RU2187797C2 - Facility determining time of blood coagulation - Google Patents

Abstract

FIELD: medicine, means for clinical laboratory analysis. SUBSTANCE: facility includes horizontal plate made of insulation material to carry blood sample, two measurement metal electrodes located in zone of position of blood sample mounted for electric contact with this sample, resistance-to-electric signal converter connected to these electrodes, additional metal electrode, additional resistance-to-electric signal converter, drive of reciprocating motion which mobile rod can travel along vertical line, pickup of maximum vertical position of rod, electron coincidence unit and electron timing device. One measurement and additional electrodes come in the form of wires of equal length placed vertically and anchored at fixed distance one from another on insulation plate mechanically coupled to end of drive rod. Lower free ends of wires are bent at right angle with vertical and drive can dip bent ends of wires into blood sample when rod travels. Input of additional resistance-to-electric signal converter is connected to measurement and additional electrodes anchored on insulation plate. Output of pickup of maximum vertical position of rod and outputs of both resistance to-electric signal converters are connected to input of electron coincidence unit and its output is connected to electron timing device. EFFECT: automatization of process of determination of blood coagulation. 1 dwg

Description

 The device relates to means for clinical laboratory research, namely, devices for determining the time of blood coagulation.

 Known coagulograph for determining the time of blood coagulation (Koblov LF Methods and devices for clinical laboratory research. M: Medicine. 1979. S. 51-57) containing a special movable measuring cell made of an insulating material (for example, fluoroplastic) , to place a blood sample, in the bottom of which two metal electrodes are mounted, made with the possibility of contact with a blood sample when the cell oscillates, and a measuring transducer connected to these electrodes.

 Blood coagulation time is measured using a coagulograph by recording the instant of occurrence of a continuous electric current in the electrode circuit when the gap between them is closed with fibrin filaments.

 The disadvantage of the coagulograph is the need to use a special cuvette for a blood sample, which entails the need to sterilize this cuvette during mass clinical analyzes, a large volume of blood being analyzed (up to 0.2 ml) and the complexity of the coagulograph design.

 The closest in technical essence is a device for determining the time of blood coagulation (PCT N 9406007, G 01 N 30/47, 1995. A method and device for determining the coagulation rate of a liquid) containing a horizontal plate made of porous insulating material for placement of a blood sample , two measuring metal electrodes located in the area where the blood sample is placed with the possibility of electrical contact with this sample, and a resistance transducer into an electrical signal connected to these electrodes.

 When a blood sample passes through the pores of a horizontal plate, blood coagulation occurs. Clotting time is determined by the electrical conductivity or total electrical resistance between the two electrodes.

 The disadvantage of the described device is the need for additional studies of the correspondence of the moment of blood coagulation with this device and the standard method, as well as the replacement of the horizontal porous plate with each analysis.

 The task of the invention is the automation of laboratory tests of blood coagulation time.

 The technical result is the creation of a simple in design, convenient to use, absolute tool for automatically determining the time of blood coagulation in mass clinical analyzes.

 The technical result is achieved by the fact that the device for determining the coagulation time of a blood containing a horizontal plate made of insulating material for placing a blood sample, two measuring metal electrodes located in the area of the blood sample with the possibility of electrical contact with this sample, and a resistance transducer in the electrical signal connected to these electrodes is equipped with an additional metal electrode, an additional resistance converter in the ele electric signal, the drive reciprocating the movable rod of which is movable vertically, the vertical sensor maximum stroke position, an electronic device and an electronic coincidence stopwatch. Moreover, one of the measuring and additional electrodes are in the form of wires of the same length, arranged vertically and fixed at a fixed distance from each other on an insulating plate mechanically connected to the end of the actuator rod. In this case, the lower free ends of these wires are bent at right angles to the vertical, and the drive is made with the possibility of immersion of the bent ends of the wires in the blood sample during the movement of the rod. The input of the additional resistance converter into an electrical signal is connected to the measuring and additional electrodes mounted on the insulating plate. In this case, the output of the vertical rod position sensor and the outputs of both resistance converters into an electrical signal are connected to the input of the electronic matching device, and its output is connected to the electronic stopwatch.

 This design of the device provides the possibility of absolute measurements of blood coagulation time and a more accurate determination of the moment of formation of the fibrin thread when pulling the electrodes from the blood sample to a fixed height due to the sensor of the maximum position of the electrodes and the presence of an additional electrode.

 Compared with the prototype of the claimed design has distinctive features in the totality of the elements, their design and relative position.

 A diagram of a device for determining blood coagulation time is shown in the drawing.

 The device for determining the clotting time comprises a horizontal plate 1 made of an insulating material (for example, glass), for placing a blood sample 2, measuring metal electrodes 3 and 4 located in the area of the blood sample 2 with the possibility of electrical contact with this sample, a transducer 5 resistance to an electrical signal connected to electrodes 3 and 4, an additional metal electrode 6, an additional converter 7 of the resistance to an electrical signal, a drive 8 stupid movement, a movable rod 9 which is made to move vertically, a sensor 10 of the maximum vertical position of the rod 9, an electronic coincidence device 11, an electronic stopwatch 12. One of the measuring 3 and an additional 6 electrodes are made in the form of wires of the same length, arranged vertically and fixed at a fixed distance from each other on the insulating plate 13, mechanically connected to the end of the rod 9 of the actuator 8, and the lower ends 14 of the electrodes 3 and 6 are bent at right angles to the vert potassium. The drive 8 is made with the possibility of immersion of the bent ends 14 of the electrodes 3 and 6 in the blood sample 2 during the movement of the rod 9. The input of the additional transducer 7 is connected to the measuring 3 and additional 6 electrodes, and the input circuits of the transducers 5 and 7 are supplied with power sources (in figure 1 not shown for simplicity). The output of the sensor 10 of the vertical position of the rod 9 and the outputs of both converters 5 and 7 of the resistance to an electrical signal are connected to the input of the electronic matching device 11, the output of which is connected to the electronic stopwatch 12.

 The operation of the device for determining the coagulation time is as follows.

 A blood sample 2 is placed on the horizontal plate 1. Plate 1 is installed so that the measuring 3 and additional 6 electrodes are above the blood sample, and the measuring electrode 4 is in direct contact with the blood sample 2. In this case, the rod 9 of the actuator 8 is in its highest position , and the ends 14 of the electrodes 3 and 6 are not in contact with a blood sample.

 When the device is running, the stopwatch 12 is turned on, and the actuator 8 drives the rod 9 and the associated insulating plate 13 with electrodes 3 and 6 attached to it. The latter, reciprocating in the vertical plane, are lowered into the blood sample 2. In this case an electric current occurs in the input circuits of the resistance converters 5 and 7. When the rod 9 returns to its highest position, which is detected by the sensor 10, the electrodes 3 and 6 rise from the blood sample and the input circuits open.

 In the process of blood coagulation, when the rod 9 is in the highest position between the electrodes 3 and 6, as well as the electrodes 3 and 4, a fibrin thread is formed, which causes continuous electrical signals in the input circuits of the resistance converter 5 and 7, which causes the maximum output at the output of these converters signals. At the same time, the maximum output signal of the sensor 10 occurs. If the maximum output signals appear at the outputs of the converters 5 and 7 and the sensor 10, the electronic coincidence device 11 generates a signal that interrupts the countdown with the electronic stopwatch 12. For all other combinations of the signals of the converters 5 and 7 and the sensor 10, the electronic coincidence device 11 does not produce an output signal, and the stopwatch 12 continues the countdown.

 The time interval between turning the stopwatch 12 on and off determines the time of blood coagulation.

The advantage of the proposed technical solution is:
- proximity of the principle of operation of the device to the standard method for determining the time of blood coagulation;
- the possibility of absolute measurement of blood coagulation time with this device (without using graduation);
- simplicity of design and operation;
- low cost.

 The proposed device can be implemented on the basis of standard elements and electronic devices.

 A device for determining the coagulation time can be widely used in routine clinical trials in laboratories of clinics and hospitals.

Claims (1)

 A device for determining the coagulation time of a blood containing a horizontal plate made of an insulating material for placement of a blood sample, two measuring metal electrodes located in the zone of placement of the blood sample with the possibility of electrical contact with this sample, and a resistance transducer into an electrical signal connected to these electrodes, characterized in that the device is equipped with an additional metal electrode, an additional resistance to electric converter a signal driven by a reciprocating movement, the movable rod of which is vertically movable, a sensor of maximum vertical rod position, an electronic coincidence device and an electronic stopwatch, one of the measuring and additional electrodes being made in the form of wires of the same length, arranged vertically and reinforced at a fixed distance from each other on an insulating plate mechanically connected to the end of the actuator rod, the lower free ends These wires are bent at right angles to the vertical, the actuator is capable of immersing the bent ends of the wires in the blood sample during stem movement, and the input of the additional resistance transducer into an electrical signal is connected to the measuring and additional electrodes mounted on the insulating plate, while the output of the vertical position sensor the rod and the outputs of both converters of resistance to an electrical signal are connected to the input of the electronic matching device, and its output is connected to an electric one stopwatch.