Biomedical spectral x-ray imaging; Promises and challenges

Steven M. Jorgensen; Diane R. Eaker; Erik L. Ritman

doi:10.1117/12.904615

Biomedical spectral x-ray imaging; Promises and challenges

Steven M. Jorgensen, Diane R. Eaker, Erik L. Ritman

Physiology & Biomedical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Scopus citations

Abstract

Imaging arrays with sub-millimeter detector pixels that count and allocate energy to each detected photon are now being introduced into biomedical computed tomography scanners. Consequently, bremsstrahlung x-ray can provide the advantages of simultaneous recording of multiple quasi-monochromatic x-ray images which can be used for identification of various materials within the image field. This capability increases the inherent contrast within biomedical CT images and also introduces the ability to use high atomic weight "foreign" elements (e.g., strontium) which are surrogates for "native" biological elements (e.g., calcium) to monitor tissue function (e.g., bone deposition). Challenges for this methodology include limited maximum fluence due to photon pile-up, charge-sharing between contiguous pixels and heterogeneous pixel characteristics due to manufacturing difficulties.

Original language	English (US)
Title of host publication	Advances in X-Ray/EUV Optics and Components VI
Pages	xv-xxiv
DOIs	https://doi.org/10.1117/12.904615
State	Published - 2011
Event	Advances in X-Ray/EUV Optics and Components VI - San Diego, CA, United States Duration: Aug 22 2011 → Aug 24 2011

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	8139
ISSN (Print)	0277-786X

Other

Other	Advances in X-Ray/EUV Optics and Components VI
Country/Territory	United States
City	San Diego, CA
Period	8/22/11 → 8/24/11

Keywords

Beam hardening
Charge sharing
Clinical CT
Dual-energy X-ray
Kedge
Micro-CT
Photon counting
Photon pile-up
X-ray Scatter
X-ray fluorescence

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

Access to Document

10.1117/12.904615

Cite this

Jorgensen, SM, Eaker, DR & Ritman, EL 2011, Biomedical spectral x-ray imaging; Promises and challenges. in Advances in X-Ray/EUV Optics and Components VI., 813901, Proceedings of SPIE - The International Society for Optical Engineering, vol. 8139, pp. xv-xxiv, Advances in X-Ray/EUV Optics and Components VI, San Diego, CA, United States, 8/22/11. https://doi.org/10.1117/12.904615

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abstract = "Imaging arrays with sub-millimeter detector pixels that count and allocate energy to each detected photon are now being introduced into biomedical computed tomography scanners. Consequently, bremsstrahlung x-ray can provide the advantages of simultaneous recording of multiple quasi-monochromatic x-ray images which can be used for identification of various materials within the image field. This capability increases the inherent contrast within biomedical CT images and also introduces the ability to use high atomic weight {"}foreign{"} elements (e.g., strontium) which are surrogates for {"}native{"} biological elements (e.g., calcium) to monitor tissue function (e.g., bone deposition). Challenges for this methodology include limited maximum fluence due to photon pile-up, charge-sharing between contiguous pixels and heterogeneous pixel characteristics due to manufacturing difficulties.",

keywords = "Beam hardening, Charge sharing, Clinical CT, Dual-energy X-ray, Kedge, Micro-CT, Photon counting, Photon pile-up, X-ray Scatter, X-ray fluorescence",

author = "Jorgensen, {Steven M.} and Eaker, {Diane R.} and Ritman, {Erik L.}",

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AB - Imaging arrays with sub-millimeter detector pixels that count and allocate energy to each detected photon are now being introduced into biomedical computed tomography scanners. Consequently, bremsstrahlung x-ray can provide the advantages of simultaneous recording of multiple quasi-monochromatic x-ray images which can be used for identification of various materials within the image field. This capability increases the inherent contrast within biomedical CT images and also introduces the ability to use high atomic weight "foreign" elements (e.g., strontium) which are surrogates for "native" biological elements (e.g., calcium) to monitor tissue function (e.g., bone deposition). Challenges for this methodology include limited maximum fluence due to photon pile-up, charge-sharing between contiguous pixels and heterogeneous pixel characteristics due to manufacturing difficulties.

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KW - Charge sharing

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Biomedical spectral x-ray imaging; Promises and challenges

Abstract

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Keywords

ASJC Scopus subject areas

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