Abstract
BackgroundThe decreasing image quality in heavier patients can be compensated by administration of a patient-specific dose in myocardial perfusion imaging (MPI) using a cadmium zinc telluride-based SPECT camera. Our aim was to determine if the same can be achieved when using a conventional SPECT camera. Methods148 patients underwent SPECT stress MPI using a fixed Tc-99m tetrofosmin tracer dose. Measured photon counts were normalized to administered tracer dose and scan time and were correlated with body weight, body mass index, and mass per length to find the best predicting parameter. From these data, a protocol to provide constant image quality was derived, and subsequently validated in 125 new patients. ResultsBody weight was found to be the best predicting parameter for image quality and was used to derive a new dose formula; Aadmin (MBq) = 223·body weight (kg)0.65/Tscan (min). The measured photon counts decreased in heavier patients when using a fixed dose (P < .01) but this was no longer observed after applying a body-weight-dependent protocol (P = .20). ConclusionsApplication of a patient-specific protocol resulted in an image quality less depending on patient’s weight. The results are most likely independent of the type of SPECT camera used, and, hence, adoption of patient-specific dose and scan time protocols is recommended.
Highlights
Myocardial perfusion imaging (MPI) using singlephoton emission computed tomography (SPECT) is one of the most validated non-invasive methods to test for ischemia in patients suspected of stable coronary arteryJournal of Nuclear CardiologyÒ Volume 23, Number 1;134–42 disease.[1]
The measured photon counts decreased in heavier patients when using a fixed dose (P < .01) but this was no longer observed after applying a body-weight-dependent protocol (P 5 .20)
Myocardial perfusion imaging (MPI) using singlephoton emission computed tomography (SPECT) is one of the most validated non-invasive methods to test for ischemia in patients suspected of stable coronary artery Journal of Nuclear CardiologyÒ Volume 23, Number 1;134–42 disease.[1]
Summary
Myocardial perfusion imaging (MPI) using singlephoton emission computed tomography (SPECT) is one of the most validated non-invasive methods to test for ischemia in patients suspected of stable coronary artery. Several studies have demonstrated a decrease in measured photon counts for increasing body weights.[4,5,6,7] They propose different correction formulas to compensate for this decrease. Those methods were mainly focused on correcting for heavier patients, and only one correction formula was validated in clinical practice.[8] This validation was only performed in patients weighing more than 100 kg, ignoring the possible benefit of a lower dose for leaner patients. The decreasing image quality in heavier patients can be compensated by administration of a patient-specific dose in myocardial perfusion imaging (MPI) using a cadmium zinc telluride-based SPECT camera. Our aim was to determine if the same can be achieved when using a conventional SPECT camera
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