Coronary Artery Disease Clinical Trial
Official title:
Prospective Multicenter Registry On RadiaTion Dose Estimates Of Cardiac CT AngIOgraphy IN Daily Practice in 2017
The "Prospective Multicenter Registry On RadiaTion Dose Estimates Of Cardiac CT AngIOgraphy
IN Daily Practice in 2017" (PROTECTION-VI) study is a prospective registry and
investigator-initiated initiative without third-party funding, which will collect and analyze
the radiation dose exposure of Cardiac Computed Tomography Angiographic (CCTA) studies in
current daily practice worldwide. Particularly, the study will assess the use of strategies
for dose reduction during CCTA.
A decade ago, the multicentre observational PROTECTION-I study has revealed that the
dose-length-product of CCTA ranges between 568 - 1259 mGy x cm with a median of 885 mGy x cm.
This corresponds to an estimated effective dose of approximately 12 mSv. Since then a variety
of techniques have been developed and enhanced in order to reduce radiation exposure during
CCTA. Recent studies demonstrated feasibility of dramatically reduced effective radiation
doses during CCTA (0,1 - 0,3 mSv). This has been executed in small cohorts of patients at
scientific expert centers. However, it remains unclear, if such low-level radiation dose
exposure may be achieved in clinical routine and if diagnostic image quality is maintained.
In order to analyze the magnitude of radiation dose exposure of CCTA in today's clinical
practice and the current use of dose-saving techniques, we designed the PROTECTION-VI study.
Eventually, this study may contribute to further improving radiation dose exposure for
patients undergoing CCTA.
Cardiac CT angiography (CCTA) has emerged to a powerful and commonly used diagnostic tool for
the evaluation of coronary artery disease. Advantages of CCTA are its non-invasive approach,
widespread availability and high negative predictive value to rule out coronary artery
disease. However, radiation exposure during CCTA needs to be considered, due to the potential
risk of malignancy induction.
A decade ago, the multicentre observational PROTECTION I study has revealed that the
dose-length-product of CCTA ranges between 568-1259 mGy x cm with a median of 885 mGy x cm.
This corresponds to an estimated effective dose of approximately 12 mSv. Furthermore,
PROTECTION I demonstrated an up to 7-fold variation of radiation dose between different study
sites implicating the large potential for dose reduction. Finally, significant differences
have been detected in the radiation exposures between CT systems from different vendors and
application of dose-saving algorithms, implying that approaches for dose reduction with
respect to hardware and software have also been of relevance in 2007.
Since then a variety of techniques have been developed and enhanced in order to reduce
radiation exposure during CCTA. Earlier, ECG-controlled tube current modulation has been
accepted to reduce radiation dose and was therefore used in ECG-gated retrospective cardiac
spiral scanning.
Another dose-saving technique is the reduction of tube potential from conventionally 120 kVp
to 100 kVp in non-obese patients. In the PROTECTION II trial we demonstrated that diagnostic
image quality is being maintained with a reduction of tube potential to 100 kVp while
radiation exposure was significantly reduced by 31%.
Development of prospective ECG-gated axial (sequential) scanning allowed further dose
reduction, due to administration of radiation only at the end of diastole. In the PROTECTION
III trial we could demonstrate that diagnostic image quality is being maintained with
prospective ECG-gated axial scanning in patients with stable and low heart rates while
radiation exposure was reduced by 69% when compared to conventional spiral scanning with
retrospective ECG gating. Using prospectively ECG-triggered high-pitch spiral CCTA with image
acquisition during only one cardiac cycle, additional dosage may be saved when used in
selected patients with low and stable heart rates. However, a scan strategy with an attempt
of high-pitch scanning first is vulnerable to motion artefacts and bears the risk of repeated
scanning.
In the PROTECTION IV trial we compared a scan strategy of high-pitch helical scanning first
with a conventional scan first strategy. We could demonstrate maintenance of image quality
using the strategy of high-pitch helical scanning first, while radiation exposure was reduced
by 57 %, when compared to the conventional scan first strategy.
The introduction of iterative image reconstruction technique with advanced raw data
processing let to improvement of image quality compared to traditional filtered back
projection. This allowed additional dose saving during image acquisition. In the PROTECTION V
trial we demonstrated the feasibility of combining iterative image reconstruction techniques
with a reduction of tube currents by 30% leading to maintenance of diagnostic image quality
while saving radiation dose linearly to tube current.
In summary, the four randomized clinical trials PROTECTION II-V demonstrated that different
techniques for reducing radiation exposure during CCTA can be applied in clinical practice
without compromising diagnostic image quality. The studies show that the different approaches
can also be applied in combination and that these approaches can be used with different CT
platforms from different CT vendors.
Recent studies demonstrated that the effective radiation dose for one CCTA scan may be
reduced to 0,3 mSv15 or even below 0,1 mSv in a small amount of carefully selected patients.
However, it remains unclear if such dramatically low dosages are being achieved and if
diagnostic image quality is being maintained in clinical routine. In order to analyze the
magnitude of radiation dose exposure during CCTA in today's clinical practice, we designed
the international and multicentric PROTECTION VI study. We will assess the variation of
radiation dose with respect to vendors, CT systems and study sites. Furthermore, we will
evaluate the usage of dose saving strategies including the above-mentioned in daily practice
and analyze their effect on diagnostic image quality. On the basis of the collected data, we
will evaluate the potential use of additional dose savings for each site individually.
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