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Counting Chambers
Speirs-Levy Eosinophil
The Speirs-Levy Eosinophil counting slide is designed primarily for doing direct eosinphil counts in blood, but is readily adaptable for performing cell counts in spinal fluids or other media in which cells are suspended. It is especially useful in clinics and laboratories where large number of blood cell determinations must be performed quickly.
The Speirs-Levy slide has the following characteristics which facilitate loading and counting:
1. There are 4 chambers per slide
2. Each chamber consists of ten 1 x 1mm squares which are subdivided into 16 smaller areas.
3. The depth of each chamber is 0.2 mm.
4. The chambers are spaced on the left hand side of the slide for ease of handling and to prevent accidental reversing of the slide.
5. An identification number is engraved on the right hand side of each chamber and will appear on the left hand side when viewed through the microscope. This number helps focusing and may be used to determine the beginning and end of a chamber count.
6. The outer edge of each chamber is inclined 7 degrees to aid in proper charging of the chamber and to act as a reservoir to replace any fluid that might evaporate before the slide is counted.
Photograph of 3556
Catalog # |
Description |
3556 |
Counting Chamber w/2 cover glass |
5020 |
Replacement Cover Glass |
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Directions for Use
Speirs-Levy - Catalog Number: 3556
PROCEDURE FOR PERFORMING
EOSINOPHIL DETERMINATIONS
A. Materials and Supplies
The following materials are needed for direct eosinophil determinations:
a. Microscope with mechanical stage, preferably bifocal with 15 X wide field or hyperplane oculars and 16 mm objective.
b. Microscope lamp. A yellow filter (Wratton G #15) is sometimes helpful.
c. WBC pipettes and rubber aspirators (R BC pipettes may also be used for dilutions of 1:100 or more).
d. Lint free cleansing tissues.
e. Lance for puncturing skin.
f. Eosinophil diluting fluid.
g. Eosinophil counting chamber and cover glass.
B. Steps in Performing an Eosinophil Count
1. Drawing Blood (drop puncture method):
Clean, dry and then puncture the skin (usually on ear or finger) so that blood will flow freely. With a soft tissue, wipe away first two drops. As the blood oozes from the wound, draw it into the pipette until slightly past the 0.5 graduation. The pipette is then quickly withdrawn, the tip wiped free of excess blood and lightly touched to draw the blood down to the 0.5 line. Avoid taking blood which has been exposed to air for more than a few seconds or which shows any clot formation.
2. Mixing Blood and Diluent:
Immediately after drawing blood, immerse the end of the pipette into the eosinophil diluting fluid and while rotating the pipette between the fingers, draw fluid to the graduation above the bulb. Care should be taken to prevent blood from leaking out of the pipette especially when it is first put into the diluent.
3. Shaking the Pipette:
The pipette is held between the thumb and forefinger and shaken slowly in a wide arc for approximately 10 seconds. Between each stroke, the pipette is rotated approximately 45 degrees. Care should be taken to close one or both ends of the pipette tightly with the finger to avoid leakage.
4. Charging the Chamber:
The chambers should be loaded immediately after the pipette is shaken. Hold the pipette at a 45 degree angle, discharge 3 drops of the solution to empty the capillary stem, then place the tip of the pipette on the chamber to be loaded. Allow the fluid to run out rapidly under the cover glass and fill the chamber without overflowing at the edges. The forefinger may be placed over the rear of the pipette to control the rate of flow of the fluid.
5. Counting Eosinophils:
Allow the loaded counting chamber to stand for at least 3 minutes to permit lysis, staining and settling of the cells. After the cells have settled, the slide may be moved around as desired or it may stand for several hours before counting. Evaporation may be retarded by moistening the inside of a slide box or similar container and inverting it over the slide.
Cells are most recognizable and easiest to count at a magnification of 150 times with a field of vision which includes a one square millimeter area. The eosinophils have a distinct cell wall enclosing numerous large red or pink granules. The remaining white blood cells are pale, usually with a wrinkled cell wall. All the red blood cells should have completely disappeared.
In order to reduce error, a systematic procedure should be followed in counting eosinophils. Numerous methods may be used. The following technique has been found to be reliable:
Each chamber consists of ten 1 square millimeter areas subdivided into 16 smaller squares (Diagram A).
Diagram A
As seen through the microscope, the left hand side of the chamber has an identifying number. The upper row is counted from left to right beginning with this identification number and the lower row is counted from right to left ending at the identification number (Diagram B).
Diagram B
Beginning in the upper left hand corner, the first vertical row of 4 squares is centered in the microscopical field. All the eosinophils within the 4 squares and those touching the ruled lines on the left and on the upper part of the squares are counted. The slide is then moved so that the next row of 4 squares is centered and the eosinophils counted in the same manner. The cells touching the rulings on the right and lower sides are not counted. The eyes can be trained to move up one row of 4 squares and down the next.
Diagram C
To clean the counting chamber: After completing the count, remove the cover glass and clean the counting chamber with water or a mild cleaning solution (10% solution of bleach). Dry the counting chamber with a soft cloth or wipe, or rinse with acetone.
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