Measurement of optical scattering properties with low-coherence enhanced backscattering spectroscopy

Journal of Biomedical Optics

Volumn 16, Issue 6, 2011, Pages

  Turzhitsky, Vladimir ^a   Radosevich, Andrew J ^a   Rogers, Jeremy D ^a   Mutyal, Nikhil N ^a   Backman, Vadim ^a  

^a Northwestern University   (United States)

Author keywords

Backscattering; Coherence; Fractals; Optical properties; Spectroscopy

Indexed keywords

ANISOTROPY FACTOR; BIOLOGICAL TISSUES; BROADBAND ILLUMINATION; CORRELATION FUNCTION; ENHANCEMENT FACTOR; EXPERIMENTAL MEASUREMENTS; FUNCTIONAL TYPES; IN-SITU; INVERSE MODELS; LOW-COHERENCE ENHANCED BACKSCATTERINGS; OPTICAL SCATTERING; PEAK WIDTHS; PHASE FUNCTIONS; REDUCED SCATTERING COEFFICIENTS; REFLECTED RAY; SCATTERING EVENTS; SPATIAL COHERENCE; SPECTRAL DEPENDENCES; SPECTRAL MEASUREMENT; TISSUE PHANTOM; TURBID MEDIA; TWO PARAMETER;

BACKSCATTERING; LIGHT REFRACTION; OPTICAL CORRELATION; REFLECTION; REFRACTIVE INDEX; REFRACTOMETERS; TISSUE; TURBIDITY;

COHERENT SCATTERING;

ANISOTROPY; ARTICLE; FRACTAL ANALYSIS; IMAGE QUALITY; METHODOLOGY; MONTE CARLO METHOD; RADIATION SCATTERING; REPRODUCIBILITY; SPECTROSCOPY;

ANISOTROPY; FRACTALS; MONTE CARLO METHOD; PHANTOMS, IMAGING; REPRODUCIBILITY OF RESULTS; SCATTERING, RADIATION; SPECTRUM ANALYSIS;

EID: 80052545581     PISSN: 10833668     EISSN: 15602281     Source Type: Journal    
DOI: 10.1117/1.3589349     Document Type: Article

References (53)

1. T. Collier, D. Arifler, A. Malpica, M. Follen, and R. Richards-Kortum, "Determination of epithelial tissue scattering coefficient using confocal microscopy," IEEE J. Sel. Top. Quantum Electron. 9(2), 307-313 (2003).
2. V. M. Turzhitsky, A. J. Gomes, Y. L. Kim, Y. Liu, A. Kromine,J. D. Rogers, M. Jameel, H. K. Roy, and V. Backman, "Measuring mucosal blood supply in vivo with a polarization-gating probe," Appl.Opt. 47(32),6046-6057 (2008).
3. L. T. Perelman, "Optical diagnostic technology based on light scattering spectroscopy for early cancer detection," Expert Review of Medical Devices 3(6), 787-803 (2006). (Pubitemid 46017620)
4. R. S. Gurjar, V. Backman, L. T. Perelman, I. Georgakoudi, K.Badizadegan, I. Itzkan, R. R. Dasari, andM. S. Feld, "Imaging humanepithelial properties with polarized light-scattering spectroscopy," Nat.Med. 7(11), 1245-1248 (2001). (Pubitemid 33063781)
5. A. Amelink, H. J. C. M. Sterenborg, M. P. L. Bard, and S. A. Burgers,"In vivo measurement of the local optical properties of tissue by use of differential path-length spectroscopy," Opt. Lett. 29(10), 1087-1089(2004).
6. Y. L. Kim, Y. Liu, V. M. Turzhitsky, R. K. Wali, H. K. Roy, and V.Backman, "Depth-resolved low-coherence enhanced backscattering,"Opt. Lett. 30(7), 741-743 (2005). (Pubitemid 40449064)
7. F. E. Robles and A. Wax, "Measuring morphological features using light-scattering spectroscopy and Fourier-domain low-coherence interferometry,"Opt. Lett. 35(3), 360-362 (2010).
8. J. W. Pyhtila, J. D. Boyer, K. J. Chalut, and A. Wax, "Fourierdomain angle-resolved low coherence interferometry through an endoscopicfiber bundle for light-scattering spectroscopy," Opt. Lett. 31(6),772-774 (2006).
9. J. Gong, J. Yi,V.M. Turzhitsky,K. Muro, andX. Li, "Characterization of malignant brain tumor using elastic light scattering spectroscopy,"Dis. Markers 25(6), 303-312 (2008).
10. Y. L. Kim, "Elastic light scattering for the detection of the field effect in colorectal carcinogenesis," thesis, Northwestern University, Evanston, IL (2004).
11. J. W. Pyhtila, K. J. Chalut, J. D. Boyer, J. Keener, T. D'Amico,M. Gottfried, F. Gress, and A. Wax, "In situ detection of nuclear atypia in Barrett's esophagus by using angle-resolved low-coherence interferometry," Gastroint. Endos. 65(3), 487-491 (2007). (Pubitemid 46275650)
12. L. Qiu, D. K. Pleskow, R. Chuttani, E. Vitkin, J. Leyden, N. Ozden,S. Itani, L. Guo, A. Sacks, J. D. Goldsmith, M. D. Modell, E.B. Hanlon, I. Itzkan, and L. T. Perelman, "Multispectral scanning during endoscopy guides biopsy of dysplasia in Barrett's esophagus,"Nat. Med. 16(5), 603-606 (2010).
13. A. Dhar, K. S. Johnson, M. R. Novelli, S. G. Bown, I. J. Bigio, L. B. Lovat, and S. L. Bloom, "Elastic scattering spectroscopy for the diagnosis of colonic lesions: initial results of a novel optical biopsy technique," Gastroint. Endos. 63(2), 257-261 (2006). (Pubitemid 43113194)
14. H. K. Roy, Y. L. Kim, Y. Liu, R. K. Wali, M. J. Goldberg, V.Turzhitsky, J. Horwitz, and V. Backman, "Risk stratification of colon carcinogenesis through enhanced backscattering spectroscopy analysis of the uninvolved colonic mucosa," Clin.Cancer Res. 12(3), 961-968(2006). (Pubitemid 43259879)
15. Y. L. Kim, Y. Liu, V. M. Turzhitsky, H. K. Roy, R. K. Wali, and V.Backman, "Coherent backscattering spectroscopy," Opt. Lett. 29(16),1906-1908 (2004).
16. Y. L. Kim, Y. Liu, R. K. Wali, H. K. Roy, and V. Backman, "Lowcoherent backscattering spectroscopy for tissue characterization," Appl.Opt. 44(3), 366-377 (2005). (Pubitemid 40163310)
17. V. Turzhitsky, J.D. Rogers,N.N. Mutyal, H. K. Roy, andV. Backman,"Characterization of light transport in scattering media at subdiffusion length scales with low-coherence enhanced backscattering," IEEE J.Sel. Top. Quantum Electron. 16(3), 619-626 (2010).
18. A. J. Radosevich, V. M. Turzhitsky, N. N. Mutyal, J. D. Rogers,V. Stoyneva, A. K. Tiwari, M. De La Cruz, D. P. Kunte, R. K.Wali, H. K. Roy, and V. Backman, "Depth-resolved measurement of mucosal microvascular blood content using low-coherence enhanced backscattering specroscopy," Biomed. Opt. Express 1(4), 1196-1208 (2010).
19. H. K. Roy, V. Turzhitsky, Y. Kim, M. J. Goldberg, P. Watson,J. D. Rogers, A. J. Gomes, A. Kromine, R. E. Brand, M.Jameel, A. Bogovejic, P. Pradhan, and V. Backman, "Association between Rectal Optical Signatures and Colonic Neoplasia: Potential Applications for Screening," Cancer Res. 69(10), 4476-4483(2009).
20. V. Turzhitsky, Y. Liu, N. Hasabou, M. Goldberg, H. K. Roy,V. Backman, and R. Brand, "Investigating population risk factors of pancreatic cancer by evaluation of optical markers in the duodenalmucosa," Dis. Markers 25(6), 313-321 (2008).
21. J. C. Ramella-Roman, S. A. Prahl, and S. L. Jacques, "Three Monte Carlo programs of polarized light transport into scattering media: part I," Opt. Express 13(12), 4420-4438 (2005). (Pubitemid 41029365)
22. L. H. Wang, S. L. Jacques, and L. Q. Zheng, "Mcml - monte-carlo modeling of light transport in multilayered tissues," Comput. Methods Programs Biomed. 47(2), 131-146 (1995).
23. H. Subramanian, P. Pradhan,Y. L. Kim,Y. Liu, X. Li, andV. Backman,"Modeling low-coherence enhanced backscattering using Monte Carlo simulation," Appl. Opt. 45(24), 6292-6300 (2006). (Pubitemid 44562786)
24. F. Bevilacqua and C. Depeursinge, "Monte Carlo study of diffuse reflectance at source-detector separations close to one transport mean free path," J. Opt. Society Am. A 16(12), 2935-2945 (1999). (Pubitemid 129617536)
25. R. Graaff, M. H. Koelink, F. F. M. de Mul, W. G. Zijistra, A. C. M. Dassel, and J. G. Aarnoudse, "Condensed Monte Carlo simulations for the description of light transport," Applied Opt. 32(4), 426-434(1993).
26. M. Born, E. Wolf, and A. B. Bhatia, Principles of Optics: Electromagnetic Theory of Propagation, Interference and Diffraction of Light,Cambridge University Press, Cambridge (1999).
27. M. Ospeck and S. Fraden, "Influence of reflecting boundaries and finite interfacial thickness on the coherent backscattering cone," Phys.Rev. E 49(5), 4578-4589 (1994).
28. P. E. Wolf, G. Maret, E. Akkermans, and R. Maynard, "Optical coherent backscattering by random-media-an experimental-study," J.Phys. (Paris) 49(1), 63-75 (1988).
29. M. Kirillin, I. Meglinski, V. Kuzmin, E. Sergeeva, and R. Myllyla,"Simulation of optical coherence tomography images by Monte Carlo modeling based on polarization vector approach," Opt. Express 18(21),21714-21724 (2010).
30. I. V. Meglinski, V. L. Kuzmin, D. Y. Churmakov, and D. A.Greenhalgh, "Monte Carlo simulation of coherent effects in multiple scattering," Proc. R. Soc. London, Ser. A 461(2053), 43-53 (2005). (Pubitemid 40522469)
31. H. Subramanian, P. Pradhan,Y. L. Kim, andV. Backman, " Penetrationdepth of low-coherence enhanced backscattered light in subdiffusionregime," Phys. Rev. E 75(4), 041914 (2007).
32. E. Akkermans, P. E. Wolf, and R. Maynard, "Coherent backscatteringof light by disordered media - analysis of the peak line-shape," Phys.Rev. Lett. 56(14), 1471-1474 (1986).
33. I. Seo, C. K. Hayakawa, and V. Venugopalan, "Radiative transport in the delta-P-1 approximation for semi-infinite turbid media," Med. Phys. 35(2), 681-693 (2008). (Pubitemid 351190888)
34. E. L. Hull and T. H. Foster, "Steady-state reflectance spectroscopy in the P-3 approximation," J. Opt. Soc. Am. A 18(3), 584-599 (2001).
35. R. Reif, O. A'Amar, and I. J. Bigio, "Analytical model of light reflectance for extraction of the optical properties in small volumes of turbid media," Appl.Opt. 46(29), 7317-7328 (2007).
36. L. H. Wang and S. L. Jacques, "Optimized radial and angular positions in Monte-Carlo modeling," Med. Phys. 21(7), 1081-1083 (1994). (Pubitemid 24233835)
37. L. G. Henyey and J. L. Greenstein, "Diffuse radiation in the galaxy,"Astrophys. J. 93(1), 70-83 (1941).
38. J. R. Mourant, J. P. Freyer, A. H. Hielscher, A. A. Eick, D. Shen, andT. M. Johnson, "Mechanisms of light scattering from biological cells relevant to noninvasive optical-tissue diagnostics," Appl. Opt. 37(16),3586-3593 (1998). (Pubitemid 128658703)
39. R. Marchesini, A. Bertoni, S. Andreola, E. Melloni, and A. E.Sichirollo, "Extinction and absorption coefficients and scattering phase functions of human tissues in vitro," Appl. Opt. 28(12), 2318-2324(1989).
40. J. M. Schmitt and G. Kumar, "Turbulent nature of refractiveindex variations in biological tissue," Opt. Lett. 21(16), 1310-1312(1996). (Pubitemid 126569103)
41. M. Xu and R. R. Alfano, "Fractal mechanisms of light scattering in biological tissue and cells," Opt. Lett. 30(22), 3051-3053 (2005). (Pubitemid 41655031)
42. M. Hunter, V. Backman, G. Popescu, M. Kalashnikov, C.W. Boone,A. Wax, V. Gopal, K. Badizadegan, G. D. Stoner, and M. S. Feld,"Tissue self-affinity and polarized light scattering in the born approximation:a new model for precancer detection," Phys. Rev. Lett. 97(13),138102(2006).
43. C. J. R. Sheppard, "Fractal model of light scattering in biological tissue and cells," Opt. Lett. 32(2), 142-144 (2007). (Pubitemid 46339991)
44. J. D. Rogers, I. R. Capoglu, and V. Backman, "Nonscalar elastic light scattering from continuous random media in the Born approximation, "Opt. Lett. 34(12), 1891-1893 (2009).
45. P. Guttorp and T. Gneiting, "Studies in the history of probability and statistics XLIX on the matern correlation family," Biometrika 93(4),989-995 (2006). (Pubitemid 44973881)
46. I. R. Capoglu, J. D. Rogers, A. Taflove, and V. Backman, "Accuracy of the Born approximation in calculating the scattering coefficientofbiological continuous random media," Opt. Lett. 34(17), 2679-2681(2009).
47. Y. L. Kim, V. M. Turzhitsky, Y. Liu, H. K. Roy, R. K. Wali, H.Subramanian, P. Pradhan, and V. Backman, "Low-coherence enhanced backscattering: review of principles and applications for colon cancer screening," J. Biomed. Opt. 11(4), 041125 (2006).
48. J. J. Liu, Z. B. Xu, Q. H. Song, R. L. Konger, and Y. L. Kim,"Enhancement factor in low-coherence enhanced backscattering and its applications for characterizing experimental skin carcinogenesis,"J.Biomed. Opt. 15(3), 037011 (2010).
49. H. K. Roy, V. Turzhitsky, Y. Kim, M. J. Goldberg, P. Watson, J.D. Rogers, A. J. Gomes, A. Kromine, R. E. Brand, M. Jameel,A. Bogovejic, P. Pradhan, and V. Backman, "Association between rectal optical signatures and colonic neoplasia: potential applications for screening," Cancer Res. 69(10), 4476-4483 (2009).
50. E. Akkermans, P. E. Wolf, R. Maynard, and G. Maret, " Theoreticalstudy of the coherent backscattering of light by disordered media," J.Phys. (Paris) 49(1), 77-98 (1988).
51. V. Turzhitsky, A. Radosevich, J. D. Rogers, A. Taflove, and V.Backman, "A predictive model of backscattering at subdiffusion length scales," Biomed. Opt. Express 1(3), 1034-1046 (2010).
52. N. N. Mutyal, V. Turzhitsky, J. D. Rogers, A. Radosevich, H. K. Roy,M. J. Goldberg, M. Jameel, A. Bogojevich, and V. Backman, "Design and implementation of fiber optic probe for measuring field effect of carcinogenesis with low-coherence enhanced backscattering spectroscopy (LEBS)," presented at Biomedical Optics (BIOMED), Miami,Florida (2010).
53. R. Sapienza, S. Mujumdar, C. Cheung, A. G. Yodh, and D. Wiersma,"Anisotropic weak localization of light," Phys. Rev. Lett. 92(3),033903 (2004).