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UK audit of single photon emission computed tomography reconstruction software using software generated phantoms

UK audit of single photon emission computed tomography reconstruction software using software generated phantoms
UK audit of single photon emission computed tomography reconstruction software using software generated phantoms
The purpose of this study was to undertake an audit of the quantitative characteristics of single photon emission computed tomography software using projection data from an analytically generated software phantom and a measured line source. The phantom consisted of three structures. A uniformly filled cylinder, a series of cylindrical rods of various diameters in a background activity with a rod to background ratio of 2 : 1 and lastly, a set of three concentric rings of activity in the ratio 1 : 0 : 1. The phantom contained no added statistical noise. No attenuation was imposed on the data. The phantom was generated analytically and projections were distributed at six different count densities. A single set of projections from a thin line source was also distributed. These data were distributed to centres throughout the UK. Centres were asked to reconstruct the data using a 'ramp only' reconstruction with no additional smoothing function applied. Data were requested for mean and standard deviation in the uniform cylinder, the maximum counts for each cylindrical rod and the mean counts in regions placed within the concentric rings. For the measured line source, centres were asked to measure the full width at half maximum and peak pixel counts for a profile through the reconstructed line. Results from 115 systems were obtained from 100 centres throughout the UK. These provided data from 12 software providers, 11 of these being commercial companies. Data were compared with the known input values and histograms of the distribution of results obtained. Significant differences in quantitative parameters were noted for the different input count densities as well as between suppliers and revisions of software from single suppliers.
483-491
Jarritt, P.H.
e57bd842-8104-421f-8951-e30cd7617920
Whalley, D.R.
e374f7ae-a3bc-42ee-8684-ef172e6cf313
Skrypniuk, J.V.
7680451a-99c9-4bae-b13b-c9251ee354d1
Houston, A.S.
8007585b-7ac5-4236-a1f2-8b4c34ca6d6e
Fleming, J.S.
bf089a52-bc49-402a-9129-0dfecf452936
Cosgriff, P.S.
2d3cb87f-b58b-472c-b2d3-80c3a82ba44e
Jarritt, P.H.
e57bd842-8104-421f-8951-e30cd7617920
Whalley, D.R.
e374f7ae-a3bc-42ee-8684-ef172e6cf313
Skrypniuk, J.V.
7680451a-99c9-4bae-b13b-c9251ee354d1
Houston, A.S.
8007585b-7ac5-4236-a1f2-8b4c34ca6d6e
Fleming, J.S.
bf089a52-bc49-402a-9129-0dfecf452936
Cosgriff, P.S.
2d3cb87f-b58b-472c-b2d3-80c3a82ba44e

Jarritt, P.H., Whalley, D.R., Skrypniuk, J.V., Houston, A.S., Fleming, J.S. and Cosgriff, P.S. (2002) UK audit of single photon emission computed tomography reconstruction software using software generated phantoms. Nuclear Medicine Communications, 23 (5), 483-491.

Record type: Article

Abstract

The purpose of this study was to undertake an audit of the quantitative characteristics of single photon emission computed tomography software using projection data from an analytically generated software phantom and a measured line source. The phantom consisted of three structures. A uniformly filled cylinder, a series of cylindrical rods of various diameters in a background activity with a rod to background ratio of 2 : 1 and lastly, a set of three concentric rings of activity in the ratio 1 : 0 : 1. The phantom contained no added statistical noise. No attenuation was imposed on the data. The phantom was generated analytically and projections were distributed at six different count densities. A single set of projections from a thin line source was also distributed. These data were distributed to centres throughout the UK. Centres were asked to reconstruct the data using a 'ramp only' reconstruction with no additional smoothing function applied. Data were requested for mean and standard deviation in the uniform cylinder, the maximum counts for each cylindrical rod and the mean counts in regions placed within the concentric rings. For the measured line source, centres were asked to measure the full width at half maximum and peak pixel counts for a profile through the reconstructed line. Results from 115 systems were obtained from 100 centres throughout the UK. These provided data from 12 software providers, 11 of these being commercial companies. Data were compared with the known input values and histograms of the distribution of results obtained. Significant differences in quantitative parameters were noted for the different input count densities as well as between suppliers and revisions of software from single suppliers.

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Published date: 2002

Identifiers

Local EPrints ID: 25662
URI: http://eprints.soton.ac.uk/id/eprint/25662
PURE UUID: 9d03be48-3c14-47b4-aa49-e1520c9ae188

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Date deposited: 11 Apr 2006
Last modified: 08 Jan 2022 03:49

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Contributors

Author: P.H. Jarritt
Author: D.R. Whalley
Author: J.V. Skrypniuk
Author: A.S. Houston
Author: J.S. Fleming
Author: P.S. Cosgriff

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