Evaluation of the difference-correction effect of the gamma camera systems used by easy Z-score Imaging System (eZIS) analysis

Objective We examined the difference of the effect by data to revise a gamma camera difference. The difference-correction method of the camera is incorporated in eZIS analysis. Methods We acquired single photon emission computed tomography (SPECT) data from the three-dimensional (3D) Hoffman brain p...

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Published in:Annals of nuclear medicine 2014-04, Vol.28 (3), p.263-275
Main Authors: Yamamoto, Yasushi, Onoguchi, Masahisa, Kawakami, Kazunori, Haramoto, Masuo, Wake, Rei, Horiguchi, Jun, Kitagaki, Hajime
Format: Article
Language:English
Subjects:
Aged
Algorithms
Alzheimer Disease - diagnostic imaging
Brain - diagnostic imaging
Female
Gamma Cameras
Humans
Image Processing, Computer-Assisted
Imaging
Male
Medicine
Medicine & Public Health
Middle Aged
Nuclear Medicine
Original
Original Article
Phantoms, Imaging
Radiology
Tomography, Emission-Computed, Single-Photon - instrumentation
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container_start_page 263
container_title Annals of nuclear medicine
container_volume 28
creator Yamamoto, Yasushi
Onoguchi, Masahisa
Kawakami, Kazunori
Haramoto, Masuo
Wake, Rei
Horiguchi, Jun
Kitagaki, Hajime
description Objective We examined the difference of the effect by data to revise a gamma camera difference. The difference-correction method of the camera is incorporated in eZIS analysis. Methods We acquired single photon emission computed tomography (SPECT) data from the three-dimensional (3D) Hoffman brain phantom (Hoffman), the three-dimensional brain phantom (3D-Brain), Pool phantom (pool) and from normal subjects (Normal-SPECT) to investigate compensating for a difference in gamma camera systems. We compared SPECT counts of standard camera with the SPECT counts that revised the difference of the gamma camera system (camera). Furthermore, we compared the “Z-score map (Z-score)”. To verify the effect of the compensation, we examined digitally simulated data designed to represent a patient with Alzheimer’s dementia. We carried out both eZIS analysis and “Specific Volume of interest Analysis (SVA)”. Results There was no great difference between the correction effect using Hoffman phantom data and that using 3D-Brain phantom data. Furthermore, a good compensation effect was obtained only over a limited area. The compensation based on the pool was found to be less satisfactory than any of the other compensations according to all results of the measurements examined in the study. The compensation based on the Normal-SPECT data resulted in a Z-score map (Z-score) for the result that approximated that from the standard camera. Therefore, we concluded that the effect of the compensation based on Normal-SPECT data was the best of the four methods tested. Conclusions Based on eZIS analysis, the compensation using the pool data was inferior to the compensations using the other methods tested. Based on the results of the SAV analysis, the effect of the compensation using the Hoffman data was better than the effect of the compensation using the 3D-Brain data. By all end-point measures, the compensation based on the Normal-SPECT data was more accurate than the compensation based on any of the other three phantoms.
doi_str_mv 10.1007/s12149-014-0807-z
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The difference-correction method of the camera is incorporated in eZIS analysis. Methods We acquired single photon emission computed tomography (SPECT) data from the three-dimensional (3D) Hoffman brain phantom (Hoffman), the three-dimensional brain phantom (3D-Brain), Pool phantom (pool) and from normal subjects (Normal-SPECT) to investigate compensating for a difference in gamma camera systems. We compared SPECT counts of standard camera with the SPECT counts that revised the difference of the gamma camera system (camera). Furthermore, we compared the “Z-score map (Z-score)”. To verify the effect of the compensation, we examined digitally simulated data designed to represent a patient with Alzheimer’s dementia. We carried out both eZIS analysis and “Specific Volume of interest Analysis (SVA)”. Results There was no great difference between the correction effect using Hoffman phantom data and that using 3D-Brain phantom data. Furthermore, a good compensation effect was obtained only over a limited area. The compensation based on the pool was found to be less satisfactory than any of the other compensations according to all results of the measurements examined in the study. The compensation based on the Normal-SPECT data resulted in a Z-score map (Z-score) for the result that approximated that from the standard camera. Therefore, we concluded that the effect of the compensation based on Normal-SPECT data was the best of the four methods tested. Conclusions Based on eZIS analysis, the compensation using the pool data was inferior to the compensations using the other methods tested. Based on the results of the SAV analysis, the effect of the compensation using the Hoffman data was better than the effect of the compensation using the 3D-Brain data. By all end-point measures, the compensation based on the Normal-SPECT data was more accurate than the compensation based on any of the other three phantoms.</description><identifier>ISSN: 0914-7187</identifier><identifier>EISSN: 1864-6433</identifier><identifier>DOI: 10.1007/s12149-014-0807-z</identifier><identifier>PMID: 24464392</identifier><language>eng</language><publisher>Tokyo: Springer Japan</publisher><subject>Aged ; Algorithms ; Alzheimer Disease - diagnostic imaging ; Brain - diagnostic imaging ; Female ; Gamma Cameras ; Humans ; Image Processing, Computer-Assisted ; Imaging ; Male ; Medicine ; Medicine &amp; Public Health ; Middle Aged ; Nuclear Medicine ; Original ; Original Article ; Phantoms, Imaging ; Radiology ; Tomography, Emission-Computed, Single-Photon - instrumentation</subject><ispartof>Annals of nuclear medicine, 2014-04, Vol.28 (3), p.263-275</ispartof><rights>The Author(s) 2014</rights><rights>The Japanese Society of Nuclear Medicine 2014</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c621t-1925300c49a2e5e66eb836429a6c497c4ba810da3a0baf5fd93a9a44f788be703</citedby><cites>FETCH-LOGICAL-c621t-1925300c49a2e5e66eb836429a6c497c4ba810da3a0baf5fd93a9a44f788be703</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,314,776,780,881,27903,27904</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/24464392$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Yamamoto, Yasushi</creatorcontrib><creatorcontrib>Onoguchi, Masahisa</creatorcontrib><creatorcontrib>Kawakami, Kazunori</creatorcontrib><creatorcontrib>Haramoto, Masuo</creatorcontrib><creatorcontrib>Wake, Rei</creatorcontrib><creatorcontrib>Horiguchi, Jun</creatorcontrib><creatorcontrib>Kitagaki, Hajime</creatorcontrib><title>Evaluation of the difference-correction effect of the gamma camera systems used by easy Z-score Imaging System (eZIS) analysis</title><title>Annals of nuclear medicine</title><addtitle>Ann Nucl Med</addtitle><addtitle>Ann Nucl Med</addtitle><description>Objective We examined the difference of the effect by data to revise a gamma camera difference. The difference-correction method of the camera is incorporated in eZIS analysis. Methods We acquired single photon emission computed tomography (SPECT) data from the three-dimensional (3D) Hoffman brain phantom (Hoffman), the three-dimensional brain phantom (3D-Brain), Pool phantom (pool) and from normal subjects (Normal-SPECT) to investigate compensating for a difference in gamma camera systems. We compared SPECT counts of standard camera with the SPECT counts that revised the difference of the gamma camera system (camera). Furthermore, we compared the “Z-score map (Z-score)”. To verify the effect of the compensation, we examined digitally simulated data designed to represent a patient with Alzheimer’s dementia. We carried out both eZIS analysis and “Specific Volume of interest Analysis (SVA)”. Results There was no great difference between the correction effect using Hoffman phantom data and that using 3D-Brain phantom data. Furthermore, a good compensation effect was obtained only over a limited area. The compensation based on the pool was found to be less satisfactory than any of the other compensations according to all results of the measurements examined in the study. The compensation based on the Normal-SPECT data resulted in a Z-score map (Z-score) for the result that approximated that from the standard camera. Therefore, we concluded that the effect of the compensation based on Normal-SPECT data was the best of the four methods tested. Conclusions Based on eZIS analysis, the compensation using the pool data was inferior to the compensations using the other methods tested. Based on the results of the SAV analysis, the effect of the compensation using the Hoffman data was better than the effect of the compensation using the 3D-Brain data. 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The difference-correction method of the camera is incorporated in eZIS analysis. Methods We acquired single photon emission computed tomography (SPECT) data from the three-dimensional (3D) Hoffman brain phantom (Hoffman), the three-dimensional brain phantom (3D-Brain), Pool phantom (pool) and from normal subjects (Normal-SPECT) to investigate compensating for a difference in gamma camera systems. We compared SPECT counts of standard camera with the SPECT counts that revised the difference of the gamma camera system (camera). Furthermore, we compared the “Z-score map (Z-score)”. To verify the effect of the compensation, we examined digitally simulated data designed to represent a patient with Alzheimer’s dementia. We carried out both eZIS analysis and “Specific Volume of interest Analysis (SVA)”. Results There was no great difference between the correction effect using Hoffman phantom data and that using 3D-Brain phantom data. Furthermore, a good compensation effect was obtained only over a limited area. The compensation based on the pool was found to be less satisfactory than any of the other compensations according to all results of the measurements examined in the study. The compensation based on the Normal-SPECT data resulted in a Z-score map (Z-score) for the result that approximated that from the standard camera. Therefore, we concluded that the effect of the compensation based on Normal-SPECT data was the best of the four methods tested. Conclusions Based on eZIS analysis, the compensation using the pool data was inferior to the compensations using the other methods tested. Based on the results of the SAV analysis, the effect of the compensation using the Hoffman data was better than the effect of the compensation using the 3D-Brain data. By all end-point measures, the compensation based on the Normal-SPECT data was more accurate than the compensation based on any of the other three phantoms.</abstract><cop>Tokyo</cop><pub>Springer Japan</pub><pmid>24464392</pmid><doi>10.1007/s12149-014-0807-z</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects Aged
Algorithms
Alzheimer Disease - diagnostic imaging
Brain - diagnostic imaging
Female
Gamma Cameras
Humans
Image Processing, Computer-Assisted
Imaging
Male
Medicine
Medicine & Public Health
Middle Aged
Nuclear Medicine
Original
Original Article
Phantoms, Imaging
Radiology
Tomography, Emission-Computed, Single-Photon - instrumentation
title Evaluation of the difference-correction effect of the gamma camera systems used by easy Z-score Imaging System (eZIS) analysis
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