The aim of this study was to investigate the effect of a new motion correction algorithm on image quality and diagnostic utility in unselected patients undergoing coronary cardiac computed tomography, and to investigate if this motion correction algorithm can compensate for the usual use of intravenously medication (beta-blockers) before the scan.
Aims: To investigate the motion correction algorithm Snapshot-Freeze(SSF) compared to standard reconstruction(STD) in patients randomized to receive beta-blockers(BB) or no beta-blockers(non-BB) before coronary CT angiography (CCTA), and to investigate if SSF can replace BB. Methods: The study included 140 consecutively recruited patients scheduled to CCTA to rule out coronary artery disease. The inclusion criteria were: age ≥ 18 years, Glomerular filtration rate ≥ 60 mL/min, Heart Rate between 60 and 85 bpm before the scan. The exclusion criteria were: irregular heart rhythm or history of allergic reaction to contrast agents. Patients were randomized to the BB group or the non-BB group. The trial complied with the Declaration of Helsinki and was approved by the local ethics committee. Written informed consent was obtained from all patients. Image quality score: The evaluation was performed according to the Likert score as follows: 1: excellent, no motion artifacts, clear delineation of the segments; 2: good, minor artifacts, mild blurring of the segment; 3: adequate, moderate artifacts, moderate blurring without structure discontinuity; and 4: poor and non-diagnostic, with doubling or discontinuity in the course of the segments, preventing evaluation or producing vessel structures that were not differentiable. In cases where the image quality was less than excellent (Likert score 2-4), the readers noted the reason(s) for the observed artifact. Statistical analyses: Quantitative variables were expressed as mean ± standard deviation, and categorical values as frequencies or percentages. Values from the Likert score were dichotomized to excellent vs. non-excellent (Likert score 1 vs. 2-4), and diagnostic vs. non-diagnostic (Likert score 1-3 vs. 4). McNemar's test was performed to test categorical variables separately per-vessel and per-patient level. Analyses for all segments were calculated by the Wilcoxon signed-rank test.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
140
regarding the guidelines patients receive seloken before the cardiac CT scan to lower the heart rate during the scan. The intervention in this study is to avoid the medication with seloken before the scan, and to investigate if the use of a new motion correction scan algorithm can compensate for the absence of the seloken.
Department of Medical Research, OUH, Svendborg
Svendborg, Svendborg, Denmark
images with non diagnostic image quality
number of non diagnostic images.
Time frame: up to 1 year
images with Excellent image quality
number of presented images with "Excellent" image quality
Time frame: up to 1 year
motion artifacts
number of presented motion artifacts
Time frame: up to 1 year
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