Recent development in bioluminescence tomography

Current Medical Imaging Reviews

Volumn 2, Issue 4, 2006, Pages 453-457

  Wang, Ge ^a,b   Qian, Xin ^a   Cong, Wenxiang ^a   Shen, Haiou ^a   Li, Yi ^b   Han, Weimin ^b   Durairaj, Kumar ^a   Jiang, Ming ^c   Zhou, Tie ^c   Cheng, Jiantao ^c   Tian, Jie ^d   Lv, Yujie ^d   Li, Hui ^d   Luo, Jie ^d  

^a UNIVERSITY OF IOWA   (United States)

^b UNIVERSITY OF IOWA   (United States)

^c PEKING UNIVERSITY   (China)

^d INSTITUTE OF AUTOMATION   (China)

Author keywords

Bioluminescence imaging; Bioluminescence tomography; Finite element method; Molecular optical simulation environment; Monte Carlo approach; Multi spectral signal separation

Indexed keywords

ADENOSINE TRIPHOSPHATE; BIOMATERIAL; LUCIFERASE; LUCIFERIN; OXYGEN;

BIOLUMINESCENCE; BIOLUMINESCENCE TOMOGRAPHY; CAMERA; COMPUTER ASSISTED TOMOGRAPHY; COMPUTER SYSTEM; CONCEPTUAL FRAMEWORK; FEASIBILITY STUDY; FINITE ELEMENT ANALYSIS; IMAGE QUALITY; LIGHT INTENSITY; MATHEMATICAL ANALYSIS; MOLECULAR IMAGING; MONTE CARLO METHOD; MOUSE; NONHUMAN; NUCLEAR MAGNETIC RESONANCE IMAGING; PHANTOM; PHOTON; PRIORITY JOURNAL; REVIEW; TOMOGRAPHY; TRANSGENE;

EID: 33750709693     PISSN: 15734056     EISSN: None     Source Type: Journal    
DOI: 10.2174/157340506778777123     Document Type: Review

References (26)

1. Wang G, Hoffman EA, McLennan G, et al. Development of the first bioluminescent CT scanner: Radiology 2003; 229: 566.
2. Wang, G., Hoffman EA, McLennan G. Systems and methods for bioluminescent CT reconstruction. Patent disclosure filled in July 2002; US provisional patent application filled in March 2003; US patent application filed in March 2004.
3. Lavery A: First bioluminescent CT prototype is "a new imaging modality". Clinica World Medical Device & Diagnostic News, Page 2, PJB Publications Ltd., Richmond, Surrey, UK, December 17, 2003.
4. Wang G, Li Y, Jiang M. Uniqueness theorems in bioluminescence tomography. Med. Phys 2004; 31: 2289-2299.
5. Cong WX, Wang LH, Wang G. Formulation of photon diffusion from spherical bioluminescent sources in an infinite homogeneous medium. Biomed. Eng. Online 2004; 3:12.
6. Li H, Tian J, Zhu FP, et al. A mouse optical simulation environment (MOSE) to investigate bioluminescent phenomena with the Monte Carlo method. Acad Radiology 2004; 11:1029-1038.
7. Jiang M, Wang G. Image reconstruction for bioluminescence tomography. Proc. SPIE 2004; 5535:335-351.
8. Cong WX, Kumar D, Liu Y, Cong A, Wang G. A practical method to determine the light source distribution in bioluminescent imaging. Proc. SPIE 2004; 5535: 679-686.
9. Cong WX, Wang G, Kumar D, et al.: Practical reconstruction method for bioluminescence tomography. Opt Exp 2005; 13: 6756-6771.
10. Jiang M, Li Y, Wang G. Inverse problems in bioluminescence tomography. In Frontier and Prospect of Contemporary, Higher Education Press (Beijing) and World Scientific, 2005.
11. Li Y, Jiang M, Wang G. Computational optical biopsy. Biomed Eng Online 4:36, 2005 (Provisional patent filed).
12. Cong WX, Wang G. Boundary integral method for bioluminescence tomography. J Biomed Opt 2006; 11:020502.
13. Cong WX, Kumar D, Wang LV, Wang G. A Born-type approximation method for bioluminescence tomography. Med Phys 2006; 33: 679-686.
14. Cong A, Wang G. Multi-spectral bioluminescence tomography: Methodology and simulation. Int'l J of Biomed Imaging 2006; 1:73-79.
15. Ntziachristos V, Ripoll VJ, Wang LV, Weissleder R: Looking and listening to light: the evolution of whole-body photonic imaging. Nat Biotechnol 2005; 23:313-320.
16. Rice W, Cable MD, Nelson MB. In vivo imaging of light-emitting probes. J Biomed Opt 2001 6:432-440.
17. Contag C, Bachmann MH. Advances in Bioluminescence imaging of gene expression. Annu Rev Biomed Eng 2002; 4:235260.
18. Ishimaru A. Wave propagation and scattering in random media. Oxford, Oxford University Press, 1997.
19. Natterer F, Wübbeling F. Mathematical methods in image reconstruction. Philadelphia, Society for Industrial and Applied Mathematics, 2001.
20. Coguoz O, Troy TL, Jekic-MsMullen D, Rice BW. Determination of depth of in-vivo bioluminescent signals using spectral imaging techniques. Prof of SPIE 2003; 4967: 37-45.
21. Gu Y, Zhang Q, Larcom L, Jiang H. Three-dimensional bioluminescence tomography with model-based reconstruction. Opt Express 2004; 12: 3996-4000.
22. Kuo C, Coquoz O, Troy T, Zwarg D, Rice B. Bioluminescent tomography for in vivo localization and quantification of luminescent sources from a multiple-view imaging system. Molecular Imaging 2005; 4:370.
23. Alexandrakis G, Rannou FR, Chatziioannou AF. Tomographic bioluminescence imaging by use of a combined optical-PET (OPET) system: a computer simulation feasibility study. Phys Med Biol 2005; 50: 4225-424.
24. Chaudhari AJ, Darvas F, Bading JR, et al. Hyperspectral and multispectral bioluminescence optical tomography for small animal imaging. Phys Med Biol 2005; 50: 5421-5441.
25. Slavine NV, Lewis MA, Richer E, Antich PP. Iterative reconstruction method for light emitting sources based on the diffusion equation. Med Phys 2006; 33: 61-69.
26. Han W, Cong WX, Wang G. Mathematical theory and numerical analysis of bioluminescence tomography. Inverse Problems 2006; 22: 1659-1675.