Traditional staining for routine diagnostic pathology including the role of tannic acid. 1. Value and limitations of the hematoxylin-eosin stain

Wittekind, D

doi:10.1080/10520290310001633725

Cited by 81 publications

(59 citation statements)

References 18 publications

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“…The implants were recovered at 4 weeks after transplantation, fixed with 4% paraformaldehyde for 2 days, and then decalcified for an additional 14 days in 10% EDTA (pH 8.0) before embedding in paraffin. For histologic analysis, 5 μm sections of implants were prepared and stained with hematoxylin and eosin (H&E) and trichrome staining ##### according to the recommended protocol of the manufacturer 24 …”

Section: Methodsmentioning

confidence: 99%

A Novel Mixed‐Type Stem Cell Pellet for Cementum/Periodontal Ligament–Like Complex

Xie

Liu

2012

Journal of Periodontology

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Section: Methodsmentioning

confidence: 99%

A Novel Mixed‐Type Stem Cell Pellet for Cementum/Periodontal Ligament–Like Complex

Xie

Liu

2012

Journal of Periodontology

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“…The sources of variability are present in nearly every step of the preparation and also include the inherent biological diversity of tissues [19]. To reduce variability, standardization at a number of different stages should be implemented, potentially impacting tissue preparation techniques, staining protocols, microscopy standards, and the digitization process.…”

Section: Discussionmentioning

confidence: 99%

“…However, even with advanced normalization tools, residual variability across images persists; in the data set used by Sethi, et al [17], this residual inter-image variability after color normalization amounted to approximately 10% of the total range (estimated by the standard deviation that they reported). Given that the differences in the color properties of some important histological structures may often be even less than 10% [18, 19], improvements to reduce inter-image variability must therefore still be made in order to consistently and reliably distinguish between histological structures and interpret the tissue correctly.…”

Section: Introductionmentioning

confidence: 99%

An alternative reference space for H&E color normalization

et al. 2017

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Digital imaging of H&E stained slides has enabled the application of image processing to support pathology workflows. Potential applications include computer-aided diagnostics, advanced quantification tools, and innovative visualization platforms. However, the intrinsic variability of biological tissue and the vast differences in tissue preparation protocols often lead to significant image variability that can hamper the effectiveness of these computational tools. We developed an alternative representation for H&E images that operates within a space that is more amenable to many of these image processing tools. The algorithm to derive this representation operates by exploiting the correlation between color and the spatial properties of the biological structures present in most H&E images. In this way, images are transformed into a structure-centric space in which images are segregated into tissue structure channels. We demonstrate that this framework can be extended to achieve color normalization, effectively reducing inter-slide variability.

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“…Routine Hematoxylin and Eosin (H&E) was performed on parallel tissue sections to aid in the delineation of the different regions in the tissues 19 . 82 component spectra were available from an in house library of spectra of pure biological macromolecules.…”

Section: Sample Preparationmentioning

confidence: 99%

Improved protocols for pre-processing Raman spectra of formalin fixed paraffin preserved tissue sections

et al. 2017

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a Although formalin fixed paraffin preserved (FFPP) tissues are a major resource for retrospective studies of disease progression, their use in vibrational spectroscopy studies has been undermined by issues of contributions of substrate and paraffin wax which persist in the spectra and can compromise spectral analysis. Recognising the microcrystalline nature of the wax in the tissue, which are inhomogeneously oriented with respect to the polarisation of the Raman source laser, in this study, we have developed a novel method for removing the paraffin wax contributions to the spectra using matrices of multiple wax spectra. FFPP tissue sections from the oral mucosca were obtained and, with no further chemical processing, the Raman spectral analysis of two regions, epithelium and connective tissue were compared. Matrices of multiple wax spectra were collected from different regions and subtracted from the epithelial and connective tissue spectra using a least squares analysis with non-negative constraints. Spectra of multiple cell components such as DNA and RNA were used in fitting the least squares model to reduce the residual error. The use of a data matrix of multiple wax spectra, as opposed to a single spectrum, results in a more accurate removal of the wax, hence reducing its contribution to spectral analysis. In unprocessed FFPP tissue sections, the contribution of the glass substrate is seen to be minimised in comparison to chemically dewaxed FFPP tissue sections. Contributions of the glass substrate were also successfully removed digitally using the same methodology. The combined results indicate that direct analysis of FFPP tissue sections is feasible using Raman spectroscopy, avoiding the need for chemical dewaxing. Additionally, the ability to use glass slides is very important in translation to the clinic.

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Traditional staining for routine diagnostic pathology including the role of tannic acid. 1. Value and limitations of the hematoxylin-eosin stain

Cited by 81 publications

References 18 publications

A Novel Mixed‐Type Stem Cell Pellet for Cementum/Periodontal Ligament–Like Complex

A Novel Mixed‐Type Stem Cell Pellet for Cementum/Periodontal Ligament–Like Complex

An alternative reference space for H&E color normalization

Improved protocols for pre-processing Raman spectra of formalin fixed paraffin preserved tissue sections

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