RAMAN SPECTROSCOPY OF HUMAN HEMOGLOBIN FOR DIABETES DETECTION

JUQIANG LIN; JINYONG LIN; ZUFANG HUANG; PENG LU; JING WANG; XUCHAO WANG; RONG CHEN

doi:10.1142/s179354581350051x

[1] K. F. Hanssen, H. J. Bangstad, O. Brinchmann- Hansen, K. Dahl-J rgensen, "Blood glucose control and diabetic microvascular complications: Longterm effects of near-normoglycaemia," Diabet. Med. 9(8), 697–705 (1992).

[2] C. S. Fox, S. Coady, P. D. Sorlie, S. Dagostino-RB, M. J. Pencina, R. S. Vasan, J. B. Meigs, D. Levy, P. J. Savage, "Increasing cardiovascular disease burden due to diabetes mellitus: The Framingham heart study," Circulation 115(12), 1544–1550 (2007).

[3] E. J. Gallagher, D. L. Rolth, Z. Bloomgarden, "Review of hemoglobin A1c in the management of diabetes," J. Diabetes 1(1), 9–17 (2009).

[4] S. Y. Feng, R. Chen, J. Q. Lin, J. J. Pan, G. N. Chen, Y. Z. Li, M. Cheng, Z. F. Huang, J. S. Chen, H. S. Zeng, "Nasopharyngeal cancer detection based on blood plasma surface-enhanced Raman spectroscopy and multivariate analysis," Biosens. Bioelectron. 25(11), 2414–2419 (2010).

[5] H. W. Han, X. L. Yan, R. X. Dong, G. Ban, K. Li, "Analysis of serum from type II diabetes mellitus and diabetic complication using surface-enhanced Raman spectra (SERS)," Appl. Phys. B 94(4), 667– 672 (2009).

[6] I. Barman, N. C. Dingari, J. W. Kang, G. Horowitz, R. R. Dasari, M. S. Feld, "Raman spectroscopybased sensitive and specific detection of glycated hemoglobin," Anal. Chem. 84(5), 2474–2482 (2012).

[7] J. Zhao, H. Lui, D. I. Mclean, H. S. Zeng, "Automated autofluorescence background subtraction algorithm for biomedical Raman spectroscopy," Appl. Spectrosc. 61(11), 1225–1232 (2007).

[8] J. Q. Lin, R. Chen, S. Y. Feng, J. J. Pan, Y. Z. Li, G. N. Chen, M. Cheng, Z. F. Huang, Y. Yu, H. S. Zeng, "A novel blood plasma analysis technique combining membrane electrophoresis with silver nanoparticle based SERS spectroscopy for potential applications in non-invasive cancer detection," Nanomed Nanotechnol. Biol. Med. 7(5), 655–663 (2011).

[9] B. R. Wood, P. Caspers, G. J. Puppels, S. Pandiancherri, D. McNaughton, "Resonance Raman spectroscopy of red blood cells using near-infrared laser excitation," Anal. Bioanal. Chem. 387(5), 1691–1703 (2007).

[10] W. R. Premasiri, J. C. Lee, L. D. Ziegler, "Surfaceenhanced Raman scattering of whole human blood, blood plasma, and red blood cells: Cellular processes and bioanalytical sensing," J. Phys. Chem. B 116 (31), 9376–9386 (2012).

[11] J. D. Gelder, K. D. Gussem, P. Vandenabeele, L. Moens, "Reference database of Raman spectra of biological molecules," J. Raman Spectrosc. 38(9), 1133–1147 (2007).

[12] G. Smulevich, S. Z. Hu, K. R. Rodgers, D. B. Goodin, K. M. Smith, T. G. Spiro, "Heme-protein interactions in cytochrome c peroxidase revealed by site-directed mutagenesis and resonance Raman spectra of isotopically labeled hemes," Biospectroscopy 2(6), 365–376 (1996).