Quantitative X-ray microanalysis of semi-thick cryosections

Wróblewski, J; Müller, Ragnar; Wróblewski, Romuald; Roomans, Godfried M.

doi:10.1007/bf00495800

Cited by 40 publications

(24 citation statements)

References 22 publications

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“…This method, which has also been used in EMP analysis (Zs. Nagy et al 1976) may cause minor errors that can be corrected for by taking the difference in absorption in two spectral regions into account (Wroblewski et al 1983). In the particular case studied in this paper, this effect is, however, negligible, since both background and characteristic intensities were determined at relatively high X-ray energies.…”

Section: Resultsmentioning

confidence: 98%

Quantitative correlative proton and electron microprobe analysis of biological specimens

Forslind

Kunst

Malmqvist³

et al. 1985

Histochemistry

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To investigate the possibility of quantitative correlative proton microprobe (PMP) and electron microprobe (EMP) analysis of biological soft tissue, model specimens were analyzed by both techniques. The specimens consisted of freeze-dried sections of gelatin containing known concentrations of nickel chloride. Both for PMP and for EMP, the signal was expressed as the ratio of the characteristic intensity and the continuum intensity in a peak-free region of the spectrum. With both techniques, calibration curves (signal versus known concentration) obtained, showed a deviation from linearity at high nickel concentrations. However, a linear relation (correlation coefficient 0.996) was obtained in a plot of EMP signal versus PMP signal. This indicates that quantitative correlative PMP and EMP analysis can be carried out by using the same standard for both analytical techniques.

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Section: Resultsmentioning

confidence: 98%

Quantitative correlative proton and electron microprobe analysis of biological specimens

Forslind

Kunst

Malmqvist³

et al. 1985

Histochemistry

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“…Determination of elemental content in the subepithelial connective tissue X-ray microanalysis was used to quantify the ion content in the subepithelial CT. Tissue pieces were cut into semithin (3-4 mm) cryosections in a conventional cryostat at -30uC [12], mounted on a carbon specimen holder over a layer of thin Formvar film (Merck, Darmstadt, Germany) and freeze-dried for 24 h. To avoid charging in the electron microscope, the sections were coated with a conductive carbon layer after the specimen was successively warmed to room temperature. The sections were analysed in the scanningtransmission electron microscope mode at 100 kV (Hitachi 7100, Hitachi, Tokyo, Japan) with an Oxford Instruments ISIS energy-dispersive spectrometer system (Oxford Instruments, Oxford, UK).…”

Section: Study Design and Preparationmentioning

confidence: 99%

Effect of luminal osmolarity on ion content of connective tissue in rat trachea after epithelial damage

Relova¹,

Roomans²

2001

European Respiratory Journal

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Effect of luminal osmolarity on ion content of connective tissue in rat trachea after epithelial damage. A.J. Relova, G.M. Roomans. #ERS Journals Ltd 2001. ABSTRACT: The authors investigated the physical role of the airway epithelium in response to changes in the airway surface fluid9s composition by superperfusing the lumen with nonisotonic solutions. Morphological studies and measurements of changes in ion content in the underlying connective tissue (CT) were carried out.The study used an experimental model of isolated rat trachea. The trachea was mounted in an extraluminal organ bath with Ringer9s solution, whereas the lumen was perfused with a fluid in which the NaCl concentration was varied. The tissue was fixed for electron microscopy or frozen for X-ray microanalysis.X-ray microanalysis showed that the Na and Cl content of the CT increased with increasing luminal NaCl concentrations. This increase was significantly larger when the tight junctions had been damaged by exposure to ethylene glycol tetra-acetic acid. At high luminal NaCl concentrations, electron microscopy showed that a significant influx of fluid into the CT had occurred in tracheae with damaged epithelia. Damage to the epithelium also resulted in ultrastructural changes in myofibroblasts, increased diameter of capillaries, and thickening of the basement membrane.The epithelium evidently plays a crucial role in the regulation of the ion content of the connective tissue in the airway wall, and epithelial damage may explain the greater sensitivity to provocation with hypersomolar sodium chloride solutions or airway dehydration observed in patients with asthma or cystic fibrosis.

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“…For analysis at high resolution, thin sections prepared by cryoultramicrotomy or by sectioning of freeze-dried embedded or freeze-substituted embedded material have to be used. For analysis at lower resolution, thick or semithick cryosections cut on a conventional cryostat at temperatures between -20 and -35°C can be used (Wroblewski et al, 1983b;Wrdblewski, 1982;Wrdblewski et al, 1978). Freeze-dried embedded bulk specimens (Ingram and Ingram, 1980) or frozen-hydrated bulk specimens (Marshall, 1980a;Zs.…”

Section: Introductionmentioning

confidence: 99%

Low temperature techniques for X‐ray microanalysis in pathology: Alternatives to cryoultramicrotomy

Wróblewski

Roomans

1988

J. Elec. Microsc. Tech.

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Many diseases are associated with a change in the distribution of diffusible ions at the cell or tissue level. These diseases can profitably be studied by X-ray microanalysis. This technique for the study of ion distribution requires the use of cryoprepared specimens. Analysis at low or medium resolution can be carried out on thick or semi-thick cryosections, or on frozen-hydrated or freeze-dried embedded bulk samples. Such analyses are particularly useful in the initial stages of an investigation or when data from a large number of samples have to be acquired. Also X-ray microanalysis of cultured or single cells prepared by freeze-drying can be used to rapidly collect information on a large number of cells. Analysis at high resolution has to be carried out on thin sections: Cryosections or sections of freeze-substituted or freeze-dried embedded tissue. For the latter type of specimens, the use of low-temperature embedding methods may have important advantages.

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Quantitative X-ray microanalysis of semi-thick cryosections

Cited by 40 publications

References 22 publications

Quantitative correlative proton and electron microprobe analysis of biological specimens

Quantitative correlative proton and electron microprobe analysis of biological specimens

Effect of luminal osmolarity on ion content of connective tissue in rat trachea after epithelial damage

Low temperature techniques for X‐ray microanalysis in pathology: Alternatives to cryoultramicrotomy

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