Your search keyword '"Ondrova, B."' showing total 14 results

1. OC-0757 Proton pencil beam scanning and the brainstem in pediatric posterior fossa tumors: a European survey

Author

Toussaint, L., primary, Matysiak, W., additional, Muren, L.P., additional, Alapetite, C., additional, Ares, C., additional, Bolle, S., additional, Calvo, F., additional, Demoor-Goldschmidt, C., additional, Doyen, J., additional, Engellau, J., additional, Harrabi, S., additional, Kristensen, I., additional, Missohou, F., additional, Ondrova, B., additional, Rombi, B., additional, Schwarz, M., additional, Van Beek, K., additional, Vennarini, S., additional, Vestergaard, A., additional, Vidal, M., additional, Vondráček, V., additional, Weber, D.C., additional, Whitfield, G., additional, Maduro, J., additional, and Lassen-Ramshad, Y., additional

Published

2022

2. Irradiation in deep inspiration breath hold using PBS in paediatric patients – first experiences

Author

Ondrova, B., primary, Andrlik, M., additional, Vondracek, V., additional, Zapletalova, S., additional, and Kubes, J., additional

Published

2019

3. Management of vertebral radiotherapy dose in paediatric patients with cancer: consensus recommendations from the SIOPE radiotherapy working group

Author

Hoeben, B.A.W., Carrie, C., Timmermann, B., Mandeville, H.C., Gandola, L., Dieckmann, K., Albiac, M. Ramos, Magelssen, H., Lassen-Ramshad, Y., Ondrova, B., Ajithkumar, T., Alapetite, C., Balgobind, B.V., Bolle, S., Cameron, A.L., Fajardo, R. Davila, Dietzsch, S., Lecomte, D. Dumont, Heuvel-Eibrink, M.M. van den, Kortmann, R.D., Laprie, A., Melchior, P., Padovani, L., Rombi, B., Scarzello, G., Schwarz, R., Seiersen, K., Seravalli, E., Thorp, N., Whitfield, G.A., Boterberg, T., Janssens, G.O., Hoeben, B.A.W., Carrie, C., Timmermann, B., Mandeville, H.C., Gandola, L., Dieckmann, K., Albiac, M. Ramos, Magelssen, H., Lassen-Ramshad, Y., Ondrova, B., Ajithkumar, T., Alapetite, C., Balgobind, B.V., Bolle, S., Cameron, A.L., Fajardo, R. Davila, Dietzsch, S., Lecomte, D. Dumont, Heuvel-Eibrink, M.M. van den, Kortmann, R.D., Laprie, A., Melchior, P., Padovani, L., Rombi, B., Scarzello, G., Schwarz, R., Seiersen, K., Seravalli, E., Thorp, N., Whitfield, G.A., Boterberg, T., and Janssens, G.O.

Abstract

Item does not contain fulltext, Inhomogeneities in radiotherapy dose distributions covering the vertebrae in children can produce long-term spinal problems, including kyphosis, lordosis, scoliosis, and hypoplasia. In the published literature, many often interrelated variables have been reported to affect the extent of potential radiotherapy damage to the spine. Articles published in the 2D and 3D radiotherapy era instructed radiation oncologists to avoid dose inhomogeneity over growing vertebrae. However, in the present era of highly conformal radiotherapy, steep dose gradients over at-risk structures can be generated and thus less harm is caused to patients. In this report, paediatric radiation oncologists from leading centres in 11 European countries have produced recommendations on how to approach dose coverage for target volumes that are adjacent to vertebrae to minimise the risk of long-term spinal problems. Based on available information, it is advised that homogeneous vertebral radiotherapy doses should be delivered in children who have not yet finished the pubertal growth spurt. If dose fall-off within vertebrae cannot be avoided, acceptable dose gradients for different age groups are detailed here. Vertebral delineation should include all primary ossification centres and growth plates, and therefore include at least the vertebral body and arch. For partial spinal radiotherapy, the number of irradiated vertebrae should be restricted as much as achievable, particularly at the thoracic level in young children (<6 years old). There is a need for multicentre research on vertebral radiotherapy dose distributions for children, but until more valid data become available, these recommendations can provide a basis for daily practice for radiation oncologists who have patients that require vertebral radiotherapy.

Published

2019

4. EP-1268: Breast cancer irradiation using proton pencil beam scanning

Author

Pasztorova, A., primary, Kubes, J., additional, Andrlik, M., additional, Ondrova, B., additional, Kasacova, G., additional, Dedeckova, K., additional, Slavikova, S., additional, Vitek, P., additional, Vinakurau, S., additional, Kvech, J., additional, Vondracek, V., additional, and Navratil, M., additional

Published

2018

5. Paediatric radiation therapy across Europe: A European questionnaire survey supported by the SIOPe, ESTRO, PROS and several national paediatric hematology-oncology societies (NAPHOS)

Author

Demoor-Goldschmidt, C., primary, Carrie, C., additional, Whitfield, G., additional, Meijinders, P., additional, Dieckmann, K., additional, Timmermann, B., additional, Zaletel, L., additional, Banovic, P., additional, Mekic, M. Solak, additional, Lassen, Y., additional, Alexopoulou, K., additional, Giralt, J., additional, Vizkeleti, J., additional, Jarusevicius, L., additional, Ondrova, B., additional, Daly, P., additional, Brandal, P., additional, Janssens, G., additional, Ricardi, U., additional, and Dieter-Kortmann, R., additional

Published

2017

6. 1439O_PR - Paediatric radiation therapy across Europe: A European questionnaire survey supported by the SIOPe, ESTRO, PROS and several national paediatric hematology-oncology societies (NAPHOS)

Author

Demoor-Goldschmidt, C., Carrie, C., Whitfield, G., Meijinders, P., Dieckmann, K., Timmermann, B., Zaletel, L., Banovic, P., Mekic, M. Solak, Lassen, Y., Alexopoulou, K., Giralt, J., Vizkeleti, J., Jarusevicius, L., Ondrova, B., Daly, P., Brandal, P., Janssens, G., Ricardi, U., and Dieter-Kortmann, R.

Published

2017

7. Tumor phenotype and characteristics of metastatic brain involvement in breast cancer patients: Potential clinical consequences

Author

Palacova, M., primary, Svoboda, M., additional, Fabian, P., additional, Ondrova, B., additional, Grell, P., additional, Jana, G., additional, Princ, D., additional, Radova, L., additional, Slampa, P., additional, and Vyzula, R., additional

Published

2009

8. Tumour phenotype and characteristics of metastatic brain involvement in breast cancer patient

Author

Svoboda, M., primary, Fabian, P., additional, Palacova, M., additional, Prochazkova, M., additional, Ondrova, B., additional, Grell, P., additional, Gombosova, J., additional, Princ, D., additional, Slampa, P., additional, and Vyzula, R., additional

Published

2008

9. Management of vertebral radiotherapy dose in paediatric patients with cancer: consensus recommendations from the SIOPE radiotherapy working group

Author

Geert O. Janssens, Beate Timmermann, Lorenza Gandola, Yasmin Lassen-Ramshad, Henriette Magelssen, Enrica Seravalli, Brian V. Balgobind, Raquel Davila Fajardo, Anne Laprie, Gillian A Whitfield, Patrick Melchior, Rudolf Schwarz, Laetitia Padovani, Barbora Ondrová, Klaus Seiersen, Monica Ramos Albiac, Stefan Dietzsch, Thankamma Ajithkumar, Rolf D. Kortmann, Karin Dieckmann, Tom Boterberg, Delphine Dumont Lecomte, Christian Carrie, Nicola Thorp, Henry Mandeville, Giovanni Scarzello, Claire Alapetite, Stéphanie Bolle, Bianca A.W. Hoeben, Alison Cameron, Marry M. van den Heuvel-Eibrink, Barbara Rombi, Hoeben B.A., Carrie C., Timmermann B., Mandeville H.C., Gandola L., Dieckmann K., Ramos Albiac M., Magelssen H., Lassen-Ramshad Y., Ondrova B., Ajithkumar T., Alapetite C., Balgobind B.V., Bolle S., Cameron A.L., Davila Fajardo R., Dietzsch S., Dumont Lecomte D., van den Heuvel-Eibrink M.M., Kortmann R.D., Laprie A., Melchior P., Padovani L., Rombi B., Scarzello G., Schwarz R., Seiersen K., Seravalli E., Thorp N., Whitfield G.A., Boterberg T., and Janssens G.O.

Subjects

Male, medicine.medical_specialty, Lordosis, medicine.medical_treatment, Medizin, Kyphosis, Review, Scoliosis, Pediatrics, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Neoplasms, Journal Article, medicine, Humans, Radiotherapy dose, Child, conformal radiotherapy, primary ossification vertebral body, Ossification, business.industry, Cancer, Radiotherapy Dosage, medicine.disease, Hypoplasia, Radiation therapy, Oncology, Child, Preschool, 030220 oncology & carcinogenesis, Radiation Oncology, Female, Radiology, Radiotherapy, Conformal, medicine.symptom, business, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]

Abstract

Item does not contain fulltext Inhomogeneities in radiotherapy dose distributions covering the vertebrae in children can produce long-term spinal problems, including kyphosis, lordosis, scoliosis, and hypoplasia. In the published literature, many often interrelated variables have been reported to affect the extent of potential radiotherapy damage to the spine. Articles published in the 2D and 3D radiotherapy era instructed radiation oncologists to avoid dose inhomogeneity over growing vertebrae. However, in the present era of highly conformal radiotherapy, steep dose gradients over at-risk structures can be generated and thus less harm is caused to patients. In this report, paediatric radiation oncologists from leading centres in 11 European countries have produced recommendations on how to approach dose coverage for target volumes that are adjacent to vertebrae to minimise the risk of long-term spinal problems. Based on available information, it is advised that homogeneous vertebral radiotherapy doses should be delivered in children who have not yet finished the pubertal growth spurt. If dose fall-off within vertebrae cannot be avoided, acceptable dose gradients for different age groups are detailed here. Vertebral delineation should include all primary ossification centres and growth plates, and therefore include at least the vertebral body and arch. For partial spinal radiotherapy, the number of irradiated vertebrae should be restricted as much as achievable, particularly at the thoracic level in young children (

Published

2019

10. Patterns of proton therapy use in pediatric cancer management in 2016: An international survey

Author

T.Z. Vern-Gross, Shigeyuki Murayama, Joo-Young Kim, Tetsuo Akimoto, Lilia N. Loredo, Beate Timmermann, Claire Alapetite, Masayuki Araya, Ralph P. Ermoian, B.H. Chon, Satoshi Shibata, Stephanie M. Perkins, J.B. Wilkinson, Jérôme Doyen, Takashi Ogino, Daniel J. Indelicato, Christine E. Hill-Kayser, David B. Mansur, Do Hoon Lim, Ruth A. Kleinerman, Nadia N. Laack, John Han Chih Chang, Amy Berrington de Gonzalez, Ronald Richter, Diana R. Withrow, V.S. Mangona, Andrew Chang, Masao Murakami, Barbora Ondrová, Torunn I. Yock, Arnold C. Paulino, Michael E. Confer, Neige Journy, Rémi Dendale, Kristin Gurtner, Rahul R. Parikh, Hiromitsu Iwata, Barbara Rombi, Yusuke Demizu, Petra Witt Nyström, Choonsik Lee, Damien C. Weber, Shinichi Shimizu, Young Kwok, Naren Ramakrishna, Chiachien J. Wang, Centre de recherche en épidémiologie et santé des populations (CESP), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Paul Brousse-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris-Saclay, Journy N., Indelicato D.J., Withrow D.R., Akimoto T., Alapetite C., Araya M., Chang A., Chang J.H.-C., Chon B., Confer M.E., Demizu Y., Dendale R., Doyen J., Ermoian R., Gurtner K., Hill-Kayser C., Iwata H., Kim J.-Y., Kwok Y., Laack N.N., Lee C., Lim D.H., Loredo L., Mangona V.S., Mansur D.B., Murakami M., Murayama S., Ogino T., Ondrova B., Parikh R.R., Paulino A.C., Perkins S., Ramakrishna N.R., Richter R., Rombi B., Shibata S., Shimizu S., Timmermann B., Vern-Gross T., Wang C.J., Weber D.C., Wilkinson J.B., Witt Nystrom P., Yock T.I., Kleinerman R.A., and Berrington de Gonzalez A.

Subjects

Adult, Male, Pediatrics, medicine.medical_specialty, Adolescent, [SDV]Life Sciences [q-bio], Patterns of care, Medizin, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Neoplasms, Surveys and Questionnaires, medicine, Proton Therapy, Humans, Radiology, Nuclear Medicine and imaging, In patient, CNS TUMORS, Survey, Child, Proton therapy, International research, Pediatric, business.industry, International survey, Cancer, Infant, Radiotherapy Dosage, Hematology, medicine.disease, Pediatric cancer, 3. Good health, Oncology, 030220 oncology & carcinogenesis, Child, Preschool, Observational study, Female, business

Abstract

Purpose: To facilitate the initiation of observational studies on late effects of proton therapy in pediatric patients, we report on current patterns of proton therapy use worldwide in patients aged less than 22 years. Materials & methods: Fifty-four proton centers treating pediatric patients in 2016 in 11 countries were invited to respond to a survey about the number of patients treated during that year by age group, intent of treatment, delivery technique and tumor types. Results: Among the 40 participating centers (participation rate: 74%), a total of 1,860 patients were treated in 2016 (North America: 1205, Europe: 432, Asia: 223). The numbers of patients per center ranged from 1 to 206 (median: 29). Twenty-four percent of the patients were

Published

2019

11. Clinical practice in European centres treating paediatric posterior fossa tumours with pencil beam scanning proton therapy.

Author

Toussaint L, Matysiak W, Alapetite C, Aristu J, Bannink-Gawryszuk A, Bolle S, Bolsi A, Calvo F, Cerron Campoo F, Charlwood F, Demoor-Goldschmidt C, Doyen J, Drosik-Rutowicz K, Dutheil P, Embring A, Engellau J, Goedgebeur A, Goudjil F, Harrabi S, Kopec R, Kristensen I, Lægsdmand P, Lütgendorf-Caucig C, Meijers A, Mirandola A, Missohou F, Montero Feijoo M, Muren LP, Ondrova B, Orlandi E, Pettersson E, Pica A, Plaude S, Righetto R, Rombi B, Timmermann B, Van Beek K, Vela A, Vennarini S, Vestergaard A, Vidal M, Vondracek V, Weber DC, Whitfield G, Zimmerman J, Maduro JH, and Lassen-Ramshad Y

Subjects

Humans, Europe, Child, Child, Preschool, Male, Female, Organs at Risk radiation effects, Brain Stem radiation effects, Proton Therapy methods, Infratentorial Neoplasms radiotherapy, Radiotherapy Planning, Computer-Assisted methods, Radiotherapy Dosage

Abstract

Background and Purpose: As no guidelines for pencil beam scanning (PBS) proton therapy (PT) of paediatric posterior fossa (PF) tumours exist to date, this study investigated planning techniques across European PT centres, with special considerations for brainstem and spinal cord sparing., Materials and Methods: A survey and a treatment planning comparison were initiated across nineteen European PBS-PT centres treating paediatric patients. The survey assessed all aspects of the treatment chain, including but not limited to delineations, dose constraints and treatment planning. Each centre planned two PF tumour cases for focal irradiation, according to their own clinical practice but based on common delineations. The prescription dose was 54 Gy(RBE) for Case 1 and 59.4 Gy(RBE) for Case 2. For both cases, planning strategies and relevant dose metrics were compared., Results: Seventeen (89 %) centres answered the survey, and sixteen (80 %) participated in the treatment planning comparison. In the survey, thirteen (68 %) centres reported using the European Particle Therapy Network definition for brainstem delineation. In the treatment planning study, while most centres used three beam directions, their configurations varied widely across centres. Large variations were also seen in brainstem doses, with a brainstem near maximum dose (D2%) ranging from 52.7 Gy(RBE) to 55.7 Gy(RBE) (Case 1), and from 56.8 Gy(RBE) to 60.9 Gy(RBE) (Case 2)., Conclusion: This study assessed the European PBS-PT planning of paediatric PF tumours. Agreement was achieved in e.g. delineation-practice, while wider variations were observed in planning approach and consequently dose to organs at risk. Collaboration between centres is still ongoing, striving towards common guidelines., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

12. Clinical and molecular study of radiation-induced gliomas.

Author

Trkova K, Sumerauer D, Bubenikova A, Krskova L, Vicha A, Koblizek M, Zamecnik J, Jurasek B, Kyncl M, Malinova B, Ondrova B, Jones DTW, Sill M, Strnadova M, Stolova L, Misove A, Benes V 3rd, and Zapotocky M

Subjects

Humans, Proto-Oncogene Proteins B-raf genetics, Mutation, Glioma genetics, Glioma radiotherapy, Brain Neoplasms genetics, Brain Neoplasms radiotherapy, Astrocytoma pathology

Abstract

In this study, we provide a comprehensive clinical and molecular biological characterization of radiation-induced gliomas (RIG), including a risk assessment for developing gliomas. A cohort of 12 patients who developed RIG 9.5 years (3-31 years) after previous cranial radiotherapy for brain tumors or T-cell acute lymphoblastic leukemia was established. The derived risk of RIG development based on our consecutive cohort of 371 irradiated patients was 1.6% at 10 years and 3.02% at 15 years. Patients with RIG glioma had a dismal prognosis with a median survival of 7.3 months. We described radiology features that might indicate the suspicion of RIG rather than the primary tumor recurrence. Typical molecular features identified by molecular biology examination included the absence of Histon3 mutation, methylation profile of pedHGG-RTK1 and the presence of recurrent PDGFRA amplification and CDKN2A/B deletion. Of the two long-term surviving patients, one had gliomatosis cerebri, and the other had pleomorphic xanthoastrocytoma with BRAF V600E mutation. In summary, our experience highlights the need for tissue diagnostics to allow detailed molecular biological characterization of the tumor, differentiation of the secondary tumor from the recurrence of the primary disease and potentially finding a therapeutic target., (© 2024. The Author(s).)

Published

2024

13. The impact of PET with 18FDG in radiotherapy treatment planning and in the prediction in patients with cervix carcinoma: results of pilot study.

Author

Dolezelova H, Slampa P, Ondrova B, Gombosova J, Sovadinova S, Novotny T, Bolcak K, Ruzickova J, Hynkova L, and Forbelska M

Subjects

Adult, Aged, Brachytherapy, Female, Humans, Middle Aged, Neoplasm Staging, Patient Care Planning, Pilot Projects, Tomography, X-Ray Computed, Fluorodeoxyglucose F18, Positron-Emission Tomography, Uterine Cervical Neoplasms diagnostic imaging, Uterine Cervical Neoplasms radiotherapy

Abstract

Positron emission tomography (PET) is used to distinguish between benign and malign tumors, to diagnose relapse or post-therapeutic changes. Lately, PET is used to predict the treatment response. and also a complementary method to determine target volumes in radiotherapy. Daily using of PET in the oncology praxis can change treatment strategy and improve its outcome. Results of this pilot study show the role of PET with 8-F-fluorodeoxyglucose ((18)FDG) for staging of cervical carcinoma and in the radiotherapeutic planning. Between March 2005 and May 2007, 51 patients with cervical carcinoma were treated with combination of external beam radiotherapy and HDR brachytherapy, with or without concomitant cisplatin. The lymphatic nodes treatment field size was determined by PET/CT fusion. Treatment results were evaluated by PET 3 and 9 months after treatment. The differences in the results of PET and CT were evaluated in this study. In 32 cases (62.75%) the results of PET and CT were identical, in 14 cases (27.45%) the nodal involvement was more extensive according to PET, in 5 cases (9.8%) the nodal involvement was more extensive according to CT. PET results 3 months after treatment were as follows: in 3 cases (5.88%) stable disease, in 35 cases (68.63 %) negative, in 4 cases (7.84%), progression of disease, in 3 cases (5.88 %) partial regression. There were no false positive results caused by inflammatory reaction persisting 3 months after radiotherapy, as was confirmed by repeating PET 9 months after treatment. The results of this study confirmed the important role of PET in diagnosis and treatment of cervical carcinoma and in determination of target volumes in radiotherapy. PET was found to be a standard staging examination of cervical carcinoma in Masaryk Memorial Cancer Institute. The predictive value of PET has not yet been validated.

Published

2008

14. Longterm treatment results of childhood medulloblastoma by craniospinal irradiation in supine position.

Author

Slampa P, Pavelka Z, Dusek L, Hynkova L, Sterba J, Ondrova B, Princ D, Novotny T, and Kostakova S

Subjects

Cerebellar Neoplasms drug therapy, Cerebellar Neoplasms surgery, Child, Child, Preschool, Combined Modality Therapy, Female, Humans, Kaplan-Meier Estimate, Male, Medulloblastoma drug therapy, Medulloblastoma surgery, Neoplasm Recurrence, Local, Radiotherapy Dosage, Time Factors, Treatment Outcome, Cerebellar Neoplasms radiotherapy, Medulloblastoma radiotherapy, Radiotherapy methods, Supine Position

Abstract

Medulloblastoma, a primitive neuroectodermal tumor growing in cerebellum, is one of the most sensitive to radiation therapy childhood brain tumors. The radiotherapy is an essential method of treatment for these tumours, but the surgery is the primary treatment of choice in medulloblastoma. I this study between January 1997 and March 2005 were post-operative irradiated a total number of 33 pediatric patients aged under 15 years (median age 8.7 years) with medulloblastoma. All tumors were histologically proved and were localizated infratentorially in the posterior fossa. All of the patients were irradiated with a dose of 24-36 Gy to the whole craniospinal axis and boost with conformal therapy restricted to the tumor bed to the total dose of 50-54 Gy (30-36 Gy "high risk", 24-30 Gy "standard risk" group). Chemotherapy received 26 patients (78%). Patients with craniospinal irradiation were placed in supine position and fixed by a vacuum-form body immobilizer and head mask. Irradiation was performed using standard fractionation (5 fractions per week) with a single dose of 1.5-1.8 Gy for craniospinal axis by photon beam (6 MV) of the linear accelerator. The median overall survival for the whole group was 55.3 months. The median of disease-free survival was 20.6 months, 8 patients (24%) died. In our study the statistical difference in survival rate between standard and high-risk patients with medulloblastoma was not shown. No relationship was found between survival and age, sex or tumor size. Endocrine deficits occurred in 45% (8 patients of the group were hypothyroid, 6 patients needed growth hormone replacement therapy, 1 patient had early puberty). This results (results of overall and disease-free survival) and side-effects of technique of craniospinal axis irradiation in supine position are comparable with results of technique in prone position. Further evaluation of the effectiveness of our therapy is not feasible due to the small number of patients.

Published

2007