UA50463A - Rhinopneumometer - Google Patents

Abstract

Rhinopneumometer consists of the housing, the air inflow capillary tube, the pressure gauge, and the recording device. The air inflow capillary tube is straight with no more than 40 mm in length and no more than 0.8 mm in diameter. The air inflow tube is rigidly connected with the pressure gauge, the latter being connected to the amplifier.

Description

Description of the invention

The invention relates to medicine, namely otorhinolaryngology, and can be used in the diagnosis of 2 diseases of the nose and paranasal sinuses.

With the help of a rhinopneumometer, dynamic air pressure is measured - the resistance of the air flow that occurs in the front part of the nose, namely in the area of the nasal valve during inhalation and exhalation. At the same time, it becomes necessary to determine changes in the redistribution of air flow that occur in diseases of the nose and paranasal sinuses. 70 The well-known rhinopneumometer |1) is based on the registration of the difference in temperature of inhaled and exhaled air, consisting of a breathing apparatus mask with a built-in temperature sensor that is connected to a measuring device that provides the ability to graphically record the received signal.

The disadvantage of this device is that it measures the resistance of inhaled air (dynamic pressure) in the nasal cavity in general. 12 The closest to the proposed invention in terms of technical essence is the rhinopneumometer |2)|, which makes it possible to measure individual air flows of each nasal passage; consisting of an air intake tube, a working body elastically connected to a pressure sensor, a recorder and a device for purging.

The device works as follows - the capillary of the air intake tube is inserted into the nasal cavity, the system is purged, the signal entering the pressure sensor is converted and recorded by the recorder. When examined, the distal end of the air capillary is introduced into the nasal passages under visual control. The patient is asked to breathe calmly and evenly, offering three seconds for inhalation and exhalation.

The disadvantage of the well-known rhinopneumometer is the impossibility of taking measurements in the area of the nose valve due to the design feature of the air intake tube - it is long and bent at an angle. Also, the working part of the device is connected to the pressure sensor by an elastic tube, which reduces the reliability of the measurements. 29 The stated invention is based on the task of determining changes in the redistribution of air flows in the front parts of the nose, namely in the area of the nasal valve.

The technical result achieved is the possibility of early diagnosis and prevention of diseases of the nose and paranasal sinuses, thanks to the determination of changes in the redistribution of air flows.

The problem is solved by the fact that in the well-known rhinopneumometer, which consists of a body, an air intake tube in the form of a capillary, a pressure sensor and a recording device, according to the invention - Ge) the air intake tube is made straight, has a length and diameter of no more than 40 mm and 0O, respectively, vmm and rigidly connected to the pressure sensor to which the signal amplifier is connected. When the length of the air intake tube is more than 40 mm and its diameter is more than 0.8 mm, the accuracy of the aerodynamic picture is lost due to the incorrectness of the measurement "From the plot of redistribution of air flow speed. 3o A distinctive feature of the claimed rhinopneumometer is the solution to the problem of measuring the dynamic pressure o in the nasal valve by changing the design of the air intake tube (capillary) and its rigid connection with the pressure sensor and the introduction of a signal amplifier into the design.

This makes it possible to obtain a reliable aerodynamic picture of the nasal valve, which enables early diagnosis and prevention of diseases of the nose and paranasal sinuses. C 70 The essence of the invention is explained by a drawing (see Fig.), which shows the claimed rhinopneumometer c (general view), where:

From" 1 - housing, 2 - air intake tube, C - capillary, 4 - pressure sensor, 5 - signal amplifier, 6 - flexible conductors.

The rhinopneumometer works as follows: the body 1 is fixed in the hand and the capillary C with the air intake tube 2 is rigidly connected to the pressure sensor 4, it is inserted into the patient's nose, while making sure that it does not touch the signal amplifier 5. The study is repeated for different departments nasal valve. Deciphering the i-th recording of the received rhinopneumograms allows you to make a picture of the aerodynamics of the nasal valve. av | Rhinopneumometer in accordance with the claimed invention, tested in the central city clinical hospital of the National Medical University during one year during examination of 300 patients. It proved to be convenient and easy to use, it became possible to carry out early diagnosis and prevention of more than 20 diseases of the nose and paranasal sinuses.

References: pp. 1. D. O. Mykhailovsky. Neurovegetative form of vasomotor rhinitis (question: pathogenesis and therapy).

Candidate's dissertation. honey. of science Kyiv, 1990. 2. Patent of the Russian Federation Mo 1572505 and Mo 16002472 IPC Ab185/00.

Claims (1)

» The formula of the invention Rhinopneumometer consisting of a body, an air intake tube in the form of a capillary, a pressure sensor and 60 of the recording device, which is characterized by the fact that the air intake tube is made straight, has a length and diameter of no more than 40 mm and 0.8 mm, respectively, and is rigidly connected to the pressure sensor to which the signal amplifier is connected. b5