MARS spectral molecular imaging of lamb tissue: Data collection and image analysis

R. Aamir; A. Chernoglazov; C. J. Bateman; A. P.H. Butler; P. H. Butler; N. G. Anderson; S. T. Bell; R. K. Panta; J. L. Healy; J. L. Mohr; K. Rajendran; M. F. Walsh; N. De Ruiter; S. P. Gieseg; T. Woodfield; P. F. Renaud; L. Brooke; S. Abdul-Majid; M. Clyne; R. Glendenning; P. J. Bones; M. Billinghurst; C. Bartneck; H. Mandalika; R. Grasset; N. Schleich; N. Scott; S. J. Nik; A. Opie; T. Janmale; D. N. Tang; D. Kim; R. M. Doesburg; R. Zainon; J. P. Ronaldson; N. J. Cook; D. J. Smithies; K. Hodge

doi:10.1088/1748-0221/9/02/P02005

MARS spectral molecular imaging of lamb tissue: Data collection and image analysis

R. Aamir, A. Chernoglazov, C. J. Bateman, A. P.H. Butler, P. H. Butler, N. G. Anderson, S. T. Bell, R. K. Panta, J. L. Healy, J. L. Mohr, K. Rajendran, M. F. Walsh, N. De Ruiter, S. P. Gieseg, T. Woodfield, P. F. Renaud, L. Brooke, S. Abdul-Majid, M. Clyne, R. GlendenningP. J. Bones, M. Billinghurst, C. Bartneck, H. Mandalika, R. Grasset, N. Schleich, N. Scott, S. J. Nik, A. Opie, T. Janmale, D. N. Tang, D. Kim, R. M. Doesburg, R. Zainon, J. P. Ronaldson, N. J. Cook, D. J. Smithies, K. Hodge

Radiology

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

Abstract

Spectral molecular imaging is a new imaging technique able to discriminate and quantify different components of tissue simultaneously at high spatial and high energy resolution. Our MARS scanner is an x-ray based small animal CT system designed to be used in the diagnostic energy range (20-140 keV). In this paper, we demonstrate the use of the MARS scanner, equipped with the Medipix3RX spectroscopic photon-processing detector, to discriminate fat, calcium, and water in tissue. We present data collected from a sample of lamb meat including bone as an illustrative example of human tissue imaging. The data is analyzed using our 3D Algebraic Reconstruction Algorithm (MARS-ART) and by material decomposition based on a constrained linear least squares algorithm. The results presented here clearly show the quantification of lipid-like, water-like and bone-like components of tissue. However, it is also clear to us that better algorithms could extract more information of clinical interest from our data. Because we are one of the first to present data from multi-energy photon-processing small animal CT systems, we make the raw, partial and fully processed data available with the intention that others can analyze it using their familiar routines. The raw, partially processed and fully processed data of lamb tissue along with the phantom calibration data can be found at http://hdl.handle.net/10092/8531.

Original language	English (US)
Article number	P02005
Journal	Journal of Instrumentation
Volume	9
Issue number	2
DOIs	https://doi.org/10.1088/1748-0221/9/02/P02005
State	Published - Feb 2014

Keywords

Computerized Tomography (CT) and Computed Radiography (CR)
Data acquisition concepts
Medical-image reconstruction methods and algorithms, computer-aided diagnosis
X-ray detectors

ASJC Scopus subject areas

Instrumentation
Mathematical Physics

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10.1088/1748-0221/9/02/P02005

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Aamir, R., Chernoglazov, A., Bateman, C. J., Butler, A. P. H., Butler, P. H., Anderson, N. G., Bell, S. T., Panta, R. K., Healy, J. L., Mohr, J. L., Rajendran, K., Walsh, M. F., De Ruiter, N., Gieseg, S. P., Woodfield, T., Renaud, P. F., Brooke, L., Abdul-Majid, S., Clyne, M., ... Hodge, K. (2014). MARS spectral molecular imaging of lamb tissue: Data collection and image analysis. Journal of Instrumentation, 9(2), Article P02005. https://doi.org/10.1088/1748-0221/9/02/P02005

Aamir, R, Chernoglazov, A, Bateman, CJ, Butler, APH, Butler, PH, Anderson, NG, Bell, ST, Panta, RK, Healy, JL, Mohr, JL, Rajendran, K, Walsh, MF, De Ruiter, N, Gieseg, SP, Woodfield, T, Renaud, PF, Brooke, L, Abdul-Majid, S, Clyne, M, Glendenning, R, Bones, PJ, Billinghurst, M, Bartneck, C, Mandalika, H, Grasset, R, Schleich, N, Scott, N, Nik, SJ, Opie, A, Janmale, T, Tang, DN, Kim, D, Doesburg, RM, Zainon, R, Ronaldson, JP, Cook, NJ, Smithies, DJ & Hodge, K 2014, 'MARS spectral molecular imaging of lamb tissue: Data collection and image analysis', Journal of Instrumentation, vol. 9, no. 2, P02005. https://doi.org/10.1088/1748-0221/9/02/P02005

@article{494703c6f9d448078561cf744e171c61,

title = "MARS spectral molecular imaging of lamb tissue: Data collection and image analysis",

abstract = "Spectral molecular imaging is a new imaging technique able to discriminate and quantify different components of tissue simultaneously at high spatial and high energy resolution. Our MARS scanner is an x-ray based small animal CT system designed to be used in the diagnostic energy range (20-140 keV). In this paper, we demonstrate the use of the MARS scanner, equipped with the Medipix3RX spectroscopic photon-processing detector, to discriminate fat, calcium, and water in tissue. We present data collected from a sample of lamb meat including bone as an illustrative example of human tissue imaging. The data is analyzed using our 3D Algebraic Reconstruction Algorithm (MARS-ART) and by material decomposition based on a constrained linear least squares algorithm. The results presented here clearly show the quantification of lipid-like, water-like and bone-like components of tissue. However, it is also clear to us that better algorithms could extract more information of clinical interest from our data. Because we are one of the first to present data from multi-energy photon-processing small animal CT systems, we make the raw, partial and fully processed data available with the intention that others can analyze it using their familiar routines. The raw, partially processed and fully processed data of lamb tissue along with the phantom calibration data can be found at http://hdl.handle.net/10092/8531.",

keywords = "Computerized Tomography (CT) and Computed Radiography (CR), Data acquisition concepts, Medical-image reconstruction methods and algorithms, computer-aided diagnosis, X-ray detectors",

author = "R. Aamir and A. Chernoglazov and Bateman, {C. J.} and Butler, {A. P.H.} and Butler, {P. H.} and Anderson, {N. G.} and Bell, {S. T.} and Panta, {R. K.} and Healy, {J. L.} and Mohr, {J. L.} and K. Rajendran and Walsh, {M. F.} and {De Ruiter}, N. and Gieseg, {S. P.} and T. Woodfield and Renaud, {P. F.} and L. Brooke and S. Abdul-Majid and M. Clyne and R. Glendenning and Bones, {P. J.} and M. Billinghurst and C. Bartneck and H. Mandalika and R. Grasset and N. Schleich and N. Scott and Nik, {S. J.} and A. Opie and T. Janmale and Tang, {D. N.} and D. Kim and Doesburg, {R. M.} and R. Zainon and Ronaldson, {J. P.} and Cook, {N. J.} and Smithies, {D. J.} and K. Hodge",

year = "2014",

month = feb,

doi = "10.1088/1748-0221/9/02/P02005",

language = "English (US)",

volume = "9",

journal = "Journal of Instrumentation",

issn = "1748-0221",

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TY - JOUR

T1 - MARS spectral molecular imaging of lamb tissue

T2 - Data collection and image analysis

AU - Aamir, R.

AU - Chernoglazov, A.

AU - Bateman, C. J.

AU - Butler, A. P.H.

AU - Butler, P. H.

AU - Anderson, N. G.

AU - Bell, S. T.

AU - Panta, R. K.

AU - Healy, J. L.

AU - Mohr, J. L.

AU - Rajendran, K.

AU - Walsh, M. F.

AU - De Ruiter, N.

AU - Gieseg, S. P.

AU - Woodfield, T.

AU - Renaud, P. F.

AU - Brooke, L.

AU - Abdul-Majid, S.

AU - Clyne, M.

AU - Glendenning, R.

AU - Bones, P. J.

AU - Billinghurst, M.

AU - Bartneck, C.

AU - Mandalika, H.

AU - Grasset, R.

AU - Schleich, N.

AU - Scott, N.

AU - Nik, S. J.

AU - Opie, A.

AU - Janmale, T.

AU - Tang, D. N.

AU - Kim, D.

AU - Doesburg, R. M.

AU - Zainon, R.

AU - Ronaldson, J. P.

AU - Cook, N. J.

AU - Smithies, D. J.

AU - Hodge, K.

PY - 2014/2

Y1 - 2014/2

N2 - Spectral molecular imaging is a new imaging technique able to discriminate and quantify different components of tissue simultaneously at high spatial and high energy resolution. Our MARS scanner is an x-ray based small animal CT system designed to be used in the diagnostic energy range (20-140 keV). In this paper, we demonstrate the use of the MARS scanner, equipped with the Medipix3RX spectroscopic photon-processing detector, to discriminate fat, calcium, and water in tissue. We present data collected from a sample of lamb meat including bone as an illustrative example of human tissue imaging. The data is analyzed using our 3D Algebraic Reconstruction Algorithm (MARS-ART) and by material decomposition based on a constrained linear least squares algorithm. The results presented here clearly show the quantification of lipid-like, water-like and bone-like components of tissue. However, it is also clear to us that better algorithms could extract more information of clinical interest from our data. Because we are one of the first to present data from multi-energy photon-processing small animal CT systems, we make the raw, partial and fully processed data available with the intention that others can analyze it using their familiar routines. The raw, partially processed and fully processed data of lamb tissue along with the phantom calibration data can be found at http://hdl.handle.net/10092/8531.

AB - Spectral molecular imaging is a new imaging technique able to discriminate and quantify different components of tissue simultaneously at high spatial and high energy resolution. Our MARS scanner is an x-ray based small animal CT system designed to be used in the diagnostic energy range (20-140 keV). In this paper, we demonstrate the use of the MARS scanner, equipped with the Medipix3RX spectroscopic photon-processing detector, to discriminate fat, calcium, and water in tissue. We present data collected from a sample of lamb meat including bone as an illustrative example of human tissue imaging. The data is analyzed using our 3D Algebraic Reconstruction Algorithm (MARS-ART) and by material decomposition based on a constrained linear least squares algorithm. The results presented here clearly show the quantification of lipid-like, water-like and bone-like components of tissue. However, it is also clear to us that better algorithms could extract more information of clinical interest from our data. Because we are one of the first to present data from multi-energy photon-processing small animal CT systems, we make the raw, partial and fully processed data available with the intention that others can analyze it using their familiar routines. The raw, partially processed and fully processed data of lamb tissue along with the phantom calibration data can be found at http://hdl.handle.net/10092/8531.

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KW - Data acquisition concepts

KW - Medical-image reconstruction methods and algorithms, computer-aided diagnosis

KW - X-ray detectors

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ER -

MARS spectral molecular imaging of lamb tissue: Data collection and image analysis

Abstract

Keywords

ASJC Scopus subject areas

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