Clinical use of nuclear cardiology in the assessment of heart failure

doi:10.4330/wjc.v2.i10.344

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Oct 26, 2010 (publication date) through Nov 22, 2024

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World Journal of Cardiology

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1949-8462

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

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World J Cardiol. Oct 26, 2010; 2(10): 344-356
Published online Oct 26, 2010. doi: 10.4330/wjc.v2.i10.344

Clinical use of nuclear cardiology in the assessment of heart failure

Shinro Matsuo, Kenichi Nakajima, Seigo Kinuya

Shinro Matsuo, Kenichi Nakajima, Seigo Kinuya, Department of Nuclear Medicine, Kanazawa University Hospital, Kanazawa 920-8641, Ishikawa, Japan

Author contributions: Matsuo S wrote the manuscript; Nakajima K and Kinuya S critically read the manuscript.

Correspondence to: Shinro Matsuo, MD, PhD, Department of Nuclear Medicine, Kanazawa University Hospital, 13-1 Takaramachi, Kanazawa 920-8641, Japan. smatsuo@nmd.m.kanazawa-u.ac.jp

Telephone: +81-76-2652333 Fax: +81-76-2344257

Received: July 18, 2010
Revised: September 1, 2010
Accepted: September 8, 2010
Published online: October 26, 2010

Abstract

A nuclear cardiology test is the most commonly performed non-invasive cardiac imaging test in patients with heart failure, and it plays a pivotal role in their assessment and management. Quantitative gated single positron emission computed tomography (QGS) is used to assess quantitatively cardiac volume, left ventricular ejection fraction (LVEF), stroke volume, and cardiac diastolic function. Resting and stress myocardial perfusion imaging, with exercise or pharmacologic stress, plays a fundamental role in distinguishing ischemic from non-ischemic etiology of heart failure, and in demonstrating myocardial viability. Diastolic heart failure also termed as heart failure with a preserved LVEF is readily identified by nuclear cardiology techniques and can accurately be estimated by peak filling rate (PFR) and time to PFR. Movement of the left ventricle can also be readily assessed by QGS, with newer techniques such as three-dimensional, wall thickening evaluation aiding its assessment. Myocardial perfusion imaging is also commonly used to identify candidates for implantable cardiac defibrillator and cardiac resynchronization therapies. Neurotransmitter imaging using ¹²³I-metaiodobenzylguanidine offers prognostic information in patients with heart failure. Metabolism and function in the heart are closely related, and energy substrate metabolism is a potential target of medical therapies to improve cardiac function in patients with heart failure. Cardiac metabolic imaging using ¹²³I-15-(p-iodophenyl)3-R, S-methylpentadecacoic acid is a commonly used tracer in clinical studies to diagnose metabolic heart failure. Nuclear cardiology tests, including neurotransmitter imaging and metabolic imaging, are now easily preformed with new tracers to refine heart failure diagnosis. Nuclear cardiology studies contribute significantly to guiding management decisions for identifying cardiac risk in patients with heart failure.

Keywords: Quantitative gated single photon emission computed tomography; Metaiodobenzylguanidine; β-methyl-p-iodophenyl-pentadecanoic acid; Diastolic function; Prognosis