FTIR microspectroscopic study of cell types and potential confounding variables in screening for cervical malignancies

Biospectroscopy Pub Date : 1998-12-07 DOI:10.1002/(SICI)1520-6343(1998)4:2<75::AID-BSPY1>3.0.CO;2-R

Bayden R. Wood, Michael A. Quinn, Brian Tait, Martin Ashdown, Tracy Hislop, Melissa Romeo, Don McNaughton

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引用次数: 189

Abstract

FTIR microscopy was applied to the analysis of cell types and other variables present in Pap smears to ascertain the limitations of infrared spectroscopy in the diagnosis of cervical cancer and dysplasia. It was found that leukocytes, and in particular lymphocytes, have spectral features in the phophodiester region (1300-900 cm⁻¹) suggestive of what has previously been described as changes indicative of malignancy. Endocervical cells and fibroblasts have similar spectral features to HeLa cells and consequently could also confound diagnosis. The use of ethanol as a fixative and dehydrating agent results in retention of glycogen in cervical cell types and thus minimizes spectral changes in the glycogen region due to sampling technique. Spectra of seminal fluids exhibit strong bands in the phosphodiester/carbohydrate region; however, sperm contamination should be easily detectable by the presence of a distinctive doublet at 981/968 cm⁻¹. Erythrocyte spectra exhibit a reduction in glycogen band intensity, but can be discerned by a relatively low-intensity ν_s band. Endocervical mucin spectra exhibit a reduction in glycogen bands and a very pronounced ν_s band, which is similar in intensity to the corresponding band in HeLa cells. Thrombocytes have strong bands in the phosphodiester region, but thrombocytes can be discerned from other cell types by the presence of two small broad bands at 980 and 935 cm⁻¹. Candida albicans is characterized by strong bands in the polysaccharide region which could potentially obscure diagnostic bands if C. albicans is present in large numbers. Spectra of bacteria common to the female genital tract, in general, also have strong absorptions in the polysaccharide region; however, bacterial contamination is usually minimal and would not be expected to obscure cervical cell spectra. Nylon threads and bristles from cervical sampling implements produce characteristic IR profiles which allow for easy identification. Given the number of potential confounding variables associated with cervical cytology, a multivariate statistical or neural network analysis would appear to be necessary before the implementation of FTIR technology in clinical laboratories. © 1998 John Wiley & Sons, Inc. Biospectroscopy 4: 75–91, 1998

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FTIR显微光谱研究的细胞类型和潜在的混杂变量筛选宫颈恶性肿瘤

应用FTIR显微镜分析巴氏涂片中存在的细胞类型和其他变量，以确定红外光谱在宫颈癌和不典型增生诊断中的局限性。我们发现，白细胞，特别是淋巴细胞，在磷脂区(1300-900 cm−1)具有光谱特征，提示以前被描述为指示恶性肿瘤的变化。宫颈内膜细胞和成纤维细胞与HeLa细胞具有相似的光谱特征，因此也可能混淆诊断。使用乙醇作为固定剂和脱水剂导致糖原在宫颈细胞类型中保留，从而使取样技术导致的糖原区域光谱变化最小化。精液光谱在磷酸二酯/碳水化合物区表现出强带;然而，精子污染应该很容易通过在981/968 cm−1处存在一个独特的双态来检测。红细胞光谱表现出糖原带强度降低，但可以通过相对低强度的νs带来识别。颈内粘蛋白谱显示糖原带减少和非常明显的νs带，其强度与HeLa细胞的相应带相似。血小板在磷酸二酯区有很强的条带，但在980和935 cm−1处存在两个小的宽带，可以将血小板与其他细胞类型区分开来。白色念珠菌的特点是在多糖区有很强的条带，如果白色念珠菌大量存在，可能会模糊诊断带。光谱上女性生殖道常见的细菌，一般在多糖区也有较强的吸收;然而，细菌污染通常是最小的，不会期望模糊宫颈细胞光谱。颈部取样工具的尼龙线和刷毛产生特征红外曲线，易于识别。考虑到与宫颈细胞学相关的潜在混杂变量的数量，在临床实验室实施FTIR技术之前，似乎有必要进行多变量统计或神经网络分析。©1998 John Wiley &儿子,Inc。生物光谱学学报，1998,19 (4):559 - 561

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Biospectroscopy

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