RU2720740C2 - Method of determining blood vessel size and device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions relates to medicine, specifically to a method and a device for determining human blood vessel size. At that, the wall of the measured blood vessel is pierced through with a thin bent needle so that the bent straight sock is located along the inner wall of the vessel in the direction of its axis, and the bent back end of the needle is inserted into the socket of the holder, providing arrangement of the straight middle part of the needle perpendicularly to the axis of the blood vessel. Display shows the value of wall thickness of the measured blood vessel. Size of the inner diameter of the vessel is calculated as the difference between the value of the external diameter of the vessel and double wall thickness. Needle with an electrically conducting tip is used. Needle can move forward and backwards by means of the electric drive. Movement "forward" is terminated at occurrence of electric contact between bent needle and needle with electroconductive tip. When measuring an external diameter of a blood vessel, the external surface of the measured blood vessel is touched by a bent needle. Measurement result is obtained by touching needle with electrically conductive tip of diametrically opposite blood vessel surface. Device comprises a thin curved needle, a processor, a control unit, a needle with an electrically conductive tip, an electric drive, an indicator and a speaker. Bent needle has a bent pointed toe, bent at 90° degrees, bent at a right angle or angle up to 90° and a straight middle section, is fixed in the holder. Outlets of thin curved needle and needle with electrically conductive tip are connected to processor first and second inputs, respectively. Third input of the processor is connected to the output of the control unit. First and second outputs of the processor are connected respectively to an electric drive, an indicator and a speaker.

EFFECT: increase in the accuracy of measurements is achieved.

2 cl, 1 dwg

Description

The invention relates to medicine, namely to measuring and registration devices, and can be used to determine the geometric parameters of human blood vessels.

A known method of measuring the internal diameter of the prosthesis of a blood vessel (PCS), which consists in the following. A section of the prosthesis is cut where it is necessary to measure its inner diameter and is placed on a conical graduated meter without tension. The value of the inner diameter is read from the measurement scale.

The disadvantage of this method is the need to cut a blood vessel over the entire cross section.

There is a method of measuring the internal diameter of the PCB, which consists in the fact that the segment of the PCB is put on measuring cylinders of increasing diameter until tension of the PCB is noticed.

The disadvantage of this method is the need to cut the blood vessel in the transverse direction to its entire area.

The closest is a method of determining the size of human blood vessels using a micrometer, characterized in that the wall of the measured blood vessel is pierced through with a thin curved needle, after which the needle is rotated 90 ° so that the bent straight toe is located along the inner wall of the vessel in the direction of its axis and the bent back end of the needle is inserted into the holder's nest, providing the location of the straight middle part of the needle along the lateral surface of the spindle of the micrometer along its axis and perpendicular to the axis of the blood vessel; after that, the micrometer spindle moves to touch the outer surface of the measured blood vessel with its end face, and the wall thickness of the measured blood vessel is displayed on the micrometer indicator, using an electronic micrometer configured so that when the needle is fixed in the holder without a blood vessel and the spindle with its end surface As for the bent tip of the needle, the micrometer readings are zero, and the micrometer has a constant low measuring force on the ratchet drum when the micrometer jaws come together and the non-rotating spindle; then, by another electronic micrometer having a standard factory design, with a minimum measuring force, the external diameter of a blood vessel is measured in a known manner, after which the size of its internal diameter is calculated as the difference between the external diameter of the vessel and doubled wall thickness. 2. A device for determining the size of human blood vessels using a micrometer, characterized in that it contains an electronic micrometer having a low measuring force on the ratchet drum when the measuring surfaces are brought together and a non-rotating spindle, a thin curved needle, which has a pointed straight line bent 90 ° a sock bent at a right or any other angle of up to 90 °, the rear end and a straight middle section, while the needle is fixed in a holder mounted at the same level with the spindle on the bracket of the micrometer, configured so that when touching the end of the spindle and the surface of the bent tip of the needle, in the absence of a blood vessel between them, the micrometer readings are zero. (RF patent for the invention No. 2582748, class. А61В 5/00, publ. 03.20.2016).

A disadvantage of the known method and device is the low accuracy of the measurement due to the presence of subjective factors. The technical result is to increase the accuracy of measurements.

The technical result of the invention by the method is achieved in that the method of determining the size of human blood vessels, in which the wall of the measured blood vessel is pierced through with a thin curved needle so that the bent straight toe is located along the inner wall of the vessel in the direction of its axis, and the bent back end of the needle is inserted into the holder’s nest, providing the location of the straight middle part of the needle perpendicular to the axis of the blood vessel, the wall thickness of the measured blood vessel is displayed on the indicator, the size of its inner diameter is calculated as the difference between the external diameter of the vessel and doubled wall thickness, additionally contains a needle with an electrically conductive tip that can move “Forward” and “backward” with the help of an electric drive, while the “forward” movement stops when electrical contact occurs between a bent needle and a needle with a conductive tip, when measuring the external diameter The blood vessel is contacted with the external surface of the measured blood vessel by a curved needle, and the measurement result is obtained by touching the diametrically opposite surface of the blood vessel with a needle with an electrically conductive tip.

The technical result of the invention according to the device is achieved in that a device for determining the size of human blood vessels, containing a thin curved needle, which has a straight pointed pointed toe bent 90 °, the rear end bent at a right or any other angle to 90 °, and a straight middle section, wherein the needle is fixed in the holder, further comprises a processor, a control unit, a needle with an electrically conductive tip, an electric drive, an indicator and a speaker, the outputs of a thin curved needle and a needle with an electrically conductive tip are connected respectively to the first and second inputs of the processor, the third input of which is connected to the output control unit, the first second and third outputs of the processor are connected respectively to the electric drive, indicator and speaker.

The figure shows a functional diagram of the device where: 1 - a curved needle; 2 - holder; 3 - processor; 4 - control unit; 5 - a needle with an electrically conductive tip; 6 - electric drive; 7 - indicator; 8 - speaker.

A device for determining the size of human blood vessels, contains a thin curved needle 1, which has a straight pointed pointed toe bent 90 °, the rear end bent at a right or any other angle up to 90 ° and a straight middle section, while the needle is fixed in the holder 2, processor 3, control unit 4, a needle with a conductive tip 5, an electric drive 6, an indicator 7 and a speaker 8, and the outputs of a thin curved needle 1 and a needle with a conductive tip 5 are connected respectively to the first and second inputs of the processor 3, the third input of which is connected to the output control unit 4, the first second and third outputs of the processor are connected respectively to the electric drive 6, indicator 7 and speaker 8.

The device operates as follows. In the initial state, the curved needle 1 and the needle with the electrically conductive tip 5 are displaced to a maximum distance.

When measuring the wall thickness of the vessel, piercing through the walls of the blood vessel is carried out with the pointed tip of the curved needle 1, fixed in the holder 2.

Then, at the command of the control unit 4, through the processor 3, the electric drive 6 begins to move the needle with the conductive tip 5 “forward” to the outer surface of the vessel, where the bent tip is located on its inner side. When the needle touches, with the electrically conductive tip 5, the outer surface of the vessel, an electrical contact occurs between the needles, which is detected by the processor 3 and the movement stops.

The known initial distance between the needles and the magnitude of the movement of the needle with the electrically conductive tip 5 before the occurrence of electrical contact, determines the thickness of the vessel wall, which is displayed by indicator 7, while the speaker 8 generates an audio signal.

When measuring the external diameter of a blood vessel, a blood vessel is placed between the needles perpendicular to them.

Touch the wall of the blood vessel with the pointed tip of the bent needle 1, move the needle with the electrically conductive tip 5 until electrical contact occurs, determine the diameter of the blood vessel.

The inner diameter of a blood vessel is determined by the measurement results, as the difference between the magnitude of the outer diameter of the vessel and the doubled wall thickness of the blood vessel.

Sources of information

Authors: Minaev Sergey Viktorovich, Sumkina Olga Borisovna, Kovalev Vyacheslav Danilovich, Kopylov Gennady Alekseevich, Getman Natalya Vasilievna, RF patent for invention №2582748, class A61B 5/00, publ. 03/20/2016.

Claims (2)

1. A method for determining the size of human blood vessels, in which the wall of the measured blood vessel is pierced through with a thin curved needle so that the bent straight toe is located along the inner wall of the vessel in the direction of its axis, and the bent back end of the needle is inserted into the holder nest, providing a straight middle the part of the needle perpendicular to the axis of the blood vessel, the wall thickness of the measured blood vessel is displayed on the indicator, the size of its inner diameter is calculated as the difference between the external diameter of the vessel and the doubled wall thickness, characterized in that they use a needle with an electrically conductive tip that can move "forward" and "Backward" with an electric drive, while the "forward" movement stops when electrical contact occurs between the bent needle and the needle with an electrically conductive tip, when measuring the external diameter of a blood vessel, contact is made externally the surface of the measured blood vessel with a curved needle, and the measurement result is obtained by touching the needle with the electrically conductive tip of the diametrically opposite surface of the blood vessel. 2. Device for determining the size of human blood vessels, containing a thin curved needle, which has a straight pointed pointed toe bent 90 °, the rear end bent at a right angle or angle up to 90 °, and the straight middle section, while the needle is fixed in the holder, characterized the fact that it contains a processor, a control unit, a needle with a conductive tip, an electric drive, an indicator and a speaker, and the outputs of a thin curved needle and a needle with a conductive tip are connected respectively to the first and second inputs of the processor, the third input of which is connected to the output of the control unit, the first second and the third processor outputs are connected respectively by an electric drive, indicator and speaker.

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