DE9203921U1 - Devices for carrying out a new method for determining the concentration of microscopic particles in liquids - Google Patents

Description

1 Dr. med. Achim Garnjost

DESCRIPTION

TITLE:

Devices for carrying out a new method for determining the concentration of microscopic particles in liquids.

TECHNICAL FIELD INFORMATION:

Methods and devices that serve this purpose are used in the clinical laboratory to determine the particle content of body fluids - in particular urine, cerebrospinal fluid and blood. The microscopic particles whose concentration is to be determined are primarily erythrocytes and leukocytes, but also casts, bacteria and crystals.

STATE OF THE ART:

The determination of the particle concentration of body fluids is currently carried out either with electronic devices or visually with a microscope. The invention to be described here is an innovation in the field of microscopic methods.

In Germany, calibrated cell counting chambers made of glass in accordance with DIN 12847 Part 1 are used for microscopic cell counting, and in the area of urine testing, non-calibrated disposable systems made of plastic are used in addition to the counting chambers made of glass. The cell counting chambers made of glass are generally used to examine natural - i.e. unprocessed - urine. With the disposable systems made of plastic, the urine is first concentrated by a centrifugation or filtration process. In a second process step, the particles are then counted under the microscope using counting chambers made of transparent plastic.

What both procedures have in common is that the liquid to be examined is counted under the microscope using counting chambers made of glass or plastic. The counting chamber is used to limit the amount of liquid and to facilitate the microscopic cell count.

2 Dr. med. Achim Garnjost

DESCRIPTION

The measuring chamber of the counting chamber is designed to limit the amount of liquid. To facilitate microscopic cell counting, a grid is attached to the bottom of the measuring chamber.

The measuring space of a counting chamber is defined by the following boundaries: The upper volume boundary of the measuring space is the lower surface of the cover plate. The lower volume boundary is the chamber floor. The lateral measuring space boundaries are the imaginary planes that are formed when the grid division is projected vertically onto the cover plate. The measuring space thus formed can lie over the entire grid division or over parts of it. In the previous counting chambers, the floor of the measuring space is only a partial area of the entire chamber floor. The grid division is attached in the middle of the chamber floor and does not reach the edge of the chamber at any point.

DEFECTS OF THE PREVIOUSLY KNOWN VERSIONS:

With the counting chambers used so far, the particles in the chamber are not counted completely. Either a part of the squares formed by the grid division - i.e. only a part of the measuring space - is counted at random, or the entire measuring space is counted. However, counting the entire measuring space does not include all of the particles, as the floor of the measuring space only represents a part of the entire Kanuner floor. Due to the incomplete counting, the uneven distribution of the particles on the chamber floor has an influence on the precision and accuracy of the counting result. The uneven distribution is caused by random processes (e.g.: (1) Student (1907), On the error of counting with a haemocytometer, Biometrika 5: 351 360; (2) Lancaster HO (1950), Statistical control in haematology, J Hyg 48: 402 - 417) and by systematic processes (e.g.: (1) Hynes M (1947), The distribution of leucocytes on the counting chamber, J elin Path 1: 25-29; (2) Sanders C, Skerry DW (1958), The distribution of blood cells on haemacytometer counting chambers, J elin Path 14: 298 - 304).

The use of counting chambers made of glass has advantages over all conventional chamber counts with chambers made of glass or plastic.

3 Dr. med. Achim Garnjost

DESCRIPTION

In addition to the common disadvantage, there are also some practical disadvantages: The chambers must be carefully cleaned and dried after each use. The chambers are fragile. The cover glass must be pushed onto the side bars of the chamber in such a way that Newton's stripes are created between the cover glass and the side bars.

To avoid the practical disadvantages of counting chambers made of glass, it is advisable to use disposable counting chambers made of transparent plastic. However, to the best of the author's knowledge, the existing counting chambers made of plastic do not allow a sufficiently precise determination of the amount of liquid. The precise volume delimitation with mass-produced counting chambers made of plastic is definitely a technical problem. The existence of this technical problem is clearly demonstrated by the large number of patents that aim to achieve a constant chamber height and plane parallelism of the chamber base and cover plate (e.g.: (1) German Patent 33 33 674 Al, G 02 B 21/34, Abstract; (2) United States Patent 4,022,521, G 02 B 21/34, Abstract; (3) United States Patent 4,447,140, G 02 B 21/34, Abstract; (4) United States Patent 4,299,441, G 02 B 21/34; Page 1, lines 34 - 41; (5) European Patent Application publication number 0 210 071 A2, G 02 B 21/34, Summary, claim 1: "a fixed distance determined by said depth control ridge is maintained between said examination chamber roof and floor surfaces").

TECHNICAL PROBLEM:

The invention to be described here is intended to make the determination of the concentration of microscopic particles in liquids independent, firstly, of the distribution of the particles on the counting chamber floor and, secondly, of the accuracy and correctness of the counting chamber of plastic counting chambers.

HINTS TO SOLVING THE TECHNICAL PROBLEM:
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In the previous procedures, the counting chamber serves to define the volume and to facilitate counting. In the new procedure, it only serves to facilitate counting. The volume definition is carried out using

4 Dr. med. Achim Garnjost

DESCRIPTION

a microliter pipette. This avoids the problem of volume delimitation with plastic counting chambers. 5

The volume defined with the microliter pipette is completely counted using a new counting chamber made of transparent plastic. Due to the complete counting, the distribution of the particles on the chamber floor has no influence on the counting result; if all particles or all particles of one type are counted, then it is completely irrelevant whether, for example, there are fewer particles in some squares of the grid and more particles in other squares than average.

EXAMPLES OF IMPLEMENTATION:

In order for the entire volume defined by the microliter pipette to be counted with the new counting chamber, it must meet a requirement that distinguishes it from previous counting chambers. The new counting chamber is characterized by the fact that its measuring chamber, based on the size and position of the grid on the bottom of the chamber, is suitable for completely absorbing the volume of the liquid to be examined released from the microliter pipette, i.e. absorbing it in such a way that no part of the liquid can be found on a part of the chamber bottom that is not covered with grid lines.

A counting chamber that serves this purpose can be designed in different ways:

1.) Counting chamber according to claim (1):

Figure No. 1 shows a counting chamber made of transparent plastic, which consists of a base plate (1) and a cover plate (2) that is firmly mounted on the base plate. A surface (3) is embedded in the base plate, which is marked in the figure by a wide edge (4). The surface (3) is the chamber floor. The distance between the chamber floor and the lower surface of the cover plate depends on the type of test liquid and the purpose of the test. For the

5 Dr. med. Achim Garnjost

DESCRIPTION

For example, in the case of urine testing, this distance can be 0.2 mm. A grid (5) is attached to the chamber floor in such a way that it begins directly at the point where the test liquid is applied with the microliter pipette and drawn into the chamber by capillary forces (6). A pipette guide (7) is also embedded in the base plate, which is intended to make it easier to release the liquid at the point provided for this purpose (6). So that the liquid can be drawn into the chamber, the edge (4) is interrupted at point (6). Part of the base plate is matte (8) for labeling purposes. The dimensions of the base plate are approx. 16 mm in width, approx. 30 mm in length and approx. 2 mm in height.

2.) Counting chamber according to claim (3),(a):

Figure 2 shows a counting chamber that differs from the chamber in Figure 1 in that, firstly, a pipette guide is missing and, secondly, the cover plate (2) is designed differently. The cover plate is only attached to the base plate (1) on one side and is provided with a hinge or a fold (9). The fold allows the cover plate to be folded over after the defined amount of liquid in the cement of the grid (5) has been released onto the chamber floor (3) using a microliter pipette. The edge (4) of the chamber floor does not have to be interrupted in this chamber.

3.) Counting chamber according to claim (3),(b):

Figure no. 3 shows a counting chamber that differs from the chamber in figure no. 2 only in the design of the cover plate (2). The cover plate is not connected to the base plate before the test liquid is applied. It is only attached to the base plate afterwards. The attachment can be done, for example, by plugging, clamping, gluing or another suitable method.

4.) Holder according to claim (5):

The counting chambers described in Figures 1, 2 and 3 are not inserted directly into the slide holder of a microscope. They are

6 Dr. med. Achim Garnjost

DESCRIPTION

inserted into the holder shown in Figure 4. This holder can in turn be inserted into the slide holder of a microscope. (1) is the base plate of the holder. (2) is a rectangular surface set into the base plate, the external dimensions of which are slightly larger than the external dimensions of the new counting chambers. (3) is an opening in surface (2) through which the chamber floor of the new counting chambers inserted into the holder can be illuminated from below. The external dimensions of the holder correspond to the external dimensions of standard slides.

ADVANTAGES OF THE INVENTION:

The counting result is independent of the distribution of the particles on the chamber floor.

The counting result is not affected by fluctuations in the chamber height. This reduces the manufacturing costs for the counting chambers.
The method is capable of being verified if verifiable microliter pipettes are used.

The new procedure largely eliminates contact with infectious test fluid when using microliter pipettes with disposable pipette tips, as the counting chambers are also disposable.

- Compared to the examination with glass counting chambers, considerable time is saved without any loss of precision, as there is no need to clean and dry the chamber or slide the cover glass on. When examining urine, there is a significant increase in precision compared to the known disposable plastic systems, because the volume delimitation is not carried out with a plastic counting chamber and time is saved because there is no need to concentrate the urine.

When using sufficiently precise microliter pipettes, the new method is demonstrably just as precise as the conventional test with calibrated counting chambers made of glass and can be carried out more quickly and with less risk than the latter method and than the known methods with disposable plastic systems.

Claims (2)

1 Dr. med. Achim Garnjost EXPECTATIONS (1) Counting canister made of transparent plastic, consisting of a canister base and a fixed cover plate, in which the volume of the liquid to be examined is drawn into the chamber by capillary forces. is drawn in, characterized in that the grid is mounted on the chamber floor in such a way that the grid lines begin directly at the point on the chamber floor where the volume of the liquid to be examined is applied and drawn in, 10 (2) Counting chamber made of transparent plastic, consisting of a chamber base and a cover plate, characterized in that the cover plate is not firmly attached to the base plate in the position suitable for counting. (3) Counting chamber according to claim (2), (a) characterized in that the cover plate is attached to the base plate at one side by a fold or a hinge, (b) characterized in that the cover plate is not firmly attached to the Base plate is not connected, but is attached to the base plate by plugging or clamping. (4) Multiple counting chamber made of transparent plastic, characterized in that it consists of several counting chambers arranged next to one another according to claim (1), (2) or (3). (5) Holder, characterized in that its external dimensions correspond to the external dimensions of standard slides and that a counting chamber according to claims (1) to (4) can be inserted into it. (6) Multiple holder, characterized in that its external dimensions correspond to the external dimensions of standard slides and that several counting chambers according to claim (1), (2), (3) or several multiple counting chambers according to claim (4) can be inserted into it. 2 Dr. med. Achim Garnjost EXPECTATIONS (7) A slide made of transparent plastic which can be inserted directly into the slide holder of a microscope, characterized in that one or more counting chambers according to claim (1), (2) or (3) are mounted on it.