CN201263676Y - Multifunctional respiratory and electrocardial signal detecting catheter - Google Patents

Abstract

The utility model relates to a multifunctional breathe electrocardiosignal detecting canula which can simultaneously detect esophageal pressure, multichannel musculus diaphragm myoelectric signals and esophageal electrocardiogram and has nasal feeding function. Three tube cavities which are not mutually communicated and used for containing the leads of electrodes are arranged in the canula and used for transmitting pressure and nasal feeding; the outer surface of the canula is attached with a sacculus which is communicated with a small tube cavity in the canula and used for measuring the esophageal pressure; the far end of the canula is provided with a plurality of big holes which are connected with a nasogastric tube joint at the near end of the canula through a big tube cavity in the canula for nasal feeding; the near end of the sacculus is provided with a grounding electrode; the far end of the sacculus is sequentially provided with an electrocardio electrode and nine electrodes used for recording musculus diaphragm myoelectricity; a gap respectively exists between the grounding electrode and the sacculus and between the sacculus and the electrocardio electrode; a bigger gap exists between the electrocardio electrode and the electrodes for recording the musculus diaphragm myoelectricity; only small gaps exists among the electrodes for recording the musculus diaphragm myoelectricity; and a gap exists among big holes at the far end. The utility model has all functions of a traditional nasogastric tube, an esophageal sac duct, a multi-guide esophageal electrode canula and an esophageal electrocardio canula.

Description

Multifunctional respiration cardiac electricity signal detecting catheter

Technical field

This utility model relates to medical detected catheter, especially a kind of multifunctional respiration cardiac electricity signal detecting catheter that can detect respiratory drive, the diaphragm muscle signal of telecommunication and electrocardiosignal simultaneously and have the stomach tube function.This conduit can be measured esophagus pressure, diaphram myoelectricity and esophagus electrocardiogram simultaneously and have the nasal feeding function.

Background technology

Traditionally, the critical patient often needs per nasal to put stomach tube.Patient to a respiratory failure usually needs to take tracheal intubation or tracheotomy.If detect respiratory muscle function and respiratory center drives, usually need to put two conduits again: one is that the conduit of band air bag is placed in esophagus and is used to measure esophagus and presses; Another is that esophagus electrode is used to detect the diaphram myoelectricity.Because the existing tracheal intubation of patient or tracheotomy and stomach tube, it is very difficult to insert two conduits again from the nostril, even hardly may.Owing to, cause the respiratory function monitoring to be difficult to implement to promote in the difficulty of critical wards (ICU) storing detected catheter, cause patient's change of illness state in time not find, have a strong impact on patient's salvage success rate.In addition, in order to continue to obtain patient's heart rate and electrocardiosignal, often need put three chest surface electrodes in patient's chest, these electrodes come off easily, and chest surface electrode and three the relevant nursing of line influence to patient of leading thereof.If the cardioelectric monitor function also can be obtained from the nasal feeding conduit, then available nasal feeding conduit replaces traditional storing chest surface electrode and associated tracks thereof, and obtains more ecg information and comprise P ripple clearly, makes cardiac monitoring meticulousr reliable.Still do not have in the world at present and a kind ofly can replace nasal feeding tube to have again measuring simultaneously esophagus to press, lead the cardiac electrical conduit of diaphram myoelectricity and esophagus more.

Summary of the invention

The purpose of this utility model is at the difficulty of putting many conduits, influence the shortcoming of respiratory muscle function detection and chest electrocardioelectrode and associated tracks influence nursing thereof, a kind of multifunctional respiration cardiac electricity signal detecting catheter that can measure respiratory pressure, diaphram myoelectricity, electrocardiosignal simultaneously and have the nasal feeding function is provided.

Multifunctional respiration cardiac electricity signal detecting catheter described in the utility model comprises three tube chambers, promptly is used to measure the little tube chamber of little tube chamber that esophagus presses, hold electrodes lead and is used for the big tube chamber of nasal feeding.The appearance of multifunctional respiration cardiac electricity signal detecting catheter is adhered to an airtight sacculus.Sacculus communicates with the little tube chamber of measuring the esophagus pressure by a plurality of apertures.The far-end of multifunctional respiration cardiac electricity signal detecting catheter is provided with a plurality of macropores.Macropore communicates with the big tube chamber that is used for nasal feeding.In the little tube chamber of hold electrodes lead electrode cable is housed.The appearance of multifunctional respiration cardiac electricity signal detecting catheter, the distal site of sacculus are equipped with a plurality of electrodes that are used to write down esophagus electrocardio and diaphram myoelectricity.Be provided with a gap between sacculus and electrocardioelectrode.Also be provided with a gap between the electrode of electrocardioelectrode and record diaphram myoelectricity.Be provided with equal small clearance for insulation between the adjacent electrode of record diaphram myoelectricity.The far-end macropore of the recording electrode of far-end and conduit is provided with a distance.Each electrode length of electrocardioelectrode and record diaphram myoelectricity equates and links to each other with electrode cable in the little tube chamber respectively.The little tube chamber that the measurement esophagus is pressed, the little tube chamber of hold electrodes lead and the big tube chamber that is used for nasal feeding also are connected corresponding joint in the near-end bifurcated of multifunctional respiration cardiac electricity signal detecting catheter.During use, three joints are connected with stomach tube with esophageal pressure pickup, diaphragm muscle electric transducer, core signal sensor respectively.

An electrode that is used for ground connection is equipped with at the near-end position of multifunctional respiration cardiac electricity signal detecting catheter appearance sacculus, and distal site is equipped with the electrode of a record cardiac electrical electrode of esophagus and 9 record diaphram myoelectricities.

The length of balloon of multifunctional respiration cardiac electricity signal detecting catheter is that girth is about 3cm between the 5-10cm.The near-end of sacculus has an electrode to be used for ground connection, and the gap of a 1cm is arranged between the far-end of sacculus and the electrocardioelectrode.Each electrode length is 1cm, and electrocardioelectrode and diaphram myoelectricity gaps between electrodes are 2cm, and adjacent diaphram myoelectricity gaps between electrodes is below 1mm.

Ten recording electrodes are formed six and led: leads I is made up of electrode 1 and electrode 5, and leads I I is made up of electrode 2 and electrode 6, and leads I II is made up of electrode 3 and electrode 7, and leads I V is made up of electrode 4 and electrode 8, and the V that leads is made up of electrode 5 and electrode 9.The Electrocardiographic record of esophagus is formed the VI that leads by electrode 10 and electrode 9.So electrode 9 is not only as the diaphram electromyographic electrode but also as electrocardioelectrode.

During use, when electrode 5 was in the diaphragmatic level of esophagus, its two of participate in forming led the amplitude of recording is similar and than other diaphragm muscle signal of telecommunication that leads big.Can accurately and apace be placed into electrode 5 diaphragmatic level of esophagus by observing each diaphragm muscle electrical signal amplitude of leading record.Owing to the space between two electrodes is minimum, diaphram moves the electrographic interference of diaphram when having overcome breathing.When electrode original when and that diaphram is contiguous became away from diaphram, another electrode was adjacent with diaphram again, just moved at the tracking diaphram like having to lead, and moved the interference that causes thereby overcome diaphram.When electrode 5 was in the diaphram plane, according to anatomy relationship, sacculus was positioned at esophagus, and distal end of catheter is at gastric.

The beneficial effects of the utility model are, this multifunctional respiration cardiac electricity signal detecting catheter possesses four conduits of tradition, be the esophagus electrode conduit of stomach tube, oesophageal pouches pipe, record diaphram myoelectricity and the function that the Electrocardiographic electrode catheter of record esophagus is had, and can be placed in the electrode part branch of conduit the diaphragmatic level of esophagus quickly and accurately, oesophageal pouches is placed in esophagus, electrocardioelectrode is near heart, and the far-end of conduit is placed in gastric.

Multifunctional respiration cardiac electricity signal detecting catheter has four kinds of functions.Multifunctional respiration cardiac electricity signal detecting catheter is placed in stomach-esophagus, both can replace common stomach tube to be used for nasal feeding, can measure the esophagus pressure that is used to reflect intrathoracic pressure again, also can write down the esophagus electrocardiogram, simultaneously again can accurate recording diaphram myoelectricity, eliminate diaphram and move interference the diaphram signal of telecommunication.Multifunctional respiration cardiac electricity signal detecting catheter has changed traditional pressing because of measuring esophagus, diaphram myoelectricity and nasal feeding and have to insert the situation of three conduits, and can replace three chest surface electrocardioelectrodes and the relevant line that leads thereof, convenient nursing and the more ecg information of acquisition.Press by the esophagus of this multifunctional respiration cardiac electricity signal detecting catheter record in addition, the diaphram myoelectricity can trigger the regulation and control respirator and supply gas, and is used for the off line selection on opportunity.

Description of drawings

Fig. 1 is the structural map of this utility model multifunctional respiration cardiac electricity signal detecting catheter.

Fig. 2 is the A-A cutaway view Amplified image of Fig. 1.

Fig. 3 is the cross-sectional schematic of multifunctional respiration cardiac electricity signal detecting catheter.

To be the multifunctional respiration cardiac electricity signal detecting catheter electrode concern sketch map with leading to Fig. 4.

,1-10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 。

The specific embodiment

There are three not connected tube chambers to be respectively applied in the multifunctional respiration cardiac electricity signal detecting catheter described in the utility model and measure esophagus pressure, hold electrodes lead and nasal feeding.Multifunctional respiration cardiac electricity signal detecting catheter also comprises near-end union joint, sacculus, equal in length and ten electrodes and the distal end of catheter with holes that link to each other with electrode cable.The catheter proximal end union joint has three, is respectively tee pipe coupling, electrode cable joint stomach function regulating pipe joint.Sacculus is positioned at the far-end of ground electrode and communicates to measure the esophagus pressure by little tube chamber of a plurality of apertures and conduit.The electrode of most proximal end is a reference electrode, is used for ground connection.All the other are used for writing down simultaneously multichannel diaphram myoelectricity and electrocardio for recording electrode.Be provided with equal small clearance for insulation between the electrode of record diaphram myoelectricity.

Distal end of catheter have a plurality of macropores and with multifunctional respiration cardiac electricity signal detecting catheter in be used for nasal feeding big tube chamber communicate.

A proximal electrode is used for ground connection, and 10 recording electrodes are used to write down electrocardio and diaphram myoelectricity.

The utility model is described in further detail below in conjunction with accompanying drawing:

As shown in Figure 1, multifunctional respiration cardiac electricity signal detecting catheter 18 described in the utility model is made up of 11 identical electrode 1-10 of length and 31, sacculus 22, far-end macropore 14 and catheter proximal end joint.Sacculus 22 far-ends and multifunctional respiration cardiac electricity signal detecting catheter 18 have a sacculus far-end junction 16, and sacculus 22 near-ends and multifunctional respiration cardiac electricity signal detecting catheter 18 have a balloon proximal junction 17.One distance 15 is arranged between sacculus 22 and the electrode 10.Electrode 31 and sacculus 22 have a gap 32.

As shown in Figure 2, multifunctional respiration cardiac electricity signal detecting catheter 18 is made up of three not connected tube chambers.One is for measuring the tubule chamber 19 that esophagus is pressed in the conduit.Esophagus presses tubule chamber 19 to communicate with sacculus 22, and another is the tubule chamber 20 that power supply polar conductor 24 passes, and another is the big tube chamber 21 of nasal feeding.The big tube chamber 21 of nasal feeding communicates with the macropore 14 of far-end, is used for nasal feeding.

As shown in Figure 3, sacculus 22 presses the aperture 23 on the tubule chamber 19 to communicate with tubule 19 by measuring esophagus, and the tubule chamber 19 of measuring the esophagus pressure joins by bifurcated 26 and tee T union joint 30 again, presses thereby measure sacculus.Proximal electrode 31 is used for ground connection as the reference electrode, and all the other 10 is recording electrode 1-10.One distance 15 is arranged between electrocardioelectrode 10 and the sacculus.A gap 11 is arranged between electrocardioelectrode 10 and the electrode 9.Small clearance for insulation 12 is arranged between the recording electrode.Recording electrode 1 has a distance 13 with the far-end macropore 14 of conduit.Each electrode respectively with tubule chamber 20 in lead 24 join, and extend to the terminal 28 of catheter proximal end, thereby derive the diaphragm muscle signal of telecommunication by bifurcated 25.The far-end of multifunctional respiration cardiac electricity signal detecting catheter has a plurality of macropores 14, communicates with the big tube chamber 21 of nasal feeding in the conduit, and joins by conduit bifurcated 27 and stomach tube joint 29, is used for nasal feeding.

As shown in Figure 4, as preferred embodiment, sacculus 22 length of multifunctional respiration cardiac electricity signal detecting catheter are that girth is about 3cm between the 5-10cm.Gap 15 between sacculus 22 and the electrode 10 is 1cm.Gap 32 between sacculus 22 and the electrode 31 is 1cm.Each electrode length is 1cm, and gap 11 is 2cm between electrocardioelectrode 10 and the diaphram electromyographic electrode 9, and the adjacent segment 12 between the electrode 1-9 is about 1mm.Ten recording electrodes are formed six and led: leads I is made up of electrode 1 and electrode 5, leads I I is made up of electrode 2 and electrode 6, and leads I II is made up of electrode 3 and electrode 7, and leads I V is made up of electrode 4 and electrode 8, the V that leads is made up of electrode 5 and electrode 9, and the VI that leads is made up of electrode 9 and electrode 10.Leads I-V is used to write down the diaphram myoelectricity, two about 3.4cm of distance between electrodes that each leads.The VI that leads is used to write down the esophagus electrocardiogram, and two distance between electrodes are 2cm.When placing electrode, the diaphram myoelectric amplitude that Real Time Observation leads I-V is write down, to record amplitude similar and during than the big signal of other signal amplitude of writing down of leading as leads I and the V that leads, and pointing out electrode 5 is diaphragmatic level at esophagus.At this moment leads I II is because two electrodes equate that with the diaphram distance current potential is offset, and only records a very little diaphragm muscle signal of telecommunication about it.Because during the maximum breathing motion, the esophageal displacement of diaphram is moving less than 1.5cm, and the gap of 1mm is only arranged between the adjacent recording electrode, so if recording electrode 5 is placed in the diaphragmatic level of esophagus, no matter amplitude of respiration has much, there is an electrode to be in diaphragmatic level all the time.For example, lung capacity increase or diaphram shrink and cause diaphram to move down 1cm when air-breathing, and originally the electrode 5 in diaphragmatic level leaves diaphram, and at this moment 6 of recording electrodes become in the diaphragmatic level of esophagus.By in 5 are led, dynamically selecting maximum diaphram myoelectricity, just look like to have an electrode to move following diaphram all the time.So just in diaphragm muscle electrographic recording process, eliminated respiratory movement or diaphram moves the interference that is caused.Because the diaphram plane of esophagus is from cardia 2-3cm, when electrode 5 is in the diaphram plane of esophagus, distal end of catheter aperture 14 under one's belt, the stomach tube joint by near-end can carry out nasal feeding smoothly.At this moment sacculus 22 hypomere in esophagus can be measured esophagus and presses, and can be used for trigger breathing machine and supply gas.

Claims (3)

1. a multifunctional respiration cardiac electricity signal detecting catheter comprises three tube chambers, promptly is used to measure the little tube chamber of little tube chamber that esophagus presses, hold electrodes lead and is used for the big tube chamber of nasal feeding; The appearance of multifunctional respiration cardiac electricity signal detecting catheter is adhered to an airtight sacculus, and sacculus communicates with the little tube chamber of measuring the esophagus pressure by a plurality of apertures; The far-end of multifunctional respiration cardiac electricity signal detecting catheter is provided with a plurality of macropores, and macropore communicates with the big tube chamber that is used for nasal feeding; In the little tube chamber of hold electrodes lead electrode cable is housed; It is characterized in that: the appearance of multifunctional respiration cardiac electricity signal detecting catheter, the distal site of sacculus are equipped with the electrode of a plurality of record esophagus electrocardios and diaphram myoelectricity; Be provided with a gap between sacculus and electrocardioelectrode, also be provided with a gap between the electrode of electrocardioelectrode and record diaphram myoelectricity, be provided with equal small clearance for insulation between the adjacent electrode of record diaphram myoelectricity; The far-end macropore of the recording electrode of far-end and conduit is provided with a distance; Each electrode of electrocardioelectrode and record diaphram myoelectricity links to each other with electrode cable in the little tube chamber respectively; The little tube chamber that the measurement esophagus is pressed, the little tube chamber of hold electrodes lead and the big tube chamber that is used for nasal feeding also are connected corresponding joint in the near-end bifurcated of multifunctional respiration cardiac electricity signal detecting catheter; An electrode that is used for ground connection is equipped with at the near-end position of multifunctional respiration cardiac electricity signal detecting catheter appearance sacculus.

2. by the described multifunctional respiration cardiac electricity signal detecting catheter of claim 1, it is characterized in that: the distal site of multifunctional respiration cardiac electricity signal detecting catheter appearance sacculus is equipped with the electrode of a record cardiac electrical electrode of esophagus and 9 record diaphram myoelectricities.

3. by the described multifunctional respiration cardiac electricity signal detecting catheter of claim 1, it is characterized in that: the length of balloon of multifunctional respiration cardiac electricity signal detecting catheter is that girth is about 3cm between the 5-10cm; The near-end of sacculus has an electrode to be used for ground connection, and the gap of a 1cm is arranged between the far-end of sacculus and the electrocardioelectrode; Each electrode length is 1cm, and electrocardioelectrode and diaphram myoelectricity gaps between electrodes are 2cm, and adjacent diaphram myoelectricity gaps between electrodes is below 1mm.

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