RU2067419C1 - Complete set for sampling of capillary blood - Google Patents

Abstract

FIELD: medicine at sampling of capillary blood, for example, from finger for subsequent analysis in a clinical laboratory. SUBSTANCE: the complete set for sampling of capillary blood is made of plastics and has a tube with a scale on the external surface and a flexible cylinder on the inoperative end. A scarificator is rigidly secured on the tube operative end. The complete set uses a single-seated support-mixer for the tube. The cylinder capacity is 0.1 ml. The scale division corresponds to distanced of 20,33 and 100 mm from the tube operative end. EFFECT: improved design. 1 dwg

Description

 The invention relates to medical equipment and can be used in the selection of capillary blood, for example, from a finger, for subsequent analysis in clinical laboratories.

 Known glass pipette to the Panchenkov apparatus for determining the erythrocyte sedimentation rate (ESR), having two labels of arbitrary volume, allowing to collect the reagent (sodium citrate) and blood in the exact ratio of 1: 4, with a metric millimeter scale [1] which is the closest analogue of the invention .

Known glass pipette used in the selection of blood to determine red blood cells, white blood cells, hemoglobin, having one label corresponding to a set of blood to a volume of 0.02 ml [2]
Known glass pipette used in the selection of blood to determine the glucose content, prothrombin index, etc. having a label corresponding to a blood set up to a volume of 0.1 l [3]
Known rubber balloon used as a source of air discharge during the selection of blood by capillary pipettes [4]
Known watch glasses, agglutination tubes used to mix blood with a reagent in determining ESR [5]
Known tripod Panchenkov apparatus for fixing capillaries in a vertical position when determining ESR [6]
Known scarifier spear for piercing a finger made of stainless steel TU 64-1-2100-76 [7]
For blood sampling for general analysis, the treated skin of the pulp of the finger or earlobe is pierced with a steel spear scarifier to a depth of 2-3 mm. Then connect the pipette [1] with a rubber balloon [4] and collect the reagent, which is then blown onto a watch glass or agglutination tube [5] for mixing with a portion of blood taken with the same pipette. A mixture of blood with a reagent is drawn up to the beginning of the millimeter scale, the tip of the pipette is clamped so that the mixture does not leak when the cylinder is disconnected. The pipette is inserted into a tripod of the Panchenkov apparatus for determining ESR [6]. To determine hemoglobin, leukocytes, erythrocytes, the balloon is attached to the pipette [2] and blood is drawn up to the mark.

 For blood sampling for glucose, prothrombin index, etc. the balloon is attached to a pipette [3] and blood from the same puncture is taken to the mark.

The disadvantages of this equipment are:
for glass pipettes, the need for pre-sterilization treatment, including: washing with detergents, rinsing with distilled water, packaging, followed by sterilization;
for the spear scarifier, the need for pre-sterilization treatment, sterilization, disinfection after use, as well as an unreasonably high consumption of stainless steel with a single use, as the main part of the spear is the handle;
for a rubber bottle, inconvenience in work, because it is necessary to put it on and remove it from the filled pipette, as well as the likelihood of blood entering the balloon during the slightest careless movement (it requires pre-sterilization treatment and sterilization, and if replacement is not possible);
for a tripod, the need for a thorough wash with detergents;
for watch glasses or agglutination tubes, the need for pre-sterilization treatment, sterilization, as well as the creation of their necessary supply, because the laboratory assistant does not know the exact number of patients to receive.

 Pre-sterilization treatment, including disinfection with disinfectants, washing with detergents, rinsing with distilled water, drying, packaging, as well as sterilization itself, require large material (electricity, equipment, disinfection and detergents, packaging materials) and time-consuming. It must be added that the mechanical removal of blood residues from the internal channel of the pipettes, on which the quality of sterilization depends, is an extremely difficult task, because the diameter of the channel is a fraction of a millimeter. The situation is complicated by the fact that when certain reagents, for example, trichloroacetic acid, get into the pipette channel during blood sampling for glucose determination, blood proteins are denatured, which are firmly fixed to the channel walls. All this ultimately leads to a deterioration in sterilization and, therefore, increases the risk of contracting diseases such as AIDS, viral hepatitis, etc.

 The technical result expected from the invention is to reduce the cost of blood sampling, increase the productivity of laboratory assistants by reducing the number of manipulations, eliminating the possibility of infection of patients and laboratory assistants with dangerous diseases, which is achieved by creating a disposable capillary blood collection kit that constructively combines a pipette, spear - a scarifier, a container for mixing blood with a reagent, a tripod, a source of air discharge, a dispenser while maintaining standard volumes, using proxy in the laboratory.

 The drawing shows the proposed disposable kit for the selection of capillary blood.

 A disposable set is made in the form of a tube 1 and a transparent material having three divisions, the length of the tube is 105-110 mm, the inner diameter is 1.1 mm. The divisions of A. B. B are located respectively at a distance of 20.0 mm, 33.0 mm and 100.0 mm from the tip. One end of the tube is equipped with a spear 2 with a length of 3.0 mm of a trihedral shape, and the other with a dispensing cylinder 3, with a volume of 0.1 l, made of plastic mass. The indicated volume of the cylinder corresponds to the set of blood before division B. In addition, the kit includes a mixer stand 4 for mixing blood with a reagent and fixing the pipette in a vertical position, which for the purpose of ease of use can be made in the form of a suction cup.

 Blood sampling is as follows.

 The reagent is taken before division “B” and blown into the mixer stand 4. The prepared skin surface is pierced with a spear 2 and blood is drawn up to division “A” three times (into white blood cells, hemoglobin and red blood cells) using a dispensing balloon 3. Blood for determination ESR is taken before dividing "B", mixed with the reagent in the stand mixer 4: using a dispenser 3, the mixture is drawn up to the branch "B" and the tube remains in the stand mixer 4. The readings are taken, as usual, after an hour.

 The proposed kit, made of plastics (or combined from plastics and metal), makes it possible to produce the largest number of disposable items necessary for the selection of capillary blood, at minimal economic cost, and also allows safer and more convenient work of laboratory assistants. In addition, the volumes provided in the kit correspond to those used in laboratory practice.

Claims (1)

 A capillary blood sampling kit containing a tube with a scale on the outer surface and an elastic balloon at the non-working end, characterized in that the tube and balloon are made of plastic mass, are integrated into one and equipped with a scarifier, rigidly fixed to the working end of the tube, and a single mixer - a stand for its placement, while the scale on the surface of the tube contains three divisions corresponding to 20, 33 and 100 mm from the working end, and the cylinder has a capacity of 0.1 l, which corresponds to the volume of liquid when typing to mark 1 00 mm.