Iterative Reconstruction to Preserve Image Quality and Diagnostic Accuracy at Reduced Radiation Dose in Coronary CT Angiography | Zendy

Weihua Yin | Zendy; Bin Lü | Zendy; Nan Li | Zendy; Lei Han | Zendy; Zhihui Hou | Zendy; Runze Wu | Zendy; Yongjian Wu | Zendy; Hongxia Niu | Zendy; Shiliang Jiang | Zendy; Aleksander W. Krazinski | Zendy; Ullrich Ebersberger | Zendy; Felix G. Meinel | Zendy; U. Joseph Schoepf | Zendy

Open Access

Iterative Reconstruction to Preserve Image Quality and Diagnostic Accuracy at Reduced Radiation Dose in Coronary CT Angiography

Author(s) -

Weihua Yin,

Bin Lü,

Nan Li,

Lei Han,

Zhihui Hou,

Runze Wu,

Yongjian Wu,

Hongxia Niu,

Shiliang Jiang,

Aleksander W. Krazinski,

Ullrich Ebersberger,

Felix G. Meinel,

U. Joseph Schoepf

Publication year - 2013

Publication title -

jacc. cardiovascular imaging

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.79

H-Index - 120

eISSN - 1936-878X

pISSN - 1876-7591

DOI - 10.1016/j.jcmg.2013.08.008

Subject(s) - medicine , nuclear medicine , radiation dose , coronary angiography , image quality , receiver operating characteristic , radiology , iterative reconstruction , angiography , computed tomography angiography , confidence interval , effective dose (radiation) , coronary arteries , artery , image (mathematics) , artificial intelligence , myocardial infarction , computer science

This study sought to determine whether a 50%-reduced radiation dose protocol using iterative reconstruction (IR) preserves image quality and diagnostic accuracy at coronary computed tomography angiography (CTA) as compared with a routine dose protocol using traditional filtered back projection (FBP).

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