光谱学与光谱分析 |
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Initial Research on FTIR Spectroscopy of Lyophilized Serum from Colorectal Cancer Patients |
RUAN Sen-lin1,2, WANG Ru1, CHEN Xiao-yan1, WU Ya-ying1, LIU Qing1, LIU Min1, RAO Cui1, DENG Hong1* |
1. Department of Pathology, School of Medicine, Zhejiang University, Hangzhou 310058, China 2. The First People’s Hospital of Hangzhou City, Hangzhou 310006, China |
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Abstract In the present paper, lyophilized sera from 31 patients with colorectal cancer,8 patients with enteritis and 10 healthy controls were measured using Nicolet Nexus-670 Fourier Transform Infrared (FTIR) spectrometer, and the spectral features were investigated and comparison among three groups was made. The result showed that (1) there are 11 peaks of absorption in the spectrum of lyophilized sera, the wavenumber of the ninth peak moved to 1 249 cm-1 in the colorectal cancer group and significant difference was observed with the control group (Z=-2.051, P<0.05); Five ratios of absorbance were calculated and no significant difference was observed among three groups; (2) spectrum in the region of 1 700~1 000 cm-1 was analysed with the method of hierarchical cluster analysis and showed only partial success in distinguishing the three groups; (2) spectrum of amide Ⅰ peptide (1 700~1 600 cm-1) was deconvolved to get the percentage composition of protein secondary structures, and no significant difference was observed among three groups. The results provide a preliminary theoretical basic for using FTIR spectrum of lyophilized serum for the early diagnosis of colorectal cancer.
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Received: 2012-05-22
Accepted: 2012-09-18
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Corresponding Authors:
DENG Hong
E-mail: hongdeng@zju.edu.cn
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[1] Sahu R K, Mordechai S. Future Oncol,2010,6: 1653. [2] Kwak J T, Hewitt S M, Sinha S, et al. BMC Cancer,2011, 11: 62. [3] Rehman I U, Rehman S, Movasaghi Z, et al. Applied Spectroscopy Reviews,2010, 45: 355. [4] Jackson M, Mansfield J R, Dolenko B, et al. Cancer Detect Prev.,1999, 23: 245. [5] Lewis P D, Lewis K E, Ghosal R, et al. BMC Cancer,2010, 10: 640. [6] Michael J W,Matthew J G,Maneesh S H M,et al. Cancer Letters,2007,246(1): 1. [7] CAO Kai, DI Jian-bin, WEI Wen-xiang, et al(曹 锴,狄建彬,魏文详, 等). World Chinese Journal of Digestology(世界华人消化杂志), 2009, 17(35): 3615. [8] Bellisola G, Sorio C. Am. J. Cancer Res., 2012, 2(1): 1. [9] LIU Qiang, YU Xue-mei(刘 强,于雪梅). Information Recording Materials(信息记录材料), 2011, 12(1): 27. [10] Cyril P,Gёrard D. Trends in Biotechnology,2006,24(10):455. |
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