TY - JOUR
T1 - How to establish and use local diagnostic reference levels
T2 - an ESR EuroSafe Imaging expert statement
AU - Damilakis, John
AU - Frija, Guy
AU - Brkljacic, Boris
AU - Vano, Eliseo
AU - Loose, Reinhard
AU - Paulo, Graciano
AU - Brat, Hugues
AU - Tsapaki, Virginia
AU - European Society of Radiology
N1 - Loose: Institute of Medical Physics, Hospital Nuremberg, Prof.-Ernst-Nathan-Str. 1, 90419, Nuremberg, Germany
PY - 2023/2/6
Y1 - 2023/2/6
N2 - ABSTRACT: Although the Diagnostic Reference Levels (DRLs) have been shown to be an important tool for optimising patient radiation protection, there are still difficulties related to the methodology that should be used to establish and use local DRL values. This statement represents the current view of the EuroSafe Imaging ‘Clinical DRLs’ working group formed with the purpose to produce scientific and educational material on DRLs and promote the concept of local DRLs. Guidelines on how to establish and how to use local DRLs presented herein can be implemented using a multidisciplinary team approach. Local DRLs are easy to determine and implement and they reflect local equipment performance and local clinical needs. They can be updated more frequently than the national DRLs, especially if a dose management system is available. To establish local DRLs, a practical approach could be to collect a reasonable set, i.e., at least 20–30 procedures, of data for well-defined clinical indications and calculate the 3rd quartile values. The median values of the distribution can be set to define the ‘typical values’. The International Commission of Radiological Protection (ICRP) suggests setting ‘typical values’ for newer technologies that enable decreased amounts of radiation exposure for a similar level of image quality. Local DRLs should be similar or lower to the national DRLs. They could be higher only if the clinical benefits for some medical indications are fully explained and reported. Local DRLs may be used as a quality benchmark to track outliers and can be also used as alert values.KEY POINTS: Guidelines on how to establish and use local DRLs are presented. Local DRLs are easy to determine and implement and can be updated frequently. Additionally, local DRLs can be used to track outliers.
AB - ABSTRACT: Although the Diagnostic Reference Levels (DRLs) have been shown to be an important tool for optimising patient radiation protection, there are still difficulties related to the methodology that should be used to establish and use local DRL values. This statement represents the current view of the EuroSafe Imaging ‘Clinical DRLs’ working group formed with the purpose to produce scientific and educational material on DRLs and promote the concept of local DRLs. Guidelines on how to establish and how to use local DRLs presented herein can be implemented using a multidisciplinary team approach. Local DRLs are easy to determine and implement and they reflect local equipment performance and local clinical needs. They can be updated more frequently than the national DRLs, especially if a dose management system is available. To establish local DRLs, a practical approach could be to collect a reasonable set, i.e., at least 20–30 procedures, of data for well-defined clinical indications and calculate the 3rd quartile values. The median values of the distribution can be set to define the ‘typical values’. The International Commission of Radiological Protection (ICRP) suggests setting ‘typical values’ for newer technologies that enable decreased amounts of radiation exposure for a similar level of image quality. Local DRLs should be similar or lower to the national DRLs. They could be higher only if the clinical benefits for some medical indications are fully explained and reported. Local DRLs may be used as a quality benchmark to track outliers and can be also used as alert values.KEY POINTS: Guidelines on how to establish and use local DRLs are presented. Local DRLs are easy to determine and implement and can be updated frequently. Additionally, local DRLs can be used to track outliers.
U2 - 10.1186/s13244-023-01369-x
DO - 10.1186/s13244-023-01369-x
M3 - Original Article (Journal)
C2 - 36746832
SN - 1869-4101
VL - 14
SP - 27
JO - INSIGHTS INTO IMAGING
JF - INSIGHTS INTO IMAGING
IS - 1
ER -