Semiconductor Detectors Allow Low-Dose–Low-Dose 1-Day SPECT Myocardial Perfusion Imaging

Nkoulou, René; Pazhenkottil, Aju P.; Küest, Silke M.; Ghadri, Jelena R.; Wolfrum, Mathias; Husmann, Lars; Fiechter, Michael; Buechel, Ronny R.; Herzog, Bernhard A.; Koepfli, Pascal; Burger, Cyrill; Gaemperli, Oliver; Kaufmann, Philipp A.

doi:10.2967/jnumed.110.085415

Cited by 58 publications

(25 citation statements)

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“…The ultimate metric may be outcome and with regard to outcome prediction by MPI the added value of attenuation correction has been recently established [18]. The main advancement of the new CZT cameras [19] is the more than 5-fold reduction in scan time [4] or activity [20] at preserved accuracy. Several other applications allow to take even more complete advantage of the refinements offered by the new cameras which may further enhance the clinical importance of MPI.…”

Section: Discussionmentioning

confidence: 99%

Nuclear myocardial perfusion imaging with a novel cadmium-zinc-telluride detector SPECT/CT device: first validation versus invasive coronary angiography

Fiechter

Ghadri

Küest

et al. 2011

Eur J Nucl Med Mol Imaging

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In this first report on CZT SPECT/CT MPI comparison versus angiography we confirm a high accuracy for detection of angiographically documented CAD. Methods The study population included 66 patients (79% men; mean age 63±11 years) who underwent one day 99m Tc-tetrofosmin pharmacologic stress/rest examination and angiography within 3 month. Sensitivity, specificity, positive (PPV) and negative predictive value (NPV) as well as accuracy of the CT x-ray based attenuation corrected CZT MPI for detection of CAD (≥ 50% luminal narrowing) was calculated on a per-patient base. ResultsThe prevalence of angiographic CAD in the study population was 82%. Sensitivity, specificity, PPV, NPV and accuracy were 87%, 67%, 92%, 53% and 83%, respectively. ConclusionsIn this first report on CZT SPECT/CT MPI comparison versus angiography we document a high accuracy for detection of angiographically documented CAD.3

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Section: Discussionmentioning

confidence: 99%

Nuclear myocardial perfusion imaging with a novel cadmium-zinc-telluride detector SPECT/CT device: first validation versus invasive coronary angiography

Fiechter

Ghadri

Küest

et al. 2011

Eur J Nucl Med Mol Imaging

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“…In particular, it is likely that the image quality parameters of the CZT cameras could have been enhanced using smaller energy windows, with only a limited loss in count sensitivity, but further studies are required to determine the optimal energy windows for CZT SPECT. Additional enhancements might be achieved using cardiac models, such as that available and recommended for the DSPECT camera; by new low-dose protocols (34); and by triggering breathing, especially when using the stationery detectors of the Discovery NM 530c (17).…”

Section: Performance Of High-sensitivity Cameras • Imbert Et Almentioning

confidence: 99%

Compared Performance of High-Sensitivity Cameras Dedicated to Myocardial Perfusion SPECT: A Comprehensive Analysis of Phantom and Human Images

et al. 2012

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Differences in the performance of cadmium-zinc-telluride (CZT) cameras or collimation systems that have recently been commercialized for myocardial SPECT remain unclear. In the present study, the performance of 3 of these systems was compared by a comprehensive analysis of phantom and human SPECT images. Methods: We evaluated the Discovery NM 530c and DSPECT CZT cameras, as well as the Symbia Anger camera equipped with an astigmatic (IQÁSPECT) or parallel-hole (conventional SPECT) collimator. Physical performance was compared on reconstructed SPECT images from a phantom and from comparable groups of healthy subjects. Results: Classifications were as follows, in order of performance. For count sensitivity on cardiac phantom images (countsÁs 21 ÁMBq 21 ), DSPECT had a sensitivity of 850; Discovery NM 530c, 460; IQÁSPECT, 390; and conventional SPECT, 130. This classification was similar to that of myocardial counts normalized to injected activities from human images (respective mean values, in countsÁs 21 ÁMBq 21 : 11.4 6 2.6, 5.6 6 1.4, 2.7 6 0.7, and 0.6 6 0.1). For central spatial resolution: Discovery NM 530c was 6.7 mm; DSPECT, 8.6 mm; IQÁSPECT, 15.0 mm; and conventional SPECT, 15.3 mm, also in accordance with the analysis of the sharpness of myocardial contours on human images (in cm 21 : 1.02 6 0.17, 0.92 6 0.11, 0.64 6 0.12, and 0.65 6 0.06, respectively). For contrast-to-noise ratio on the phantom: Discovery NM 530c had a ratio of 4.6; DSPECT, 4.1; IQÁSPECT, 3.9; and conventional SPECT, 3.5, similar to ratios documented on human images (5.2 6 1.0, 4.5 6 0.5, 3.9 6 0.6, and 3.4 6 0.3, respectively). Conclusion: The performance of CZT cameras is dramatically higher than that of Anger cameras, even for human SPECT images. However, CZT cameras differ in that spatial resolution and contrast-to-noise ratio are better with the Discovery NM 530c, whereas count sensitivity is markedly higher with the DSPECT.Key Words: CZT-cameras; high-speed SPECT; myocardial perfusion imaging; count sensitivity St ress myocardial SPECT has been markedly enhanced by the recent commercialization of cameras with semiconductor (cadmium-zinc-telluride [CZT]) detectors or new collimation systems. These improved systems enhance the sensitivity of count detection and thereby enable recording times or tracer doses to be reduced, a property that has highly favorable consequences on patient comfort and radiation exposure (1-4). This enhancement is based mainly on acquisitions that are heart-centric but obtained with very different technologies: first, for the IQÁSPECT system (Siemens Medical Solutions (5-8)), an Anger camera equipped with collimators convergent on the image center (astigmatic collimators); second, for the DSPECT system (Spectrum Dynamics (9-13)), mobile columns of CZT detectors with wide parallel-hole collimators; and third, for the Discovery NM 530c system (GE Healthcare (14-21)), fixed CZT detectors with multipinhole collimators.The respective performance of these new cameras and collimation systems has been analyzed, but ...

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“…In another study, the patient dose was reduced to 4.3 mSv for stress/rest protocols using a background activity subtraction algorithm [9]. The comparison between standard dose and low-dose background subtracted protocols demonstrated clinical agreement in 98 % of patients, confirming the possibility of significantly reducing radiation exposure while maintaining the diagnostic power of myocardial scintigraphy.…”

Section: Reducing Imaging Time and Saving Moneymentioning

confidence: 89%

Nuclear cardiology at the door of a new era: better to save mSv or to reduce imaging time?

Giorgetti

Genovesi

Marzullo

2012

Eur J Nucl Med Mol Imaging

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The evolution of nuclear cardiology has gone through several clinical protocols that can be summarized as 201 Tl stress/redistribution, 201 Tl stress/redistribution with delayed imaging, 201 Tl stress/redistribution with reinjection, singleor double-day 99m Tc-labelled radiotracers, and 201 Tl/ 99m Tc combined approaches. This evolution covered more or less 30 years with a significant (at least 25 %) increase in the accuracy of the method, but (up to few years ago) a decrease in the mSv to the patient of less than 5 %. Recent advances in hardware and software applied to nuclear cardiology [1] have led to short imaging times and/or low-dose studies, but the choice of the best combination is still difficult.

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Semiconductor Detectors Allow Low-Dose–Low-Dose 1-Day SPECT Myocardial Perfusion Imaging

Cited by 58 publications

References 29 publications

Nuclear myocardial perfusion imaging with a novel cadmium-zinc-telluride detector SPECT/CT device: first validation versus invasive coronary angiography

Nuclear myocardial perfusion imaging with a novel cadmium-zinc-telluride detector SPECT/CT device: first validation versus invasive coronary angiography

Compared Performance of High-Sensitivity Cameras Dedicated to Myocardial Perfusion SPECT: A Comprehensive Analysis of Phantom and Human Images

Nuclear cardiology at the door of a new era: better to save mSv or to reduce imaging time?

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