TY  - JOUR
AU  - Feghali, Joelle Ann
AU  - Delépierre, Julie
AU  - Ciraj-Bjelac, Olivera
AU  - Dabin, Jérémie
AU  - Deleu, Marine
AU  - De Monte, Francesca
AU  - Dobrić, Milan R.
AU  - Gallagher, Aoife
AU  - Hadid-Beurrier, Lama
AU  - Henry, Patrick
AU  - Hršak, Hrvoje
AU  - Kiernan, Tom
AU  - Kumar, Rajesh
AU  - Knežević, Željka
AU  - Maccia, Carlo
AU  - Majer, Marija
AU  - Malchair, Françoise
AU  - Noble, Stéphane
AU  - Obrad, Davor
AU  - Merce, Marta Sans
AU  - Sideris, Georgios
AU  - Simantirakis, George
AU  - Spaulding, Christian
AU  - Tarantini, Giuseppe
AU  - Van Ngoc Ty, Claire
PY  - 2021
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/10111
AB  - Optimizing patient exposure in interventional cardiology is key to avoid skin injuries.PurposeTo establish predictive models of peak skin dose (PSD) during percutaneous coronary intervention (PCI), chronic total occlusion percutaneous coronary intervention (CTO), and transcatheter aortic valve implantation (TAVI) procedures.Material and MethodsA total of 534 PCI, 219 CTO, and 209 TAVI were collected from 12 hospitals in eight European countries. Independent associations between PSD and clinical and technical dose determinants were examined for those procedures using multivariate statistical analysis. A priori and a posteriori predictive models were built using stepwise multiple linear regressions. A fourfold cross-validation was performed, and models? performance was evaluated using the root mean square error (RMSE), mean absolute percentage error (MAPE), coefficient of determination (R²), and linear correlation coefficient (r).ResultsMultivariate analysis proved technical parameters to overweight clinical complexity indices with PSD mainly affected by fluoroscopy time, tube voltage, tube current, distance to detector, and tube angulation for PCI. For CTO, these were body mass index, tube voltage, and fluoroscopy contribution. For TAVI, these parameters were sex, fluoroscopy time, tube voltage, and cine acquisitions. When benchmarking the predictive models, the correlation coefficients were r?=?0.45 for the a priori model and r?=?0.89 for the a posteriori model for PCI. These were 0.44 and 0.67, respectively, for the CTO a priori and a posteriori models, and 0.58 and 0.74, respectively, for the TAVI a priori and a posteriori models.ConclusionA priori predictive models can help operators estimate the PSD before performing the intervention while a posteriori models are more accurate estimates and can be useful in the absence of skin dose mapping solutions
T2  - Acta Radiologica
T1  - Establishing a priori and a posteriori predictive models to assess patients’ peak skin dose in interventional cardiology. Part 2: results of the VERIDIC project
DO  - 10.1177/02841851211062089
ER  - 

@article{
author = "Feghali, Joelle Ann and Delépierre, Julie and Ciraj-Bjelac, Olivera and Dabin, Jérémie and Deleu, Marine and De Monte, Francesca and Dobrić, Milan R. and Gallagher, Aoife and Hadid-Beurrier, Lama and Henry, Patrick and Hršak, Hrvoje and Kiernan, Tom and Kumar, Rajesh and Knežević, Željka and Maccia, Carlo and Majer, Marija and Malchair, Françoise and Noble, Stéphane and Obrad, Davor and Merce, Marta Sans and Sideris, Georgios and Simantirakis, George and Spaulding, Christian and Tarantini, Giuseppe and Van Ngoc Ty, Claire",
year = "2021",
abstract = "Optimizing patient exposure in interventional cardiology is key to avoid skin injuries.PurposeTo establish predictive models of peak skin dose (PSD) during percutaneous coronary intervention (PCI), chronic total occlusion percutaneous coronary intervention (CTO), and transcatheter aortic valve implantation (TAVI) procedures.Material and MethodsA total of 534 PCI, 219 CTO, and 209 TAVI were collected from 12 hospitals in eight European countries. Independent associations between PSD and clinical and technical dose determinants were examined for those procedures using multivariate statistical analysis. A priori and a posteriori predictive models were built using stepwise multiple linear regressions. A fourfold cross-validation was performed, and models? performance was evaluated using the root mean square error (RMSE), mean absolute percentage error (MAPE), coefficient of determination (R²), and linear correlation coefficient (r).ResultsMultivariate analysis proved technical parameters to overweight clinical complexity indices with PSD mainly affected by fluoroscopy time, tube voltage, tube current, distance to detector, and tube angulation for PCI. For CTO, these were body mass index, tube voltage, and fluoroscopy contribution. For TAVI, these parameters were sex, fluoroscopy time, tube voltage, and cine acquisitions. When benchmarking the predictive models, the correlation coefficients were r?=?0.45 for the a priori model and r?=?0.89 for the a posteriori model for PCI. These were 0.44 and 0.67, respectively, for the CTO a priori and a posteriori models, and 0.58 and 0.74, respectively, for the TAVI a priori and a posteriori models.ConclusionA priori predictive models can help operators estimate the PSD before performing the intervention while a posteriori models are more accurate estimates and can be useful in the absence of skin dose mapping solutions",
journal = "Acta Radiologica",
title = "Establishing a priori and a posteriori predictive models to assess patients’ peak skin dose in interventional cardiology. Part 2: results of the VERIDIC project",
doi = "10.1177/02841851211062089"
}

Feghali, J. A., Delépierre, J., Ciraj-Bjelac, O., Dabin, J., Deleu, M., De Monte, F., Dobrić, M. R., Gallagher, A., Hadid-Beurrier, L., Henry, P., Hršak, H., Kiernan, T., Kumar, R., Knežević, Ž., Maccia, C., Majer, M., Malchair, F., Noble, S., Obrad, D., Merce, M. S., Sideris, G., Simantirakis, G., Spaulding, C., Tarantini, G.,& Van Ngoc Ty, C.. (2021). Establishing a priori and a posteriori predictive models to assess patients’ peak skin dose in interventional cardiology. Part 2: results of the VERIDIC project. in Acta Radiologica.
https://doi.org/10.1177/02841851211062089

Feghali JA, Delépierre J, Ciraj-Bjelac O, Dabin J, Deleu M, De Monte F, Dobrić MR, Gallagher A, Hadid-Beurrier L, Henry P, Hršak H, Kiernan T, Kumar R, Knežević Ž, Maccia C, Majer M, Malchair F, Noble S, Obrad D, Merce MS, Sideris G, Simantirakis G, Spaulding C, Tarantini G, Van Ngoc Ty C. Establishing a priori and a posteriori predictive models to assess patients’ peak skin dose in interventional cardiology. Part 2: results of the VERIDIC project. in Acta Radiologica. 2021;.
doi:10.1177/02841851211062089 .

Feghali, Joelle Ann, Delépierre, Julie, Ciraj-Bjelac, Olivera, Dabin, Jérémie, Deleu, Marine, De Monte, Francesca, Dobrić, Milan R., Gallagher, Aoife, Hadid-Beurrier, Lama, Henry, Patrick, Hršak, Hrvoje, Kiernan, Tom, Kumar, Rajesh, Knežević, Željka, Maccia, Carlo, Majer, Marija, Malchair, Françoise, Noble, Stéphane, Obrad, Davor, Merce, Marta Sans, Sideris, Georgios, Simantirakis, George, Spaulding, Christian, Tarantini, Giuseppe, Van Ngoc Ty, Claire, "Establishing a priori and a posteriori predictive models to assess patients’ peak skin dose in interventional cardiology. Part 2: results of the VERIDIC project" in Acta Radiologica (2021),
https://doi.org/10.1177/02841851211062089 . .

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 . .