RU165885U1 - DEVICE FOR SYNCHRONOUS DETERMINATION OF PARAMETERS OF HEART-RESPIRATORY SYNCHRONISM AND EXTERNAL RESPIRATION IN HUMAN - Google Patents

Abstract

The utility model relates to medicine and physiology and is aimed at obtaining a set of data on the regulatory and adaptive capabilities of the human body by integrating information on the parameters of cardio-respiratory synchronism and external respiration, which will be especially important for examining patients with reduced respiratory function. The system includes data processing devices connected in a single complex and closed to a computer and parallel connected from the person being examined to the computer: the ADC - VNS-Micro microprocessor with sensors for recording an electrocardiogram and a pneumogram recording sensor hermetically integrated into the mouthpiece of the breathing sensor of the SMP-21 / spirograph breathing apparatus 01 - "RD". Using the utility model allows simultaneously registering on the computer display the parameters of cardio-respiratory synchronism and external respiration for their comprehensive analysis.

Description

The proposed utility model relates to medicine and physiology and is aimed at obtaining a set of data on the regulatory and adaptive capabilities of the human body by integrating information on the parameters of cardio-respiratory synchronism and external respiration, which is especially important for examining patients with reduced respiratory function.

Analogs of the proposed system: VNS-Micro device of Neurosoft LLC, SpiroS-100 spirograph of Altonika LLC.

The VNS-Micro device of Neurosoft LLC includes the microprocessor of the VNS-Micro ADC, the ECG lead cable (for leads from the limbs), 4 reusable ECG hold-down electrodes on the limbs (Italy), the DDT-4-20 pneumogram sensor, software Poly-Spectrum with connected Poly-Spectrum-Rhythm module. The device provides synchronous recording of pneumograms and electrocardiograms, allows the analysis of heart rate variability and variability of the duration of the respiratory cycle (Mikhailov V.M. Heart rate variability: practical experience. - Ivanovo, 2007. - 288 p.).

Thus, the VNS-Micro device of Neurosoft LLC does not make it possible to take into account the most informative parameters of cardio-respiratory synchronism and external respiration parameters, the information content of such diagnostics of the adaptive status of an organism is significantly lower than that obtained using the proposed utility model.

Spirograph “SpiroS-100” LLC “Altonika” automatically measures and calculates indicators of the function of external respiration, such as vital capacity of the lungs (VC), forced vital capacity of the lungs (FVC), peak volumetric velocity (POS), maximum air velocity at the level expiratory flow 25% FVC (MOS25%), MOS50%, MOS75%), average volumetric forced expiratory flow rate calculated in the measurement interval from 25 to 75% FVC (COS25-75), COS75-85%, forced expiratory volume in the first second ( FEV1), Tiffno Index (IT), maximum ventilation ( MVL), minute volume of respiration (MOD), respiratory rate (BH), tidal volume (DO), reserve volume of inspiration (ROVD) and expiration (RVVID). The instrument kit includes: a spirograph, an air flow converter, a set of mouthpieces, thermal paper, a nose clip, a power adapter from the mains (at the same time it is a battery charger), a 3 liter calibration syringe.

The SpiroS-100 spirograph measures only 18 parameters of external respiration, does not make it possible to save the results of samples on a PC, the mouthpiece of the device does not allow connecting it to the pneumogram sensor “Systems for determining cardiorespiratory synchronism in humans” to ensure simultaneous recording of external respiration parameters and cardiorespiratory synchronism for in-depth diagnosis of the regulatory and adaptive status of patients.

Microprocessor-based portable spirograph SMP-21 / 01- “RD”, “System for determining cardio-respiratory synchronism in humans”.

Microprocessor-based portable spirograph SMP-21 / 01- “R-D” is intended for qualitative and quantitative assessment of changes in the functional state of the lungs; it is used in medical institutions of various profiles for research on the basis of spirometry of the mechanical properties of a human lung ventilation apparatus (data from the State Register of Measuring Instruments) . The microprocessor-based portable spirograph SMP-21 / 01- “RD” provides the ability to: measure and calculate 4 parameters of VC, 19 parameters of the VC, 26 parameters of the “flow-volume loop”, 7 parameters of the MOD and 3 parameters of the MVL; automatic calculation of individual patient standards, the formation of the final examination protocol. The body of the main unit and the sensor is made of shockproof plastic. The spirograph includes a Vitalograph air flow sensor based on a Fleisch tube. The sensor provides high measurement accuracy and has a low resistance to breathing by the patient. This spirograph provides the display of examination results on a monochrome LCD display.

At the same time, the microprocessor-based portable spirograph SMP-21 / 01- “RD” does not take into account the level of regulatory and adaptive capabilities of the patient’s body as a holistic system that corresponds to the defined parameters of external respiration, which is important for monitoring the quality of treatment, since complex patient therapy is always It is aimed not only at achieving targets from the target function, but also at increasing or restoring the general regulatory and adaptive abilities of the patient’s body.

The closest analogue is “A system for determining cardio-respiratory synchronism in humans” (patent No. 86860 dated September 20, 2009 / Pokrovsky V.M., Ponomarev V.V., Artyushkov V.V., Fomina E.V., Gritsenko S .F., Polishchuk SV), which includes integrated into a single software and hardware system: sensors for recording ECG, pneumogram sensor, analog-to-digital converter (ADC), for example, "VNS-Micro" connected to a computer, and software software with an automated algorithm for recording and fixing parameters of cardio-respiratory synchronism . The parameters found allow us to give an objective quantitative characteristic of the regulatory and adaptive status of the human body. This system simultaneously records an electrocardiogram (ECG) and pneumogram with a programmed error and works as follows: the ADC is connected to a computer and through sensors to a person; while the sensors for recording ECG are fixed on the hands and feet, and the sensor for recording pneumograms is recorded on the patient's head; the system is provided with power. Using a computer, the initial (background) parameters are recorded: respiratory rate and heart rate. Calculate the averaged indicator of background values. At the second stage of the study, with the help of the program, the frequency of the stimulator, which sends signals for the formation of a given respiratory rhythm by the patient, is 5% lower than the background values and automatically search for the minimum border of the range of occurrence of cardio-respiratory synchronism, which is recorded when the heart rate and respiration coincide and stimulant frequencies. Further, the frequency of the stimulator is increased in increments of 5% relative to the previous value until the value of the upper limit of cardiorespiratory synchronism is found. At the last stage of the study, the maximum and minimum boundaries of the occurrence of cardio-respiratory synchronism are clarified and the range width is calculated. Then, the results of the study are entered into a table in MS Excel format, then in each separate study they compose similar tables in order to determine the duration of the test, the duration of the occurrence of cardio-respiratory synchronism, periods of adaptation, registration of passport data, nosology. Tables provide the ability to save the results of the patient’s research in dynamics.

“The system for determining cardio-respiratory synchronism in humans” provides an objective assessment of the state of regulatory and adaptive systems of the human body. Moreover, the system shows only the amplitude of the respiratory movements, which does not reflect the size of the tidal volume and other parameters of external respiration. To expand the scope of this informative technique, the possibility of an in-depth examination of patients with reduced respiratory function, the diagnostic level can be increased by integrating information on the parameters of cardio-respiratory synchronism obtained using the system described above and the parameters of external respiration obtained using a spirograph.

The tasks in creating a useful model are: providing the possibility of simultaneous diagnosis of such important characteristics of the body as the parameters of cardio-respiratory synchronism and external respiration, as well as the synchronous registration of these parameters, which will allow for a better examination of patients with reduced respiratory function and assessment of the effectiveness of the treatment by determining not only the restoration of the target function, but also the effect of therapy on the regulatory and adaptive status of the patient; ensuring account of the value of minute pulmonary ventilation and tidal volume of each inspiration during testing by cardiorespiratory synchronization.

The technical result of solving the problems was the creation of a mobile “System for the simultaneous determination of the parameters of cardio-respiratory synchronism and external respiration in humans”, in which the “System for the determination of cardio-respiratory synchronism in humans” is combined with a spirograph, for example, a portable microprocessor-based spirograph SMP-21 / 01- "RD", which provides the ability to analyze the parameters of external respiration corresponding to the current state of the regulatory and adaptive status of the body, estimated by the parameters of the cardiac -dyhatelnogo synchronism (index of regulatory-adaptive status). The combination of the pneumogram sensor "Systems for determining cardio-respiratory synchronism in humans" with a spirograph provides simultaneous registration and display on the display of a computer (laptop) of parameters of cardio-respiratory synchronism and external respiration for their comprehensive analysis. The practical task of accounting for the minute volume of pulmonary ventilation and the tidal volume of each breath was also solved.

The essence of the solution is the mechanical introduction into the mouthpiece of the external respiration sensor of the spirograph SMP-21 / 01- “RD”, by making a slit in it, the pneumogram sensor “Systems for determining cardio-respiratory synchronism in humans”, which is hermetically clamped due to elasticity a mouthpiece that combines in a single complex devices connected in parallel to the computer (laptop) from the person being examined: the VNS-Micro device and the portable spirograph SMP-21 / 01- “R-D”.

The scheme "Systems for the simultaneous determination of the parameters of cardio-respiratory synchronism and external respiration in humans" is shown in the figure (Appendix), where: 1 - a person, 2 - a combined unit of sensors: a - a sensor of external respiration of a spirograph, b - a sensor for recording pneumograms, 3 - sensors for recording an electrocardiogram, 4 - microprocessor ADC "VNS-Micro", 5 - spirograph SMP-21 / 01- "RD", 6 - computer (laptop) with spirograph software SMP-21 / 01- "R -D "and" Systems for the determination of cardio-respiratory synchronism in humans. "

The proposed system is used as follows: a SMP-21 / 01- “RD” spirograph is connected to a computer (laptop) (6) (5) through a USB port with a USB-COM adapter and the microprocessor ADC “VNS-Micro” (4) via a USB port with sensors for recording an electrocardiogram (3) and a sensor for recording a pneumogram (2, b). A diagnostic examination of a person is carried out while sitting with the head and chest in an upright position. Sensors are placed on the patient’s limbs (1) to record an electrocardiogram (3). A nasal clip treated with a disinfectant solution is put on the wings of the subject’s nose. The mouthpiece of the spirograph’s external respiration sensor (2, a) with a hermetically integrated sensor for recording the pneumogram (2, b) “Systems for determining cardio-respiratory synchronism in humans”, the subject tightly wraps around his lips. The parameters of external respiration and the electrocardiogram are recorded in the initial state, then the samples are carried out with the set breathing rhythm (the algorithm of the sequence of the set frequencies is determined by the software included in the “System for determining cardio-respiratory synchronism in humans”), the parameters of cardio-respiratory synchronism are recorded. An analysis of the recorded parameters allows us to conclude on the regulatory-adaptive status, as well as on the influence on it of the state of the function of external respiration.

The system has been tested in studies on 20 patients.

Example: Patient N., 46 years old, was admitted with a diagnosis of chronic obstructive pulmonary disease. To assess the parameters of cardio-respiratory synchronism and the corresponding parameters of external respiration, a study was conducted using the "System for synchronously determining the parameters of external respiration and cardio-respiratory synchronism in humans." A nose clip was put on the wings of the subject’s nose. The mouthpiece of the spirograph’s external respiration sensor treated with a disinfectant solution (hermetically connected to the pneumogram sensor “Systems for determining cardio-respiratory synchronism in humans”) was tightly wrapped around the lips of the subject. Sensors were put on the patient's limbs to record an electrocardiogram. We carried out registration of the parameters of external respiration and electrocardiograms in the initial state, conducted tests with a defined breathing rhythm according to the algorithm calculated by the software “Systems for determining cardio-respiratory synchronism in humans”, and recorded parameters of cardio-respiratory synchronism. The index of regulatory and adaptive status of the patient at admission was 26.2 with the corresponding external respiration data: minute tidal volume of 6.8 l / min, Tiffno index of 65.1%, peak expiratory flow rate of 3.7 l / min. The obtained characteristics of the patient's condition upon admission made it possible to assess the degree of decline in the regulatory and adaptive capabilities of the body to adequately reduce respiratory function.

Claims (1)

A device for synchronously determining the parameters of cardio-respiratory synchronism and external respiration in a person, containing a pneumogram recording sensor, cardiogram sensors and a spirograph external respiration sensor, as well as combined into a single complex with the ability to communicate with a data processing computer and connected in parallel with a microprocessor and spirograph, at the same time, the pneumogram recording sensor and the cardiogram recording sensors are connected to the microprocessor, and the spirograph is connected to the elastic mouthpiece of the external respiration sensor and the pneumogram registration sensor is hermetically integrated to form a combined sensor block.

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