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2. RENEB Inter-Laboratory Comparison 2021: The Dicentric Chromosome Assay

Author

Endesfelder, D., primary, Oestreicher, U., additional, Bucher, M., additional, Beinke, C., additional, Siebenwirth, C, additional, Ainsbury, E., additional, Moquet, J., additional, Gruel, G., additional, Gregoire, E., additional, Martinez, J.S., additional, Vral, A., additional, Baeyens, A., additional, Valente, M., additional, Montoro, A., additional, Terzoudi, G., additional, Triantopoulou, S., additional, Pantelias, A., additional, Monteiro Gil, O., additional, Prieto, M.J., additional, Domene, M.M., additional, Zafiropoulos, D., additional, Barquinero, J.F., additional, Pujol-Canadell, M., additional, Lumniczky, K., additional, Hargitai, R., additional, Kis, E., additional, Testa, A., additional, Patrono, C., additional, Sommer, S., additional, Hristova, R., additional, Kostova, N., additional, Atanasova, M., additional, Sevriukova, O., additional, Domínguez, I., additional, Pastor, N., additional, Güçlü, I., additional, Pajic, J., additional, Sabatier, L., additional, Brochard, P., additional, Tichy, A., additional, Milanova, M., additional, Finot, F., additional, Cuceu Petrenci, C., additional, Wilkins, R.C., additional, Beaton-Green, L.A., additional, Seong, K.M., additional, Lee, Y., additional, Lee, Y.H., additional, Balajee, A.S., additional, Maznyk, N., additional, Sypko, T., additional, Pham, N.D., additional, Tran, T.M., additional, Miura, T., additional, Suto, Y., additional, Akiyamam, M., additional, Tsuyama, N., additional, Abe, Y., additional, Goh, V.S.T., additional, Chua, C.E.L., additional, Abend, M., additional, and Port, M., additional

Published
2023
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4. RENEB–Running the European Network of biological dosimetry and physical retrospective dosimetry

Author

Kulka, U., Abend, M., Ainsbury, E., Badie, C., Barquinero, J.F., Barrios, L., Beinke, C., Bortolin, E., Cucu, A., De Amicis, A., Domínguez, I., Fattibene, P., Frøvig, A.M., Gregoire, E., Guogyte, K., Hadjidekova, V., Jaworska, A., Kriehuber, R., Lindholm, C., Lloyd, D., Lumniczky, K., Lyng, F., Meschini, R., Mörtl, S., Della Monaca, S., Monteiro Gil, O., Montoro, A., Moquet, J., Moreno, M., Oestreicher, U., Palitti, F., Pantelias, G., Patrono, C., Piqueret-Stephan, L., Port, M., Prieto, M.J., Quintens, R., Ricoul, M., Romm, H., Roy, L., Sáfrány, G., Sabatier, L., Sebastià, N., Sommer, S., Terzoudi, G., Testa, A., Thierens, H., Turai, I., Trompier, F., Valente, M., Vaz, P., Voisin, P., Vral, A., Woda, C., Zafiropoulos, D., Wojcik, A., Bundesamt für Strahlenschutz (BfS), Bundeswehr Institute of Radiobiology, Universität Ulm - Ulm University [Ulm, Allemagne], Centre for Radiation, Chemical and Environmental Hazards, Public Health England [London], Universitat Autònoma de Barcelona (UAB), Istituto Superiore di Sanita` (ISS), Institut de Radioprotection et de Sûreté Nucléaire (IRSN), Radiation and Nuclear Safety Authority [Helsinki] (STUK), National center for public health [Hungary], Hospital Universitario y Politécnico La Fe, University of Tuscia, Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Agenzia Nazionale per le nuove Tecnologie, l’energia e lo sviluppo economico sostenibile (ENEA), Universiteit Gent = Ghent University [Belgium] (UGENT), Helmholtz-Zentrum München (HZM), Stockholm University, Seventh Framework Programme, Bundesamt für Strahlenschutz - Federal Office for Radiation Protection (BfS), Istituto Superiore di Sanità (ISS), Hospital Universitari i Politècnic La Fe = University and Polytechnic Hospital La Fe, Università degli studi della Tuscia [Viterbo], Agenzia Nazionale per le nuove Tecnologie, l’energia e lo sviluppo economico sostenibile = Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA), Universiteit Gent = Ghent University (UGENT), and Helmholtz Zentrum München = German Research Center for Environmental Health

Subjects
[SDV]Life Sciences [q-bio]
Abstract

International audience; Purpose: A European network was initiated in 2012 by 23 partners from 16 European countries with the aim to significantly increase individualized dose reconstruction in case of large-scale radiological emergency scenarios. Results: The network was built on three complementary pillars: (1) an operational basis with seven biological and physical dosimetric assays in ready-to-use mode, (2) a basis for education, training and quality assurance, and (3) a basis for further network development regarding new techniques and members. Techniques for individual dose estimation based on biological samples and/or inert personalized devices as mobile phones or smart phones were optimized to support rapid categorization of many potential victims according to the received dose to the blood or personal devices. Communication and cross-border collaboration were also standardized. To assure long-term sustainability of the network, cooperation with national and international emergency preparedness organizations was initiated and links to radiation protection and research platforms have been developed. A legal framework, based on a Memorandum of Understanding, was established and signed by 27 organizations by the end of 2015. Conclusions: RENEB is a European Network of biological and physical-retrospective dosimetry, with the capacity and capability to perform large-scale rapid individualized dose estimation. Specialized to handle large numbers of samples, RENEB is able to contribute to radiological emergency preparedness and wider large-scale research projects. © 2016 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

Published
2017

5. RENEB accident simulation exercise

Author

Brzozowska, B., Ainsbury, E., Baert, A.E., Beaton-Green, L., Barrios, L., Barquinero, J.F., Bassinet, C., Beinke, C., Benedek, A., Beukes, P., Bortolin, E., Buraczewska, I., Burbidge, C.I., de Amicis, A., de Angelis, C., Della Monaca, S., Depuydt, J., de Sanctis, S., Dobos, K., Domene, M.M., Domínguez, I., Facco, E., Fattibene, P., Frenzel, M., Monteiro Gil, O., Gonon, G., Gregoire, E., Gruel, G., Hadjidekova, V., Hatzi, V.I., Hristova, R., Jaworska, A., Kis, E., Kowalska, M., Kulka, U., Lista, F., Lumniczky, K., Martínez-López, W., Meschini, R., Mörtl, S., Moquet, J., Noditi, M., Oestreicher, U., Orta Vázquez, M.L., Palma, V., Pantelias, G., Montoro Pastor, A., Patrono, C., Piqueret-Stephan, L., Quattrini, M.C., Regalbuto, E., Ricoul, M., Roch-Lefevre, S., Roy, L., Sabatier, L., Sarchiapone, L., Sebastià, N., Sommer, S., Sun, M., Suto, Y., Terzoudi, G., Trompier, F., Vral, A., Wilkins, R., Zafiropoulos, D., Wieser, A., Woda, C., Wojcik, A., Istituto Superiore di Sanita` (ISS), Institut de Radioprotection et de Sûreté Nucléaire (IRSN), Bundesamt für Strahlenschutz (BfS), National center for public health [Hungary], Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Hospital Universitario y Politécnico La Fe, Public Health England [London], Universiteit Gent = Ghent University [Belgium] (UGENT), Helmholtz-Zentrum München (HZM), Stockholm University, University of Warsaw (UW), Universitat Autònoma de Barcelona (UAB), Bundeswehr Institute of Radiobiology, Universität Ulm - Ulm University [Ulm, Allemagne], Seventh Framework Programme, Istituto Superiore di Sanità (ISS), Bundesamt für Strahlenschutz - Federal Office for Radiation Protection (BfS), Hospital Universitari i Politècnic La Fe = University and Polytechnic Hospital La Fe, Universiteit Gent = Ghent University (UGENT), and Helmholtz Zentrum München = German Research Center for Environmental Health

Subjects
RENEB network, Safety Management, [SDV]Life Sciences [q-bio], Radiobiology, Biology and Life Sciences, Disaster Planning, Reneb Network, Accident Simulation, Radiobiological Event, Europe, radiobiological event, Radiation Monitoring, Medicine and Health Sciences, accident simulation, Triage, Radioactive Hazard Release
Abstract

International audience; Purpose: The RENEB accident exercise was carried out in order to train the RENEB participants in coordinating and managing potentially large data sets that would be generated in case of a major radiological event. Materials and methods: Each participant was offered the possibility to activate the network by sending an alerting email about a simulated radiation emergency. The same participant had to collect, compile and report capacity, triage categorization and exposure scenario results obtained from all other participants. The exercise was performed over 27 weeks and involved the network consisting of 28 institutes: 21 RENEB members, four candidates and three non-RENEB partners. Results: The duration of a single exercise never exceeded 10 days, while the response from the assisting laboratories never came later than within half a day. During each week of the exercise, around 4500 samples were reported by all service laboratories (SL) to be examined and 54 scenarios were coherently estimated by all laboratories (the standard deviation from the mean of all SL answers for a given scenario category and a set of data was not larger than 3 patient codes). Conclusions: Each participant received training in both the role of a reference laboratory (activating the network) and of a service laboratory (responding to an activation request). The procedures in the case of radiological event were successfully established and tested. © 2016 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

Published
2017

6. Web based scoring is useful for validation and harmonisation of scoring criteria within RENEB

Author

Romm, H., Ainsbury, E.A., Barquinero, J.F., Barrios, L., Beinke, C., Cucu, A., Domene, M.M., Filippi, S., Monteiro Gil, O., Gregoire, E., Hadjidekova, V., Hatzi, V., Lindholm, C., M´kacher, R., Montoro, A., Moquet, J., Noditi, M., Oestreicher, U., Palitti, F., Pantelias, G., Prieto, M.J., Popescu, I., Rothkamm, K., Sebastià, N., Sommer, S., Terzoudi, G., Testa, A., Wojcik, A., University of Tuscia, Institut de Radioprotection et de Sûreté Nucléaire (IRSN), National Centre for Scientific Research Demokritos, Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Hospital Universitario y Politécnico La Fe, Agenzia Nazionale per le nuove Tecnologie, l’energia e lo sviluppo economico sostenibile (ENEA), European Commission, EC 295513, Università degli studi della Tuscia [Viterbo], Hospital Universitari i Politècnic La Fe = University and Polytechnic Hospital La Fe, and Agenzia Nazionale per le nuove Tecnologie, l’energia e lo sviluppo economico sostenibile = Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA)

Subjects
Internet, [SDV]Life Sciences [q-bio], Web based scoring, Reproducibility of Results, Radiation Exposure, biological dosimetry, Sensitivity and Specificity, Europe, radiation, Radiation Monitoring, Cytogenetic Analysis, Humans, Biological Assay, Lymphocytes, biodosimetry network, Laboratories, dicentric assay
Abstract

International audience; Purpose To establish a training data set of digital images and to investigate the scoring criteria and dose assessment of the dicentric assay within the European network of biodosimetry (RENEB), a web based scoring inter-comparison was undertaken by 17 RENEB partners. Materials and methods Two sets of 50 high resolution images were uploaded onto the RENEB website. One set included metaphases after a moderate exposure (1.3 Gy) and the other set consisted of metaphases after a high dose exposure (3.5 Gy). The laboratories used their own calibration curves for estimating doses based on observed aberration frequencies. Results The dose estimations and 95% confidence limits were compared to the actual doses and the corresponding z-values were satisfactory for the majority; only the dose estimations from two laboratories were too low or too high. The coefficients of variation were 17.6% for the moderate and 11.2% for the high dose. Metaphases with controversial results could be identified for training purposes. Conclusions Overall, the web based scoring of the two galleries by the 17 laboratories produced very good results. Application of web based scoring for the dicentric assay may therefore be a relevant strategy for an operational biodosimetry assistance network. © 2016 The Author(s). Published by Informa UK Limited, trading as Taylor and Francis Group.

Published
2017

7. Investigation of the influence of calibration practices on cytogenetic laboratory performance for dose estimation

Author

Trompier, F., Baumann, M., Barrios, L., Gregoire, E., Abend, M., Ainsbury, E., Barnard, S., Barquinero, J.F., Bautista, J.A., Brzozowska, B., Perez-Calatayud, J., De Angelis, C., Domínguez, I., Hadjidekova, V., Kulka, U., Mateos, J.C., Meschini, R., Monteiro Gil, O., Moquet, J., Oestreicher, U., Montoro Pastor, A., Quintens, R., Sebastià, N., Sommer, S., Stoyanov, O., Thierens, H., Terzoudi, G., Villaescusa, J.I., Vral, A., Wojcik, A., Zafiropoulos, D., Roy, L., Institut de Radioprotection et de Sûreté Nucléaire (IRSN), Universitat Autònoma de Barcelona (UAB), Bundeswehr Institute of Radiobiology, Universität Ulm - Ulm University [Ulm, Allemagne], Centre for Radiation, Chemical and Environmental Hazards, Public Health England [London], Istituto Superiore di Sanita` (ISS), Bundesamt für Strahlenschutz (BfS), Hospital Universitario y Politécnico La Fe, Universiteit Gent = Ghent University [Belgium] (UGENT), Hospital Universitario La Fe, Stockholm University, and Seventh Framework Programme

Subjects
PROTOCOL, Quality Assurance, Health Care, [SDV]Life Sciences [q-bio], quality assurance, Radiation Dosage, Sensitivity and Specificity, ELECTRON-BEAMS, Radiation Monitoring, Medicine and Health Sciences, Humans, RADIOBIOLOGY, Reproducibility of Results, Biology and Life Sciences, Radiation Exposure, biological dosimetry, calibration, Alanine dosimetry, HIGH-ENERGY PHOTON, ALANINE DOSIMETRY SYSTEM, IRRADIATION, Europe, KV, Calibration, Cytogenetic Analysis, Practice Guidelines as Topic, Laboratories, inter-laboratory comparison, RADIOTHERAPY
Abstract

International audience; Purpose: In the frame of the QA program of RENEB, an inter-laboratory comparison (ILC) of calibration sources used in biological dosimetry was achieved to investigate the influence of calibration practices and protocols on the results of the dose estimation performance as a first step to harmonization and standardization of dosimetry and irradiation practices in the European biological dosimetry network. Materials and methods: Delivered doses by irradiation facilities used by RENEB partners were determined with EPR/alanine dosimetry system. Dosimeters were irradiated in the same conditions as blood samples. A short survey was also performed to collect the information needed for the data analysis and evaluate the diversity of practices. Results: For most of partners the deviation of delivered dose from the targeted dose remains below 10%. Deviations larger than 10% were observed for five facilities out of 21. Origins of the largest discrepancies were identified. Correction actions were evaluated as satisfactory. The re-evaluation of some ILC results for the fluorescence in situ hybridization (FISH) and premature chromosome condensation (PCC) assays has been performed leading to an improvement of the overall performances. Conclusions: This work has shown the importance of dosimetry in radiobiology studies and the needs of harmonization, standardization in irradiation and dosimetry practices and educational training for biologists using ionizing radiation. © 2016 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

Published
2017

8. Analysis of the Possible Persistent Genotoxic Damage in Workers Linked to the Ardystil Syndrome

Author

Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Universitat Politècnica de València. Instituto de Seguridad Industrial, Radiofísica y Medioambiental - Institut de Seguretat Industrial, Radiofísica i Mediambiental, Hospital Universitari i Politècnic La Fe, Generalitat Valenciana, Montoro Pastor, Alegría, Sebastià, N., Hervás, D., Esteban, V., Bonafont, J., Barquinero, J.F., Almonacid, M., Cervera, J., Such, E., Verdú Martín, Gumersindo Jesús, Soriano, J.M., Villaescusa Blanca, Juan Ignacio, Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Universitat Politècnica de València. Instituto de Seguridad Industrial, Radiofísica y Medioambiental - Institut de Seguretat Industrial, Radiofísica i Mediambiental, Hospital Universitari i Politècnic La Fe, Generalitat Valenciana, Montoro Pastor, Alegría, Sebastià, N., Hervás, D., Esteban, V., Bonafont, J., Barquinero, J.F., Almonacid, M., Cervera, J., Such, E., Verdú Martín, Gumersindo Jesús, Soriano, J.M., and Villaescusa Blanca, Juan Ignacio

Abstract

[EN] Background: A combination of several factors including a change in the paint application system; a lack of proper hygiene; and inadequate safety measures caused a severe health impact in the workers of some textile painting factories. This outbreak, mainly characterized by respiratory disorders, caused the death of six people and it has been classified as Ardystil syndrome. Materials and Methods: Fifty-two workers involved in the outbreak and 48 healthy subjects not known to have exposed to the potentially mutagenic agents participated in the study. The program evaluated possible genotoxic damage through the sister chromatid exchange (SCE) cytogenetic biomarker assay. We determined the frequency of SCE, high-frequency cells (HFCs), and a ratio, which can be considered as a new parameter, allowing for the study of the SCE distribution pattern among the chromosomes. Results: There was no statistically significant difference in the SCE frequency and in the mean number of HFCs between the control and the Ardystil-affected groups. However, smoking increased the incidence of all parameters studied in both the case and control groups. Conclusions: This study shows that workers involved in the Ardystil syndrome did not suffer genotoxic damage as measured by SCE and HFCs when compared with the control group.

Published
2016

9. Concentration-Dependent Protection by Ethanol Extract ofPropolis against γ-Ray-Induced Chromosome Damage in HumanBlood Lymphocytes

Author

Montoro, Alegría, Barquinero, J.F., Almonacid, M., Montoro, Amparo, Sebastià, N., Verdú Martín, Gumersindo Jesús, Sahuquillo, V., Serrano, J., Saiz, M., Villaescusa, J.L., and Soriano, J.M.

Subjects
Ionizing radiation, Radiation protection, In vitro study, Dicentric chromosome, INGENIERIA NUCLEAR, Propolis, Article, Cell protection, Cytogenetics, Antioxidant activity, Human cell, Free radical, Gamma radiation, Chromosome damage, Concentration (parameters), Lymphocyte, Chromosome aberration, Radiation injury, Alcohol, Lymphocyte culture, Human, Priority journal
Abstract

[EN] Radioprotection with natural products may be relevant to the mitigation of ionizing radiation-induced damage in mammalian systems; in this sense, propolis extracts have shown effects such as antioxidant, antitumoral, anti-inflammatory, and immunostimulant. We report for the first time a cytogenetic study to evaluate the radioprotective effect, in vitro, of propolis against radiation-induced chromosomal damage. Lymphocytes were cultured with increasing concentrations of ethanol extract of propolis (EEP), including 20, 40, 120, 250, 500, 750, 1000, and 2000 ¿g mL-1 and then exposed to 2 Gy ¿-rays. A significant and concentration-dependent decrease is observed in the frequency of chromosome aberrations in samples treated with EEP. The protection against the formation of dicentrics was concentration-dependent, with a maximum protection at 120 ¿g mL-1 of EEP. The observed frequency of dicentrics is described as negative exponential function, indicating that the maximum protectible fraction of dicentrics is approximately 44. Free radical scavenging and antioxidant activities are the mechanisms that these substances use to protect cells from ionizing radiation. Copyright © 2011 A. Montoro et al., This research was supported in part by the Company Dieteticos Intersa S.A., U.P.V., and Hospital Universitario La Fe of Valencia and Consejo de Seguridad Nuclear (2696/SRO). The authors express their appreciation to Dr. Pepe Perez (Hospital Universitario La Fe) and Dr. Alberto Yuste (U.P.V.).

Published
2011

10. Concentration-Dependent Protection by Ethanol Extract ofPropolis against &#947

Author

Montoro, Alegría, Barquinero, J.F., Almonacid, M., Montoro, Amparo, Sebastià, N., Verdú Martín, Gumersindo Jesús|||0000-0001-5098-080X, Sahuquillo, V., Serrano, J., Saiz, M., Villaescusa, J.L., and Soriano, J.M.

Subjects
Ionizing radiation, Radiation protection, In vitro study, Dicentric chromosome, INGENIERIA NUCLEAR, Propolis, Article, Cell protection, Cytogenetics, Antioxidant activity, Human cell, Free radical, Gamma radiation, Chromosome damage, Concentration (parameters), Lymphocyte, Chromosome aberration, Radiation injury, Alcohol, Lymphocyte culture, Human, Priority journal
Abstract

[EN] Radioprotection with natural products may be relevant to the mitigation of ionizing radiation-induced damage in mammalian systems; in this sense, propolis extracts have shown effects such as antioxidant, antitumoral, anti-inflammatory, and immunostimulant. We report for the first time a cytogenetic study to evaluate the radioprotective effect, in vitro, of propolis against radiation-induced chromosomal damage. Lymphocytes were cultured with increasing concentrations of ethanol extract of propolis (EEP), including 20, 40, 120, 250, 500, 750, 1000, and 2000 ¿g mL-1 and then exposed to 2 Gy ¿-rays. A significant and concentration-dependent decrease is observed in the frequency of chromosome aberrations in samples treated with EEP. The protection against the formation of dicentrics was concentration-dependent, with a maximum protection at 120 ¿g mL-1 of EEP. The observed frequency of dicentrics is described as negative exponential function, indicating that the maximum protectible fraction of dicentrics is approximately 44. Free radical scavenging and antioxidant activities are the mechanisms that these substances use to protect cells from ionizing radiation. Copyright © 2011 A. Montoro et al. This research was supported in part by the Company Dieteticos Intersa S.A., U.P.V., and Hospital Universitario La Fe of Valencia and Consejo de Seguridad Nuclear (2696/SRO). The authors express their appreciation to Dr. Pepe Perez (Hospital Universitario La Fe) and Dr. Alberto Yuste (U.P.V.).

Published
2011
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11. Validation of Semi-automatic Scoring of Dicentric Chromosomes after Simulation of Three Different Irradiation Scenarios

Author

Romm, H, primary, Ainsbury, E, additional, Barnard, S, additional, Barrios, L, additional, Barquinero, J.F, additional, Beinke, C, additional, Deperas, M, additional, Gregoire, E, additional, Koivistoinen, A, additional, Lindholm, C, additional, Moquet, J, additional, Oestreicher, U, additional, Puig, R, additional, Rothkamm, K, additional, Sommer, S, additional, Thierens, H, additional, Vandersickel, V, additional, Vral, A, additional, and Wojcik, A, additional

Published
2014
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12. Assessment in vitro of cytogenetic and genotoxic effects of propolis on human lymphocytes.

Author

Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Montoro, A., Soriano, J.M., Barquinero, J.F., Almonacid, M., Verdú Martín, Gumersindo Jesús, Sahuquillo, V., Villaescusa, J.I., Sebastià, N., Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Montoro, A., Soriano, J.M., Barquinero, J.F., Almonacid, M., Verdú Martín, Gumersindo Jesús, Sahuquillo, V., Villaescusa, J.I., and Sebastià, N.

Abstract

We evaluated the genetic damage by ethanolic extract of propolis (EEP) induced to human lymphocytes which were exposed to increasing concentrations (0–2000 μg ml−1). The results indicated that EEP reduced significantly the mitotic index (MI) and proliferation index (PI) when high concentrations of EEP were used. Sister chromatid exchange (SCE) rates indicated that EEP could have genotoxic effects at high concentrations. Exposure of the cells to the amount of ethanol used as solvent did not alter either the MI and cell proliferation kinetics (CPK), or the rate of SCE. The results showed: (a) statistical increase in the percentage the cells with CAs and in the frequency of SCE at the highest concentrations, (b) a decrease in MI and in the CPK values was observed, (c) no effect was noticed in negative controls. In conclusion, it can be assumed that high concentrations of EEP have a cyto and genotoxic effect, in vitro, for human peripheral lymphocytes.

Published
2012

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Author

Montoro, A., Barquinero, J.F., Almonacid, M., Sebastià, N., Verdú, G., Sahuquillo, V., Serrano, J., Saiz, M., Villaescusa, J.I., Soriano, J.M., Montoro, A., Barquinero, J.F., Almonacid, M., Sebastià, N., Verdú, G., Sahuquillo, V., Serrano, J., Saiz, M., Villaescusa, J.I., and Soriano, J.M.

Published
2011

14. Automatic scoring of dicentric chromosomes as a tool in large scale radiation accidents

Author

Romm, H., primary, Ainsbury, E., additional, Barnard, S., additional, Barrios, L., additional, Barquinero, J.F., additional, Beinke, C., additional, Deperas, M., additional, Gregoire, E., additional, Koivistoinen, A., additional, Lindholm, C., additional, Moquet, J., additional, Oestreicher, U., additional, Puig, R., additional, Rothkamm, K., additional, Sommer, S., additional, Thierens, H., additional, Vandersickel, V., additional, Vral, A., additional, and Wojcik, A., additional

Published
2013
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