Reduction of noise due to systematic uncertainties in 113mIn SPECT imaging using information theory

P. T. Krishna Kumar; Vir V. Phoha; S. S. Iyengar; Puneeth Iyengar

doi:10.1016/j.compbiomed.2009.03.001

Reduction of noise due to systematic uncertainties in ^113mIn SPECT imaging using information theory

P. T. Krishna Kumar, Vir V. Phoha, S. S. Iyengar, Puneeth Iyengar

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

SPECT images using radiopharmaceuticals are limited by noise caused by both random and systematic uncertainties. All the efforts so far have been directed only to minimize the random uncertainty and no attempt has ever been made to minimize the noise due to systematic uncertainty. As these radiopharmaceuticals encounter many systematic uncertainties during their formation, we constructed the covariance matrix with some of these systematic uncertainties for the gamma count rate of ^113mIn. We describe the algorithm we have developed based on the technique of determinant inequalities and the concept of minimization of mutual information to process the covariance matrix element by element to minimize the noise caused by systematic uncertainty in the SPECT imaging of ^113mIn and its utility to experimentalists to design and improve their process of measurement and instrumentation.

Original language	English (US)
Pages (from-to)	482-488
Number of pages	7
Journal	Computers in Biology and Medicine
Volume	39
Issue number	5
DOIs	https://doi.org/10.1016/j.compbiomed.2009.03.001
State	Published - May 2009

Keywords

Bounds for covariance elements by determinant inequalities
Covariance matrix
Minimization of mutual information
Noise in SPECT images
Reduction of noise by minimization mutual information
Systematic uncertainties in SPECT imaging

ASJC Scopus subject areas

Health Informatics
Computer Science Applications

Access to Document

10.1016/j.compbiomed.2009.03.001

Cite this

@article{f156735e356e4bb7954ad53e145bae12,

title = "Reduction of noise due to systematic uncertainties in 113mIn SPECT imaging using information theory",

abstract = "SPECT images using radiopharmaceuticals are limited by noise caused by both random and systematic uncertainties. All the efforts so far have been directed only to minimize the random uncertainty and no attempt has ever been made to minimize the noise due to systematic uncertainty. As these radiopharmaceuticals encounter many systematic uncertainties during their formation, we constructed the covariance matrix with some of these systematic uncertainties for the gamma count rate of 113mIn. We describe the algorithm we have developed based on the technique of determinant inequalities and the concept of minimization of mutual information to process the covariance matrix element by element to minimize the noise caused by systematic uncertainty in the SPECT imaging of 113mIn and its utility to experimentalists to design and improve their process of measurement and instrumentation.",

keywords = "Bounds for covariance elements by determinant inequalities, Covariance matrix, Minimization of mutual information, Noise in SPECT images, Reduction of noise by minimization mutual information, Systematic uncertainties in SPECT imaging",

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AU - Krishna Kumar, P. T.

AU - Phoha, Vir V.

AU - Iyengar, S. S.

AU - Iyengar, Puneeth

PY - 2009/5

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N2 - SPECT images using radiopharmaceuticals are limited by noise caused by both random and systematic uncertainties. All the efforts so far have been directed only to minimize the random uncertainty and no attempt has ever been made to minimize the noise due to systematic uncertainty. As these radiopharmaceuticals encounter many systematic uncertainties during their formation, we constructed the covariance matrix with some of these systematic uncertainties for the gamma count rate of 113mIn. We describe the algorithm we have developed based on the technique of determinant inequalities and the concept of minimization of mutual information to process the covariance matrix element by element to minimize the noise caused by systematic uncertainty in the SPECT imaging of 113mIn and its utility to experimentalists to design and improve their process of measurement and instrumentation.

AB - SPECT images using radiopharmaceuticals are limited by noise caused by both random and systematic uncertainties. All the efforts so far have been directed only to minimize the random uncertainty and no attempt has ever been made to minimize the noise due to systematic uncertainty. As these radiopharmaceuticals encounter many systematic uncertainties during their formation, we constructed the covariance matrix with some of these systematic uncertainties for the gamma count rate of 113mIn. We describe the algorithm we have developed based on the technique of determinant inequalities and the concept of minimization of mutual information to process the covariance matrix element by element to minimize the noise caused by systematic uncertainty in the SPECT imaging of 113mIn and its utility to experimentalists to design and improve their process of measurement and instrumentation.

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KW - Covariance matrix

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KW - Reduction of noise by minimization mutual information

KW - Systematic uncertainties in SPECT imaging

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