False-Positive Calcifications and Radiation Dose in Coronary Artery Calcium Scoring Using Iterative Reconstruction on The Basis of a Noise Threshold

D. Grönemeyer; B.Brandts; C. Lehrenfeld; F. Metz; Marietta Garmer; O. Klein-Wiele

doi:10.31487/j.RDI.2019.04.01

False-Positive Calcifications and Radiation Dose in Coronary Artery Calcium Scoring

False-Positive Calcifications and Radiation Dose in Coronary Artery Calcium Scoring Using Iterative Reconstruction on The Basis of a Noise Threshold

Author Info

D. Grönemeyer B. Brandts C. Lehrenfeld F. Metz Marietta Garmer O. Klein-Wiele

Corresponding Author

Marietta Garmer
Diagnostik Zentrum Ruhr, BochumUniversitätsstr. 142, 44799 Bochum, Germany

A B S T R A C T

Radiation dose from cardiac CT seems to be underestimated. To determine the effect of iterative reconstruction in coronary artery calcium (CAC) scoring on false positive lesions and radiation dose using a noise threshold. Noise-based thresholds have been previously suggested to reduce false positive lesions in lower dose protocols. In 388 matched pairs of patients we performed CAC scoring using a 320-row CTscanner with standard dose filtered backprojection (FBP) and lower dose iterative reconstruction (IR). Dose modulation was based on a noise threshold. Radiation dose, image quality and extent of false-positive calcifications were obtained. IR versus FBP showed a reduced dose length product (median 61 versus 74; p< 0.001), less noise (median SD 14.71 versus 18.07; p< 0.001) and higher signal-to-noise ratio (median 4.01 versus 3.14; p< 0.001). Using IR in 388 patients, a low quantity of false-positive calcifications was found in 302 patients, a moderate quantity in 76 patients and a high quantity in 10 patients, while using FBP, the corresponding distribution of patients was 79, 175 and 134 (p<0.001). In this clinical setting we confirm the observation of a phantom study that CAC scoring using iterative reconstruction and a noise threshold is effective for the reduction of radiation dose.

Article Info

Article Type

Research Article

Publication history

Received: Fri 06, Sep 2019
Accepted: Mon 30, Sep 2019
Published: Wed 16, Oct 2019

Copyright

© 2023 Marietta Garmer. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Hosting by Science Repository.
DOI: 10.31487/j.RDI.2019.04.01