Histology Articles
Suggested procedures for processing fixed tissue
Here are a few guidelines which you can use to process fixed tissue using Histo-Clear and Histo-Clear II: Histo-Clear Automated Tissue Processing Schedule Process Bath 18 Hour Cycle (Time in Hours) 24 Hour Cycle (Time in Hours) 70% ethanol 1.5 2 80% ethanol 1.5 2 95% ethanol 1.5 2 Absolute alcohol 1.5 2 Absolute alcohol…
Read MoreStaining Tissue Sections for Electron Microscopy
Although secondary fixation in osmium tetroxide provides some areas of electron density, this is usually not sufficient to provide high contrast, high definition images. A number of staining techniques are available to enhance the contrast of areas of interest. These fall into two major categories. Positive stains deposit electron dense material on the area of…
Read MoreSectioning Tissue for Electron Microscopy
The ultrathin sections required in TEM are cut with knives of glass, diamond or sapphire. These materials produce extremely hard, ultrasharp edges, but they are brittle and subject to damage. Glass knives are produced as needed by fracturing. Sapphire knives and diamond knives may be purchased. The high cost of diamond knives possibly makes resharpening…
Read MoreTissue Processing for Electron Microscopy
Sections for TEM must be less than 80 nm thick in order to allow at least 50% of the electron beam to penetrate the sample. This can only be accomplished by using resins for embedding (epoxy, acrylic or polyester) which requires a modification of the processing protocol. Graded alcohol baths (typically 20, 40, 70, 90…
Read MoreFixing Tissue for Electron Microscopy
The most popular fixatives for TEM work are aldehydes and osmium tetroxide. Aldehyde based fixatives react with amines and other nucleophiles in the tissue, most notably lysine and arginine, generating cross-linked proteins. The cross linking action of these fixatives stabilizes the cytosol, preserving cellular structures. Aldehydes do not react with most lipids, so membrane components…
Read MoreElectron Microscopy
The resolution of a microscope is limited by the wavelength of light passing through the sample. For visible microscopes using 400 nm light (blue light), the limit of resolution is one half the wavelength, or 200nm. This is some two to three orders of magnitude larger than many cellular structures. Electrons, like photons, have wavelike…
Read MoreDetection Systems in Immunohistochemistry
Light microscopy makes use of primarily two detection systems for immunohistochemistry – fluorescence and enzyme labeling, while electron microscopy relies on the deposition of electron dense materials at the site of antibody binding. Techniques for light microscopy are discussed below. EM is covered briefly in the next section. Immunoflourescence The conjugation of a fluorescent dye…
Read MoreAntibody Binding
The antibody systems used in Immunohistochemistry can be broadly divided into two types, direct and indirect. With the direct method the visualizing agent is attached directly to the antibody that will bind with the antigen. The direct method is technically and theoretically straightforward, and yields results sufficient for many studies. Its sensitivity is limited by…
Read MoreStaining Procedures
Most dyes used to visualize the membranes and organelles of the cell are water soluble. The embedded wax must therefore be removed prior to staining. This is done by effectively reversing the tissue processing schedule. There are literally thousands of staining protocols and procedures in use. As an example, one of the most common stains,…
Read MoreMounting Tissue Sections
To preserve and support a stained section for light microscopy, it is mounted on a clear glass slide, and covered with a thin glass coverslip. The slide and coverslip must be free of optical distortions, to avoid viewing artifacts. A mounting medium is used to adhere the coverslip to the slide. Aqueous based mounting media…
Read More