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Literature DB >> 7398673

Correction for deadtime losses in a gamma camera/data analysis system.

Abstract

In quantitative analyses of dynamic radionuclide studies, using large activities of 99mTc flowing through organs it is necessary to determine accurately count-rate losses and to provide appropriate corrections. A method is described for estimating deadtimes and applying corrections to the observed counting rates using a two component model where the gamma camera is considered to have a purely paralyzable deadtime and the data analysis system a purely non-paralyzable deadtime.

Mesh：

Substances：
Technetium

Year: 1980 PMID： 7398673 DOI： 10.1007/bf00445626

Source DB: PubMed Journal: Eur J Nucl Med ISSN： 0340-6997

5 in total

1. Deadtime characteristics of Anger cameras.

Authors: J A Sorenson
Journal: J Nucl Med Date: 1975-04 Impact factor: 10.057

2. The reduction of coincidence loss in radionuclide imaging cameras through the use of composite filters.

Authors: G Muehllehner; R J Jaszczak; R N Beck
Journal: Phys Med Biol Date: 1974-07 Impact factor: 3.609

3. Deadtime measurements in scintillation cameras under scatter conditions simulating quantitative nuclear cardiography.

Authors: R Adams; G J Hine; C D Zimmerman
Journal: J Nucl Med Date: 1978-05 Impact factor: 10.057

4. Comparing the performance of two gamma cameras under high counting rates: principles and practice.

Authors: C Guldberg; N Rossing
Journal: J Nucl Med Date: 1978-05 Impact factor: 10.057

5. Image artifacts at high photon fluence rates in single-crystal NaI(T1) scintillation cameras.

Authors: S E Strand; I Larsson
Journal: J Nucl Med Date: 1978-04 Impact factor: 10.057

5 in total

3 in total

Correction for deadtime losses in a gamma camera/data analysis system.

1. Deadtime characteristics of Anger cameras.

2. The reduction of coincidence loss in radionuclide imaging cameras through the use of composite filters.

3. Deadtime measurements in scintillation cameras under scatter conditions simulating quantitative nuclear cardiography.

4. Comparing the performance of two gamma cameras under high counting rates: principles and practice.

5. Image artifacts at high photon fluence rates in single-crystal NaI(T1) scintillation cameras.

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