Your search keyword '"pediatric radiation oncology"' showing total 20 results

1. A Pilot Clinical and Technical Validation of an Immersive Virtual Reality Platform for 3D Anatomical Modeling and Contouring in Support of Surgical and Radiation Oncology Treatment Planning

Author

Belec, Jason, Sutherland, Justin, Volpini, Matthew, Rakhra, Kawan, Granville, Dal, La Russa, Dan, Flaxman, Teresa, De Oliveira, Eduardo Portela, Glikstein, Rafael, dos Santos, Marlise P, Werier, Joel, MacPherson, Miller, Aviv, Richard I, and Nair, Vimoj

Published

2024

2. Increasing pediatric radiation oncology capacity in sub-saharan Africa using technology: a pilot of a pediatric radiation oncology virtual training course

Author

Adedayo O. Joseph, Adeseye M. Akinsete, Azeezat O. Ajose, Aishat T. Oladipo, Adeola Maliki, Korede Akindele, Michelle Mangongolo, Samuel Adeneye, and Wilfred Ngwa

Subjects

Medical Education, Pediatric Radiation Oncology, Pediatric Cancer, Africa, Virtual training, Technology, Special aspects of education, LC8-6691, Medicine

Abstract

Abstract Background The shortage of skilled healthcare professionals in pediatric oncology and the limited access to training programs remain significant challenges in Nigeria and sub-Saharan Africa. The the Pediatric Radiation Oncology (Virtual) Course, ‘PedROC’ project aims to contribute to improving pediatric cancer outcomes in Nigeria by increasing the capacity of radiation oncology professionals. To address the gap in access to pediatric radiation oncology professional development, the PedROC project was created, harnessing technology to improve radiation oncology training via a curriculum delivered through web-conferencing. This study aimed to evaluate the effectiveness of the PedROC pilot in enhancing the capacity, confidence, and skill of radiation oncologists in decision-making, prescribing, and treatment planning of radiotherapy for children diagnosed with cancer. Methods A multidisciplinary faculty of specialists in radiation oncology, pediatric oncology, oncology nursing, radiation therapy technology, and medical physics collaborated to identify the key learning needs in pediatric radiation oncology in the country. The team collaborated to develop a comprehensive curriculum covering the most common pediatric cancers in sub-Saharan Africa for the training program. The training course was conducted over two days, delivering twenty-four half-hour sessions for a total of 12 h, from July 31 to August 01, 2021. Results Analysis of pre and post - training surveys showed a significant increase in self-reported confidence measures across all domains among radiation oncologists. The program successfully improved participants’ knowledge and confidence levels in managing common pediatric cancers using radiotherapy, particularly addressing radiotherapy-specific issues such as appropriate dose, target volume delineation, treatment planning, dose constraints, and plan evaluation. Conclusion The PedROC pilot showed the efficacy of this model in enhancing the capacity and confidence of radiation oncology professionals involved in the treatment of pediatric cancer. The findings indicate that technology holds significant potential to increase pediatric radiation oncology capacity in Africa, ensuring improved access to proper treatment and ultimately improving pediatric cancer outcomes.

Published

2024

3. Increasing pediatric radiation oncology capacity in sub-saharan Africa using technology: a pilot of a pediatric radiation oncology virtual training course

Author

Joseph, Adedayo O., Akinsete, Adeseye M., Ajose, Azeezat O., Oladipo, Aishat T., Maliki, Adeola, Akindele, Korede, Mangongolo, Michelle, Adeneye, Samuel, and Ngwa, Wilfred

Published

2024

4. In vivo dosimetry of total body irradiation patients: A 10 year retrospective analysis.

Author

Carminati, S., Trivellato, S., Ingraito, C., Montanari, G., Morzenti, S., Paruccini, N., Panizza, D., Villa, R., Tremolada, V., Julita, C., Arcangeli, S., and De Ponti, E.

Abstract

• Total Body Irradiation in-vivo dosimetry data over 10 years were analyzed. • Monitor Units' median percentage difference from planned was limited. • Median percentage dose difference at six anatomical locations was inside 10 % range. • The neck region showed the highest dosimetric differences from planned. • In-vivo dosimetry omission impact was evaluated, leading to interesting results. Myeloablative Total Body Irradiation (TBI) used in our Institution, as part of the conditioning scheme for haematopoietic stem cell transplantation, is an extended-distance supine technique that has been implemented using a 15 MV LINAC beam, lead lung compensators, PMMA, and water bolus to improve homogeneity. This study reviews in-vivo dosimetry (IVD) over 10 years of treatments, assessing the technique's robustness, accuracy, and efficiency. A 2-lateral opposite fields plan was calculated from planning CT with validated Oncentra TPS (Elekta AB, Sweden). Monitor units (MUs), lung compensators shape and thickness were calculated to deliver the prescription dose (12 Gy in 6 bi-daily fractions or 9.9 Gy in 3 daily fractions) to the patient's abdomen midline at the umbilical level, maintaining lung dose within ±5 % range of prescription. Data from 103 patients, of which more than 87 % were pediatric, were retrieved and analyzed for a total of 537 treatment fractions. The impact of IVD omission was evaluated, supposing doing it only once or in the first two fractions, if necessary. Median ΔMU from planned was −1.2 %. Median percentage dose deviation from prescription in 6 anatomical regions was below 2 %. IVD omission could have resulted in an increase of 7 patients registering at least one anatomical region outside the ±5 % dose range at the end of treatment. It is possible to confirm the implemented technique's robustness and accuracy in delivering the prescribed dose under IVD monitoring. Nevertheless, this technique and associated IVD are time-consuming and IVD omission could be assessed with limited drawbacks. [ABSTRACT FROM AUTHOR]

Published

2024

5. Adaptive Proton Therapy of Pediatric Head and Neck Cases Using MRI-Based Synthetic CTs: Initial Experience of the Prospective KiAPT Study.

Author

Bäumer, Christian, Frakulli, Rezarta, Kohl, Jessica, Nagaraja, Sindhu, Steinmeier, Theresa, Worawongsakul, Rasin, and Timmermann, Beate

Subjects

*HEAD & neck cancer diagnosis, *HEAD & neck cancer treatment, *DIGITAL image processing, *RHABDOMYOSARCOMA, *PEDIATRICS, *MAGNETIC resonance imaging, *PROTON therapy, *RADIATION doses, *COMPUTED tomography, *SKULL tumors, *RADIATION dosimetry

Abstract

Simple Summary: Radiation therapy with protons facilitates highly conformal dose distributions. Thus, normal tissue can be spared effectively, which is a benefit, especially for children. Magnetic resonance imaging (MRI) is ideally suited to assess anatomical changes during the radiation course due to its superior soft tissue contrast and non-existent X-ray exposure. The MRI data have to be transformed to X-ray computed tomography (CT) images, which form the basis of treatment planning. This is conducted by capturing anatomical deformations between MRIs acquired at different times and by warping the planning CT according to these deformations. This procedure was applied in a prospective study enrolling pediatric head and neck cases. The preliminary evaluation of eleven patients with mainly rhabdomyosarcoma diagnosis and at craniofacial and base of skull tumor sites show that neither the deterioration of the target volume coverage nor an increased dose to organs-at-risk over the treatment course is a concern. Background and Purpose: Interfractional anatomical changes might affect the outcome of proton therapy (PT). We aimed to prospectively evaluate the role of Magnetic Resonance Imaging (MRI) based adaptive PT for children with tumors of the head and neck and base of skull. Methods: MRI verification images were acquired at half of the treatment course. A synthetic computed tomography (CT) image was created using this MRI and a deformable image registration (DIR) to the reference MRI. The methodology was verified with in-silico phantoms and validated using a clinical case with a shrinking cystic hygroma on the basis of dosimetric quantities of contoured structures. The dose distributions on the verification X-ray CT and on the synthetic CT were compared with a gamma-index test using global 2 mm/2% criteria. Results: Regarding the clinical validation case, the gamma-index pass rate was 98.3%. Eleven patients were included in the clinical study. The most common diagnosis was rhabdomyosarcoma (73%). Craniofacial tumor site was predominant in 64% of patients, followed by base of skull (18%). For one individual case the synthetic CT showed an increase in the median D 2 and D max dose on the spinal cord from 20.5 GyRBE to 24.8 GyRBE and 14.7 GyRBE to 25.1 GyRBE, respectively. Otherwise, doses received by OARs remained relatively stable. Similarly, the target volume coverage seen by D 95 % and V 95 % remained unchanged. Conclusions: The method of transferring anatomical changes from MRIs to a synthetic CTs was successfully implemented and validated with simple, commonly available tools. In the frame of our early results on a small cohort, no clinical relevant deterioration for neither PTV coverage nor an increased dose burden to OARs occurred. However, the study will be continued to identify a pediatric patient cohort, which benefits from adaptive treatment planning. [ABSTRACT FROM AUTHOR]

Published

2022

6. Postsurgical geometrical variations of tumor bed and brainstem during photon and proton therapy for pediatric tumors of the posterior fossa: dosimetric impact and predictive factors.

Author

Volpe, Stefania, Bondiau, Pierre-Yves, Claude, Line, Claren, Audrey, Padovani, Laetitia, AlGhamdi, Hamza, Duhil De Benaze, Gwenaëlle, Opitz, Lucas, Baudin, Guillaume, Dejean, Catherine, Maneval, Daniel, Jereczek-Fossa, Barbara Alicja, and Doyen, Jérôme

Abstract

Purpose: Brainstem radionecrosis is an important issue during the irradiation of tumors of the posterior fossa. The aim of the present study is to analyze postsurgical geometrical variations of tumor bed (TB) and brainstem (BS) and their impact on dosimetry. Methods: Retrospective collection of data from pediatric patients treated at a single institution. Availability of presurgical magnetic resonance imaging (MRI) was verified; availability of at least two postsurgical MRIs was considered a further inclusion criterion. The following metrics were analyzed: total volume, Dice similarity coefficient (DSC), and Haudsdorff distances (HD). Results: Fourteen patients were available for the quantification of major postsurgical geometrical variations of TB. DSC, HD max, and HD average values were 0.47 (range: 0.08;0.76), 11.3 mm (7.7;24.5), and 2.6 mm (0.7;6.7) between the first and the second postoperative MRI, respectively. Postsurgical geometrical variations of the BS were also observed. Coverage to the TB was reduced in one patient (D95: −2.9 Gy), while D2 to the BS was increased for the majority of patients. Overall, predictive factors for significant geometrical changes were presurgical gross tumor volume (GTV) > 33 mL, hydrocephaly at diagnosis, Luschka foramen involvement, and younger age (≤ 8 years). Conclusion: Major volume changes were observed in this cohort, with some dosimetric impact. The use of a recent co-registration MRI is advised. The 2–3 mm HD average observed should be considered in the planning target volume/planning organ at risk volume (PTV/PRV) margin and/or robust optimization planning. Results from wider efforts are needed to verify our findings. [ABSTRACT FROM AUTHOR]

Published

2021

7. Proton Beam Therapy for Children With Neuroblastoma: Experiences From the Prospective KiProReg Registry

Author

Danny Jazmati, Sarina Butzer, Barbara Hero, Dalia Ahmad Khalil, Julien Merta, Christian Bäumer, Gina Plum, Jörg Fuchs, Friederike Koerber, Theresa Steinmeier, Sarah Peters, Jerome Doyen, Theresa Thole, Matthias Schmidt, Christoph Blase, Stephan Tippelt, Angelika Eggert, Rudolf Schwarz, Thorsten Simon, and Beate Timmermann

Subjects

neuroblastoma, proton beam therapy (PBT), radiotherapy—adverse effects, pediatric radiation oncology, childhood cancer, retroperitoneal tumor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

ObjectiveRadiotherapy (RT) is an integral part of the interdisciplinary treatment of patients with high-risk neuroblastoma (NB). With the continuous improvements of outcome, the interest in local treatment strategies that reduce treatment-related side effects while achieving optimal oncological results is growing. Proton beam therapy (PBT) represents a promising alternative to conventional photon irradiation with regard to the reduction of treatment burden.MethodRetrospective analysis of children with high or intermediate risk NB receiving PBT of the primary tumor site during first-line therapy between 2015 and 2020 was performed. Data from the prospective in-house registry Standard Protonentherapie WPE – Kinder- (KiProReg) with respect to tumor control and treatment toxicity were analyzed. Adverse events were classified according to CTCAE Version 4 (V4.0) before, during, and after PBT.ResultsIn total, 44 patients (24 male, 20 female) with high (n = 39) or intermediate risk NB (n = 5) were included in the analysis. Median age was 3.4 years (range, 1.4–9.9 years). PBT doses ranged from 21.0 to 39.6 Gray (Gy) (median 36.0 Gy). Five patients received PBT to the MIBG-avid residual at the primary tumor site at time of PBT according to the NB-2004 protocol. In 39 patients radiation was given to the pre-operative tumor bed with or without an additional boost in case of residual tumor. After a median follow-up (FU) of 27.6 months, eight patients developed progression, either local recurrence (n = 1) or distant metastases (n = 7). Four patients died due to tumor progression. At three years, the estimated local control, distant metastatic free survival, progression free survival, and overall survival was 97.7, 84.1, 81.8, and 90.9%, respectively. During radiation, seven patients experienced higher-grade (CTCAE ≥ °3) hematologic toxicity. No other higher grade acute toxicity occurred. After PBT, one patient developed transient myelitis while receiving immunotherapy. No higher grade long-term toxicity was observed up to date.ConclusionPBT was a well tolerated and effective local treatment in children with high and intermediate risk NB. The role of RT in an intensive multidisciplinary treatment regimen remains to be studied in the future in order to better define timing, doses, target volumes, and general need for RT in a particularly sensitive cohort of patients.

Published

2021

8. Proton Beam Therapy for Children With Neuroblastoma: Experiences From the Prospective KiProReg Registry.

Author

Jazmati, Danny, Butzer, Sarina, Hero, Barbara, Ahmad Khalil, Dalia, Merta, Julien, Bäumer, Christian, Plum, Gina, Fuchs, Jörg, Koerber, Friederike, Steinmeier, Theresa, Peters, Sarah, Doyen, Jerome, Thole, Theresa, Schmidt, Matthias, Blase, Christoph, Tippelt, Stephan, Eggert, Angelika, Schwarz, Rudolf, Simon, Thorsten, and Timmermann, Beate

Subjects

PROTON therapy, NEUROBLASTOMA, PROGRESSION-free survival, CANCER patients, TUMOR treatment, PATIENTS' attitudes, CANCER invasiveness

Abstract

Objective: Radiotherapy (RT) is an integral part of the interdisciplinary treatment of patients with high-risk neuroblastoma (NB). With the continuous improvements of outcome, the interest in local treatment strategies that reduce treatment-related side effects while achieving optimal oncological results is growing. Proton beam therapy (PBT) represents a promising alternative to conventional photon irradiation with regard to the reduction of treatment burden. Method: Retrospective analysis of children with high or intermediate risk NB receiving PBT of the primary tumor site during first-line therapy between 2015 and 2020 was performed. Data from the prospective in-house registry Standard Protonentherapie WPE – Kinder- (KiProReg) with respect to tumor control and treatment toxicity were analyzed. Adverse events were classified according to CTCAE Version 4 (V4.0) before, during, and after PBT. Results: In total, 44 patients (24 male, 20 female) with high (n = 39) or intermediate risk NB (n = 5) were included in the analysis. Median age was 3.4 years (range, 1.4–9.9 years). PBT doses ranged from 21.0 to 39.6 Gray (Gy) (median 36.0 Gy). Five patients received PBT to the MIBG-avid residual at the primary tumor site at time of PBT according to the NB-2004 protocol. In 39 patients radiation was given to the pre-operative tumor bed with or without an additional boost in case of residual tumor. After a median follow-up (FU) of 27.6 months, eight patients developed progression, either local recurrence (n = 1) or distant metastases (n = 7). Four patients died due to tumor progression. At three years, the estimated local control, distant metastatic free survival, progression free survival, and overall survival was 97.7, 84.1, 81.8, and 90.9%, respectively. During radiation, seven patients experienced higher-grade (CTCAE ≥ °3) hematologic toxicity. No other higher grade acute toxicity occurred. After PBT, one patient developed transient myelitis while receiving immunotherapy. No higher grade long-term toxicity was observed up to date. Conclusion: PBT was a well tolerated and effective local treatment in children with high and intermediate risk NB. The role of RT in an intensive multidisciplinary treatment regimen remains to be studied in the future in order to better define timing, doses, target volumes, and general need for RT in a particularly sensitive cohort of patients. [ABSTRACT FROM AUTHOR]

Published

2021

9. Future Directions

Author

Merchant, Thomas E., Kortmann, Rolf-Dieter, Reaman, Gregory H., Series Editor, Smith, Franklin O., Series Editor, Merchant, Thomas E., editor, and Kortmann, Rolf-Dieter, editor

Published

2018

10. Adaptive Proton Therapy of Pediatric Head and Neck Cases Using MRI-Based Synthetic CTs : Initial Experience of the Prospective KiAPT Study

Author

Christian Bäumer, Rezarta Frakulli, Jessica Kohl, Sindhu Nagaraja, Theresa Steinmeier, Rasin Worawongsakul, and Beate Timmermann

Subjects

Cancer Research, proton therapy, pediatric radiation oncology, adaptive radiation therapy, MRI-guided radiation therapy, head-and-neck tumors, synthetic CTs, Oncology, Medizin, proton therapy -- pediatric radiation oncology -- adaptive radiation therapy -- MRI-guided radiation therapy -- head-and-neck tumors -- synthetic CTs, ddc:610, Medizinische Fakultät » Universitätsklinikum Essen » Westdeutsches Protonentherapiezentrum (WPE), Medizinische Fakultät » Universitätsklinikum Essen » Westdeutsches Tumorzentrum Essen (WTZ)

Abstract

OA Förderung 2022 Background and Purpose: Interfractional anatomical changes might affect the outcome of proton therapy (PT). We aimed to prospectively evaluate the role of Magnetic Resonance Imaging (MRI) based adaptive PT for children with tumors of the head and neck and base of skull. Methods: MRI verification images were acquired at half of the treatment course. A synthetic computed tomography (CT) image was created using this MRI and a deformable image registration (DIR) to the reference MRI. The methodology was verified with in-silico phantoms and validated using a clinical case with a shrinking cystic hygroma on the basis of dosimetric quantities of contoured structures. The dose distributions on the verification X-ray CT and on the synthetic CT were compared with a gamma-index test using global 2 mm/2% criteria. Results: Regarding the clinical validation case, the gamma-index pass rate was 98.3%. Eleven patients were included in the clinical study. The most common diagnosis was rhabdomyosarcoma (73%). Craniofacial tumor site was predominant in 64% of patients, followed by base of skull (18%). For one individual case the synthetic CT showed an increase in the median D2 and Dmax dose on the spinal cord from 20.5 GyRBE to 24.8 GyRBE and 14.7 GyRBE to 25.1 GyRBE, respectively. Otherwise, doses received by OARs remained relatively stable. Similarly, the target volume coverage seen by D95% and V95% remained unchanged. Conclusions: The method of transferring anatomical changes from MRIs to a synthetic CTs was successfully implemented and validated with simple, commonly available tools. In the frame of our early results on a small cohort, no clinical relevant deterioration for neither PTV coverage nor an increased dose burden to OARs occurred. However, the study will be continued to identify a pediatric patient cohort, which benefits from adaptive treatment planning.

Published

2022

11. A prospective study of cerebral, frontal lobe, and temporal lobe volumes and neuropsychological performance in children with primary brain tumors treated with cranial radiation.

Author

Agbahiwe, Harold, Rashid, Arif, Horska, Alena, Mahone, E. Mark, Lin, Doris, McNutt, Todd, Cohen, Kenneth, Redmond, Kristin, Wharam, Moody, and Terezakis, Stephanie

Subjects

*FRONTAL lobe, *TEMPORAL lobe, *BRAIN tumor treatment, *RADIOTHERAPY, *RADIOTHERAPY complications, *PEDIATRIC radiology, *MAGNETIC resonance imaging of the brain

Abstract

Background: Cranial radiation therapy (RT) is an important component in the treatment of pediatric brain tumors. However, it can result in long-term effects on the developing brain. This prospective study assessed the effects of cranial RT on cerebral, frontal lobe, and temporal lobe volumes and their correlation with higher cognitive functioning.Methods: Ten pediatric patients with primary brain tumors treated with cranial RT and 14 age- and sex-matched healthy children serving as controls were evaluated. Quantitative magnetic resonance imaging and neuropsychological assessments (language, memory, auditory and visual processing, and vocabulary) were performed at the baseline and 6, 15, and 27 months after RT. The effects of age, the time since RT, and the cerebral RT dose on brain volumes and neuropsychological performance were analyzed with linear mixed effects model analyses.Results: Cerebral volume increased significantly with age in both groups (P = .01); this increase in volume was more pronounced in younger children. Vocabulary performance was found to be significantly associated with a greater cerebral volume (P = .05) and a lower RT dose (P = .003). No relation was observed between the RT dose and the cerebral volume. There was no difference in the corresponding neuropsychological tests between the 2 groups.Conclusions: This prospective study found significant relations among the RT dose, cerebral volumes, and rate of vocabulary development among children receiving RT. The results of this study provide further support for clinical trials aimed at reducing cranial RT doses in the pediatric population. Cancer 2017;161-168. © 2016 American Cancer Society. [ABSTRACT FROM AUTHOR]

Published

2017

12. Incorporating a compact proton therapy unit into an existing National Cancer Institute-designated comprehensive cancer center.

Author

Mansur, David B

Abstract

Proton beams offer specific dosimetric advantages for radiation therapy. Their depth-dose relationship is characterized by the Bragg peak beyond which no dose is deposited. The elimination of exit dose for passively scattered proton beams results in greatly reduced low and intermediate doses to distant uninvolved normal tissues, but little or no difference in conformality of higher prescription doses immediately surrounding the targeted tissue. This approach is highly desirable in certain clinical scenarios such as the treatment of pediatric patients with curable malignancies for whom protons will theoretically reduce the risk of treatment related late effects. However, typical proton facilities are too large to be well integrated into most existing urban cancer centers where space is at a premium. The use of a new compact proton facility can more feasibly be incorporated into existing medical center space. In addition, they are associated with much lower cost than the typical mega-facility. The smaller capacity of this type of proton facility is quite reasonable as long as this limited and relatively expensive technology is reserved for those patients who stand to benefit the most. [ABSTRACT FROM AUTHOR]

Published

2014

13. Proton Beam Therapy for Children With Neuroblastoma: Experiences From the Prospective KiProReg Registry

Author

Danny, Jazmati, Sarina, Butzer, Barbara, Hero, Dalia, Ahmad Khalil, Julien, Merta, Christian, Bäumer, Gina, Plum, Jörg, Fuchs, Friederike, Koerber, Theresa, Steinmeier, Sarah, Peters, Jerome, Doyen, Theresa, Thole, Matthias, Schmidt, Christoph, Blase, Stephan, Tippelt, Angelika, Eggert, Rudolf, Schwarz, Thorsten, Simon, and Beate, Timmermann

Subjects

neuroblastoma, Oncology, proton beam therapy (PBT), childhood cancer, radiotherapy—adverse effects, pediatric radiation oncology, retroperitoneal tumor, survival, Original Research

Abstract

Objective Radiotherapy (RT) is an integral part of the interdisciplinary treatment of patients with high-risk neuroblastoma (NB). With the continuous improvements of outcome, the interest in local treatment strategies that reduce treatment-related side effects while achieving optimal oncological results is growing. Proton beam therapy (PBT) represents a promising alternative to conventional photon irradiation with regard to the reduction of treatment burden. Method Retrospective analysis of children with high or intermediate risk NB receiving PBT of the primary tumor site during first-line therapy between 2015 and 2020 was performed. Data from the prospective in-house registry Standard Protonentherapie WPE – Kinder- (KiProReg) with respect to tumor control and treatment toxicity were analyzed. Adverse events were classified according to CTCAE Version 4 (V4.0) before, during, and after PBT. Results In total, 44 patients (24 male, 20 female) with high (n = 39) or intermediate risk NB (n = 5) were included in the analysis. Median age was 3.4 years (range, 1.4–9.9 years). PBT doses ranged from 21.0 to 39.6 Gray (Gy) (median 36.0 Gy). Five patients received PBT to the MIBG-avid residual at the primary tumor site at time of PBT according to the NB-2004 protocol. In 39 patients radiation was given to the pre-operative tumor bed with or without an additional boost in case of residual tumor. After a median follow-up (FU) of 27.6 months, eight patients developed progression, either local recurrence (n = 1) or distant metastases (n = 7). Four patients died due to tumor progression. At three years, the estimated local control, distant metastatic free survival, progression free survival, and overall survival was 97.7, 84.1, 81.8, and 90.9%, respectively. During radiation, seven patients experienced higher-grade (CTCAE ≥ °3) hematologic toxicity. No other higher grade acute toxicity occurred. After PBT, one patient developed transient myelitis while receiving immunotherapy. No higher grade long-term toxicity was observed up to date. Conclusion PBT was a well tolerated and effective local treatment in children with high and intermediate risk NB. The role of RT in an intensive multidisciplinary treatment regimen remains to be studied in the future in order to better define timing, doses, target volumes, and general need for RT in a particularly sensitive cohort of patients.

Published

2020

14. Training and education of pediatric radiation oncologists:A survey from the 2019 Pediatric Radiation Oncology Society meeting

Author

Geert O. Janssens, Rolf Dieter-Kortmann, Natia Esiashvili, Anita Mahajan, Klaus Seiersen, Jeannette Parkes, Christian Carrie, Edward C. Halperin, Karin Dieckmann, Susan Awrey, Suzanne L. Wolden, Arnold C. Paulino, and Karen J. Marcus

Subjects

Male, medicine.medical_specialty, Attitude of Health Personnel, medicine.medical_treatment, education, Pediatrics, 03 medical and health sciences, 0302 clinical medicine, Continuing medical education, Neoplasms, Surveys and Questionnaires, Radiation oncology, Medicine, Humans, Medical physics, survey, Ct simulation, Child, training, business.industry, Radiation Oncologists, Hematology, Clinical Practice, Radiation therapy, Oncology, 030220 oncology & carcinogenesis, Pediatrics, Perinatology and Child Health, Radiation Oncology, Education, Medical, Continuing, Female, Heavy particle, business, Training program, Intraoperative radiotherapy, pediatric radiation oncology, 030215 immunology

Abstract

To examine the educational background, clinical practice, and preferences regarding continuing medical education (CME) among radiation oncologists who attended the 2019 meeting of the Pediatric Radiation Oncology Society (PROS), a survey consisting of 20 questions was distributed asking for demographic and educational background, clinical practice, and preferences regarding pediatric radiation oncology CME. Of 188 participants, 130 (69.2%) returned the questionnaire. More than 80% reported access to CT simulation, three-dimensional radiotherapy, and general anesthesia while

Published

2020

15. Comparison of second cancer risk due to out-of-field doses from 6-MV IMRT and proton therapy based on 6 pediatric patient treatment plans

Author

Athar, Basit S. and Paganetti, Harald

Subjects

*CANCER radiotherapy complications, *COMPARATIVE studies, *PEDIATRICS, *IMAGING phantoms, *CANCER risk factors, *RADIATION doses, *SIMULATION methods & models, *PROTON therapy

Abstract

Abstract: Background and purpose: This study compared 6-MV IMRT and proton therapy in terms of organ specific second cancer lifetime attributable risks (LARs) caused by scattered and secondary out-of-field radiation. Materials and methods: Based on simulated organ doses, excess relative and excess absolute risk models were applied to assess organ-specific LARs. Two treatment sites (cranium and central spine) were considered involving six treatment volumes and six patient ages (9-month, 4-year, 8-year, 11-year, 14-year, and adult). Results: The LARs for thyroid cancer from a 6cm diameter field treating a brain lesion in a 4-year old patient were estimated to be 1.1% and 0.3% in passive proton therapy and IMRT, respectively. However, estimated LARs for bladder cancer, more than 25cm from the field edge for the same patient and treatment field, were estimated to be 0.2% and 0.02% from IMRT and proton therapy, respectively. Risks for proton beam scanning was found to be an order of magnitude smaller compared to passive proton therapy. Conclusion: In terms of out-of-field risks, IMRT offers advantage close to the primary field and an increasing advantage for passive proton therapy is noticed with increasing distance to the field. Scanning proton beam therapy shows the lowest risks. [ABSTRACT FROM AUTHOR]

Published

2011

16. Risk of Developing Second Cancer From Neutron Dose in Proton Therapy as Function of Field Characteristics, Organ, and Patient Age

Author

Zacharatou Jarlskog, Christina and Paganetti, Harald

Subjects

*NEUTRONS, *PHOTON beams, *CANCER risk factors, *LEUKEMIA

Abstract

Purpose: To estimate the risk of a second malignancy after treatment of a primary brain cancer using passive scattered proton beam therapy. The focus was on the cancer risk caused by neutrons outside the treatment volume and the dependency on the patient''s age. Methods and Materials: Organ-specific neutron-equivalent doses previously calculated for eight different proton therapy brain fields were considered. Organ-specific models were applied to assess the risk of developing solid cancers and leukemia. Results: The main contributors (>80%) to the neutron-induced risk are neutrons generated in the treatment head. Treatment volume can influence the risk by up to a factor of ∼2. Young patients are subject to significantly greater risks than are adult patients because of the geometric differences and age dependency of the risk models. Breast cancer should be the main concern for females. For males, the risks of lung cancer, leukemia, and thyroid cancer were significant for pediatric patients. In contrast, leukemia was the leading risk for an adult. Most lifetime risks were <1% (70-Gy treatment). The only exceptions were breast, thyroid, and lung cancer for females. For female thyroid cancer, the treatment risk can exceed the baseline risk. Conclusion: The risk of developing a second malignancy from neutrons from proton beam therapy of a brain lesion is small (i.e., presumably outweighed by the therapeutic benefit) but not negligible (i.e., potentially greater than the baseline risk). The patient''s age at treatment plays a major role. [Copyright &y& Elsevier]

Published

2008

17. Positron emission tomography in pediatric radiation oncology: integration in the treatment-planning process.

Author

Krasin, Matthew J., Hudson, Melissa M., and Kaste, Sue C.

Subjects

*TUMORS in children, *HODGKIN'S disease, *POSITRON emission tomography, *DIAGNOSTIC imaging, *PEDIATRICS, *RADIATION, *MEDICAL care, *ONCOLOGY, *PATIENTS, *RADIOTHERAPY, *TUMORS

Abstract

The application of PET imaging to pediatric radiation oncology allows new approaches to targeting and selection of radiation dose based not only on the size of a tumor, but also on its metabolic activity. In order to integrate PET into treatment planning for radiation oncology, logistical issues regarding patient setup, image fusion, and target selection must be addressed. Through prospective study, the role of PET in pediatric malignancies will be established for diagnosis, treatment, and surveillance. To explore the potential role of PET and its incorporation into treatment planning in pediatric radiation oncology, an example case of pediatric Hodgkin's disease is discussed. [ABSTRACT FROM AUTHOR]

Published

2004

18. Training and education of pediatric radiation oncologists: A survey from the 2019 Pediatric Radiation Oncology Society meeting.

Author

Paulino AC, Dieckmann K, Esiashvili N, Mahajan A, Janssens GO, Halperin EC, Carrie C, Parkes J, Wolden SL, Seiersen K, Awrey S, Dieter-Kortmann R, and Marcus KJ

Subjects

Child, Female, Humans, Male, Surveys and Questionnaires, Attitude of Health Personnel, Education, Medical, Continuing standards, Neoplasms radiotherapy, Pediatrics education, Radiation Oncologists education, Radiation Oncology education

Abstract

To examine the educational background, clinical practice, and preferences regarding continuing medical education (CME) among radiation oncologists who attended the 2019 meeting of the Pediatric Radiation Oncology Society (PROS), a survey consisting of 20 questions was distributed asking for demographic and educational background, clinical practice, and preferences regarding pediatric radiation oncology CME. Of 188 participants, 130 (69.2%) returned the questionnaire. More than 80% reported access to CT simulation, three-dimensional radiotherapy, and general anesthesia while <30% had access to intraoperative radiotherapy, proton, and heavy particle therapy. After residency, 12.1% did further training in pediatric radiation oncology. When asked about further training in pediatrics after residency, 88.8% answered that there should be a formal training program beyond residency in order to treat children. More than 75% acquired knowledge in pediatric radiation oncology through journals, books, live meetings, and tumor boards. The results of this survey may help Pediatric Radiation Oncology Society (PROS) in creating guidelines and recommendations for improvement in pediatric radiation oncology training and practice support as well as the development of CME activities most likely to benefit practitioners., (© 2020 Wiley Periodicals LLC.)

Published

2020

19. Palliative radiotherapy for pediatric patients: Parental perceptions of indication, intent, and outcomes.

Author

Lee BK, Boyle PJ, Zaslowe-Dude C, Wolfe J, and Marcus KJ

Subjects

Adolescent, Child, Female, Follow-Up Studies, Humans, Male, Neoplasms pathology, Prospective Studies, Surveys and Questionnaires, Treatment Outcome, Decision Making, Neoplasms radiotherapy, Palliative Care, Parents psychology, Quality of Life, Radiotherapy methods

Abstract

Objectives: Palliative radiation therapy (pRT) is often used to improve quality of life for pediatric patients. Though palliative doses are generally lower than those for cure, pRT may still introduce undesirable effects. The decision to pursue additional therapy for a child may be challenging and depends on parents' knowledge and expectations. The goal of this study was to explore parental perceptions of pRT., Methods: Twenty-eight children referred for pRT were enrolled in our prospective study. Parents were counseled regarding the indication and expected outcomes. They then completed a series of questionnaires to assess their understanding of pRT, side effects that their child experienced, and how the outcomes compared to their expectations., Results: The majority of parents listed pain relief and addressing new disease as the main indication for pRT. When asked about expectations, the majority chose improvement in quality of life and prolongation of their child's life. Interestingly, 32% of parents expected pRT to cure their child's disease. Most patients undergoing pRT did not experience any adverse symptoms. The outcomes of pRT in the majority of cases exceeded parental expectations., Conclusion: Improved quality of life with pRT sometimes blurs the distinction between palliation and cure. We found that most parents understand the aim to improve quality of life, although a proportion of parents perceived pRT as a cure to their child's disease. Despite this, the majority of parents reported that the outcome of the pRT course exceeded their expectations. We postulate that parents derive comfort from pursuing active treatment., (© 2019 Wiley Periodicals, Inc.)

Published

2020

20. Organisation de la radiothérapie pédiatrique en France

Author

Carrie, C. and Mahe, M.-A.

Subjects

*TUMORS in children, *CANCER radiotherapy, *COMPUTER conferencing, *PHYSICIAN-patient relations, *TUMOR treatment

Abstract

Abstract: The authors describe the recent organization of the pediatric radiation oncology in France. Since 2008, some criteria have been published by the National Cancer Institute and are mandatory to obtain a pediatric radiation therapy agreement. These criteria include clinical activity, on site involvement of the physician in the pediatric staff. Twice a month, a Web conferencing allows a clinical data discussion among the French pediatric RT community. A regular update of criteria is asked in order to adapt them to the new challenge. [Copyright &y& Elsevier]

Published

2009