Preliminary research on dual-energy X-ray phase-contrast imaging

Hua-Jie Han; Sheng-Hao Wang; Kun Gao; Zhi-Li Wang; Can Zhang; Meng Yang; Kai Zhang; Pei-Ping Zhu

doi:10.1088/1674-1137/40/4/048201

Chinese Physics C> 2016, Vol. 40> Issue(4) : 048201 DOI: 10.1088/1674-1137/40/4/048201

Preliminary research on dual-energy X-ray phase-contrast imaging

Hua-Jie Han ^1,2 ,
Sheng-Hao Wang ¹ ,
Kun Gao ^1,, ,
Zhi-Li Wang ¹ ,
Can Zhang ¹ ,
Meng Yang ¹ ,
Kai Zhang ^3,, ,
Pei-Ping Zhu ³

1.
National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230027, China
2.
School of Engineering Science, University of Science and Technology of China, Hefei 230027, China
3.
National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230027, China
4.
Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100049, China

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Abstract：
Dual-energy X-ray absorptiometry(DEXA) has been widely applied to measure the bone mineral density(BMD) and soft-tissue composition of the human body. However, the use of DEXA is greatly limited for low-Z materials such as soft tissues due to their weak absorption, while X-ray phase-contrast imaging(XPCI) shows significantly improved contrast in comparison with the conventional standard absorption-based X-ray imaging for soft tissues. In this paper, we propose a novel X-ray phase-contrast method to measure the area density of low-Z materials, including a single-energy method and a dual-energy method. The single-energy method is for the area density calculation of one low-Z material, while the dual-energy method aims to calculate the area densities of two low-Z materials simultaneously. Comparing the experimental and simulation results with the theoretical ones, the new method proves to have the potential to replace DEXA in area density measurement. The new method sets the prerequisites for a future precise and low-dose area density calculation method for low-Z materials.
- X-ray imaging ,
- dual-energy ,
- phase-contrast ,
- area density

References

[1]	G. N. Hounsfield, Br. J. Radiol, 46(552):1016-1022(1973)
[2]	R. E. Alvarez and A. Macovski, Phys. Med. Biol, 21(5):733(1976)
[3]	L. M. Zatz, Radiology, 119(3):683-688(1976)
[4]	A. Macovski, R. Alvarez, J. H. Chan et al, Comput. Biol. Med, 6(4):325-336(1976)
[5]	R. A. Rutherford, B. R. Pullan, and I. Isherwood, Neuroradiology, 11(1):15-21(1976)
[6]	R. B.Mazess, H. S. Barden, J. P.Bisek et al, Am. J. Clin. Nutr, 51(6):1106-1112(1990)
[7]	O. L. Svendsen, J. Haarbo, C. Hassager et al, Am. J. Clin. Nutr, 57(5):608-608(1993)
[8]	P. J. Ryan, in Seminars in Nuclear Medicine, Vol.27, edited by W. B. Saunders(1997), p. 291-305
[9]	G. Di Chiro, R. A. Brooks, M. Robert et al, Radiology, 131(2):521-523(1979)
[10]	L. J. Zhang, S. Y. Wu, C. S. Poon et al. J. Comput. Assist. Tomogr, 34(6):816-824(2010)
[11]	Macdonald, R. D. Richard, In Photonics West 2001-Electronic Imaging,(International Society for Optics and Photonics, 2001), p. 31-41
[12]	Z. R. Ying, R. Naidu, and C. R. Crawford, J. X-Ray Sci. Technol, 14(4):235-256(2006)
[13]	A. Momose, T. Takeda, Y. Itai et al, Nature Med, 2(4):473-475(1996)
[14]	C. Kottler, V. Revol, R. Kaufmann et al, J. Appl. Phys, 108(11):114906(2010)
[15]	A. Momose, Jpn. J. Appl. Phys, 44(9R):6355-6367(2005)
[16]	C. David, B. Nohammer, H. H. Solak et al, Appl. Phys. Lett, 81(17):3287-3289(2002)
[17]	S. Wilkins, T. Gureyev, D. Gao et al, Nature, 384(6607):335-338(1996)
[18]	S. J. Ostlere and R. H. Gold, Clin. Orthop. Relat. Res, 271:149-163(1991)
[19]	F. Pfeiffer, T. Weitkamp, O. Bunk et al, Nature Phys, 2(4):258-261(2006)
[20]	S. H. Wang, P. O. Margie, A. Momose et al, Chin. Phys. B, 6(6):673-678(2015)

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[16]	ZHOU Ri-Feng , WANG Jue , CHEN Wei-Min . X-ray beam hardening correction for measuring density in linear acceleratorindustrial computed tomography. Chinese Physics C, 2009, 33(7): 599-602. doi: 10.1088/1674-1137/33/7/018
[17]	WANG Xue-Wu , LI Jian-Min , KANG Ke-Jun , TANG Chuan-Xiang , ZHANG Li , CHEN Zhi-Qiang , LI Yuan-Jing , ZHONG Hua-Qiang . Material Discrimination by High-Energy X-Ray Dual-Energy Imaging. Chinese Physics C, 2007, 31(11): 1076-1081.
[18]	YU Ai-Min , LI Zheng , ZHANG Di , HUANG Zhi-Feng . In-Line Phase Contrast Imaging Using a Micro-focus X-Ray Source. Chinese Physics C, 2006, 30(11): 1119-1122.
[19]	CHEN Zhi-Hua , PAN Lin , LI Gang , XU Mei , XU Bo , ZHAO Tian-De , CHEN Wei-Chang , TANG Jin-Tian . Phase-Contrast Imaging with Synchrotron X-ray for Mouse Lung. Chinese Physics C, 2003, 27(S1): 83-85.
[20]	Qiu Jinfa . The Background Darkness of X-Ray Films and Energy Calibration in an EC Experiment. Chinese Physics C, 1989, 13(S4): 363-370.

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Hua-Jie Han, Sheng-Hao Wang, Kun Gao, Zhi-Li Wang, Can Zhang, Meng Yang, Kai Zhang and Pei-Ping Zhu. Preliminary research on dual-energy X-ray phase-contrast imaging[J]. Chinese Physics C, 2016, 40(4): 048201. doi: 10.1088/1674-1137/40/4/048201

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Received: 2015-05-19
Revised: 2015-11-25

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Supported by Major State Basic Research Development Program(2012CB825800), Science Fund for Creative Research Groups(11321503) and National Natural Science Foundation of China(11179004, 10979055, 11205189, 11205157)

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沈阳化工大学材料科学与工程学院沈阳 110142

Preliminary research on dual-energy X-ray phase-contrast imaging

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Preliminary research on dual-energy X-ray phase-contrast imaging

Corresponding author: Kun Gao,

Corresponding author: Kai Zhang,

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