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Tissue Fixation (tissue + fixation)

Distribution by Scientific Domains
Medical Sciences66%

Selected Abstracts

Compatibility of toluidine blue with laser microdissection and saturation labeling DIGE

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 2 2009
Chandra Kirana
Abstract Tissue fixation and staining protocols for laser microdissection are frequently not fully compatible with subsequent proteomic analysis. We compared the effect of three common histological stains (toluidine blue (TB), hemotoxylin, and hematoxylin and eosin (HE)) on tissue visualization, protein recovery, the saturation labeling reaction, and 2-D electrophoresis. TB provided the best visualization of colorectal tumor tissue during laser microdissection (LMD) and had a comparable effect on protein recovery and the saturation labeling reaction with hematoxylin, provided a modified 2-D clean-up protocol was used. Eosin inhibited both protein recovery and the saturation labeling reaction. [source]

Is my antibody-staining specific?

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 12 2008
How to deal with pitfalls of immunohistochemistry
Abstract Immunohistochemistry is a sensitive and versatile method widely used to investigate the cyto- and chemoarchitecture of the brain. It is based on the high affinity and selectivity of antibodies for a single epitope. However, it is now recognized that the specificity of antibodies needs to be tested in control experiments to avoid false-positive results due to non-specific binding to tissue components or recognition of epitopes shared by several molecules. This ,Technical Spotlight' discusses other pitfalls, which are often overlooked, although they can strongly influence the outcome of immunohistochemical experiments. It also recapitulates the minimal set of information that should be provided in scientific publications to allow proper evaluation and replication of immunohistochemical experiments. In particular, tissue fixation and processing can have a strong impact on antigenicity by producing conformational changes to the epitopes, limiting their accessibility (epitope masking) or generating high non-specific background. These effects are illustrated for an immunoperoxidase staining experiment with three antibodies differing in susceptibility to fixation, using tissue from mice processed under identical conditions, except for slight variations in tissue fixation. In these examples, specific immunostaining can be abolished depending on fixation strength, or detected only after prolonged postfixation. As a consequence, antibody characterization in immunohistochemistry should include their susceptibility towards fixation and determination of the optimal conditions for their use. [source]

A sensitive mutation-specific screening technique for GNAS1 mutations in cases of fibrous dysplasia: the first report of a codon 227 mutation in bone

HISTOPATHOLOGY, Issue 6 2007
B D Idowu
Aims:, To report on the mutation-specific restriction enzyme digest (MSRED) method using paraffin-embedded tissue as a means of detecting GNAS1 mutations in fibrous dysplasia (FD), and to determine if any of the reported GNAS1 mutations in endocrine neoplasms, not previously documented in FD, can be found in FD. Methods and results:, Sixty-seven cases of extragnathic FD were analysed as two groups, 1997,2002 and 2003,06, chosen because tissue fixation and decalcification methods were more accurately recorded in the latter. MSRED revealed that between 2003 and 2006, 93% of 28 ,in house' extragnathic cases harboured a GNAS1 mutation, compared with 75% of 32 cases before 2003. Fixation times of no more than 48 h and decalcification in ethylenediamine tetraacetic acid gave the best results. Of the 56 mutations detected (five gnathic, 51 extragnathic), 32 (57%) were R201H, 21 (38%) were R201C and three (5%) were Q227L. Two Q227L extragnathic cases had unusual clinical/radiological findings. No mutations were detected in osteofibrous dysplasia. Conclusion:, Detection of GNAS1 mutations by MSRED is a valuable adjunct to the histopathological diagnosis of FD. This is the first report of a Q227L mutation in FD, although it has been previously documented in pituitary adenoma. [source]

SHORT COMMUNICATION: Development of a Human Model to Study Homing Behavior of Immune Cells into Decidua and Placental Villi Under Ex Vivo Conditions

AMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 1 2009
Joana Heinzelmann
Problem, Homing of lymphocytes and NK cells into the decidua and its regulation has been very controversially discussed. Therefore, we aimed to establish an in vivo simulation method for analysis of homing behavior, which might be also useful for other cells such as stem or tumor cells. Method of study, A human term placenta has been perfused with medium to elute blood and then with maternal autologous carboxyfluorescein succinimidyl ester (CFSE)-labeled peripheral blood lymphocytes for 3 hr and rinsed for another 2 hr. Tissue was analysed histologically for detection of labeled cells. Labeled lymphocytes and beads in perfusate have been identified and counted by flow cytometry. Results, At the moment of tissue fixation for histology, the perfusate was free of labeled cells. Labeled perfused lymphocytes have been found adhered and integrated in vessel wall structures, in decidual stroma and as colonies in individual villi. Conclusion, Placenta perfusion with a lymphocyte suspension is feasible without plugging the tube system. Time is sufficient for cells to adhere and to migrate into the stroma. Also some villi have been infiltrated which might be caused by inflammatory stimuli. The perfusion system might be useful to test substances for their capacity to influence homing of lymphocytes or other cells. [source]

WT1 Is Not a Reliable Marker to Distinguish Reactive from Neoplastic Astrocyte Populations in the Central Nervous System

BRAIN PATHOLOGY, Issue 6 2010
T. David Bourne MD
Abstract A diagnostic difficulty in neuropathology practice is distinguishing reactive from neoplastic astrocyte populations. This is particularly true in small biopsy samples that lack evidence of increased cellularity or mitotic activity, microvascular proliferation, or necrosis. We performed the current study to validate the previously reported finding that in the central nervous system, the expression of WT1 is limited to neoplastic astrocytes. We retrospectively studied WT1 protein expression by immunohistochemistry (IHC) in 100 formalin-fixed, paraffin-embedded brain tissue samples consisting of 3 normal control tissues, 44 cases of reactive gliosis, 49 gliomas and 4 lesions suspicious for glioma. In normal human cortex, WT1 staining was restricted to vascular endothelium. Most cases of reactive gliosis (82%) showed at least focal WT1 positivity, and analysis of specimens with electrode monitoring lesions showed an inverse relationship between WT1 expression intensity and the number of days from electrode placement to tissue resection. All glioma samples (100%) and all cases suspicious for glioma (100%) showed at least focal WT1 positivity. Our results likely differ from those in the prior report because of differences in tissue fixation and IHC methodology. Thus, our findings indicate that WT1 expression alone is not a reliable feature to distinguish reactive from neoplastic astrocytes. [source]

Histological and Ultrastructural Analysis of White Matter Damage after Naturally-occurring Spinal Cord Injury

BRAIN PATHOLOGY, Issue 2 2006
Peter M. Smith
Detailed analysis of the structural changes that follow human clinical spinal cord injury is limited by difficulties in achieving adequate tissue fixation. This study bypasses this obstacle by examining the spinal cord from paraplegic domestic animals, enabling us to document the ultrastructural changes at different times following injury. In all but one case, injury resulted from a combination of contusion and compression. There was infarction and hemorrhage, followed by gray matter destruction and the rapid development of a variety of white matter changes including axon swelling and myelin degeneration. Axons greater than 5 µm in diameter were more susceptible to degenerative changes, whereas smaller axons, particularly those in the subpial region, were relatively well preserved. Demyelinated axons were seen within 2 weeks after injury and, at later time points, both Schwann cell and oligodendrocyte remyelination was common. More subtle white matter abnormalities were identified by examining sagittal sections, including focal accumulation of organelles in the axoplasm and partial and paranodal myelin abnormalities. These observations serve to validate observations from experimental models of spinal contusion but also highlight the complexity of naturally occurring (ie, clinical) spinal injury. They also raise the possibility that focal abnormalities such as paranodal demyelination may contribute to early axonal dysfunction and possibly to progressive tissue damage. [source]