CN209286295U - The synchronous heart-assist device of minimally invasive catheter type - Google Patents

Abstract

The utility model relates to heart assistance cycle arts, specifically, it is related to a kind of synchronous heart-assist device of minimally invasive catheter type and its application method, the enforcement division includes that whole cylindrical inner cavity is enclosed via cavity wall, the inner cavity being enclosed is for placing center sleeve, the rear and front end of the inner cavity has been respectively provided with the frontal air bag and rear end air bag of valve function, the frontal air bag, rear end air bag and center sleeve are respectively via the external air pump of hose, the executive item is realized the blood of left ventricle being promoted to aorta via control module control and with patient's heart beating characteristic adaptation, a kind of minimally invasive catheter type provided by the utility model synchronizes heart-assist device, it can be realized and the blood of patient atrium sinistrum is promoted to aorta, for recovering after patient's cardiovascular surgery, bridge to heart transplantation or substitution, myocardial function Recovery so that the permanent treatment of heart failure have obvious action, while cost is low, simple and compact for structure, convenient for universal and promote.

Description

The synchronous heart-assist device of minimally invasive catheter type

Technical field:

The utility model relates to heart assistance cycle arts, and in particular, to a kind of minimally invasive catheter type synchronization heart assistance Device.

Background technique:

Heart failure is to seriously threaten the disease of human life, and there are about 1/5 cardiacs every year in the whole world eventually Development is heart failure, at present China's heart failure disease incidence reach 0.9% and 5 years death rates be more than 60%.When traditional drug Treatment has certain limitation, cannot reach satisfactory effect, and heart transplant faces donor shortage again, the difficulty such as postoperative rejection When, researchers propose that the method for helping heart to restore using mechanical device has developed ventricular assist device.From upper A sixties in century, by many years studies and clinical application, the application of ventricular assist device was from painstaking effort since clinical application Pipe hand Anabiosis after operation, bridge to heart transplantation or substitution are expanded to the permanent treatment of recovery or even the heart failure of myocardial function. The bridge that ventricular assist device acts not only as transition before heart transplant is also to lead to the canoe of cardiac muscle recovery to improve heart failure and suffer from Person's quality of life is used for the treatment of patients with heart failure.

Ventricular assist device is the most effective treatment method of the generally acknowledged all kinds of terminal phase heart failures in the whole world.From the upper world 60 years The third generation suspension blood pump that today is developed to for first generation pneumatic blood pump, second generation axial flow blood pump, it is difficult to experienced several generations scientist Pungent research progress.China starts to carry out the research of ventricular assist device at the beginning of the eighties in last century, though the effort through several generations, with Foreign countries there is no the domestic heart-assist device of commercialization for clinical application so far compared to still there is larger gap.Though there are commodity in foreign countries The ventricular assist device of change, but set of device price is up to 500,000 yuan -100 ten thousand yuans, but set of device is at high price.Cause This develops function admirable, cheap new type domestic ventricular assist device becomes the task of top priority.By Chinese engineering team and Medicine team unity successfully develop first, China it is implantable, third generation ventricular assist device, zoopery created state It is implanted into the longest survival record of third generation ventricular assist device, China's third generation ventricular assist device development obtains great prominent It is broken.

But domestic third generation ventricular assist device be implanted and non-pulsation, both needed surgical operation implantation cause compared with Major trauma, and do not meet human body itself pulsation physilogical characteristics.The present apparatus will be implanted by invasive manner, continue to retain the heart Dirty pulsation feature, and ensure that the endaortic blood flow direction of directive is consistent with heart itself injection blood flow direction, from And further improve the ventricle aided efficiency of device.

Utility model content:

The utility model overcomes the deficiencies of existing technologies, and provides a kind of minimally invasive catheter type synchronization heart-assist device.

Technical problem to be solved in the utility model is implemented with the following technical solutions: a kind of minimally invasive catheter type synchronization heart Dirty auxiliary device, including executive item and control module, the executive item include be enclosed via cavity wall it is whole cylindrical Inner cavity, for placing center sleeve, the rear and front end of the inner cavity has been respectively provided with valve function for the inner cavity being enclosed Frontal air bag and rear end air bag, the frontal air bag, rear end air bag and center sleeve are described respectively via the external air pump of hose Executive item via control module control and and patient's heart beating characteristic adaptation realize by the blood of left ventricle be promoted to active Arteries and veins.

Preferably, the frontal air bag and rear end air bag are flat structure.

Preferably, the peripheral surface of the cavity wall is equipped with the network with cavity wall one.

Preferably, the cavity wall and network are made via memorial alloy.

Preferably, the frontal air bag and rear end air bag are via the synchronous phase revertive control of air pump, center sleeve and frontal air bag Identical control is synchronized via air pump.

Preferably, the AP interface connected with electrocardiograph is additionally provided in the control module.

Preferably, the executive item is between left ventricular outflow tract and the arch of aorta.

The synchronous heart-assist device of the minimally invasive catheter type uses method method, comprising the following steps:

S1: first carrying out the back works such as hemostasis disinfection, and executive item is drawn into elongated tubular product and and is suffered from using minimally invasive access Person's aorta；

S2: the executive item for being placed on left ventricular outflow tract is supported on blood vessel via network；

S3: adjusting control module control air pump makes itself and patient's heart beating characteristic adaptation, and connects the heart via AP interface Electrograph machine observes the physical condition of patient by electrocardiograph；

S4: it when patient body improvement, which need to remove the minimally invasive catheter type, synchronizes heart-assist device, is held again by above-mentioned Row part pulls into elongated tubular product taking-up.

The course of work: executive item is pulled into elongated tubular product using memorial alloy contractility and uses minimally invasive access patient master Artery, the executive item for being placed on left ventricular outflow tract are supported on blood vessel via network, and frontal air bag is via air pump control System is shunk, rear end air bag inflation, and the opening chamber of rear end closure is opened in formation front end, and center sleeve shrinks to generate and bear at this time Attraction is pressed, it will be in left ventricle blood inspiration atrium room；Hold air bag closure before controlling via air pump level with both hands, air bag inflation in rear end is swollen It is swollen, the opening chamber that front end closure is opened in rear end is formed, center sleeve inflation squeezes out the indoor blood of atrium at this time It is so a cyclic process into aorta.

Compared with prior art, the utility model has the following beneficial effects:

1, the synchronous heart-assist device of a kind of minimally invasive catheter type provided by the utility model, can be realized patient atrium sinistrum Blood be promoted to aorta, for recovery, the recovery of bridge to heart transplantation or substitution, myocardial function after patient's cardiovascular surgery Or even the permanent treatment of heart failure has obvious action, while cost is low, simple and compact for structure, convenient for universal and It promotes；

2, frontal air bag, rear end air bag and center sleeve are all made of the higher rubber of flexibility and are made, compared to the machine of using Tool device has structure simple, is convenient for flexible transfer power on the one hand with the conformability of inner cavity height, it is easy to accomplish valve control Function, cost is low, can reduce the production cost of the heart-assist device, and more important is the above-mentioned air bags of use for blood The damage of cell is small, will not cause secondary injury to patient；

3, using network made of memorial alloy and cavity wall, there is structural variability, it is only necessary to pull into executive item Elongated tubular product realizes minimally-invasive treatment, small for the injury of patient under the premise of realizing present apparatus function；

4, when being treated to patient, be directly by the blood in Left Ventricular be promoted to aorta and air pump via Control module control and and patient's heart beating characteristic adaptation, which does not reverse, with high-efficient, good excellent of therapeutic effect Point.

Detailed description of the invention:

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is location A partial enlarged view in Fig. 1；

Fig. 3 is B location partial enlarged view in Fig. 2；

Fig. 4 is location A partial enlarged view in Fig. 1；

Fig. 5 is location of C partial enlarged view in Fig. 4；

Fig. 6 is location A partial enlarged view in Fig. 1；

Fig. 7 is the position D partial enlarged view in Fig. 5；

Fig. 8 is location A partial enlarged view in Fig. 1；

Fig. 9 is the position E partial enlarged view in Fig. 8；

In figure: 1~executive item；11~center sleeve；12~frontal air bag；13~rear end air bag；14~hose；15~ Network；16~AP interface；17~spill limited block；18~limit plate；19~U-type groove；2~control module；3~air pump.

Specific embodiment:

In order to be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, under Face combination is specifically illustrating and embodiment, furthers elucidate the utility model.

Embodiment 1:

As depicted in figs. 1 and 2, the synchronous heart-assist device of a kind of minimally invasive catheter type, including executive item 1 and control module 2, Executive item 1 includes that whole cylindrical inner cavity is enclosed via cavity wall, and the inner cavity being enclosed is for placing center sleeve 11, the rear and front end of inner cavity has been respectively provided with the frontal air bag 12 and rear end air bag 13 of valve function, frontal air bag 12, after Hold air bag 13 and center sleeve 11 respectively via the external air pump 3 of hose 14, executive item 1 is via the control of control module 2 and and patient Heartbeat characteristic adaptation, which is realized, is promoted to aorta for the blood of left ventricle.The frontal air bag 12 and rear end air bag 13 via Air pump (3) synchronizes phase revertive control, and center sleeve 11 and frontal air bag 12 are via the synchronous identical control of air pump 3.

Ventricular assist device is the most effective treatment method of the generally acknowledged all kinds of terminal phase heart failures in the whole world.From the upper world 60 years The third generation suspension blood pump that today is developed to for first generation pneumatic blood pump, second generation axial flow blood pump, it is difficult to experienced several generations scientist Pungent research progress.China starts to carry out the research of ventricular assist device at the beginning of the eighties in last century, though the effort through several generations, with Foreign countries there is no the domestic heart-assist device of commercialization for clinical application so far compared to still there is larger gap.Though there are commodity in foreign countries The ventricular assist device of change, but set of device price is up to 500,000 yuan -100 ten thousand yuans, but set of device is at high price.Cause This develops function admirable, cheap new type domestic ventricular assist device becomes the task of top priority.By Chinese engineering team and Medicine team unity successfully develop first, China it is implantable, third generation ventricular assist device, zoopery created state It is implanted into the longest survival record of third generation ventricular assist device, China's third generation ventricular assist device development obtains great prominent It is broken.But domestic third generation ventricular assist device is implanted and non-pulsation, and surgical operation implantation had both been needed to cause larger wound Wound, and do not meet human body itself pulsation physilogical characteristics.The utility model provides a kind of minimally invasive catheter type synchronization heart assistance dress It sets and its application method, can be realized and the blood of patient atrium sinistrum is promoted to aorta, for multiple after patient's cardiovascular surgery The permanent treatment of Soviet Union, bridge to heart transplantation or substitution, the recovery of myocardial function or even heart failure has obvious action, together When cost it is low, it is simple and compact for structure, convenient for universal and promote.

The course of work: executive item 1 is pulled into elongated tubular product using memorial alloy contractility and uses minimally invasive access patient Aorta is placed on the executive item 1 of left ventricular outflow tract via network 15 and is supported on blood vessel, frontal air bag 11 via The control of air pump 3 is shunk, 13 inflation of rear end air bag, forms the opening chamber that rear end closure is opened in front end, at this time center sleeve 11 shrink generation negative pressure suction force, will be in left ventricle blood inspiration atrium room；Frontal air bag 12 is controlled via air pump 3 to be closed, Air bag 13 inflation in rear end forms the opening chamber that front end closure is opened in rear end, and 11 inflation of center sleeve will be opened at this time The indoor blood in oral cavity is expressed into aorta, is so a cyclic process.

As shown in Figures 2 and 3, specifically, executive item 1 is between left ventricular outflow tract and the arch of aorta, executive item 1 In, frontal air bag 12 and rear end air bag 13 are flat structure, and 12 one end of frontal air bag is connected firmly via hose 14 in inner cavity One end, 12 lower end of frontal air bag and 13 lower end of rear end air bag are fixedly connected with spill limited block 17 respectively, 17 upper end of spill limited block Baltimore groove and frontal air bag 12 and 13 shape of rear end air bag be adapted, when above-mentioned air bag inflation, above-mentioned air bag is remote Valve function is realized in one end insertion spill limited block 17 from hose 14.

As shown in Figures 2 and 3, specifically, frontal air bag 12 connects in the utility model hose 14 and center sleeve 11 The hose 14 of connection is arranged in cavity wall, so, it is possible so that the volume of inner cavity is bigger in the executive item 1 of limited bulk, So that executive item 1 is more efficient, more preferably therapeutic effect is realized.

As shown in Figure 1, specifically, the AP interface 16 connected with electrocardiograph is additionally provided in control module 2, suffer from convenient for observation The heartbeat situation of person.

As shown in Fig. 2, the peripheral surface of cavity wall is equipped with and the network 15 of cavity wall one, and institute in the utility model It states cavity wall and network 15 is made via memorial alloy, the network 15 being equipped with enables to executive item 1 to be fixed on blood vessel Inner wall, to ensure that during the work time, the position of executive item 1 is fixed, at the same 1 cavity wall of executive item of memorial alloy material and Network 15, which can be realized, treats minimally invasive access, small to the injury of patient.

In the utility model, the synchronous heart-assist device of minimally invasive catheter type uses method method, comprising the following steps:

S1: first carrying out the back works such as hemostasis disinfection, and executive item is drawn into elongated tubular product and and is suffered from using minimally invasive access Person's aorta；

S2: the executive item for being placed on left ventricular outflow tract is supported on blood vessel via network；

S3: adjusting control module control air pump makes itself and patient's heart beating characteristic adaptation, and connects the heart via AP interface Electrograph machine observes the physical condition of patient by electrocardiograph；

S4: it when patient body improvement, which need to remove the minimally invasive catheter type, synchronizes heart-assist device, is held again by above-mentioned Row part pulls into elongated tubular product taking-up.

Embodiment 2:

As shown in Figure 4, Figure 5, the present embodiment content and 1 content of embodiment are essentially identical, and something in common no longer repeats, different Place is: the hose 14 of institute's center sleeve 11 and the external air pump 3 of frontal air bag 12 is attached in cavity wall respectively, so, it is possible The structure for further decreasing the utility model is easily installed and manufactures, so that production cost is reduced, convenient for promoting the use of.

Embodiment 3:

As shown in Figure 6, Figure 7, the present embodiment content and 2 content of embodiment are essentially identical, and something in common no longer repeats, different Place is: after frontal air bag 12 and 13 inflation of rear end air bag and inner cavity interference fit, the frontal air bag of inflation 12 and rear end air bag 13 and cavity wall squeeze to realize valve function, in this way, make the utility model structure simpler compact, Not setting spill limited block 17 makes the volume of inner cavity bigger, so that the working efficiency of executive item 1 is higher.

Embodiment 4:

As shown in Figure 8 and Figure 9, the present embodiment content and 3 content of embodiment are essentially identical, and something in common no longer repeats, no Be with place: frontal air bag 12 and rear end air bag 13 are arranged on the limit plate 18 of ring-shaped, frontal air bag 12 and rear end gas 13 one end of capsule is divided via the hose 14 that the external air pump 3 of hose 14 and frontal air bag 12, rear end air bag 13, center sleeve 11 connect She Zhi not be in cavity wall, wherein the one end of frontal air bag 12 and rear end air bag 13 far from hose 14 is equipped with U-type groove 19, when front end gas When capsule 12 and rear end 13 inflation of air bag, the wooden partition of limit plate 18, which can be directly embedded into U-type groove 19, realizes valve function.

The characteristics of basic principles and main features and the utility model of the utility model have been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Only illustrate the principles of the present invention, on the premise of not departing from the spirit and scope of the utility model, the utility model is also It will have various changes and improvements, these changes and improvements are both fallen in the range of claimed invention.This is practical new The claimed range of type is defined by the appending claims and its equivalent thereof.

Claims (6)

1. a kind of minimally invasive catheter type synchronizes heart-assist device, which is characterized in that including executive item (1) and control module (2), institute Stating executive item (1) includes that whole cylindrical inner cavity is enclosed via cavity wall, and the inner cavity being enclosed is for placing centre Air bag (11), the rear and front end of the inner cavity have been respectively provided with the frontal air bag of valve function (12) and rear end air bag (13), the frontal air bag (12), rear end air bag (13) and center sleeve (11) be respectively via hose (14) external air pump (3), The executive item (1) is realized via control module (2) control and with patient's heart beating characteristic adaptation by the blood of left ventricle It is promoted to aorta；

The frontal air bag (12) and rear end air bag (13) are flat structure.

2. minimally invasive catheter type according to claim 1 synchronizes heart-assist device, which is characterized in that the periphery of the cavity wall Surface is equipped with and the network (15) of cavity wall one.

3. the synchronous heart-assist device of minimally invasive catheter type according to claim 2, which is characterized in that the cavity wall and netted Bracket (15) is made via memorial alloy.

4. minimally invasive catheter type according to claim 1 synchronizes heart-assist device, which is characterized in that the frontal air bag (12) with rear end air bag (13) via air pump (3) synchronous phase revertive control, center sleeve (11) and frontal air bag (12) are via air pump (3) identical control is synchronized.

5. minimally invasive catheter type according to claim 1 synchronizes heart-assist device, which is characterized in that the control module (2) the AP interface (16) connected with electrocardiograph is additionally provided on.

6. minimally invasive catheter type according to claim 1 synchronizes heart-assist device, which is characterized in that the executive item (1) between left ventricular outflow tract and the arch of aorta.