Sci—Fri AM: Imaging — 09: Serial estimation of cross‐talk for correction in dual‐isotope imaging with dynamic tracers

Sci—Fri AM: Imaging — 09: Serial estimation of cross‐talk for correction in dual‐isotope imaging with dynamic tracers

The recent radioisotope shortage has led to interest in non‐Tc99m‐based tracers. We have developed a novel I‐123‐labelled myocardial perfusion imaging tracer. We compare the I123‐tracer to the clinical standard of Tc99m tetrofosmin in vivo in a rat model using a small‐animal SPECT/CT camera. SPECT d...

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Bibliographic Details
Published in:Medical physics (Lancaster) Vol. 39; no. 7; p. 4642
Main Authors: Wells, RG, Lockwood, J, Wei, L, Duan, D, Fernando, P, Bensimon, C, Ruddy, TD
Format: Journal Article
Language:English
Published: United States American Association of Physicists in Medicine 01-07-2012
Subjects:
Cameras
Computed tomography
Gamma rays
Isotopes
Medical imaging
Radioisotopes
Single photon emission computed tomography
Gamma rays
Medical imaging
Computed tomography
Radioisotopes
Cameras
Isotopes
Single photon emission computed tomography
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Summary:The recent radioisotope shortage has led to interest in non‐Tc99m‐based tracers. We have developed a novel I‐123‐labelled myocardial perfusion imaging tracer. We compare the I123‐tracer to the clinical standard of Tc99m tetrofosmin in vivo in a rat model using a small‐animal SPECT/CT camera. SPECT distinguishes different isotopes based on the different energies of the emitted gamma rays and thus allows simultaneous comparison of two tracer distributions in the same animal. Dual‐isotope imaging is complicated by cross‐talk between the energy windows of the isotopes. Standard energy‐window‐based correction methods are difficult to employ because of the proximity in energy of Tc99m (140keV) and I123 (159keV). Imaging the second tracer's energy window prior to its injection provides an estimate of the cross‐talk. However, this estimate is only accurate if the tracer distribution is static. We use serial imaging prior to the introduction of the second tracer to estimate the dynamics of the first tracer and interpolate the cross‐talk images to provide a more accurate correction. We used rat models of myocardial disease (n=3). I123 tracer was injected and imaged for one hour at 20min intervals. The Tc99m tetrofosmin was then injected and 30min later, a dual‐isotope image was obtained. The impact of this approach is assessed by comparing the differences in the Tc99m‐tetrofosmin image using this method with correction by simple correction for physical decay. The interpolative approach improves the accuracy of the correction by 2%–5% and thereby enhances the comparison of the two tracers.
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ISSN:0094-2405
2473-4209
DOI:10.1118/1.4740195