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Viewing tissues

INTRODUCTION

Step-by-step guide for beginners

VIEWING SECTIONS

BASIC LIGHT MICROSCOPY

ELECTRON MICROGRAPHS


The following exercises are provided for guided study and self-evaluation in the histology laboratory.  Your laboratory goal should be to develop a comfortable familiarity with the human body as a structure built from cells organized into four basic tissues.

Effective "seeing" often requires knowledge beyond that directly available to your eyes.  Any attempt to look at human histology slides with the microscope should be accompanied by textbook reading and by examination of labelled micrographs (including electron micrographs) in various histology atlases.

The electron micrographs, especially, will extend your vision beyond what your own instrument can resolve.  This additional resolution can often show why, in terms of particular functional specialization, a cell has the appearance it does.  The atlas by Rhodin is recommended as an excellent source for numerous electron micrographs of various tissues and organs, with each illustrated at a wide range of magnifications.

If you are unfamiliar with cells and tissues, you should try to answer all the questions posed in the exercises below.  In completing the exercises, you are expected to use effectively all the resources available to you, including not only your microscope and reference slide set, but also textbooks and atlases, your fellow students, your faculty, and this website.  The multiviewer microscopes are especially valuable for group examination and study.  Remember, look beyond the obvious.  Question yourself.  Why do tissues look and act the way they do?  What invisible structures and processes are implied by those features which you do see?  How does the microscopic view fit into the economy of the whole body?

Even before reading the remainder of this introduction to slide viewing, you might review this Step-by-step guide to slide examination.

VIEWING SECTIONS

Most histological specimens are viewed as tissue slices mounted on microscope slides. 
Thin slices enable us to see "inside" solid structures.  However, this technique imposes a burden of interpretation.  The observer faces two complementary tasks: 

Be aware that tissue sections (slices) are quite thin, commonly less than 10µm (micrometers, microns).  Since the diameter of many cells is greater than this, cells often appear in partial section (e.g., cytoplasm without a nucleus, or only a small portion of the nucleus).

Estimating the sizes of microscopic structures.

Any three dimensional object, such as a cell or a blood vessel, may display many different appearances when sliced, depending on where and at what angle it is cut.  Think carefully (and use diagrammatic sketches) to interpret such variations.

Most structures seen under the microscope fit into one of several simple categories -- surfaces, tubes, strings, lumps, or extensive solid masses:

Here is a list of some commonly encountered patterns, each with a link to a page with example images.

But note that many shapes can mimic one another if sectioned appropriately, so judicious interpretation is necessary for effective "seeing."

Your own slides will hand you many puzzles. Always be aware that apparently simple structures can assume several very different appearances in different planes of section.

Artifacts of specimen preparation can also pose puzzles (common examples).


BASIC LIGHT MICROSCOPY

1.  Plug in and turn on your microscope. Place a slide on the stage. Focus. Adjust eyepieces for comfortable binocular vision. Adjust the substage condenser for Kohler illumination, for optimal contrast and resolution of the image. [More]

Note:  This simple set-up applies to routine bright-field microcopes, such as those commonly used in introductory histology labs.  For a brief description of additional optical technology, see "Specialized Microscopy Techniques" at the Molecular Expressions website, Florida State University.

2.  Choose a slide from your reference slide box, such as skin or trachea.

3.  Identify the following features: cells, cytoplasm, nuclei.

4.  For one particular cell:

a. Estimate the cell's size (diameter) in micrometers.  (How do I do this?)

b. Describe the cell's shape, its staining properties, and the texture of its cytoplasm.  Try to use standard histological terminology (e.g., squamous, cuboidal, acidophilic, basophilic).

c. Estimate the size of the cell's nucleus, and describe the nucleus' shape, its position within the cell, and the texture of the chromatin in the nucleus.  Can you find nucleoli?

5.  Repeat for a cell of a different type.  How many different types of cells can you distinguish on this slide?  In what ways do they differ?

6.  Try to find extracellular material.  The most common extracellular fiber is collagen.  What color is collagen on your slide?  What is the natural (unstained) color of collagen?  Ground substance and extracellular fluid is usually washed away during slide preparation.  How do you recognize where this material used to be?

7.  Identify basic tissue types.  Can you distinguish epithelium, connective tissue, nerve and muscle?  In what ways do these tissues differ in the appearance of their cells?

8.  Find blood vessels.  Blood vessels are tubular structures.  On slides they often (but not always) contain red blood cells.  How big is a red blood cell?  Can you recognize different cell types (endothelium and smooth muscle) in the wall of a blood vessel?  How big is a terminal arteriole (the smallest arterial vessel which includes smooth muscle in its wall)?


ELECTRON MICROSCOPY

For an extensive collection of images of cellular components, see the Electron Microscopic Atlas of cells, tissues and organs in the internet from the Universität Mainz (some images available only with German-language labels).  Also see Rhodin's An Atlas of Histology in the MRC, an exceptional collection of electron micrographs of tissues in most organs.

Choose an electron micrograph for examination.  You should be able to find many examples in any cell biology/histology text or atlas of your choice.   Especially recommended is the atlas by Rhodin (out-of-print, multiple copies available in the MRC), which includes very many quality EMs at many different magnifications from many different tissues and organs.

Checklist for review of cells.

1.  What is the magnification, at least approximately?  If this is a textbook picture, try to deduce the magnification without reference to the caption.  Your best clues for determining magnification are familiar structures like cell nuclei, mitochondria, collagen filaments, ribosomes.   What are the normal size ranges for each of these structures?

2.  Distinguish cells from extracellular space.  What do cell membranes look like?  Locate and follow a cell membrane.  How do you distinguish inside (cytoplasm) from outside (tissue fluid and extracellular fibers)?  Certain easily recognized structures can facilitate this task.   Nuclei, mitochondria, rER, etc., are found only within cells.  Collagen is a good marker for extracellular space, as is any clear area, devoid of texture.  What is the EM appearance of collagen?

3.  How many cells, or parts of cells are visible in the micrograph?   (Hint: How many distinct nuclei are visible?  Confirm by finding membranes between cells.)

4.  What evidence can you see for cellular specialization?  Are any organelles present in above-average concentration?  Are any organelles not visible at all?  Are any organelles localized in particular regions of the cell?  Are there any specializations of cell surface?  If your answer to any of these questions was yes, what cell functions appear to be enhanced?

5.  Repeat with another electron micrograph.  Repeat again.  Try to become comfortable seeing all that these images reveal.  Practice this exercise with micrographs at both low and high magnifications.  Find the same cell types in your reference slides.  As you look at these cells with your light microscope, try to "see" in your mind the cellular specialization illustrated in the electron micrographs.


Comments and questions: dgking@siu.edu

SIUC / School of Medicine / Anatomy / David King

https://histology.siu.edu/intro/viewint.htm
Last updated:  23 January 2024 / dgk