Ultramicrotomy

Ultramicrotomy is a method for cutting specimens into extremely thin slices, called ultra-thin sections, that can be studied and documented at different magnifications in a transmission electron microscope (TEM).[1] It is used mostly for biological specimens, but sections of plastics and soft metals can also be prepared. Sections must be very thin because the 50 to 125 kV electrons of the standard electron microscope cannot pass through biological material much thicker than 150 nm. For best resolutions, sections should be from 30 to 60 nm. This is roughly the equivalent to splitting a 0.1 mm-thick human hair into 2,000 slices along its diameter, or cutting a single red blood cell into 100 slices.[2]

Ultramicrotomy process

Ultra thin sections of specimens are cut using a specialized instrument called an "ultramicrotome." The ultramicrotome is fitted with either a diamond knife, for most biological ultra-thin sectioning, or a glass knife, often used for initial cuts. There are numerous other pieces of equipment involved in the ultramicrotomy process. Before selecting an area of the specimen block to be ultra-thin sectioned, the technician examines semithin or "thick" sections range from 0.5 to 2 µm. These thick sections are also known as survey sections and are viewed under a light microscope to determine whether the right area of the specimen is in a position for thin sectioning. "Ultr-thin" sections from 50 to 100 nm thick are able to be viewed in the TEM.

Low magnification [3] of an ultra-thin section (length = 0.5 mm) of a megaspore of Salvinia cucullata (intermediate lens micrograph taken with the ZEISS TEM 9A - "flying carpet" preparation)

Tissue sections obtained by ultramicrotomy are compressed by the cutting force of the knife. In addition, interference microscopy of the cut surface of the blocks reveals that the sections are often not flat. With Epon or Vestopal as embedding medium the ridges and valleys usually do not exceed 0.5 µm in height, i.e., 5-10 times the thickness of ordinary sections (1).

A small sample is taken from the specimen to be investigated. Specimens may be from biological matter, like animal or plant tissue, or from inorganic material such as rock, metal, magnetic tape, plastic, film, etc.[4] The sample block is first trimmed to create a block face 1 mm by 1 mm in size. "Thick" sections (1 μm) are taken to be looked at on an optical microscope. An area is chosen to be sectioned for TEM and the block face is re-trimmed to a size no larger than 0.7 mm on a side. Block faces usually have a square, trapezoidal, rectangular, or triangular shape. Finally, thin sections are cut with a glass or diamond knife using an ultramicrotome and the sections are left floating on water that is held in a boat or trough. The sections are then retrieved from the water surface and mounted on a copper, nickel, gold, or other metal grid. Ideal section thickness for transmission electron microscopy with accelerating voltages between 50kV and 120kV is about 30–100 nm.

Advances

Cryo Ultramicrotome

In 1952 Fernandez-Moran introduced cryo ultramicrotomy, which is a similar technique but done at freezing temperatures between −20 and −150°C. Cryo ultramicrotomy can be used to cut ultra-thin frozen biological specimens. One of the advantages over the more "traditional" ultramicrotomy process is speed, since it should be possible to freeze and section a specimen in 1 to 2 hours.

References

  1. http://www.udel.edu/biology/Wags/b617/micro/micro26.htm
  2. "Electron Microscopy", chapter 4, by John J. Bozzola and Lonnie Dee Russell
  3. Kempf, Eugen Karl (1976). "Low magnifications: A marginal area of electron microscopy." (PDF). ZEISS Information 21 (83): 57–60. ISSN 0174-5581.
  4. Micro Star Technologies, diamond knives

1. Helander HF. Surface topography of ultramicrotome sections. J Ultrastruct Res 1969;29, 373-382.

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