CN202604819U - Atrioventricular bypass and atrial arrhythmias positioning device - Google Patents

Abstract

The utility model discloses an atrioventricular bypass and atrial arrhythmias positioning diagnosis device. The positioning diagnosis device comprises a device for obtaining standard bipolar lead electrocardiograph signals, a device for obtaining left atrium electric potential signals, a device for obtaining right atrium electric potential signals and a central control system shared by the three devices. The device for obtaining the standard bipolar lead electrocardiograph signals comprises a standard bipolar lead electrode and a body surface electrocardiograph amplifier, wherein the standard bipolar lead electrode and the body surface electrocardiograph amplifier are connected in sequence. The device for obtaining the left atrium electric potential signals comprises an esophagus electrode catheter and an esophageal bioelectricity amplifier, wherein the esophagus electrode catheter and the esophageal bioelectricity amplifier are connected in sequence. The device for the right atrium electric potential signals comprises a chest surface right atrium electric potential detection electrode and a chest surface bioelectricity amplifier, wherein the chest surface right atrium electric potential detection electrode and the chest surface bioelectricity amplifier are connected in sequence. The three amplifiers are connected with the central control system. The atrioventricular bypass and atrial arrhythmias positioning device is safe, rapid and effective and can be used for positioning, diagnosing and identifying various complicated atrial arrhythmias and atrioventricular bypass.

Description

The positioner of a kind of accessory atrioventricular pathways and atrial arrhythmia

Technical field

This utility model relates to the level diagnosis device of heart accessory atrioventricular pathways and atrial arrhythmia, particularly the level diagnosis device of a kind of heart accessory atrioventricular pathways of non-invasive and atrial arrhythmia.

Background technology

The heart accessory atrioventricular pathways is many paths except atrioventricular node between atrium and ventricle.In the sophisticated process of heart development, atrium and Interventricular myocardial cell all will be separated by biology insulation tissue except atrioventricular node, if separate not exclusively, cause to have additional muscle bundle conduction between atrium and the ventricle, will form accessory atrioventricular pathways.

Accessory atrioventricular pathways has dominance lie, recessive lie and CAP.Wherein 80% lie all has two-way conducting power, and 15% lie has only the adverse transference ability, has only 5% lie to have only the saequential transmission ability.The conduction velocity of general accessory atrioventricular pathways is all than comparatively fast, and refractory stage is all long, but for recessive lie; The conduction velocity of this lie is generally all slow than the speed of atrioventricular node conduction; Supraventricular impulse is often through atrioventricular node and lie conduction downwards together like this, but because the conduction velocity of atrioventricular node is very fast, gets the jump on the lie ventricle that arrived before the ventricle just preferential excitement; This lie just caused the concealment of lie, so generally cannot see preexcitation wave on electrocardiogram.If want on electrocardiogram, to show this lie, can or use the medicine of retardance atrioventricular node conduction through the rapid pacing atrium so, like adenosine and ATP, the retardance atrioventricular node passes down, just can see tangible preexcitation wave.If accessory atrioventricular pathways has merged atrial fibrillation, this situation is a hazardous.Particularly the dominance lie is abnormally dangerous, and quiver in generation chamber speed and chamber easily.For recessive lie, also be breakneck, because when atrial fibrillation, the atrium rhythm and pace of moving things is very fast, these impulsions can pass through atrioventricular node and lie replaces telepathy chamber down, also can cause situation such as ventricular tachycardia easily.

Atrial arrhythmia is the most common supraventricular arrhythmia; Its fundamental type comprises artrial premature beat, atrial tachycardia, atrial flutter and atrial fibrillation; Wherein artrial premature beat usually is an atrial tachycardia, the room is pounced on and the trigger mechanism of atrial fibrillation, and atrial tachycardia, the room is pounced on atrial fibrillation is one of major reason of adult's heart failure and apoplexy.

Atrial tachycardia is different according to the performance of mechanism and electrocardiogram, can be divided into three kinds of automatic atrial tachycardia, turning back property atrial tachycardia and CATs.Self-disciplining often can be called as the paroxysmal auricular tachycardia with AVB with atrioventricular block with turning back property atrial tachycardia.

A-V reentry tachycardia is one of the most common paroxysmal supraventricular tachycardia; Its most basic pathogenesis is that the bypass of congenital heart chamber forms reentrant cycle with normal atrioventricular conduction system through heart muscle and ventricular muscles; Therefore, exciting behind telepathy chamber under the normal atrioventricular conduction system when the dystopy atrium, can pass through chamber bypass adverse transference again to the atrium; Go round and begin again thus, form A-V reentry tachycardia.

The tachycardia of outbreak occurs the symptom except causing the patient repeatedly, can also bring out the complication of other organs and system.

At present, the level diagnosis of heart accessory atrioventricular pathways and atrial arrhythmia is mainly accomplished through traumatic electrophysiologic study and mark survey technology.Aspect the non-invasive level diagnosis, also not technological at present to the non-invasive level diagnosis of invisible accessory atrioventricular pathways and atrial arrhythmia.Just for the dominance accessory atrioventricular pathways, rule and the characteristics that can lead precordial leads preexcitation wave and main ripple on the surface electrocardiogram through 12 of classics are judged the approximate location of dominance accessory atrioventricular pathways.

The utility model content

The purpose of this utility model provides the non-invasive level diagnosis device of heart accessory atrioventricular pathways and atrial arrhythmia.This level diagnosis device is under the prerequisite that does not rely on His bundle electrogram; Through the non-invasive recording right atrial potential of breast table; Through esophagus record left atrium current potential; Relatively the exciting order and the time parameter thereof of right atrium current potential and left atrium current potential under atrial arrhythmia and the tachycardia are realized the non-invasive level diagnosis to atrial arrhythmia and heart accessory atrioventricular pathways.

The heart accessory atrioventricular pathways that this utility model provided and the level diagnosis device of atrial arrhythmia comprise central control system, reach following three equipment that link to each other with said central control system respectively: be used to obtain the equipment of standard bipolar leads electrocardiosignal, the equipment that is used to obtain the equipment of left atrium electric potential signal and is used to obtain the right atrium electric potential signal;

The said equipment that is used to obtain the standard bipolar leads electrocardiosignal comprises standard bipolar leads electrode and body surface ecg amplifier, and said body surface ecg amplifier links to each other with said central control system with said standard bipolar leads electrode;

The said equipment that is used to obtain the left atrium electric potential signal comprises and is used for esophagus electrode conduit and the esophagus bioelectric amplifier that oesophageal lead is measured the left atrium current potential that said esophagus bioelectric amplifier links to each other with said central control system with said esophagus electrode conduit;

The said equipment that is used to obtain the right atrium electric potential signal comprises breast table right atrium current potential exploring electrode and the breast hypergene thing electric amplifier of measuring the right atrium current potential from the breast table, and said breast hypergene thing electric amplifier links to each other with said central control system with said breast table right atrium current potential exploring electrode;

Said central control system comprises the data acquisition modular converter, with the data processing module that links to each other with said data acquisition modular converter;

Said data acquisition modular converter comprises the A/D modular converter; Said data acquisition modular converter is gathered the signal of telecommunication of the signal of telecommunication of said body surface ecg amplifier output, the output of said esophagus bioelectric amplifier and the signal of telecommunication of said breast hypergene thing electric amplifier output, and three kinds of signals of telecommunication will gathering gained pass through the A/D modular converters and convert digital signal into;

Said data processing module comprises the electrocardiogram acquisition module, and said electrocardiogram acquisition module is handled the digital signal of said data acquisition module output and obtained standard bipolar leads electrocardiogram, left atrium electrocardiogram and right atrium electrocardiogram; Said standard bipolar leads electrocardiogram is a body surface I lead electrocardiogram, at least a in body surface II lead electrocardiogram and the body surface III lead electrocardiogram.

In the non-invasive level diagnosis device of above-mentioned heart accessory atrioventricular pathways and atrial arrhythmia, said breast table right atrium current potential exploring electrode has two electrode slices that are separated from each other, and the surface area of said two electrode slices that are separated from each other is not less than 5mm ², like 1cm ²In practical application; Said two electrode slices that are separated from each other can be fixed on the dielectric base; Distance between said two electrode slices that are separated from each other is not less than 5mm, and like 1cm, said distance is the distance between two nearest outer rims of said two electrode slices that are separated from each other.Wherein, said dielectric base specifically can be sticking film.In practical application, for obtaining to detect sensitivity and stability preferably, the electrode slice of said breast table right atrium current potential exploring electrode can adopt silver/silver chloride polarization material.

In the non-invasive level diagnosis device of above-mentioned heart accessory atrioventricular pathways and atrial arrhythmia; The logical adjustable extent of the band of said breast hypergene thing electric amplifier and said esophagus bioelectric amplifier all can comprise 0～10kHz; The time constant adjustable extent all can comprise 0.1-5 second, and the Gain Adjustable scope all can comprise 1-5000mV/div.

In the non-invasive level diagnosis device of above-mentioned heart accessory atrioventricular pathways and atrial arrhythmia, said data acquisition modular converter can comprise data acquisition modular converter A1, data acquisition modular converter A2 and data acquisition modular converter A3; Said data acquisition modular converter A1 can comprise A/D modular converter B1; Said data acquisition modular converter A1 gathers the signal of telecommunication of said body surface ecg amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B1 and converts digital signal into; Said data acquisition modular converter A2 can comprise A/D modular converter B2; Said data acquisition modular converter A2 gathers the signal of telecommunication of said esophagus bioelectric amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B2 and converts digital signal into; Said data acquisition modular converter A3 can comprise A/D modular converter B3; Said data acquisition modular converter A3 gathers the signal of telecommunication of said breast hypergene thing electric amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B3 and converts digital signal into.

Said data processing module also can comprise dystopy atrial arrhythmia analysis module; The said standard bipolar leads electrocardiogram that said dystopy atrial arrhythmia analysis module obtains said central control system, said left atrium electrocardiogram and said right atrium electrocardiogram are analyzed as follows: (1) is according to said right atrium electrocardiogram and said left atrium electrocardiogram; The exciting order of left atrium and right atrium when confirming atrial arrhythmia, promptly clear and definite which atrium is exciting in advance; (2) calculating right atrium and left atrium activation time are poor; Calculate the concrete computational methods of right atrium and left atrium activation time difference: absolute value from said right atrium ECG P ripple starting point to time difference the said left atrium ECG P ripple starting point; If this time difference is more than or equal to 30ms, the prompting ectopic excitement originates from right atrium or the free wall of left atrium; If this time difference is less than 30ms, the prompting ectopic excitement originate from the interatrial septum and near.

Said data processing module also can comprise the accessory atrioventricular pathways analysis module; The said standard bipolar leads electrocardiogram that said accessory atrioventricular pathways analysis module obtains said central control system, said left atrium electrocardiogram and said right atrium electrocardiogram are analyzed as follows: (1) confirms according to said right atrium electrocardiogram and said left atrium electrocardiogram which atrium is exciting in advance in left atrium and the right atrium; Leading exciting prompting heart chamber left side accessory pathways of left atrium and atrial arrhythmia adverse transference, leading exciting prompting heart chamber right side lie of right atrium and atrial arrhythmia adverse transference; (2) measure right atrium and the left atrium activation time that drives in the wrong direction respectively, said right atrium drive in the wrong direction the measuring method of activation time (RVA) be from ventricular potential starting point on the said right atrium electrocardiogram to said right atrium electrocardiogram on time of right atrium current potential starting point; Said left atrium drive in the wrong direction the measuring method of activation time (LVA) be from ventricular potential starting point on the said left atrium electrocardiogram to said left atrium electrocardiogram on time of left atrium current potential starting point; (3) calculate right atrium and left atrium and drive in the wrong direction exciting total time (TVA), computational methods are TVA=RVA+LVA; (4) calculate the retrograde activation time poor (Δ A) of right atrium and left atrium, computational methods are Δ A=|RVA-LVA|; (5) calculate the retrograde activation time difference index (Δ AI) of right atrium and left atrium, computational methods are Δ AI=Δ A/TVA * 100;

If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the right side of heart lie: 1. right atrium is led over the left atrium excitement during episode of tachycardia, 2. Δ A >=30ms, 3. Δ AI＞10;

If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the left side of heart lie: 1. left atrium is led over the right atrium excitement during episode of tachycardia, 2. Δ A >=30ms, 3. Δ AI＞10;

If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the cardiac septum lie: 1. during episode of tachycardia right atrium and left atrium near excitement, 2. Δ A≤30ms, 3. Δ AI＜10 simultaneously.

According to actual needs, the heart accessory atrioventricular pathways that this utility model provided and the level diagnosis device of atrial arrhythmia can comprise that also the cardiac electrophysiology that brings out supraventricular tachycardia stimulates appearance.Said cardiac electrophysiology stimulates appearance also can pass through DC power supply through the photoisolator power supply.Said photoisolator can obtain from commercial sources, and its parameter is well known to those skilled in the art.Said photoisolator makes the safety of said level diagnosis device more guaranteed except that can also effectively preventing electric leakage for said cardiac electrophysiology stimulates the appearance power supply.Said dc source can be battery.

The heart accessory atrioventricular pathways that this utility model provided and the level diagnosis device of atrial arrhythmia also can comprise the data output apparatus that links to each other with said central control system.In an embodiment of this utility model, said data output apparatus is specifically formed by leading electrocardio synchronization indicator and printer more.

In practical application, the electrocardiosignal that said standard bipolar leads electrode detection arrives is carried out signal through said body surface ecg amplifier and is amplified, and handles through said central control system again, obtains said standard bipolar leads electrocardiogram; The detected left atrium electric potential signal of said esophagus electrode conduit after said esophagus bioelectric amplifier is amplified, is handled through said central control system again, obtains said left atrium electrocardiogram; The right atrium electric potential signal that said breast table right atrium current potential exploring electrode detects after said breast hypergene thing electric amplifier amplifies, is handled through said central control system again, obtains said right atrium electrocardiogram.Lead electrocardio synchronization indicator said more and can show above-mentioned three electrocardiograms and examining report synchronously.Said printer is used to print above-mentioned electrocardiogram and examining report.

Inventor's comprehensive utilization of this utility model is brought out paroxysmal supraventricular tachycardia correlation technique, the current potential detection of breast table right atrium and recording technique, is marked survey, non-invasive heart accessory atrioventricular pathways and atrial arrhythmia level diagnosis standard etc. synchronously through the current potential detection of esophagus left atrium and recording technique, heart point current potential bio electricity amplifying technique, multi-lead electrocardiosignal through heart electrophysiological stimulation appearance, develops the non-invasive level diagnosis device of this utility model.The non-invasive level diagnosis device of this utility model; Bring out paroxysmal supraventricular tachycardia through heart electrophysiological stimulation appearance; Non-invasive record breast table right atrium current potential and esophagus left atrium current potential; Record, analyze, measure and the relatively leading exciting order and the degree of right atrium and left atrium current potential, can the diagnosis and differential diagnosis right side of heart, left side and accessory atrioventricular pathways at interval.The non-invasive level diagnosis device of this utility model has following main feature: 1) can be used for heart accessory atrioventricular pathways and atrial arrhythmia are carried out the non-invasive level diagnosis.2) need not write down his' bundle potential.3) only need quantitative analysis and the mark that compares left atrium and right atrium to survey potential parameters.4) adopt the sxemiquantitative diagnostic criteria, workable.5) diagnosis capability of the diagnostic criteria adopted of the accessory atrioventricular pathways analysis module in the non-invasive level diagnosis device of this utility model through and comparison of intracardiac electrophysiology check result and check, coincidence rate reaches 95.6%; The diagnosis capability of the diagnostic criteria that dystopy atrial arrhythmia analysis module is adopted is through comparing and check with the intracardiac electrophysiology check result, and coincidence rate reaches 96.3%.Safety, effectiveness and the stability of this device are estimated and verified through the clinical observation of strictness, the non-invasive level diagnosis device safety that finally confirms this utility model and provided, easy, quick, effective.

The utlity model has following advantage:

1, the non-invasive level diagnosis device of this utility model heart accessory atrioventricular pathways and atrial arrhythmia is owing to adopted breast table right atrium current potential exploring electrode; Press close to the anatomical features of right intrathoracic wall according to right atrium; Adopt duopole electrogram principle; Having overcome at present can not be in the difficulty of breast table non-invasive recording right atrial point current potential; Cooperation can be carried out the bioelectric amplifier of parameter individuation adjustment, can record clear, stable, the right atrium that reliably carries out time point and amplitude measurement and analysis electrograph can be provided.

2, the breast hypergene thing electric amplifier of the non-invasive level diagnosis device of this utility model heart accessory atrioventricular pathways and atrial arrhythmia employing is owing to can individuation adjust various physical parameters; Help through a potential acquisition principle; Record the right atrium electrograph at breast table non-invasive, can be used for diagnosis, Differential Diagnosis and monitoring complicated arrhythmia of room property and heart accessory atrioventricular pathways.

3, the cardiac electrophysiology of the non-invasive level diagnosis device of this utility model heart accessory atrioventricular pathways and atrial arrhythmia employing stimulates appearance to stimulate left atrium through esophagus electrode; Bring out supraventricular tachycardia; And can realize the photoelectricity of left atrium electricity irritation energy is isolated through photoisolator; Prevent that abnormal current from bringing out malignant arrhythmia, guarantee the safety of inspection and treatment.

4, the central control system that adopted of the non-invasive level diagnosis device of this utility model heart accessory atrioventricular pathways and atrial arrhythmia can be carried out Quantitative Comparison to right atrium and left atrium current potential, can be used for level diagnosis and differentiate various complicated atrial arrhythmias.

5, two analysis modules (accessory atrioventricular pathways analysis module and dystopy atrial arrhythmia analysis module) of the central control system that adopted of the non-invasive level diagnosis device of this utility model heart accessory atrioventricular pathways and atrial arrhythmia can non-invasive level diagnosis heart accessory atrioventricular pathways and atrial arrhythmia.

6, the non-invasive level diagnosis device of this utility model heart accessory atrioventricular pathways and atrial arrhythmia can be accomplished cardiac stimulation simultaneously at a working face, led signal Synchronization demonstration and record, electric-physiology parameter measurement and mark survey more; Can generate complete detection and diagnosis report automatically.

Description of drawings

Fig. 1 is the structural representation of non-invasive heart accessory atrioventricular pathways and atrial arrhythmia positioner.

The structural representation of A, non-invasive heart accessory atrioventricular pathways and atrial arrhythmia positioner.The non-invasive heart accessory atrioventricular pathways of B, central control system refinement and the structural representation of atrial arrhythmia positioner.Among A and the B, equipment is central control system in the empty frame.

The specific embodiment

Below in conjunction with specific embodiment this utility model is described further, but this utility model is not limited to following examples.

The structure and the parameter of the level diagnosis device of embodiment 1, heart accessory atrioventricular pathways and atrial arrhythmia

One, the structure of the level diagnosis device of heart accessory atrioventricular pathways and atrial arrhythmia

As shown in Figure 1; The heart accessory atrioventricular pathways that this utility model provided and the level diagnosis device of atrial arrhythmia; Comprise central control system; Following three equipment that link to each other with said central control system respectively: be used to obtain the equipment of standard bipolar leads electrocardiosignal, the equipment that is used to obtain the equipment of left atrium electric potential signal and is used to obtain the right atrium electric potential signal, the data output apparatus that links to each other with said central control system stimulates appearance with the cardiac electrophysiology that brings out supraventricular tachycardia.

(1) three equipment that link to each other with said central control system

The said equipment that is used to obtain the standard bipolar leads electrocardiosignal comprises standard bipolar leads electrode and body surface ecg amplifier, and said body surface ecg amplifier links to each other with said central control system with said standard bipolar leads electrode.

The said equipment that is used to obtain the left atrium electric potential signal comprises and is used for esophagus electrode conduit and the esophagus bioelectric amplifier that oesophageal lead is measured the left atrium current potential that said esophagus bioelectric amplifier links to each other with said central control system with said esophagus electrode conduit.

The said equipment that is used to obtain the right atrium electric potential signal comprises breast table right atrium current potential exploring electrode and the breast hypergene thing electric amplifier of measuring the right atrium current potential from the breast table, and said breast hypergene thing electric amplifier links to each other with said central control system with said breast table right atrium current potential exploring electrode.

(2) central control system

Said central control system comprises the data acquisition modular converter, with the data processing module that links to each other with said data acquisition modular converter.

1, data acquisition modular converter

Said data acquisition modular converter comprises data acquisition modular converter A1, data acquisition modular converter A2 and data acquisition modular converter A3; Said data acquisition modular converter A1 comprises A/D modular converter B1; Said data acquisition modular converter A1 gathers the signal of telecommunication of said body surface ecg amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B1 and converts digital signal into; Said data acquisition modular converter A2 comprises A/D modular converter B2; Said data acquisition modular converter A2 gathers the signal of telecommunication of said esophagus bioelectric amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B2 and converts digital signal into; Said data acquisition modular converter A3 comprises A/D modular converter B3; Said data acquisition modular converter A3 gathers the signal of telecommunication of said breast hypergene thing electric amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B3 and converts digital signal into.

2, data processing module

Said data processing module comprises the electrocardiogram acquisition module, dystopy atrial arrhythmia analysis module and accessory atrioventricular pathways analysis module.

(1) said electrocardiogram acquisition module is handled the digital signal of said data acquisition module output and is obtained standard bipolar leads electrocardiogram, left atrium electrocardiogram and right atrium electrocardiogram; Said standard bipolar leads electrocardiogram is a body surface II lead electrocardiogram.The said standard bipolar leads electrocardiogram that said dystopy atrial arrhythmia analysis module obtains said central control system, said left atrium electrocardiogram and said right atrium electrocardiogram are analyzed as follows: the morning and evening that 1) the P ripple occurs on more said right atrium electrocardiogram and the said left atrium electrocardiogram; The exciting order of left atrium and right atrium when confirming atrial arrhythmia, promptly clear and definite which atrium is exciting in advance; 2) calculating right atrium and left atrium activation time are poor; Calculate the concrete computational methods of right atrium and left atrium activation time difference: absolute value from said right atrium ECG P ripple starting point to time difference the said left atrium ECG P ripple starting point; If this time difference is more than or equal to 30ms, the prompting ectopic excitement originates from right atrium or the free wall of left atrium; If this time difference is less than 30ms, the prompting ectopic excitement originate from the interatrial septum and near.

(2) said accessory atrioventricular pathways analysis module said central control system is obtained episode of tachycardia the time said left atrium electrocardiogram and said right atrium electrocardiogram analyze as follows: 1) according to said right atrium electrocardiogram and said left atrium electrocardiogram, confirm which atrium is exciting in advance in left atrium and the right atrium; Leading exciting prompting heart chamber left side accessory pathways of left atrium and atrial arrhythmia adverse transference, leading exciting prompting heart chamber right side lie of right atrium and atrial arrhythmia adverse transference; 2) measure right atrium and the left atrium activation time that drives in the wrong direction respectively, said right atrium drive in the wrong direction the measuring method of activation time (RVA) be from ventricular potential starting point on the said right atrium electrocardiogram to said right atrium electrocardiogram on time of right atrium current potential starting point; Said left atrium drive in the wrong direction the measuring method of activation time (LVA) be from ventricular potential starting point on the said left atrium electrocardiogram to said left atrium electrocardiogram on time of left atrium current potential starting point; 3) calculate right atrium and left atrium and drive in the wrong direction exciting total time (TVA), computational methods are TVA=RVA+LVA; 4) calculate the retrograde activation time poor (Δ A) of right atrium and left atrium, computational methods are Δ A=|RVA-LVA|; 5) calculate the retrograde activation time difference index (Δ AI) of right atrium and left atrium, computational methods are Δ AI=Δ A/TVA * 100; If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the right side of heart lie: 1. right atrium is led over the left atrium excitement during episode of tachycardia, 2. Δ A>=30ms, 3. Δ AI＞10; If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the left side of heart lie: 1. left atrium is led over the right atrium excitement during episode of tachycardia, 2. Δ A>=30ms, 3. Δ AI＞10; If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the cardiac septum lie: 1. during episode of tachycardia right atrium and left atrium near excitement, 2. Δ A≤30ms, 3. Δ AI＜10 simultaneously.

(3) data output apparatus

Said data output apparatus is formed by leading electrocardio synchronization indicator and printer more.Lead electrocardio synchronization indicator said more and can show above-mentioned three electrocardiograms and examining report synchronously.Said printer is used to print above-mentioned electrocardiogram and examining report.

(4) cardiac electrophysiology that brings out supraventricular tachycardia stimulates appearance

Cardiac electrophysiology stimulates appearance through the photoisolator power supply.

Two, the parameter of each parts of level diagnosis device of heart accessory atrioventricular pathways and atrial arrhythmia

(1) three equipment that link to each other with said central control system

In the level diagnosis device of this heart accessory atrioventricular pathways and atrial arrhythmia, the equipment that is used to obtain the standard bipolar leads electrocardiosignal is from electrocardiograph.The major parameter of body surface ecg amplifier wherein is following: 1. time constant >=3.2s.2. common mode inhibition >=80dB.3. input impedance 20M Ω.4. high frequency characteristics 75Hz, 150Hz.5. voltage resolution 5uV.6. noise level≤15uV.

In the level diagnosis device of this heart accessory atrioventricular pathways and atrial arrhythmia, the said esophagus electrode conduit that is used for obtaining the equipment of left atrium electric potential signal is the 6F-2 utmost point esophagus electrode conduit that Suzhou instrument plant of Dongfang Electronics produces.The parameter of esophagus bioelectric amplifier is following: the logical adjustable extent of band comprises 0～10kHz; The time constant adjustable extent comprises 0.1-5 second; The Gain Adjustable scope comprises 1-5000mV/div; Sampling rate: two passage 200kHz, sample rate adjusted; Input resistance>=100M Ω, common mode rejection ratio>=100dB, noise (peak-to-peak value)≤± 3uV, frequency response DC～20kHz, input range be 5uV to 250mV, zeroing by 12 bit resolution software controls, can selected range ability 5% to 100% between regulate; Sensitivity under the bio electricity AC mode is 20,50,100,200,500uV/div and 1,2,5mV/div; Bio electricity direct current and exchange that sensitivity under the low gain mode is 1,2.5,5,10,25,50,100,250,500,1000,3000,5000mV/div; LPF is 0.3Hz, 3Hz, 10Hz, 30Hz, 100Hz, 500Hz, 1kHz, 3kHz, 10kHz, OFF; Time constant (high-pass filtering) is 0.1s, 0.2s, 1s, 3s, 5s, DC.

In the level diagnosis device of this heart accessory atrioventricular pathways and atrial arrhythmia, be used to obtain breast table right atrium current potential exploring electrode described in the equipment of right atrium electric potential signal and form by electrode patch, lead and joint three parts.(area is 3 * 5cm), is fixed in two electrode slices on the said sticking film, and is applied in the said conductive paste composition of said electrode slice towards breast epidermis skin one side said electrode patch by a sticking film.The material of said two electrode slices is silver/silver chloride, and its surface area is 1cm ²Distance between the nearest outer rim of said two electrode slices is 1cm.Said lead is two diameter 3mm, length 1.5m, connects the surface insulation conductor wire of said two electrode slices and said joint respectively.Said joint is an integral type anode and cathode plug formula electricity physiology joint.Said silver/silver chloride material can guarantee collection and the stability of conducting faint bioelectrical signals.Distance between two nearest outer rims of two silver/silver chloride electrode sheets is that 1cm, surface area are 1cm ²Can guarantee to write down through breast table record right atrium point current potential according to the method for measuring point current potential.Said conduction is stuck with paste can fully reduce the electrical impedance between electrode slice and the breast epidermis skin.The parameter of said breast hypergene thing electric amplifier is following: the logical adjustable extent of band comprises 0～10kHz; The time constant adjustable extent comprises 0.1-5 second; The Gain Adjustable scope comprises 1-5000mV/div; Sampling rate: two passage 200kHz, sample rate adjusted; Input resistance>=100M Ω, common mode rejection ratio>=100dB, noise (peak-to-peak value)≤± 3uV, frequency response DC～20kHz, input range be 5uV to 250mV, zeroing by 12 bit resolution software controls, can selected range ability 5% to 100% between regulate; Sensitivity under the bio electricity AC mode is 20,50,100,200,500uV/div and 1,2,5mV/div; Bio electricity direct current and exchange that sensitivity under the low gain mode is 1,2.5,5,10,25,50,100,250,500,1000,3000,5000mV/div; LPF is 0.3Hz, 3Hz, 10Hz, 30Hz, 100Hz, 500Hz, 1kHz, 3kHz, 10kHz, OFF; Time constant (high-pass filtering) is 0.1s, 0.2s, 1s, 3s, 5s, DC.

The band of above-mentioned breast hypergene thing electric amplifier and esophagus bioelectric amplifier is logical to be adjusted in above-mentioned numerical range according to different individualities with gain parameter.

(2) cardiac electrophysiology stimulates appearance

In the level diagnosis device of this heart accessory atrioventricular pathways and atrial arrhythmia; It is that the DF-5A type cardiac electrophysiology that Suzhou instrument plant of Dongfang Electronics produces stimulates appearance that said cardiac electrophysiology stimulates appearance, and the key technical indexes is following: can produce pulse, dipulse, series impulse and continuous impulse 1..2. pulse can manually or automatically trigger.3. pulse parameter: stimulation amplitude 0～25V constant voltage or (0～10) mA constant current.4. pulse resolution 0.1～1000ms wave spacing.Ripple is wide by 0.1～10) ms.Frequency 1～1000Hz.5. the way of output: positive voltage, negative voltage, positive current, negative current.6. isolation method: photoelectricity is isolated.This cardiac electrophysiology stimulates appearance through the photoisolator power supply.Said photoisolator makes the safety of said level diagnosis device more guaranteed except that can also effectively preventing electric leakage for said cardiac electrophysiology stimulates the appearance power supply.

The use of the heart accessory atrioventricular pathways of embodiment 2, embodiment 1 and the level diagnosis device of atrial arrhythmia.

One, obtains the standard bipolar leads electrocardiogram

Utilize the heart accessory atrioventricular pathways of embodiment 1 and the level diagnosis device of atrial arrhythmia, obtain body surface I lead electrocardiogram, body surface II lead electrocardiogram and body surface III lead electrocardiogram according to conventional method.

Two, obtain the left atrium electrocardiogram

When utilizing the level diagnosis device of heart accessory atrioventricular pathways and the atrial arrhythmia of embodiment 1 to obtain the left atrium electrocardiogram, detect negative electrode and be positioned at the conduit head end, detect anode and be positioned at catheter proximal end apart from termination electrode 10mm place.

Three, obtain the right atrium electrocardiogram

When utilizing the level diagnosis device of heart accessory atrioventricular pathways and the atrial arrhythmia of embodiment 1 to obtain the left atrium electrocardiogram, detect negative electrode and be positioned at right border of sternum the 4th intercostal, detect anode and be positioned at its top and be no less than 5mm.

Four, the diagnosis of dystopy atrial arrhythmia and accessory atrioventricular pathways

The heart accessory atrioventricular pathways of embodiment 1 and the level diagnosis device of atrial arrhythmia; When being used for level diagnosis dystopy atrial arrhythmia; The standard bipolar leads electrocardiogram, left atrium electrocardiogram and the right atrium electrocardiogram that utilize the said dystopy atrial arrhythmia analysis module of the non-invasive level diagnosis device of this utility model that said central control system is obtained are analyzed (specifically with embodiment 1), thus the origin position of level diagnosis person's dystopy to be measured atrial arrhythmia.The practical implementation method is following: the morning and evening that 1) the P ripple occurs on more said right atrium electrocardiogram and the said left atrium electrocardiogram, and the exciting order of left atrium and right atrium when confirming atrial arrhythmia, promptly clear and definite which atrium is exciting in advance; 2) calculating right atrium and left atrium activation time are poor; Concrete computational methods: absolute value from said right atrium ECG P ripple starting point to time difference the said left atrium ECG P ripple starting point; If this time difference is more than or equal to 30ms, the prompting ectopic excitement originates from right atrium or the free wall of left atrium; If this time difference is less than 30ms, the prompting ectopic excitement originate from the interatrial septum and near.According to above-mentioned qualitative and Quantitative Comparison result, the origin position of non-invasive level diagnosis dystopy atrial arrhythmia.

When being used for the level diagnosis accessory atrioventricular pathways; The standard bipolar leads electrocardiogram, left atrium electrocardiogram and the right atrium electrocardiogram that utilize the said accessory atrioventricular pathways analysis module of the non-invasive level diagnosis device of this utility model that said central control system is obtained are analyzed (specifically with embodiment 1), thus the position of level diagnosis person's heart to be measured chamber accessory atrioventricular pathways.The practical implementation method is following: 1) pass through the program stimulation appearance of telling and bring out and make a definite diagnosis turning back property of accessory atrioventricular pathways supraventricular tachycardia; 2), confirm which atrium is exciting in advance in left atrium and the right atrium according to said right atrium electrocardiogram and said left atrium electrocardiogram; The leading exciting prompting heart chamber left side accessory pathways adverse transference of left atrium, the leading exciting prompting heart chamber of right atrium right side lie adverse transference; 3) measure right atrium and the left atrium activation time that drives in the wrong direction respectively, said right atrium drive in the wrong direction the measuring method of activation time (RVA) be from ventricular potential starting point on the said right atrium electrocardiogram to said right atrium electrocardiogram on time of right atrium current potential starting point; Said left atrium drive in the wrong direction the measuring method of activation time (LVA) be from ventricular potential starting point on the said left atrium electrocardiogram to said left atrium electrocardiogram on time of left atrium current potential starting point; 4) calculate right atrium and left atrium and drive in the wrong direction exciting total time (TVA), computational methods are TVA=RVA+LVA; 5) calculate the retrograde activation time poor (Δ A) of right atrium and left atrium, computational methods are Δ A=|RVA-LVA|; 6) calculate the retrograde activation time difference index (Δ AI) of right atrium and left atrium, computational methods are Δ AI=Δ A/TVA * 100; If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the right side of heart lie: 1. right atrium is led over the left atrium excitement during episode of tachycardia, 2. Δ A>=30ms, 3. Δ AI＞10; If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the left side of heart lie: 1. left atrium is led over the right atrium excitement during episode of tachycardia, 2. Δ A>=30ms, 3. Δ AI＞10; If above-mentioned analysis result satisfies following condition simultaneously, then prompt for the cardiac septum lie: 1. during episode of tachycardia right atrium and left atrium near excitement, 2. Δ A≤30ms, 3. Δ AI＜10 simultaneously.

Is study subject with 160 examples through the patient that intracardiac electrophysiologic study is diagnosed as the dystopy atrial arrhythmia; Adopt the level diagnosis device that this utility model provided; According to embodiment 1 one (two) 2 (1) in diagnostic criteria it is carried out the level diagnosis of dystopy atrial arrhythmia; The result finds that wherein 153 examples are consistent with the intracardiac electrophysiology check result, and its coincidence rate reaches 95.6%.

Is study subject with 136 examples through the patient that intracardiac electrophysiologic study is diagnosed as accessory atrioventricular pathways; Adopt the level diagnosis device that this utility model provided; According to embodiment 1 one (two) 2 (2) in diagnostic criteria it is carried out the level diagnosis of accessory atrioventricular pathways; The result finds that wherein 131 examples are consistent with the intracardiac electrophysiology check result, and its coincidence rate reaches 96.3%.

Claims (10)

1. the level diagnosis device of heart accessory atrioventricular pathways and atrial arrhythmia is characterized in that: said level diagnosis device comprises central control system, and following three equipment of linking to each other with said central control system respectively: be used to obtain the equipment of standard bipolar leads electrocardiosignal, the equipment that is used to obtain the equipment of left atrium electric potential signal and is used to obtain the right atrium electric potential signal;

The said equipment that is used to obtain the standard bipolar leads electrocardiosignal comprises standard bipolar leads electrode and body surface ecg amplifier, and said body surface ecg amplifier links to each other with said central control system with said standard bipolar leads electrode;

The said equipment that is used to obtain the left atrium electric potential signal comprises and is used for esophagus electrode conduit and the esophagus bioelectric amplifier that oesophageal lead is measured the left atrium current potential that said esophagus bioelectric amplifier links to each other with said central control system with said esophagus electrode conduit;

The said equipment that is used to obtain the right atrium electric potential signal comprises breast table right atrium current potential exploring electrode and the breast hypergene thing electric amplifier of measuring the right atrium current potential from the breast table, and said breast hypergene thing electric amplifier links to each other with said central control system with said breast table right atrium current potential exploring electrode;

Said central control system comprises the data acquisition modular converter, with the data processing module that links to each other with said data acquisition modular converter;

Said data acquisition modular converter comprises the A/D modular converter; Said data acquisition modular converter is gathered the signal of telecommunication of the signal of telecommunication of said body surface ecg amplifier output, the output of said esophagus bioelectric amplifier and the signal of telecommunication of said breast hypergene thing electric amplifier output, and three kinds of signals of telecommunication will gathering gained pass through the A/D modular converters and convert digital signal into;

Said data processing module comprises the electrocardiogram acquisition module, and said electrocardiogram acquisition module is handled the digital signal of said data acquisition module output and obtained standard bipolar leads electrocardiogram, left atrium electrocardiogram and right atrium electrocardiogram; Said standard bipolar leads electrocardiogram is a body surface I lead electrocardiogram, at least a in body surface II lead electrocardiogram and the body surface III lead electrocardiogram.

2. level diagnosis device according to claim 1 is characterized in that: said breast table right atrium current potential exploring electrode has two electrode slices that are separated from each other.

3. level diagnosis device according to claim 2 is characterized in that: said two electrode slices that are separated from each other are fixed on the dielectric base.

4. according to claim 1 or 2 or 3 described level diagnosis devices; It is characterized in that: the logical adjustable extent of the band of said breast hypergene thing electric amplifier and said esophagus bioelectric amplifier all comprises 0～10kHz; The time constant adjustable extent all comprises 0.1-5 second, and the Gain Adjustable scope all comprises 1-5000mV/div.

5. according to claim 1 or 2 or 3 described level diagnosis devices, it is characterized in that: said data acquisition modular converter comprises data acquisition modular converter A1, data acquisition modular converter A2 and data acquisition modular converter A3; Said data acquisition modular converter A1 comprises A/D modular converter B1; Said data acquisition modular converter A1 gathers the signal of telecommunication of said body surface ecg amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B1 and converts digital signal into; Said data acquisition modular converter A2 comprises A/D modular converter B2; Said data acquisition modular converter A2 gathers the signal of telecommunication of said esophagus bioelectric amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B2 and converts digital signal into; Said data acquisition modular converter A3 comprises A/D modular converter B3; Said data acquisition modular converter A3 gathers the signal of telecommunication of said breast hypergene thing electric amplifier output, and the signal of telecommunication that will gather gained passes through A/D modular converter B3 and converts digital signal into.

6. according to claim 1 or 2 or 3 described level diagnosis devices, it is characterized in that: said data processing module also comprises dystopy atrial arrhythmia analysis module.

7. according to claim 1 or 2 or 3 described level diagnosis devices, it is characterized in that: said data processing module also comprises the accessory atrioventricular pathways analysis module.

8. according to claim 1 or 2 or 3 described level diagnosis devices, it is characterized in that: said level diagnosis device comprises that also the cardiac electrophysiology that brings out supraventricular tachycardia stimulates appearance.

9. level diagnosis device according to claim 8 is characterized in that: said cardiac electrophysiology stimulates appearance through the photoisolator power supply, or passes through DC power supply.

10. according to claim 1 or 2 or 3 described level diagnosis devices, it is characterized in that: said level diagnosis device also comprises the data output apparatus that links to each other with said central control system.