PL61320B1 - - Google Patents

Description

Priority: Published: 22.XI.1967 l (P 123 679) 20.11.1971 61320 IC. 30 a, 4/02 MKP A 61 b, 5/02 uk: 1. Inventor: Wieslawy Wojewódzki Patent owner: Medical Academy ((Department of Pharmacology) ', Wroc¬ law (Poland) Device for simultaneous and indirect recording of heart rate The subject of the invention is a device for the simultaneous and indirect recording of the frequency of heart contractions and arterial pressure in drug treated experimental animals, particularly useful for the evaluation of the mechanism of action of agents affecting the circulatory system in acute simultaneous pharmacological experiment. In acute pharmacological experiments, monitoring changes in the heart rate and blood pressure of narcotic experimental animals is difficult in practice. The use of palpation, auscultation, optical methods or counting the results of a kimogram is troublesome and not very accurate. Electro-, phardiography, or ballistics. , double or single circuit-type electronic measuring and memory systems, photoelectric devices, devices for heart rate recording by means of sphygmo-oscillography and recording devices equipped with piezoelectric elements or movable capacitor covers, do not allow simultaneous measurement of two parameters, i.e. changes in blood pressure and the frequency of heart contractions. In addition, the registered changes, being perceived by the arterial wall, skin coatings or dermal-muscular layers, are so inaccurate that in practice they make it impossible in many cases to record them in an acute pharmacological experiment despite the fact that their The design is based on the latest technical achievements. There is a known device for the direct and indirect recording of continuous changes in the frequency of heart contractions and the simultaneous and direct recording of blood pressure, working on the principle of breaking the electrical circuit by means of a properly constructed mercury manometer attached to the artery light of a drugged animal. The device breaking the electric circuit, immersed in the mercury of the manometer, adheres to the inner diameter of the manometer on a large surface, which leads to disturbances in the efficiency of the entire device. The complicated structure of this device requires relatively precise setting before starting the device. The cap closing the manometer prevents the free access of air to the chamber above the interrupting device and, when the arterial pressure drops, causes the suction of mercury into this chamber of the manometer, which in turn breaks the current circuit and thus the operation of the device. In addition, the device requires an additional pulse recorder on a sooty kimographic cylinder, which entails the need to recalculate the recorded changes in the heart rate only after the end of the experiment. The purpose of the invention is to eliminate these inconveniences and, by changing the structure of the device components, to eliminate its defects. According to the invention, a mercury manometer of the ima device (a float with a hollow and downwardly open chamber having an opening in the side wall leading to its interior, to which from the top a metal stump connected to the electrical circuit of the device is led, passing through the cap of the mercury manometer in which between the diaphragm and The upper end of the manometer arm is made a hole. This float design is easy to make and ensures the effective operation of the manometer. The device is easier to install and the manometer is adjusted before the experiment for a given animal by the simple act of lowering or increasing the end of the gauge. The subject of the invention is illustrated in an example of the embodiment in which Fig. 1 shows a view of the mercury manometer in connection with the electrical system of the device, and Fig. 2 a cross-sectional view of the float of the mercury manometer. It consists of a Ludwig mercury manometer 1, an electric pulse counter 2, a power source 3 and a switch 4 connected by an electric wire 5. The pressure gauge 1 has a float 6 shown in more detail in Fig. 2. For the float too, on the opposite side of the chamber open towards the bottom, a metal pin 7 is provided, provided at the opposite end with a pen 8. A hole 9 is made in the side wall of the float 6, which connects the float chamber with the surrounding air. As a result, the influence of the pressure change in the float chamber on the measurement results recorded with the pen 8 is eliminated. Precik 7 is passed through a cap 10 that closes one of the arms of the gauge. It is preferably made of a piece of rubber tube with a metal disc 11 or plastic pressed into the half of it. Below, disc 11 has a hole 10 in the cap 10. 12, which allows the surrounding air to flow freely into the gauge interior when the arterial pressure changes. A metal pin 13 is pressed into the cap 10, connected to the electric circuit 5. After the pressure gauge is assembled, the upper part of the cap 10 is filled with mercury in order to close the electric circuit between the sticks 7 and 13. A plastic-insulated wire is inserted into the other gauge arm. electric 14 terminated with a steel pin 15 soldered to the conductor 14. The other end of the conductor 14 is passed through the plug 15 and inserted into the circuit 5. A rubber tube 16 is connected to the same gauge arm. This conductor, as well as the manometer frame above The mercury is filled with a proof anti-coagulant fluid. The direct current source 3 in the form of three batteries is connected to an electric pulse counter 2, which can be translated by a telephone counter. The operation of the device is based on the use of the difference between the systolic and diastolic arterial pressure values and is as follows. A manometer is connected via a rubber tube 16 to the arterial lumen of the drug treated animal. The increase in blood pressure caused by the contraction of the heart causes the collapse of the mercury meniscus in the float chamber 6. The mercury meniscus, convex during heart contraction, comes into contact with the end of the stamen 7 and loses this contact when the heart relaxes. This causes, with the switch 4 closed, the switching on and off of the current in accordance with the heart rate, which is recorded by the counter 2. At the same time, the pen 8 registers a blood pressure curve on the sooty graphical roller. Operation of the device is independent of the blood pressure level. and makes it possible to count the heart rate at any time and time interval chosen by the experimenter. The magnitude of the amplitude of the systolic and diastolic pressure, which is different for different animal species, although essential for the operation of the device, does not play a greater role in practice, since the pressure gauge can be easily adjusted by lowering or increasing the end of the pressure head 7. In practice, the distance from the lower end of the stamen 7 to the mercury meniscus should be about half the amplitude of the animal's heartbeat amplitude. 40 PL PL

Claims (1)

1. Patent claim 1 Device for the simultaneous and indirect recording of the heart rate and arterial pressure in drug treated experimental animals, consisting of a differential mercury manometer, a constant current source and an electric pulse counter, characterized by the fact that The nanny mercury manometer (1) has a float (6) with a hollow and open towards the bottom a chamber having a hole (9) in the side wall leading to its interior, to which a metal device connected to the electric circuit (5) is led from above. a stalk (7) passing through the cap (10) of the mercury manometer in which a hole (12) is made between the diaphragm (11) and the upper end of the manometer arm. 30 a, 4/02 61320 MKP A 61 b, 5/02 peHtelrte PL PL