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Human Tear Fluid (human + tear_fluid)

Distribution by Scientific Domains
Chemistry33%

Selected Abstracts

Investigation into the protein composition of human tear fluid using centrifugal filters and drop coating deposition Raman spectroscopy

JOURNAL OF RAMAN SPECTROSCOPY, Issue 2 2009
Jacob Filik
Abstract Drop coating deposition Raman spectroscopy (DCDRS) is a simple method of analysing weak protein solutions. This study is another step in evaluating the analysis of tear fluid by DCDRS as a future medical diagnostic technique. The main aims of this study are to determine whether the DCDR spectra from tear samples contain signals from more than one protein (so relative levels can be measured) and, if so, are the proteins homogeneously distributed in the dried ring of the deposited material. Tear samples were collected from four healthy volunteers and pooled prior to analysis. Proteins were separated by mass into three groups using centrifugal filters. These groups contained proteins with (1) masses greater than 100 kDa, (2) masses between 100 and 50 kDa and (3) masses between 50 and 3 kDa. DCDR spectra from each of these protein group solutions displayed significant differences, confirming that the mass separation had been successful. When used as basis vectors for least-squares fitting, these spectra (and that of urea) produced excellent fits to the normal tear spectra. Least-squares fitting of spectra from the same point on a single sample and from several drops of the same sample showed that the tear DCDR spectra were highly reproducible. Raman point mapping of the tear ring showed significant radial ring variation, especially towards the outer edge of the ring. The specific peak changes in the protein signal across the ring suggested that the difference in the outer edge was due to protein desiccation as opposed to inhomogeneous protein deposition. Copyright © 2008 John Wiley & Sons, Ltd. [source]

Analysis of human tear fluid by Fourier transform infrared spectroscopy

BIOPOLYMERS, Issue 1 2005
Yasushi Nagase
Abstract The purpose of this research is to find some useful spectroscopic factors in human tear fluid contents to monitor diurnal changes of the physicochemical ocular conditions noninvasively. All tear fluid samples were collected with glass microcapillary tubes from both eyes of three donors and analyzed by Fourier transform infrared spectroscopy with attenuated total reflectance (FTIR,ATR). We measured the peak intensities at 2852, 1735, 1546, and 1242 cm,1, and the peak intensity ratios among those peaks in the second derivative spectra. We found significant diurnal and individual variations in those peak intensities for tear fluid obtained from right and left eyes. Among these variations, we observed significant changes in tear samples between right and left eyes. In this case the peak intensity ratio between 1242 (phosphate ester) and 2852 cm,1 (fatty acid methylene) of right eye tear fluid was increased in the afternoon (1600 to 1900 h), while that of left eye tear fluid did not change significantly. In the ratio between 1242 (phosphate ester) and 1546 cm,1 (amide II), the difference was not observed between both eyes. We conclude that the difference in diurnal variations of biochemical constituents between right and left eye tear fluids could be monitored noninvasively and nondestructively by FTIR technique and this method could be useful in the future for tear diagnoses.© 2005 Wiley Periodicals, Inc. Biopolymers 79: 18,27, 2005 This article was originally published online as an accepted preprint. The "Published Online" date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com [source]

Determination of uric acid concentrations in human tear fluid, aqueous humour and serum

ACTA OPHTHALMOLOGICA, Issue 2 2009
Jutta Horwath-Winter
Abstract. Purpose:, The aim of this investigation was to assess and compare levels of uric acid in human tear fluid, aqueous humour and serum in cataract patients in order to obtain information about uric acid-dependent antioxidative status. Methods:, Reflex tear fluid, aqueous humour and serum were obtained from 103 cataract patients (52 women, 51 men). Uric acid was determined by a reversed phase chromatographic method with electrochemical detection. The Randox test was used to measure the contribution of uric acid to the total antioxidative status (TAS) of these body fluids. Results:, Mean concentrations of uric acid were 20 ± 8 ,g/ml in tear fluid, 18 ± 6 ,g/ml in aqueous humour and 58 ± 15 ,g/ml in serum. Significantly less uric acid was found in tear fluid (p < 0.01) and aqueous humour (p < 0.01) in female cataract patients compared with male cataract patients. There was a significant positive correlation between uric acid content in tear fluid, aqueous humour and serum, respectively (p < 0.01). The contribution of uric acid to TAS (Randox test) amounted to 38% in tear fluid, 10% in aqueous humour and 37% in serum. Conclusions:, Uric acid was found in comparable amounts in tear fluid and aqueous humour, but these were two- to threefold lower than in serum. Female cataract patients had lower uric acid values in tear fluid and aqueous humour compared with male cataract patients. Uric acid is an important antioxidant, as proven by its contribution to TAS as determined by the Randox test. The precise role of uric acid in the antioxidative reactions in tear fluid and aqueous humour is still under debate. [source]

Detection of connective tissue growth factor (CTGF) in human tear fluid: preliminary results

ACTA OPHTHALMOLOGICA, Issue 1 2003
G. B. Van Setten
Abstract. Purpose:, Connective tissue growth factor (CTGF) is one of the main regulators of fibrosis. We aimed to evaluate its presence in the human tear fluid of healthy individuals. Methods:, A total of 70 tear fluid samples were collected from eight volunteers prior to and after stimulation of reflex tears with onion vapour. Specific ELISA analysis was performed with goat IgG against human CTGF. Results:, Connective tissue growth factor was detected in seven samples (10%), with maximum levels of 17 ng/mL in basal tears. Induction of reflex tearing resulted in a fast and significant decrease of CTGF concentrations (r = , 0.95). No CTGF was detected in 90% of the samples. Conclusion:, Connective tissue growth factor may occur in tear fluid in healthy human eyes. This indicates a possible role for tear fluid CTGF in ocular surface fibrosis and wound healing. [source]