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dc.contributor.authorA. Emami
dc.contributor.authorA. Emami
dc.contributor.authorH. Ghadiri
dc.contributor.authorH. Ghadiri
dc.contributor.authorM. R. Ay
dc.contributor.authorM. R. Ay
dc.contributor.authorM. R. Ay
dc.contributor.authorS. Akhlaghpour
dc.contributor.authorA. Eslami
dc.contributor.authorP. Ghafarian
dc.contributor.authorS. Taghizadeh
dc.date.accessioned2017-09-18T10:02:09Z
dc.date.available2017-09-18T10:02:09Z
dc.date.issued2012-03-26
dc.identifier.urihttp://dsp.sbmu.ac.ir/xmlui/handle/123456789/61432
dc.description.abstractAccurate performance assessment of bone mineral density (BMD) methods is crucial due to the fact that a high level of exact estimation of bone situation is needed for correct diagnosis. Variation of parameters like sensitivity and error ratio highly affects the densitometry results that may induce some level of uncertainty in diagnosis. So, designing an algorithm for correction is necessary to assure examiners about measurement results. In this study several phantoms consisting of soft tissue-and bone-equivalent material were devised to accurately test bone densitometry systems. It should be noted that to the best of our knowledge there is no unique phantom to be able to use for evaluation of both Dual Energy X-ray Absorptiometry (DEXA) and Quantitative Computed Tomography (QCT). The main motivation of this study was to design a reliable and easy to use phantom. A QCT quality control, quality assurance, and Plexiglas cylindrical phantoms as a spine phantom were designed and constructed to assess different bone densities. Four inserts in spine phantom with precisely wide range of K 2 HPO 4 solutions were used for simulation of bone tissues and to determine the BMD systems characteristics. The designed phantoms were also used for performance assessment of BMD systems. In this research it is demonstrated that by decreasing of bone mineral densities an increasing trend in error ratio of measured densities and declining trend in methods sensitivities were observed, that may cause some level of uncertainty in low densities. © 2011 IEEE.
dc.sourceIEEE Nuclear Science Symposium Conference Record
dc.titleA new phantom for performance evaluation of bone mineral densitometry using DEXA and QCT
dc.identifier.doi10.1109/NSSMIC.2011.6152628
dc.journal.pages3441-3445
dc.contributor.authorid35730067000
dc.contributor.authorid35730067000
dc.contributor.authorid36852778400
dc.contributor.authorid36852778400
dc.contributor.authorid55117932700
dc.contributor.authorid55117932700
dc.contributor.authorid55117932700
dc.contributor.authorid26532256900
dc.contributor.authorid9269217900
dc.contributor.authorid24483175100
dc.contributor.authorid56483025100
dc.contributor.citation35730067000|60027708|A. Emami
dc.contributor.citation35730067000|60027708|A. Emami
dc.contributor.citation36852778400|60027708|H. Ghadiri
dc.contributor.citation36852778400|60027708|H. Ghadiri
dc.contributor.citation55117932700|60027708|M. R. Ay
dc.contributor.citation55117932700|60027708|M. R. Ay
dc.contributor.citation55117932700|60027708|M. R. Ay
dc.contributor.citation26532256900|60027708|S. Akhlaghpour
dc.contributor.citation9269217900|60027708|A. Eslami
dc.contributor.citation24483175100|60011822|P. Ghafarian
dc.contributor.citation56483025100|60027708|S. Taghizadeh
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60027708
dc.contributor.affiliationid60011822
dc.contributor.affiliationid60027708


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