TY  - JOUR
AU  - O’Connor, Una M.
AU  - Carinou, Eleftheria
AU  - Clairand, Isabelle
AU  - Ciraj-Bjelac, Olivera
AU  - de Monte, Francesca
AU  - Domienik-Andrzejewska, Joanna
AU  - Ferrari, Paolo
AU  - Ginjaume, Merce
AU  - Hršak, Hrvoje
AU  - Hupe, Oliver
AU  - Knežević, Željka
AU  - Sans Merce, Marta
AU  - Sarmento, Sandra
AU  - Siiskonen, Teemu
AU  - Vanhavere, Filip
PY  - 2021
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/9863
AB  - Occupational radiation doses from interventional procedures have the potential to be relatively high. The requirement to optimise these doses encourages the use of electronic or active personal dosimeters (APDs) which are now increasingly used in hospitals. They are typically used in tandem with a routine passive dosimetry monitoring programme, with APDs used for real-time readings, for training purposes and when new imaging technology is introduced. However, there are limitations when using APDs. A survey in hospitals to identify issues related to the use of APDs was recently completed, along with an extensive series of APD tests by the EURADOS Working Group 12 on Dosimetry for Medical Imaging. The aim of this review paper is to summarise the state of the art regarding the use of APDs. We also used the results of our survey and our tests to develop a set of recommendations for the use of APDs in the clinical interventional radiology/cardiology settings, and draw attention to some of the current challenges.
T2  - Physica Medica
T1  - Recommendations for the use of active personal dosemeters (APDs) in interventional workplaces in hospitals
VL  - 87
SP  - 131
EP  - 135
DO  - 10.1016/j.ejmp.2021.05.015
ER  - 

@article{
author = "O’Connor, Una M. and Carinou, Eleftheria and Clairand, Isabelle and Ciraj-Bjelac, Olivera and de Monte, Francesca and Domienik-Andrzejewska, Joanna and Ferrari, Paolo and Ginjaume, Merce and Hršak, Hrvoje and Hupe, Oliver and Knežević, Željka and Sans Merce, Marta and Sarmento, Sandra and Siiskonen, Teemu and Vanhavere, Filip",
year = "2021",
abstract = "Occupational radiation doses from interventional procedures have the potential to be relatively high. The requirement to optimise these doses encourages the use of electronic or active personal dosimeters (APDs) which are now increasingly used in hospitals. They are typically used in tandem with a routine passive dosimetry monitoring programme, with APDs used for real-time readings, for training purposes and when new imaging technology is introduced. However, there are limitations when using APDs. A survey in hospitals to identify issues related to the use of APDs was recently completed, along with an extensive series of APD tests by the EURADOS Working Group 12 on Dosimetry for Medical Imaging. The aim of this review paper is to summarise the state of the art regarding the use of APDs. We also used the results of our survey and our tests to develop a set of recommendations for the use of APDs in the clinical interventional radiology/cardiology settings, and draw attention to some of the current challenges.",
journal = "Physica Medica",
title = "Recommendations for the use of active personal dosemeters (APDs) in interventional workplaces in hospitals",
volume = "87",
pages = "131-135",
doi = "10.1016/j.ejmp.2021.05.015"
}

O’Connor, U. M., Carinou, E., Clairand, I., Ciraj-Bjelac, O., de Monte, F., Domienik-Andrzejewska, J., Ferrari, P., Ginjaume, M., Hršak, H., Hupe, O., Knežević, Ž., Sans Merce, M., Sarmento, S., Siiskonen, T.,& Vanhavere, F.. (2021). Recommendations for the use of active personal dosemeters (APDs) in interventional workplaces in hospitals. in Physica Medica, 87, 131-135.
https://doi.org/10.1016/j.ejmp.2021.05.015

O’Connor UM, Carinou E, Clairand I, Ciraj-Bjelac O, de Monte F, Domienik-Andrzejewska J, Ferrari P, Ginjaume M, Hršak H, Hupe O, Knežević Ž, Sans Merce M, Sarmento S, Siiskonen T, Vanhavere F. Recommendations for the use of active personal dosemeters (APDs) in interventional workplaces in hospitals. in Physica Medica. 2021;87:131-135.
doi:10.1016/j.ejmp.2021.05.015 .

O’Connor, Una M., Carinou, Eleftheria, Clairand, Isabelle, Ciraj-Bjelac, Olivera, de Monte, Francesca, Domienik-Andrzejewska, Joanna, Ferrari, Paolo, Ginjaume, Merce, Hršak, Hrvoje, Hupe, Oliver, Knežević, Željka, Sans Merce, Marta, Sarmento, Sandra, Siiskonen, Teemu, Vanhavere, Filip, "Recommendations for the use of active personal dosemeters (APDs) in interventional workplaces in hospitals" in Physica Medica, 87 (2021):131-135,
https://doi.org/10.1016/j.ejmp.2021.05.015 . .

TY  - JOUR
AU  - Vanhavere, Filip
AU  - Carinou, Eleftheria
AU  - Clairand, Isabelle
AU  - Ciraj-Bjelac, Olivera
AU  - De Monte, F
AU  - Domienik-Andrzejewska, J
AU  - Ferrari, P
AU  - Ginjaume, M
AU  - Hršak, Hrvoje
AU  - Hupe, O
AU  - Knežević, Željka
AU  - O’Connor, U
AU  - Merce, M Sans
AU  - Sarmento, S
AU  - Savary, A
AU  - Siskoonen, T
PY  - 2020
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/9051
AB  - Medical staff in interventional procedures are among the professionals with the highest occupational doses. Active personal dosemeters (APDs) can help in optimizing the exposure during interventional procedures. However, there can be problems when using APDs during interventional procedures, due to the specific energy and angular distribution of the radiation field and because of the pulsed nature of the radiation. Many parameters like the type of interventional procedure, personal habits and working techniques, protection tools used and X-ray field characteristics influence the occupational exposure and the scattered radiation around the patient. In this paper, we compare the results from three types of APDs with a passive personal dosimetry system while being used in real clinical environment by the interventional staff. The results show that there is a large spread in the ratios of the passive and active devices.
T2  - Radiation Protection Dosimetry
T1  - The use of active personal dosemeters in interventional workplaces in hospitals: comparison between active and passive dosemeters worn simultaneously by medical staff
VL  - 188
IS  - 1
SP  - 22
EP  - 29
DO  - 10.1093/rpd/ncz253
ER  - 

@article{
author = "Vanhavere, Filip and Carinou, Eleftheria and Clairand, Isabelle and Ciraj-Bjelac, Olivera and De Monte, F and Domienik-Andrzejewska, J and Ferrari, P and Ginjaume, M and Hršak, Hrvoje and Hupe, O and Knežević, Željka and O’Connor, U and Merce, M Sans and Sarmento, S and Savary, A and Siskoonen, T",
year = "2020",
abstract = "Medical staff in interventional procedures are among the professionals with the highest occupational doses. Active personal dosemeters (APDs) can help in optimizing the exposure during interventional procedures. However, there can be problems when using APDs during interventional procedures, due to the specific energy and angular distribution of the radiation field and because of the pulsed nature of the radiation. Many parameters like the type of interventional procedure, personal habits and working techniques, protection tools used and X-ray field characteristics influence the occupational exposure and the scattered radiation around the patient. In this paper, we compare the results from three types of APDs with a passive personal dosimetry system while being used in real clinical environment by the interventional staff. The results show that there is a large spread in the ratios of the passive and active devices.",
journal = "Radiation Protection Dosimetry",
title = "The use of active personal dosemeters in interventional workplaces in hospitals: comparison between active and passive dosemeters worn simultaneously by medical staff",
volume = "188",
number = "1",
pages = "22-29",
doi = "10.1093/rpd/ncz253"
}

Vanhavere, F., Carinou, E., Clairand, I., Ciraj-Bjelac, O., De Monte, F., Domienik-Andrzejewska, J., Ferrari, P., Ginjaume, M., Hršak, H., Hupe, O., Knežević, Ž., O’Connor, U., Merce, M. S., Sarmento, S., Savary, A.,& Siskoonen, T.. (2020). The use of active personal dosemeters in interventional workplaces in hospitals: comparison between active and passive dosemeters worn simultaneously by medical staff. in Radiation Protection Dosimetry, 188(1), 22-29.
https://doi.org/10.1093/rpd/ncz253

Vanhavere F, Carinou E, Clairand I, Ciraj-Bjelac O, De Monte F, Domienik-Andrzejewska J, Ferrari P, Ginjaume M, Hršak H, Hupe O, Knežević Ž, O’Connor U, Merce MS, Sarmento S, Savary A, Siskoonen T. The use of active personal dosemeters in interventional workplaces in hospitals: comparison between active and passive dosemeters worn simultaneously by medical staff. in Radiation Protection Dosimetry. 2020;188(1):22-29.
doi:10.1093/rpd/ncz253 .

Vanhavere, Filip, Carinou, Eleftheria, Clairand, Isabelle, Ciraj-Bjelac, Olivera, De Monte, F, Domienik-Andrzejewska, J, Ferrari, P, Ginjaume, M, Hršak, Hrvoje, Hupe, O, Knežević, Željka, O’Connor, U, Merce, M Sans, Sarmento, S, Savary, A, Siskoonen, T, "The use of active personal dosemeters in interventional workplaces in hospitals: comparison between active and passive dosemeters worn simultaneously by medical staff" in Radiation Protection Dosimetry, 188, no. 1 (2020):22-29,
https://doi.org/10.1093/rpd/ncz253 . .

TY  - JOUR
AU  - Dabin, Jeremie
AU  - Negri, A.
AU  - Farah, Jad
AU  - Ciraj-Bjelac, Olivera
AU  - Clairand, Isabelle
AU  - De Angelis, C.
AU  - Domienik, Joanna
AU  - Jarvinen, Hannu
AU  - Kopec, R.
AU  - Majer, Marija
AU  - Malchair, Francoise
AU  - Novak, L.
AU  - Siiskonen, Teemu
AU  - Vanhavere, Filip
AU  - Trianni, A.
AU  - Knežević, Željka
PY  - 2015
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/860
AB  - Purpose: Point detectors are frequently used to measure patients maximum skin dose (MSD) in fluoroscopically-guided interventional procedures (IP). However, their performance and ability to detect the actual MSD are rarely evaluated. The present study investigates the sampling uncertainty associated with the use of grids of point detectors to measure MSD in IP. Method: Chemoembolisation of the liver (CE), percutaneous coronary intervention (PCI) and neuroembolisation (NE) procedures were studied. Spatial dose distributions were measured with XR-RV3 Gafchromic (R) films for 176 procedures. These distributions were used to simulate measurements performed using grids of detectors such as thermoluminescence detectors, with detector spacing from 1.4 up to 10 cm. Results: The sampling uncertainty was the highest in PCI and NE procedures. With 40 detectors covering the film area (36 cm x 44 cm), the maximum dose would be on average 86% and 63% of the MSD measured with Gafchromic (R) films in CE and PCI procedures, respectively. In NE procedures, with 27 detectors covering the film area (14 cm x 35 cm), the maximum dose measured would be on average 82% of the MSD obtained with the Gafchromic (R) films. Conclusion: Thermoluminescence detectors show good energy and dose response in clinical beam qualities. However the poor spatial resolution of such point-like dosimeters may far outweigh their good dosimetric properties. The uncertainty from the sampling procedure should be estimated when point detectors are used in IP because it may lead to strong underestimation of the MSD. (C) 2015 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.
PB  - Elsevier
T2  - Physica Medica
T1  - Characterisation of grids of point detectors in maximum skin dose measurement in fluoroscopically-guided interventional procedures
VL  - 31
IS  - 8
SP  - 1112
EP  - 1117
DO  - 10.1016/j.ejmp.2015.08.006
ER  - 

@article{
author = "Dabin, Jeremie and Negri, A. and Farah, Jad and Ciraj-Bjelac, Olivera and Clairand, Isabelle and De Angelis, C. and Domienik, Joanna and Jarvinen, Hannu and Kopec, R. and Majer, Marija and Malchair, Francoise and Novak, L. and Siiskonen, Teemu and Vanhavere, Filip and Trianni, A. and Knežević, Željka",
year = "2015",
abstract = "Purpose: Point detectors are frequently used to measure patients maximum skin dose (MSD) in fluoroscopically-guided interventional procedures (IP). However, their performance and ability to detect the actual MSD are rarely evaluated. The present study investigates the sampling uncertainty associated with the use of grids of point detectors to measure MSD in IP. Method: Chemoembolisation of the liver (CE), percutaneous coronary intervention (PCI) and neuroembolisation (NE) procedures were studied. Spatial dose distributions were measured with XR-RV3 Gafchromic (R) films for 176 procedures. These distributions were used to simulate measurements performed using grids of detectors such as thermoluminescence detectors, with detector spacing from 1.4 up to 10 cm. Results: The sampling uncertainty was the highest in PCI and NE procedures. With 40 detectors covering the film area (36 cm x 44 cm), the maximum dose would be on average 86% and 63% of the MSD measured with Gafchromic (R) films in CE and PCI procedures, respectively. In NE procedures, with 27 detectors covering the film area (14 cm x 35 cm), the maximum dose measured would be on average 82% of the MSD obtained with the Gafchromic (R) films. Conclusion: Thermoluminescence detectors show good energy and dose response in clinical beam qualities. However the poor spatial resolution of such point-like dosimeters may far outweigh their good dosimetric properties. The uncertainty from the sampling procedure should be estimated when point detectors are used in IP because it may lead to strong underestimation of the MSD. (C) 2015 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.",
publisher = "Elsevier",
journal = "Physica Medica",
title = "Characterisation of grids of point detectors in maximum skin dose measurement in fluoroscopically-guided interventional procedures",
volume = "31",
number = "8",
pages = "1112-1117",
doi = "10.1016/j.ejmp.2015.08.006"
}

Dabin, J., Negri, A., Farah, J., Ciraj-Bjelac, O., Clairand, I., De Angelis, C., Domienik, J., Jarvinen, H., Kopec, R., Majer, M., Malchair, F., Novak, L., Siiskonen, T., Vanhavere, F., Trianni, A.,& Knežević, Ž.. (2015). Characterisation of grids of point detectors in maximum skin dose measurement in fluoroscopically-guided interventional procedures. in Physica Medica
Elsevier., 31(8), 1112-1117.
https://doi.org/10.1016/j.ejmp.2015.08.006

Dabin J, Negri A, Farah J, Ciraj-Bjelac O, Clairand I, De Angelis C, Domienik J, Jarvinen H, Kopec R, Majer M, Malchair F, Novak L, Siiskonen T, Vanhavere F, Trianni A, Knežević Ž. Characterisation of grids of point detectors in maximum skin dose measurement in fluoroscopically-guided interventional procedures. in Physica Medica. 2015;31(8):1112-1117.
doi:10.1016/j.ejmp.2015.08.006 .

Dabin, Jeremie, Negri, A., Farah, Jad, Ciraj-Bjelac, Olivera, Clairand, Isabelle, De Angelis, C., Domienik, Joanna, Jarvinen, Hannu, Kopec, R., Majer, Marija, Malchair, Francoise, Novak, L., Siiskonen, Teemu, Vanhavere, Filip, Trianni, A., Knežević, Željka, "Characterisation of grids of point detectors in maximum skin dose measurement in fluoroscopically-guided interventional procedures" in Physica Medica, 31, no. 8 (2015):1112-1117,
https://doi.org/10.1016/j.ejmp.2015.08.006 . .

TY  - JOUR
AU  - Farah, Jad
AU  - Trianni, A.
AU  - Carinou, Eleftheria
AU  - Ciraj-Bjelac, Olivera
AU  - Clairand, Isabelle
AU  - Dabin, Jeremie
AU  - De Angelis, C.
AU  - Domienik, Joanna
AU  - Jarvinen, Hannu
AU  - Kopec, R.
AU  - Majer, Marija
AU  - Malchair, Francoise
AU  - Negri, A.
AU  - Novak, L.
AU  - Siiskonen, Teemu
AU  - Vanhavere, Filip
AU  - Knežević, Željka
PY  - 2015
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/7068
AB  - To help operators acknowledge patient dose during interventional procedures, EURADOS WG-12 focused on measuring patient skin dose using XR-RV3 gafchromic films, thermoluminescent detector (TLD) pellets or 2D TL foils and on investigating possible correlation to the on-line dose indicators such as fluoroscopy time, Kerma-area product (KAP) and cumulative air Kerma at reference point (CK). The study aims at defining non-centre-specific European alert thresholds for skin dose in three interventional procedures: chemoembolization of the liver (CE), neuroembolization (NE) and percutaneous coronary interventions (PCI). Skin dose values of GT 3 Gy (ICRP threshold for skin injuries) were indeed measured in these procedures confirming the need for dose indicators that correlate with maximum skin dose (MSD). However, although MSD showed fairly good correlation with KAP and CK, several limitations were identified challenging the set-up of non-centre-specific European alert thresholds. This paper presents preliminary results of this wide European measurement campaign and focuses on the main challenges in the definition of European alert thresholds.
T2  - Radiation Protection Dosimetry
T1  - Measurement of maximum skin dose in interventional radiology and cardiology and challenges in the set-up of European alert thresholds
VL  - 164
IS  - 1-2
SP  - 138
EP  - 142
DO  - 10.1093/rpd/ncu314
ER  - 

@article{
author = "Farah, Jad and Trianni, A. and Carinou, Eleftheria and Ciraj-Bjelac, Olivera and Clairand, Isabelle and Dabin, Jeremie and De Angelis, C. and Domienik, Joanna and Jarvinen, Hannu and Kopec, R. and Majer, Marija and Malchair, Francoise and Negri, A. and Novak, L. and Siiskonen, Teemu and Vanhavere, Filip and Knežević, Željka",
year = "2015",
abstract = "To help operators acknowledge patient dose during interventional procedures, EURADOS WG-12 focused on measuring patient skin dose using XR-RV3 gafchromic films, thermoluminescent detector (TLD) pellets or 2D TL foils and on investigating possible correlation to the on-line dose indicators such as fluoroscopy time, Kerma-area product (KAP) and cumulative air Kerma at reference point (CK). The study aims at defining non-centre-specific European alert thresholds for skin dose in three interventional procedures: chemoembolization of the liver (CE), neuroembolization (NE) and percutaneous coronary interventions (PCI). Skin dose values of GT 3 Gy (ICRP threshold for skin injuries) were indeed measured in these procedures confirming the need for dose indicators that correlate with maximum skin dose (MSD). However, although MSD showed fairly good correlation with KAP and CK, several limitations were identified challenging the set-up of non-centre-specific European alert thresholds. This paper presents preliminary results of this wide European measurement campaign and focuses on the main challenges in the definition of European alert thresholds.",
journal = "Radiation Protection Dosimetry",
title = "Measurement of maximum skin dose in interventional radiology and cardiology and challenges in the set-up of European alert thresholds",
volume = "164",
number = "1-2",
pages = "138-142",
doi = "10.1093/rpd/ncu314"
}

Farah, J., Trianni, A., Carinou, E., Ciraj-Bjelac, O., Clairand, I., Dabin, J., De Angelis, C., Domienik, J., Jarvinen, H., Kopec, R., Majer, M., Malchair, F., Negri, A., Novak, L., Siiskonen, T., Vanhavere, F.,& Knežević, Ž.. (2015). Measurement of maximum skin dose in interventional radiology and cardiology and challenges in the set-up of European alert thresholds. in Radiation Protection Dosimetry, 164(1-2), 138-142.
https://doi.org/10.1093/rpd/ncu314

Farah J, Trianni A, Carinou E, Ciraj-Bjelac O, Clairand I, Dabin J, De Angelis C, Domienik J, Jarvinen H, Kopec R, Majer M, Malchair F, Negri A, Novak L, Siiskonen T, Vanhavere F, Knežević Ž. Measurement of maximum skin dose in interventional radiology and cardiology and challenges in the set-up of European alert thresholds. in Radiation Protection Dosimetry. 2015;164(1-2):138-142.
doi:10.1093/rpd/ncu314 .

Farah, Jad, Trianni, A., Carinou, Eleftheria, Ciraj-Bjelac, Olivera, Clairand, Isabelle, Dabin, Jeremie, De Angelis, C., Domienik, Joanna, Jarvinen, Hannu, Kopec, R., Majer, Marija, Malchair, Francoise, Negri, A., Novak, L., Siiskonen, Teemu, Vanhavere, Filip, Knežević, Željka, "Measurement of maximum skin dose in interventional radiology and cardiology and challenges in the set-up of European alert thresholds" in Radiation Protection Dosimetry, 164, no. 1-2 (2015):138-142,
https://doi.org/10.1093/rpd/ncu314 . .

TY  - JOUR
AU  - Farah, Jad
AU  - Trianni, A.
AU  - Ciraj-Bjelac, Olivera
AU  - Clairand, Isabelle
AU  - De Angelis, C.
AU  - Delle Canne, S.
AU  - Hadid, L.
AU  - Huet, C.
AU  - Jarvinen, Hannu
AU  - Negri, A.
AU  - Novak, L.
AU  - Pinto, M.
AU  - Siiskonen, Teemu
AU  - Waryn, M. J.
AU  - Knežević, Željka
PY  - 2015
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/647
AB  - Purpose: To investigate the optimal use of XR-RV3 GafChromic (R) films to assess patient skin dose in interventional radiology while addressing the means to reduce uncertainties in dose assessment. Methods: XR-Type R GafChromic films have been shown to represent the most efficient and suitable solution to determine patient skin dose in interventional procedures. As film dosimetry can be associated with high uncertainty, this paper presents the EURADOS WG 12 initiative to carry out a comprehensive study of film characteristics with a multisite approach. The considered sources of uncertainties include scanner, film, and fitting-related errors. The work focused on studying film behavior with clinical high-dose-rate pulsed beams (previously unavailable in the literature) together with reference standard laboratory beams. Results: First, the performance analysis of six different scanner models has shown that scan uniformity perpendicular to the lamp motion axis and that long term stability are the main sources of scanner-related uncertainties. These could induce errors of up to 7% on the film readings unless regularly checked and corrected. Typically, scan uniformity correction matrices and reading normalization to the scanner-specific and daily background reading should be done. In addition, the analysis on multiple film batches has shown that XR-RV3 films have generally good uniformity within one batch ( LT 1.5%), require 24 h to stabilize after the irradiation and their response is roughly independent of dose rate ( LT 5%). However, XR-RV3 films showed large variations (up to 15%) with radiation quality both in standard laboratory and in clinical conditions. As such, and prior to conducting patient skin dose measurements, it is mandatory to choose the appropriate calibration beam quality depending on the characteristics of the x-ray systems that will be used clinically. In addition, yellow side film irradiations should be preferentially used since they showed a lower dependence on beam parameters compared to white side film irradiations. Finally, among the six different fit equations tested in this work, typically used third order polynomials and more rational and simplistic equations, of the form dose inversely proportional to pixel value, were both found to provide satisfactory results. Fitting-related uncertainty was clearly identified as a major contributor to the overall film dosimetry uncertainty with up to 40% error on the dose estimate. Conclusions: The overall uncertainty associated with the use of XR-RV3 films to determine skin dose in the interventional environment can realistically be estimated to be around 20% (k = 1). This uncertainty can be reduced to within 5% if carefully monitoring scanner, film, and fitting-related errors or it can easily increase to over 40% if minimal care is not taken. This work demonstrates the importance of appropriate calibration, reading, fitting, and other film-related and scan-related processes, which will help improve the accuracy of skin dose measurements in interventional procedures. (C) 2015 American Association of Physicists in Medicine.
T2  - Medical Physics
T1  - Characterization of XR-RV3 GafChromic (R) films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors
VL  - 42
IS  - 7
SP  - 4211
EP  - 4226
DO  - 10.1118/1.4922132
ER  - 

@article{
author = "Farah, Jad and Trianni, A. and Ciraj-Bjelac, Olivera and Clairand, Isabelle and De Angelis, C. and Delle Canne, S. and Hadid, L. and Huet, C. and Jarvinen, Hannu and Negri, A. and Novak, L. and Pinto, M. and Siiskonen, Teemu and Waryn, M. J. and Knežević, Željka",
year = "2015",
abstract = "Purpose: To investigate the optimal use of XR-RV3 GafChromic (R) films to assess patient skin dose in interventional radiology while addressing the means to reduce uncertainties in dose assessment. Methods: XR-Type R GafChromic films have been shown to represent the most efficient and suitable solution to determine patient skin dose in interventional procedures. As film dosimetry can be associated with high uncertainty, this paper presents the EURADOS WG 12 initiative to carry out a comprehensive study of film characteristics with a multisite approach. The considered sources of uncertainties include scanner, film, and fitting-related errors. The work focused on studying film behavior with clinical high-dose-rate pulsed beams (previously unavailable in the literature) together with reference standard laboratory beams. Results: First, the performance analysis of six different scanner models has shown that scan uniformity perpendicular to the lamp motion axis and that long term stability are the main sources of scanner-related uncertainties. These could induce errors of up to 7% on the film readings unless regularly checked and corrected. Typically, scan uniformity correction matrices and reading normalization to the scanner-specific and daily background reading should be done. In addition, the analysis on multiple film batches has shown that XR-RV3 films have generally good uniformity within one batch ( LT 1.5%), require 24 h to stabilize after the irradiation and their response is roughly independent of dose rate ( LT 5%). However, XR-RV3 films showed large variations (up to 15%) with radiation quality both in standard laboratory and in clinical conditions. As such, and prior to conducting patient skin dose measurements, it is mandatory to choose the appropriate calibration beam quality depending on the characteristics of the x-ray systems that will be used clinically. In addition, yellow side film irradiations should be preferentially used since they showed a lower dependence on beam parameters compared to white side film irradiations. Finally, among the six different fit equations tested in this work, typically used third order polynomials and more rational and simplistic equations, of the form dose inversely proportional to pixel value, were both found to provide satisfactory results. Fitting-related uncertainty was clearly identified as a major contributor to the overall film dosimetry uncertainty with up to 40% error on the dose estimate. Conclusions: The overall uncertainty associated with the use of XR-RV3 films to determine skin dose in the interventional environment can realistically be estimated to be around 20% (k = 1). This uncertainty can be reduced to within 5% if carefully monitoring scanner, film, and fitting-related errors or it can easily increase to over 40% if minimal care is not taken. This work demonstrates the importance of appropriate calibration, reading, fitting, and other film-related and scan-related processes, which will help improve the accuracy of skin dose measurements in interventional procedures. (C) 2015 American Association of Physicists in Medicine.",
journal = "Medical Physics",
title = "Characterization of XR-RV3 GafChromic (R) films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors",
volume = "42",
number = "7",
pages = "4211-4226",
doi = "10.1118/1.4922132"
}

Farah, J., Trianni, A., Ciraj-Bjelac, O., Clairand, I., De Angelis, C., Delle Canne, S., Hadid, L., Huet, C., Jarvinen, H., Negri, A., Novak, L., Pinto, M., Siiskonen, T., Waryn, M. J.,& Knežević, Ž.. (2015). Characterization of XR-RV3 GafChromic (R) films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors. in Medical Physics, 42(7), 4211-4226.
https://doi.org/10.1118/1.4922132

Farah J, Trianni A, Ciraj-Bjelac O, Clairand I, De Angelis C, Delle Canne S, Hadid L, Huet C, Jarvinen H, Negri A, Novak L, Pinto M, Siiskonen T, Waryn MJ, Knežević Ž. Characterization of XR-RV3 GafChromic (R) films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors. in Medical Physics. 2015;42(7):4211-4226.
doi:10.1118/1.4922132 .

Farah, Jad, Trianni, A., Ciraj-Bjelac, Olivera, Clairand, Isabelle, De Angelis, C., Delle Canne, S., Hadid, L., Huet, C., Jarvinen, Hannu, Negri, A., Novak, L., Pinto, M., Siiskonen, Teemu, Waryn, M. J., Knežević, Željka, "Characterization of XR-RV3 GafChromic (R) films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors" in Medical Physics, 42, no. 7 (2015):4211-4226,
https://doi.org/10.1118/1.4922132 . .