TY - JOUR
T1 - Accuracy of skin dose mapping in interventional cardiology: Comparison of 10 software products following a common protocol
AU - Dabin, Jérémie
AU - Blidéanu, Valentin
AU - Ciraj-Bjelac, Olivera F.
AU - Deleu, Marine
AU - De Monte, Francesca
AU - Feghali, Joëlle
AU - Gallagher, Aoife
AU - Knezevic, Zeljka
AU - Maccia, Carlos
AU - Malchair, Françoise L.
AU - Sans-Mercé, Marta
AU - Simantirakis, George
N1 - Score=10
PY - 2021/2/20
Y1 - 2021/2/20
N2 - Purpose: Online and offline software products can estimate the maximum skin dose (MSD) delivered to the patient during interventional cardiology procedures. The capabilities and accuracy of several skin dose mapping (SDM) software products were assessed on X-ray systems from the main manufacturers following a common protocol.
Methods: Skin dose was measured on four X-ray systems following a protocol composed of nine fundamental irradiation set-ups and three set-ups simulating short, clinical procedures. Dosimeters/multimeters with semiconductor-based detectors, radiochromic films and thermoluminescent dosimeters were used. Results were compared with up to eight of 10 SDM products, depending on their compatibility.
Results: The MSD estimates generally agreed with the measurements within ± 40% for fundamental irradiation set-ups and simulated procedures. Only three SDM products provided estimates within ± 40% for all tested configurations on at least one compatible X-ray system. No SDM product provided estimates within ± 40% for all combinations of configurations and compatible systems. The accuracy of the MSD estimate for lateral irradiations was variable and could be poor (up to 66% underestimation). Most SDM products produced maps which qualitatively represented the dimensions, the shape and the relative position of the MSD region. Some products, however, missed the MSD region when situated at the intersection of multiple fields, which is of radiation protection concern.
Conclusions: It is very challenging to establish a common protocol for quality control (QC) and acceptance testing because not all information necessary for accurate MSD calculation is available or standardised in the radiation dose structured reports (RDSRs).
AB - Purpose: Online and offline software products can estimate the maximum skin dose (MSD) delivered to the patient during interventional cardiology procedures. The capabilities and accuracy of several skin dose mapping (SDM) software products were assessed on X-ray systems from the main manufacturers following a common protocol.
Methods: Skin dose was measured on four X-ray systems following a protocol composed of nine fundamental irradiation set-ups and three set-ups simulating short, clinical procedures. Dosimeters/multimeters with semiconductor-based detectors, radiochromic films and thermoluminescent dosimeters were used. Results were compared with up to eight of 10 SDM products, depending on their compatibility.
Results: The MSD estimates generally agreed with the measurements within ± 40% for fundamental irradiation set-ups and simulated procedures. Only three SDM products provided estimates within ± 40% for all tested configurations on at least one compatible X-ray system. No SDM product provided estimates within ± 40% for all combinations of configurations and compatible systems. The accuracy of the MSD estimate for lateral irradiations was variable and could be poor (up to 66% underestimation). Most SDM products produced maps which qualitatively represented the dimensions, the shape and the relative position of the MSD region. Some products, however, missed the MSD region when situated at the intersection of multiple fields, which is of radiation protection concern.
Conclusions: It is very challenging to establish a common protocol for quality control (QC) and acceptance testing because not all information necessary for accurate MSD calculation is available or standardised in the radiation dose structured reports (RDSRs).
KW - Interventional cardiology
KW - Skin dose
KW - Skin dose mapping
KW - Quality control protocol
UR - https://ecm.sckcen.be/OTCS/llisapi.dll/open/47935538
U2 - 10.1016/j.ejmp.2021.02.016
DO - 10.1016/j.ejmp.2021.02.016
M3 - Article
SN - 1120-1797
VL - 82
SP - 279
EP - 294
JO - Physica Medica
JF - Physica Medica
ER -