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Adaptation of the disector method to rare small organelles in TEM sections exemplified by counting synaptic bodies in the rat pineal gland

Published online by Cambridge University Press:  01 October 1997

HOLGER JASTROW
Affiliation:
Anatomisches Institut der Johannes Gutenberg-Universität Mainz, Mainz, Germany
MARC-A. VON MACH
Affiliation:
Anatomisches Institut der Johannes Gutenberg-Universität Mainz, Mainz, Germany
LUTZ VOLLRATH
Affiliation:
Anatomisches Institut der Johannes Gutenberg-Universität Mainz, Mainz, Germany
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Abstract

The disector is the only objective method for quantifying particles of variable size in a given volume. With this method, cell organelles are identified on adjacent sections, but only those present in one section are counted. When counting extremely rare structures in transmission electron microscope sections (physical disector), the usual procedure of counting on electron micrographs is limited for economic reasons (e.g. micrographs highly outnumbering the investigated structures). Hence, to apply this unbiased stereological method, a modification of the physical disector concerning 3 aspects has been developed. (1) The prerequisite of screening large corresponding tissue areas (here ∼65000 μm2) was fulfilled by examining tissue areas along the edges of ultrathin sections. (2) The size of the counting frame was determined by measuring the lengths of the section margins (minus a guard area) by means of a Morphomat. This value was multiplied by the width of the investigated tissue zone, corresponding to the diameter of the electron microscope viewing screen. (3) Disector counting was carried out simultaneously on both sections (bidirectional disector) to improve efficiency. In the present study tiny synaptic bodies (SBs) were quantitated by disector in a rat pineal gland, yielding ∼30 SBs/1000 μm3. By contrast, single section profile counts of SBs amounted to 90 SBs/20000 μm2. Since the presently described adaptation of the disector is time-consuming, it is proposed to determine a proportion factor allowing to estimate number of structures per volume based on single section profile counts. This would decrease the evaluation time by more than 50%.

Type
Research Article
Copyright
© Anatomical Society of Great Britain and Ireland 1997

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