Literature DB >> 18253747

A procedure for tissue freezing and processing applicable to both intra-operative frozen section diagnosis and tissue banking in surgical pathology.

Susanne Steu1, Maya Baucamp, Gabriela von Dach, Marion Bawohl, Susanne Dettwiler, Martina Storz, Holger Moch, Peter Schraml.   

Abstract

Different methods for snap freezing surgical human tissue specimens exist. At pathology institutes with higher work loads, solid carbon dioxide, freezing sprays, and cryostat freezing are commonly used as coolants for diagnosing frozen tissue sections, whereas for tissue banking, liquid nitrogen or isopentane cooled with liquid nitrogen is preferred. Freezing tissues for diagnostic and research purposes are therefore often time consuming, laborious, even hazardous, and not user friendly. In tissue banks, frozen tissue samples are stored in cryovials, capsules, cryomolds, or cryocassettes. Tissues are additionally embedded using freezing media or wrapped in plastic bags or aluminum foils to prevent desiccation. The latter method aggravates enormously further tissue handling and processing. Here, we describe an isopentane-based workflow which concurrently facilitates tissue freezing and processing for both routine intra-operative frozen section and tissue banking and satisfies the qualitative demands of pathologists, cancer researchers, laboratory technicians, and tissue bankers.

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Year:  2008        PMID: 18253747     DOI: 10.1007/s00428-008-0584-y

Source DB:  PubMed          Journal:  Virchows Arch        ISSN: 0945-6317            Impact factor:   4.064


  11 in total

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Authors:  M M Morente; R Mager; S Alonso; F Pezzella; A Spatz; K Knox; D Kerr; W N M Dinjens; J W Oosterhuis; K H Lam; M H A Oomen; B van Damme; M van de Vijver; H van Boven; D Kerjaschki; J Pammer; J A Lopez-Guerrero; A Llombart Bosch; A Carbone; A Gloghini; I Teodorovic; M Isabelle; A Passioukov; S Lejeune; P Therasse; E-B van Veen; C Ratcliffe; P H J Riegman
Journal:  Eur J Cancer       Date:  2006-10-05       Impact factor: 9.162

5.  An improved approach to prepare human brains for research.

Authors:  J P Vonsattel; H Aizawa; P Ge; M DiFiglia; A C McKee; M MacDonald; J F Gusella; G B Landwehrmeyer; E D Bird; E P Richardson
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Authors:  Peter Schraml; Kirsten Struckmann; Florian Hatz; Stefan Sonnet; Charlotte Kully; Thomas Gasser; Guido Sauter; Michael J Mihatsch; Holger Moch
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7.  Producing frozen sections of calcified bone.

Authors:  H H McElroy; M S Shih; A M Parfitt
Journal:  Biotech Histochem       Date:  1993-01       Impact factor: 1.718

8.  Providing human tissues for research: how to establish a program.

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  20 in total

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Authors:  Yuguang Liu; Janet Yao; Marina Walther-Antonio
Journal:  Biomicrofluidics       Date:  2019-05-15       Impact factor: 2.800

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4.  Tracking tumor radiotherapy response in vivo with Cherenkov-excited luminescence ink imaging.

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6.  Whole genome and transcriptome amplification: practicable tools for sustainable tissue biobanking?

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7.  Quantitative Proteomic Analysis of Optimal Cutting Temperature (OCT) Embedded Core-Needle Biopsy of Lung Cancer.

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8.  A simple method for sphingolipid analysis of tissues embedded in optimal cutting temperature compound.

Authors:  Timothy D Rohrbach; April E Boyd; Pamela J Grizzard; Sarah Spiegel; Jeremy Allegood; Santiago Lima
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Review 9.  Trabecular meshwork stiffness in glaucoma.

Authors:  Ke Wang; A Thomas Read; Todd Sulchek; C Ross Ethier
Journal:  Exp Eye Res       Date:  2016-07-19       Impact factor: 3.467

10.  Optimal Immunofluorescent Staining for Human Factor IX and Infiltrating T Cells following Gene Therapy for Hemophilia B.

Authors:  Geoffrey L Rogers; Brad E Hoffman
Journal:  J Genet Syndr Gene Ther       Date:  2012-08-15
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