Minimal starting time of data reconstruction for qualitative myocardial perfusion rubidium-82 positron emission tomography imaging.

Title Minimal starting time of data reconstruction for qualitative myocardial perfusion rubidium-82 positron emission tomography imaging.
Authors J.D. van Dijk; E.D. Huizing; J.A. van Dalen; J.R. Timmer; P.L. Jager
Journal Nucl Med Commun
DOI 10.1097/MNM.0000000000000830
Abstract

OBJECTIVE: Qualitative positron emission tomography (PET) myocardial perfusion imaging (MPI) scans are reconstructed with a delay after an injection of rubidium-82 (Rb) to ensure blood pool clearance and sufficient left ventricle to myocardium contrast. Our aim was to derive the minimal starting time of data reconstruction (STDR) after an injection of Rb for which the diagnostic value and image quality remained unaffected.

MATERIALS AND METHODS: We retrospectively included 23 patients who underwent rest-stress Rb PET MPI using 740?MBq. Patients fulfilling one of the two criteria indicating a slow blood pool clearance (ejection fraction <50% and/or cardiac output <3?l/min) were included in a consecutive manner. PET images using five different STDRs (1:15-2:15?min) were reconstructed and compared with reference images (STDR of 2:30?min). Differences in the summed rest score greater than or equal to 3 and total perfusion deficit greater than 3% were considered to significantly influence the diagnostic value. In addition, image quality was scored by two experts as not interpretable, inferior, adequate, or excellent.

RESULTS: The summed rest score differed greater than or equal to 3 from the reference in seven or more patients (?30%) using STDR less than or equal to 2:00?min (P<0.02). STDR less than or equal to 1:30?min resulted in six or more patients (?26%) with a total perfusion deficit difference greater than 3% (P<0.03).In addition, STDR less than or equal to 2:00?min resulted in a lower image quality (P<0.002) and STDR less than or equal to 2:15?min resulted in greater than or equal to two scans with noninterpretable image quality.

CONCLUSION: STDR less than or equal to 2:15?min resulted in lower diagnostic value or insufficient image quality for qualitative PET MPI using 740?MBq Rb. An STDR of 2:30?min can be considered for clinical adoption.

Citation J.D. van Dijk; E.D. Huizing; J.A. van Dalen; J.R. Timmer; P.L. Jager.Minimal starting time of data reconstruction for qualitative myocardial perfusion rubidium-82 positron emission tomography imaging.. Nucl Med Commun. 2018;39(6):533538. doi:10.1097/MNM.0000000000000830

Related Elements

Rubidium

See more Rubidium products. Rubidium (atomic symbol: Rb, atomic number: 37) is a Block S, Group 1, Period 5 element with an atomic weight of 5.4678. The number of electrons in each of Rubidium's shells is [2, 8, 18, 8, 1] and its electron configuration is [Kr] 5s1. The rubidium atom has a radius of 248 pm and a Van der Waals radius of 303 pm. Rubidium Bohr ModelRubidium is highly reactive, with properties similar to other Group 1 alkali metals, e.g., rapid oxidation in air. In its elemental form, rubidium has a gray white appearance. Rubidium is found in the minerals lepidolite, leucite, pollucite, carnallite, and zinnwaldite as well as some potassium minerals. Rubidium was discovered by Robert Bunsen and Gustav Kirchhoff in 1861 and was first isolated by George de Hevesy. The name Rubidium, originates from the Latin word rubidus, meaning "dark or deepest red."

Related Forms & Applications