parotid gland during IMRT based on mid-treatment imaging: implications for parotid stem cell sparing strategies in head and neck cancer.

Author

Gjini, Megi, Ahmed, Sadia, Kalnicki, Shalom, Tomé, Wolfgang A., Garg, Madhur K., Kabarriti, Rafi, and Brodin, N. Patrik

Subjects

STATISTICS, HEAD & neck cancer, REGRESSION analysis, TREATMENT effectiveness, DOSE-response relationship (Radiation), RADIATION doses, STEM cells, XEROSTOMIA, DESCRIPTIVE statistics, PAROTID glands, RADIOTHERAPY, COMPUTED tomography, LOGISTIC regression analysis, RECEIVER operating characteristic curves, DISEASE risk factors

Abstract

To evaluate the change in parotid glands at mid-treatment during IMRT and the association between radiation dose to the parotid gland stem cell (PGSC) region and patient-reported xerostomia for patients with head and neck cancer (HNC). Patients who were treated from 2006–2012 at our institution with patient-reported xerostomia outcomes available at least 9 months following RT were included. PG and PGSC regions were delineated and the dose was estimated from the treatment plan dose distribution, using contours from pre- and mid-treatment CT scans. The association between radiation dose and volumetric changes was assessed using linear regression. Univariable logistic regression, logistic dose-response curves, and receiver operating characteristics (ROC) were used to examine the relationship between radiation dose and patient-reported xerostomia. Sixty-three patients were included, most treated with 70 Gy in 33 fractions; 34 patients had mid-treatment CT scans. Both contralateral and ipsilateral PGs had considerable volume reduction from baseline to mid-treatment (25% and 27%, respectively, both p <.001), significantly associated with mean PG dose (−0.44%/Gy, p =.008 and −0.54%/Gy, p <.001, respectively). There was a > 5 Gy difference in mean PG and PGSC dose for 8/34 patients at mid-treatment, with 6/8 (75%) reporting severe xerostomia. Xerostomia prediction based on whole PG or PGSC region dose showed similar performance (ROC AUC 0.754 and 0.749, respectively). The corresponding dose-response models also predicted similar risk of patient-reported xerostomia with mean dose to the contralateral PG (32.5%) or PGSC region (31.4%) at the 20 Gy QUANTEC-recommended sparing level. The radiation dose to the PGSC region did not show stronger association with patient-reported xerostomia compared to that of whole PG, possibly due to considerable anatomical changes identified at mid-treatment. This shift in the size and position of the PG warrants adaptive planning strategies to evaluate the true benefit of parotid stem cell sparing. [ABSTRACT FROM AUTHOR]

Published

2022

3. Human papillomavirus, radiation dose and survival of patients with anal cancer.

Author

Kabarriti, Rafi, Brodin, N. Patrik, Ohri, Nitin, Narang, Rahul, Huang, Renee, Chuy, Jennifer W., Rajdev, Lakshmi N., Kalnicki, Shalom, Guha, Chandan, and Garg, Madhur K.

Subjects

*PAPILLOMAVIRUS disease diagnosis, *CANCER patients, *CHI-squared test, *CONFIDENCE intervals, *SURVIVAL rate, *RADIATION doses, *DATA analysis software, *ANAL tumors, *DESCRIPTIVE statistics

Abstract

Purpose: To determine if anal cancer patients with HPV positive disease have different overall survival (OS) compared to those with HPV negative disease, and to elucidate differences in the association between radiation dose and OS. Patients and methods: We utilized the National Cancer Database (NCDB) registry to identify a cohort of non-metastatic anal cancer patients treated with curative intent between 2008 and 2014. Propensity score matching was used to account for potential selection bias between patients with HPV positive and negative disease. Multivariable Cox regression was used to determine the association between HPV status and OS. Kaplan–Meier methods were used to compare actuarial survival estimates. Results: We identified 5927 patients with tumor HPV status for this analysis, 3523 (59.4%) had HPV positive disease and 2404 (40.6%) had HPV negative disease. Propensity-matched analysis demonstrated that patients with HPV positive locally advanced (T3–4 or node positive) anal cancer had better OS (HR = 0.81 (95%CI: 0.68–0.96), p=.018). For patients with early stage disease (T1–2 and node negative) there was no difference in OS (HR = 1.11 (95%CI: 0.86–1.43), p=.43). In the unmatched cohort, we found a significant improvement in OS with increasing radiation dose only for patients with locally advanced, HPV negative disease (p<.001). In those patients, significant improvement in OS compared to the group receiving 30–45 Gy was seen for increasing doses up to 55–60 Gy, but not beyond 60 Gy. Conclusion: We found HPV to be a significant prognostic marker in anal tumors, especially for locally advanced disease. We further found that higher radiation dose up to 55–60 Gy was associated with better OS, but only for patients with locally advanced, HPV negative disease. [ABSTRACT FROM AUTHOR]

Published

2019

4. A treatment planning and delivery comparison of volumetric modulated arc therapy with or without flattening filter for gliomas, brain metastases, prostate, head/neck and early stage lung cancer.

Author

Gasic, Daniel, Ohlhues, Lars, Brodin, N. Patrik, Fog, Lotte S., Pommer, Tobias, Bangsgaard, Jens P., and Munck af Rosenschöld, Per

Subjects

RADIOTHERAPY, BRAIN tumors, COMPARATIVE studies, GLIOMAS, HEAD tumors, LUNG tumors, NECK tumors, HEALTH outcome assessment, RADIATION doses, STATISTICS, TIME, DATA analysis, TREATMENT effectiveness, DESCRIPTIVE statistics

Abstract

Background. Flattening filter-free (FFF) beams are an emerging technology that has not yet been widely implemented as standard practice in radiotherapy centers. To facilitate the clinical implementation of FFF, we attempted to elucidate the difference in plan quality and treatment delivery time compared to flattening filter beams (i.e. standard, STD) for several patient groups. We hypothesize that the treatment plan quality is comparable while the treatment delivery time of volumetric modulated arc therapy (VMAT) is considerably shorter using FFF beams, especially for stereotactic treatments. Methods. A total of 120 patients treated for head and neck (H&N) tumors, high-grade glioma, prostate cancer, early stage lung cancer and intra-cranial metastatic disease (both single and multiple metastases) were included in the study. For each cohort, 20 consecutive patients were selected. The plans were generated using STD- and FFF-VMAT for both 6 MV and 10 MV, and were compared with respect to plan quality, monitor units and delivery time using Wilcoxon signed rank tests. Results. For H&N and high-grade gliomas, there was a significant difference in homogeneity index in favor for STD-VMAT (p < 0.001). For the stereotactic sites there were no differences in plan conformity. Stereotactic FFF-VMAT plans required significantly shorter delivery time compared to STD-VMAT plans (p < 0.001) for higher dose per fraction, on average 54.5% for 6 MV and 71.4% for 10 MV. FFF-VMAT generally required a higher number of MU/Gy (p < 0.001), on average 7.0% for 6 MV and 8.4% for 10 MV. Conclusion. It was generally possible to produce FFF-VMAT plans with the same target dose coverage and doses to organs at risk as STD-VMAT plans. Target dose homogeneity tended to be somewhat inferior for FFF-VMAT for the larger targets investigated. For stereotactic radiotherapy, FFF-VMAT resulted in a considerable time gain while maintaining similar plan quality compared to STD beams. [ABSTRACT FROM AUTHOR]

Published

2014

5. Optimizing the radiation therapy dose prescription for pediatric medulloblastoma: Minimizing the life years lost attributable to failure to control the disease and late complication risk.

Author

Brodin, N. Patrik, Vogelius, Ivan R., Björk-Eriksson, Thomas, Munck af Rosenschöld, Per, Maraldo, Maja V., Aznar, Marianne C., Specht, Lena, and Bentzen, Søren M.

Subjects

*CONFIDENCE intervals, *GLIOMAS, *LIFE expectancy, *DOSE-response relationship (Radiation), *RADIATION doses, *RADIOTHERAPY, *RESEARCH funding, *RISK assessment, *SURVIVAL analysis (Biometry), *TUMORS in children, *STATISTICAL models, *DESCRIPTIVE statistics, *DISEASE complications

Abstract

Background. A mathematical framework is presented for simultaneously quantifying and evaluating the trade-off between tumor control and late complications for risk-based radiation therapy (RT) decision-support. To demonstrate this, we estimate life years lost (LYL) attributable to tumor recurrence, late cardiac toxicity and secondary cancers for standard-risk pediatric medulloblastoma (MB) patients and compare the effect of dose re-distribution on a common scale. Methods. Total LYL were derived, based on the LYL attributable to radiation-induced late complications and the LYL from not controlling the primary disease. We compared the estimated LYL for three different treatments in 10 patients: 1) standard 3D conformal RT; 2) proton therapy; 3) risk-adaptive photon treatment lowering the dose to part of the craniospinal (CS) target volume situated close to critical risk organs. Results. Late toxicity is important, with 0.75 LYL (95% CI 0.60-7.2 years) for standard uniform 24 Gy CS irradiation. However, recurrence risk dominates the total LYL with 14.2 years (95% CI 13.4-16.6 years). Compared to standard treatment, a risk-adapted strategy prescribing 12 Gy to the spinal volume encompassing the 1st-10th thoracic vertebrae (Th1-Th10), and 36 Gy to the remaining CS volume, estimated a LYL reduction of 0.90 years (95% CI -0.18-2.41 years). Proton therapy with 36 Gy to the whole CS volume was associated with significantly fewer LYL compared to the risk-adapted photon strategies, with a mean LYL difference of 0.50 years (95% CI 0.25-2.60 years). Conclusions. Optimization of RT prescription strategies considering both late complications and the risk of recurrence, an all-cause mortality dose painting approach, was demonstrated. The risk-adapted techniques compared favorably to the standard, and although in this context, the gain is small compared to estimated uncertainty, this study demonstrates a framework for all-cause mortality risk estimation, rather than evaluates direct clinical applicability of risk-adapted strategies. [ABSTRACT FROM AUTHOR]

Published

2014

6. Radiobiological risk estimates of adverse events and secondary cancer for proton and photon radiation therapy of pediatric medulloblastoma.

Author

Brodin, N. Patrik, Rosenschööld, Per Munck AF, Aznar, Marianne C., Kiil-Berthelsen, Anne, Vogelius, Ivan R., Nilsson, Per, Lannering, Birgitta, and Bjöörk-Eriksson, Thomas

Subjects

*PROTON therapy, *ACADEMIC medical centers, *ANALYSIS of variance, *COMPARATIVE studies, *GLIOMAS, *DOSE-response relationship (Radiation), *PROTONS, *RADIATION doses, *RADIATION carcinogenesis, *RADIOTHERAPY, *RESEARCH funding, *RISK assessment

Abstract

Introduction. The aim of this model study was to estimate and compare the risk of radiation-induced adverse late effects in pediatric patients with medulloblastoma (MB) treated with either three-dimensional conformal radiotherapy (3D CRT), inversely-optimized arc therapy (RapidArc®® (RA)) or spot-scanned intensity-modulated proton therapy (IMPT). The aim was also to find dose-volume toxicity parameters relevant to children undergoing RT to be used in the inverse planning of RA and IMPT, and to use in the risk estimations. Material and methods. Treatment plans were created for all three techniques on 10 pediatric patients that have been treated with craniospinal irradiation (CSI) at our institution in 2007--2009. Plans were generated for two prescription CSI doses, 23.4 Gy and 36 Gy. Risk estimates were based on childhood cancer survivor data when available and secondary cancer (SC) risks were estimated as a function of age at exposure and attained age according to the organ-equivalent dose (OED) concept. Results. Estimates of SC risk was higher for the RA plans and differentiable from the estimates for 3D CRT at attained ages above 40 years. The risk of developing heart failure, hearing loss, hypothyroidism and xerostomia was highest for the 3D CRT plans. The risks of all adverse effects were estimated as lowest for the IMPT plans, even when including secondary neutron (SN) irradiation with high values of the neutron radiation weighting factors (WRneutron). Conclusions. When comparing RA and 3D CRT treatment for pediatric MB it is a matter of comparing higher SC risk against higher risks of non-cancer adverse events. Considering time until onset of the different complications is necessary to fully assess patient benefit in such a comparison. The IMPT plans, including SN dose contribution, compared favorably to the photon techniques in terms of all radiobiological risk estimates. [ABSTRACT FROM AUTHOR]

Published

2011