CN212187286U - Artery blood circulation pipeline assembly and artificial artery blood extracorporeal circulation system - Google Patents

Abstract

The application provides an artery blood circulation pipeline subassembly and artificial artery blood extracorporeal circulation system, the subassembly is including getting blood vessel way (1) by pig tail section (11), extension section (12), getting blood mouthful section (13) and the left ventricle that carries section (14) to constitute in proper order, the length of pig tail section (11) is for example 20mm to 38mm more than 20mm, the length of extension section (12) is 7mm to 13mm, the length of getting blood mouthful section (13) is 30mm to 70mm, the length of carrying section (14) is 700mm to 1400 mm. The arterial blood circulation pipeline assembly and the arterial blood extracorporeal circulation system disclosed by the application can assist the blood pumping function of the heart and provide extracorporeal arterial blood circulation support for a patient for 7 days or even longer.

Description

Artery blood circulation pipeline assembly and artificial artery blood extracorporeal circulation system

Technical Field

The invention relates to medical equipment, in particular to an arterial blood circulation pipeline component and an artificial arterial blood extracorporeal circulation system.

Background

During percutaneous coronary interventions, critical myocardial infarction interventions, late heart failure awaiting transplant donors, and during stenting of the heart, medical devices may be required to assist the pump function of the heart to ensure blood flow to critical organs in order to provide sufficient arterial blood to the patient's body and to win sufficient time for treatment.

In the prior art, an in vivo pump is adopted to pump arterial blood in the left ventricle into the aorta, so that the pumping function of the heart is assumed. However, the in vivo pump has the defects of narrow channel, high rotating speed, easy damage to blood cells and hemolysis in a short time, so that the in vivo pump cannot provide support for a long time and can only support for a few hours. And the structure of the in vivo pump is complex, requiring power supply from outside the body to inside the body, which increases the risk of systematics.

SUMMERY OF THE UTILITY MODEL

The application provides an artery blood circulation pipeline assembly and an artificial artery blood extracorporeal circulation system comprising the artery blood circulation pipeline assembly, and the artificial artery blood extracorporeal circulation system comprises the following implementation modes:

embodiment 1, an arterial blood circulation tubing assembly, comprising: the left ventricle blood taking channel consists of a pigtail section, an extension section, a blood taking port section and a conveying section in sequence;

the length of the pigtail section is more than 20mm, for example, 20mm to 38mm, a loop with the diameter of 8mm to 12mm is formed at one end of the left ventricle blood taking channel (1), and the outer diameter of the tube of the pigtail section is 1-3 mm;

the length of the blood taking port section is 30mm to 70mm, the inner diameter of the tube is 4.7mm to 6.3mm, and a plurality of holes are formed in the tube wall of the blood taking port section and are called blood taking holes;

the delivery segment has a length of 700mm to 1400mm, a tube inner diameter of 4.7mm to 6.3mm, and an angle of about 130 to about 160 degrees is formed between the blood withdrawal segment and the delivery segment;

the length of the extension section is 8mm to 12 mm.

Embodiment 2, the arterial blood circulation tubing assembly of embodiment 1, wherein the delivery segment has a tube inner diameter of 5.4mm to 6.0mm and a length of 800mm to 1100mm, the blood access segment and the delivery segment forming an angle of about 140 to about 160 degrees therebetween.

Embodiment 3, the arterial blood circulation line assembly according to embodiment 1, further comprising a blood return line, the blood return line comprising in order: a tail end section, a blood return hole section and a transfusion section,

wherein the length of the feedback section is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the inner diameter of the blood returning hole section is 4.5mm to 6.5mm, a plurality of holes are formed in the tube wall of the blood returning hole section, namely blood returning holes, and optionally, the length of the blood returning hole section is 30mm to 70 mm;

the length of the end section is more than or equal to 10mm, the inner diameter of the tube of the end section is changed from the inner diameter of the tube of the blood return hole section to the most end of 1-3mm, and the outer diameter of the tube is changed from the outer diameter of the tube of the blood return hole section to the most end of about 1-3 mm.

Embodiment 4, the arterial blood circulation conduit assembly of embodiment 3, wherein the length of the return segment is 700mm to 900mm or 100mm to 200mm and the tube inner diameter is 5.4mm to 6.0 mm. The return segment is long and can be placed on the aorta so that blood removed from the left ventricle enters the aorta normally for circulation. When the blood is not returned to the aorta, the blood is only required to be taken out and conveyed into the arterial blood vessel, so that the blood pressure measuring instrument can meet the requirement of 100mm to 200mm and can reduce the conveying pressure.

Embodiment 5, the arterial blood circulation tubing assembly of embodiment 3, wherein the blood return tubing further comprises: the inner diameter of the joint pipe of the back-feeding pump joint (24) is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the pipe of the back-feeding section (23), for example, the inner diameter of the joint pipe of the back-feeding pump joint (15) is more than 7 mm.

Embodiment 6 the arterial blood circulation conduit assembly of embodiment 1, wherein the left ventricular access conduit further comprises: a blood sampling pump joint connected with the conveying section and used for connecting the left ventricle blood sampling channel with an inlet of an extracorporeal pump, wherein the inner diameter of an interface pipe of the blood sampling pump joint (15) is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the pipe of the conveying section (14), for example, the inner diameter of the interface pipe of the blood sampling pump joint (15) is more than 7 mm;

a pump assembly is not arranged in the left ventricle blood taking channel; and the delivery section of the left ventricle blood taking channel is not provided with a side opening.

Embodiment 7 the arterial blood circulation line assembly according to embodiment 1, wherein each of the plurality of blood drawing holes has an area of 1mm or more²The sum of the areas of the blood sampling holes is more than or equal to 1 time of the cross section area of the pipeline of the conveying section, preferably more than or equal to 1.1 times of the cross section area of the pipeline of the conveying section, preferably more than or equal to 1.2 times of the cross section area of the pipeline of the conveying section, and preferably more than or equal to 1.5 times of the cross section area of the pipeline of the conveying section.

Embodiment 8, an artificial artery extracorporeal circulation system, comprising: a left ventricle blood taking channel, an extracorporeal pump and a blood returning channel,

wherein the content of the first and second substances,

the inner diameter of the input and output pipeline of the extracorporeal pump is larger than that of the left ventricle blood sampling pipeline, for example, the inner diameter of the input and output pipeline of the extracorporeal pump (3) is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the conveying section pipeline of the left ventricle blood sampling pipeline (1). This results in less blood pressure loss from the tubing, greater blood flow, and can meet basic blood flow requirements, and the pump can operate at lower rotational speeds, with less damage to blood cells, reduced risk of hemolysis, and longer extracorporeal support for the patient and longer treatment time for the physician.

Embodiment 9 and the artificial artery extracorporeal circulation system according to embodiment 8, wherein a tube inner diameter of the input/output tube of the extracorporeal pump is equal to or greater than 7.00 mm.

Embodiment 10 the extracorporeal circulation system of artificial artery blood according to embodiment 8, wherein the extracorporeal pump is a centrifugal pump or a squeeze pump, and can output a pressure of 100 to 200 mmhg.

Embodiment 11 the extracorporeal circulation system of artificial artery blood according to embodiment 8, wherein,

the left ventricle blood taking channel sequentially comprises a pigtail section, an extension section, a blood taking port section and a conveying section;

the length of the pigtail section is more than 20mm, for example, 20mm to 38mm, a loop with the diameter of 8mm to 12mm is formed at one end of the pipeline, and the outer diameter of the tube of the pigtail section is 1-3 mm;

the length of the blood taking port section is 30mm to 70mm, the inner diameter of the tube is 4.7mm to 6.3mm, and the tube wall of the blood taking port section is provided with a plurality of blood taking holes;

the delivery segment has a length of 800mm to 1200mm, a tube inner diameter of 4.7mm to 6.3mm, and an angle of about 130 to about 160 degrees is formed between the blood withdrawal segment and the delivery segment;

the length of the extension section is 8mm to 12mm, and the inner diameter of the tube of the extension section is changed from the inner diameter of the tube of the pigtail section to the inner diameter of the tube of the blood taking section;

the blood returning pipeline sequentially comprises: a tail end section, a blood return hole section and a transfusion section,

wherein the length of the feedback section is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the length of the blood return hole section is 30mm to 70mm, the inner diameter of the tube is 4.5mm to 6.5mm, and a plurality of blood return holes are formed in the tube wall of the blood return hole section;

the length of the end section is more than or equal to 10mm, the inner diameter of the tube of the end section is changed from the inner diameter of the tube of the blood return hole section to the most end of 1-3mm, and the outer diameter of the tube is changed from the outer diameter of the tube of the blood return hole section to the most end of about 1-3 mm.

An arterial blood circulation line assembly and an artificial arterial blood extracorporeal circulation system including the same compensate for the pumping function of the heart by pumping the blood of the left ventricle into the artery, provide sufficient blood during treatment, and win sufficient treatment time for the patient.

Drawings

To more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description relate only to some embodiments of the present disclosure and are not limiting to the present disclosure.

FIG. 1 shows a left ventricular access tract;

FIG. 2 shows a blood return line;

FIG. 3 shows the artificial artery extracorporeal circulation system of example 1;

FIG. 4 shows the artificial artery extracorporeal circulation system of example 2;

reference numerals: a left ventricle blood taking channel-1, a pigtail section-11, an extension section-12, a blood taking port section-13, a blood taking hole-131, a conveying section-14 and a blood taking pump joint-15;

a blood returning pipeline-2, a tail end section-21, a blood returning hole section-22, a blood returning hole-221, a returning section-23 and a returning pump joint-24;

an extracorporeal pump-3.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Generally, only adults will have a need for the artificial arterial blood extracorporeal circulation system of the present application, and therefore the solution of the present application directly defines a size specifically adapted for adults. It will be appreciated that minor persons may also adopt the same according to need, only the specific size range being changed.

One aspect of the present application provides an artificial artery blood extracorporeal circulation system, which includes: the blood taking device comprises a left ventricle blood taking pipeline, an extracorporeal pump and a blood returning pipeline, wherein an outlet of the blood taking pipeline is connected with an inlet of the extracorporeal pump, an inlet of the blood returning pipeline is connected with an outlet of the extracorporeal pump, the inner diameter of a pipe of an input and output pipeline of the extracorporeal pump is larger than that of the left ventricle blood taking pipeline, for example, the inner diameter of the pipe of the input and output pipeline of the extracorporeal pump (3) is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of a pipe of a conveying section of the left ventricle blood taking pipeline (1).

In this technical scheme of this application, the pipe internal diameter of the input/output pipeline of the pump among the artificial artery blood extracorporeal circulation system is greater than the pipe internal diameter that the blood vessel was got to the left ventricle, this makes, the pump can adopt the ordinary centrifugal pump or the extrusion pump that prior art is known, the instrument cost has been reduced, the internal diameter of pipeline can be thicker, make when adopting the pump to get blood, the rotational speed can be lower just can reach required blood flow, the haemolytic risk has been greatly reduced, the pump is external, need not to follow external toward human internal power supply, the systemic risk has been reduced, even if pump breaks down now, also can change immediately, consequently, can provide the external support of longer time for the patient, provide longer medical treatment time for the doctor. The artificial artery blood extracorporeal circulation system can provide extracorporeal artery blood circulation support for 7 days or even longer for patients.

In some embodiments, in the extracorporeal circulation system of artificial artery blood described herein, the tube inner diameter of the input/output tube of the extracorporeal pump is greater than or equal to 7.00mm, for example, 8mm or greater, 10mm or greater, or 12mm or greater. For a normal adult, the blood pressure of the human body is typically 100 to 200 mmhg and the blood volume demand is typically 3 to 6 liters, in which pressure range and blood volume demand range the use of tubing in this range is entirely sufficient. Such a thick tube cannot be implanted in vivo, and the inner diameter limit of the arterial vessel in vivo is hardly reached, so that the tube can only be placed outside the body.

In some embodiments, in the extracorporeal circulation system of artificial artery blood, the extracorporeal pump is a centrifugal pump or a squeeze pump, and can output a pressure of 100 to 200 mmhg.

In some embodiments, in the artificial artery blood extracorporeal circulation system, the left ventricle blood taking channel sequentially comprises a pigtail section, an extension section, a blood taking port section and a conveying section;

the length of the pigtail section is more than 20mm, for example, 20mm to 38mm, a loop with the diameter of 8mm to 12mm is formed at one end of the pipeline, and the outer diameter of the tube of the pigtail section is 1-3 mm;

the length of the blood taking port section is 30mm to 70mm, the inner diameter of the tube is 4.7mm to 6.3mm, and the tube wall of the blood taking port section is provided with a plurality of blood taking holes;

the delivery segment has a length of 800mm to 1200mm, a tube inner diameter of 4.7mm to 6.3mm, and an angle of about 130 to about 160 degrees is formed between the blood withdrawal segment and the delivery segment;

the length of the extension section is 7mm to 13mm (or 8mm to 12mm), and optionally the inner diameter of the tube of the extension section is changed from the inner diameter of the tube of the pigtail section to the inner diameter of the tube of the blood taking section;

the blood returning pipeline sequentially comprises: a tail end section, a blood return hole section and a transfusion section,

wherein the length of the feedback section is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the length of the blood return hole section is 30mm to 70mm, the inner diameter of the tube is 4.5mm to 6.5mm, and a plurality of blood return holes are formed in the tube wall of the blood return hole section;

the end section has a length of 10mm or more, optionally a tube inner diameter that varies from the tube inner diameter of the flashback section to about 1-3mm of the endmost, optionally a tube outer diameter that varies from the tube outer diameter of the flashback section to about 1-3mm of the endmost.

For an average adult, the left ventricular access line typically enters the body from one side of the thigh and passes into the heart, while the blood return line may enter the body's artery from the other side of the thigh.

The pigtail tube is mainly used for determining the position of the central bottom of the left ventricle, and is bent into a circle mainly for avoiding damage to the inside of the heart, the diameter of the circle which can be usually accommodated by the heart bottom is 7-12mm, so the external diameter of the pigtail tube is 1-3mm, namely 3F-10F. The inner diameter of the tube of the pigtail section is not particularly limited, and the inner pipeline of the pigtail section is only provided with a guide wire which can be easily arranged, so that the whole blood taking channel can be conveniently inserted into the left ventricle along the guide wire. The pigtail section is thin but not too thin, which would injure the inside of the heart, nor too thick, which would not bend into a loop with a diameter of 7-13mm (or 8-12 mm).

The extension section is connected with the pigtail section, the other end of the extension section is connected with the blood taking port section, and the extension from the pigtail section to the blood taking port section is provided. When the pigtail section is arranged at the bottom of the left ventricle, the left ventricle at the extension section is narrower, and a blood taking port is not convenient to arrange. In some preferred embodiments, the inner diameter of the extension section varies from the inner diameter of the pigtail section to the inner diameter of the tube of the access port section. In other embodiments, the outer diameter of the extension section varies from the outer diameter of the pigtail section to the outer diameter of the tube of the access port section.

The blood taking port section is a pipeline for providing a blood taking hole for the system when the system works, and the space of the left ventricle is wider in the left ventricle where the section is positioned, so that the blood taking port section is suitable for taking blood. The length of the blood taking opening section is 30mm to 70mm, and the length is suitable for the size of the heart. The tube inner diameter is 4.5mm to 6.5mm (or 4.7mm to 6.3mm) and this range corresponds to the tube inner diameter required to provide the required blood flow (typically 3-6 litres/minute) at blood pressures between 100mm hg and 200mm hg over the length of the left ventricular blood-receiving tract. In a preferred embodiment, the inner tube diameter of the access port segment is 5.4mm to 6.0 mm. The tube wall of the blood taking opening section is provided with a plurality of blood taking holes. The blood drawing hole is used for providing an inlet for blood to enter the pipeline. The size and number of the blood drawing holes are not particularly limited as long as they can provide an inlet for blood. In general, the area of each blood sampling hole may be 1mm or more². In a preferred embodiment, the blood withdrawal holes are provided in the first half of the blood withdrawal port section, since if the latter half of the blood withdrawal port section is close to the heart valve, the provision of the blood withdrawal holes may affect the operation of the heart valve. The blood sampling holes may be a plurality of elongated holes longitudinally arranged along the extension direction of the tube, and the holes may be rectangular or oblong in shape. The blood sampling holes may be symmetrically disposed on the tube. To ensure that the blood drawing holes provide sufficient blood access, the sum of the areas of the blood drawing holes may be equal to or greater than 1 times the cross-sectional area of the conduit of the conveying section, preferably equal to or greater than 1.1 times the cross-sectional area of the conduit of the conveying section, preferably equal to or greater than 1.2 times the cross-sectional area of the conduit of the conveying section, preferably equal to or greater than 1.5 times the cross-sectional area of the conduit of the conveying section.

In some embodiments, the left ventricular access vessel further comprises: the blood taking pump joint is connected with the conveying section and is used for connecting the left ventricle blood taking channel with an inlet of an extracorporeal pump; a pump assembly is not arranged in the left ventricle blood taking channel; and the delivery section of the left ventricle blood taking channel is not provided with a side opening. In some embodiments, the interface tube inner diameter of the blood sampling pump connector (15) is more than 1.1 times, more than 1.2 times, or more than 1.3 times the tube inner diameter of the conveying section (14), for example, the interface tube inner diameter of the blood sampling pump connector (15) is more than 7mm, for example, more than 8mm, more than 9mm, or even more than 10 mm. The pump joint for blood sampling is usually made of different materials with the pipeline, for example, the pump joint is made of polycarbonate materials, and a better connecting effect can be ensured. The pigtail section, the extension section, the blood sampling section and the conveying section can be made of polyamide materials (such as nylon 12, nylon 66 and the like), and a layer of fine stainless steel wire mesh is usually arranged on the inner side of the tube to enhance the strength of the tube. Unlike the prior art in which a pump is implanted in the body, the left ventricular access vein is not provided with a pump assembly; and the delivery section of the left ventricle blood taking channel is not provided with a side opening. Therefore, instruments entering a human body are relatively simple, systemic risks are greatly reduced, and a proper pump for conveying blood can be selected as required due to the fact that the pump is arranged outside the body, so that the risk of hemolysis is reduced.

The delivery segment is used to deliver blood from the left ventricle to the exterior of the body. A length of 700mm to 1400mm, a tube inner diameter of 4.5mm to 6.5mm (or 4.7mm to 6.3mm), and an angle of about 120 to about 170 degrees (or about 130 to about 160 degrees) between the blood withdrawal section and the delivery section. The length is such that it is sufficient from the base of the thigh to the heart, not too short to reach the heart, not too long to reach the heart, too long to increase the resistance, so that the blood flow is reduced and a basic blood supply of 3-6 liters is not reached, the angle of bending corresponding to the angular relationship between the inside of the heart and the aorta. No complex equipment exists in the body, and the risk is low. In a preferred embodiment, the delivery segment has a tube inner diameter of 5.4mm to 6.0mm and a length of 800mm to 1100mm, and the blood removal port segment and the delivery segment form an angle of about 140 to about 160 degrees therebetween. Under the inner diameter, the blood supply requirement of adults can be well met. An angle of about 140 to about 160 degrees is also a preferred mating angle between the left ventricle and the aorta.

The blood return line serves to return blood into the arterial vessel by means of the force of the pump. The return conduit comprises three sections, a tip section, a return orifice section and a return section, wherein the tip section is primarily used to guide the blood return conduit to a target location by means of a guide wire. There is no particular limitation on the inner diameter of the tube at the distal end section, as long as the inner conduit can be easily provided with a guide wire, facilitating insertion of the entire conduit into the body along the guide wire.

The inner diameter of the tube of the blood return hole section is 4.5 mm-6.5 mm, and the tube wall of the blood return hole section is provided with a plurality of blood return holes. The length of the blood return hole end point can be 30mm to 70 mm. The flashback well segment is similar to the blood withdrawal port segment, so all parameters can be similarly applied. In a preferred embodiment, the internal tube diameter of the flashback bore section is from 5.4mm to 6.0 mm. The wall of the blood return hole section is provided with a plurality of holes which are called blood return holes. The purpose of the return orifice is then to provide access for blood to enter the artery. The size and number of the blood return holes are not particularly limited as long as they can provide an inlet for blood. In general, the area of each blood return hole may be 1mm or more². The blood return holes may be a plurality of elongated holes longitudinally arranged along the extension direction of the tube, and the holes may be rectangular or oblong. The blood return holes can be symmetrically arranged on the pipeline. To ensure that the blood return holes provide sufficient blood access to the artery, the sum of the areas of the blood return holes may be equal to or greater than 1 time the cross-sectional area of the line at the return section, preferably equal to or greater than 1.1 times the cross-sectional area of the line at the return section, preferably equal to or greater than 1.2 times the cross-sectional area of the line at the return section, preferably equal to or greater than 1.5 times the cross-sectional area of the line at the return section.

In the present application, the length of the return section is 100mm to 1000mm, and the length of the return section can be varied in a wide range because the return section can be varied in a wide range according to the target position to be returned. For example, when only return to the aortic blood vessels closer to the inner thigh is desired, the length of the return segment can be about 100mm to 200mm, in which case the return arterial blood can still reach all parts of the body with lower delivery pressure. Ideally, the return line would be 700mm to 900mm long, so that the return orifice segment could be placed in the aorta near the outside of the left ventricle, and arterial blood would flow in the vessel in a manner similar to the normal pumping power provided by the heart, for better blood circulation.

In some embodiments, the blood return conduit further comprises: a back-feeding pump connector for connecting with an outlet of an extracorporeal pump. In some embodiments, the interface tube inner diameter of the back-feeding pump connector (24) is more than 1.1 times, more than 1.2 times, or more than 1.3 times the tube inner diameter of the back-feeding segment (23), for example, the interface tube inner diameter of the back-feeding pump connector (15) is more than 7 mm. The loop-back pump joint is usually made of different materials from the pipeline, for example, the loop-back pump joint is made of polycarbonate material, so that a better connection effect can be ensured. The end section, the blood return hole section and the infusion return section can be made of polyamide materials (such as nylon 12, nylon 66 and the like), and a layer of fine stainless steel wire mesh is usually arranged on the inner side of the tube to enhance the strength of the tube. The methods and materials for preparing the products of the present invention are not particularly limited and may be prepared using methods and materials known in the art for preparing other trans-body conduits.

The pump assembly of the present application can be reused, whereas the tubing assembly is a consumable item belonging to the surgical procedure, usually sold as a stand-alone item, and therefore the present application also includes the following subject matter:

an arterial blood circulation tubing assembly comprising: the left ventricle blood taking channel consists of a pigtail section, an extension section, a blood taking port section and a conveying section in sequence;

the length of the pigtail section is more than 20mm, for example, 20mm to 38mm, a loop with the diameter of 8mm to 12mm is formed at one end of the left ventricle blood taking channel (1), and the outer diameter of the tube of the pigtail section is 1-3 mm;

the length of the blood taking port section is 30mm to 70mm, the inner diameter of the tube is 4.7mm to 6.3mm, and a plurality of holes are formed in the tube wall of the blood taking port section and are called blood taking holes;

the delivery segment has a length of 700mm to 1400mm, a tube inner diameter of 4.7mm to 6.3mm, and an angle of about 130 to about 160 degrees is formed between the blood withdrawal segment and the delivery segment;

the length of the extension section is 8mm to 12 mm.

In some embodiments, in the arterial blood circulation tubing assembly, the delivery segment has a tube inner diameter of 5.4mm to 6.0mm and a length of 800mm to 1100mm, and the blood withdrawal segment and the delivery segment form an angle of about 140 to about 160 degrees therebetween.

In some embodiments, the arterial blood circulation tubing assembly further comprises a blood return tubing, which in turn comprises: a tail end section, a blood return hole section and a transfusion section,

wherein the length of the feedback section is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the inner diameter of the blood returning hole section is 4.5mm to 6.5mm, a plurality of holes are formed in the tube wall of the blood returning hole section, namely blood returning holes, and optionally, the length of the blood returning hole section is 30mm to 70 mm;

the length of the end section is more than or equal to 10mm, the inner diameter of the tube of the end section is changed from the inner diameter of the tube of the blood return hole section to the most end of 1-3mm, and the outer diameter of the tube is changed from the outer diameter of the tube of the blood return hole section to the most end of about 1-3 mm.

In some embodiments, the arterial blood circulation tubing assembly has a length of the return segment of 700mm to 900mm or 100mm to 200mm and a tube inner diameter of 5.4mm to 6.0 mm. The return segment is long and can be placed on the aorta so that blood removed from the left ventricle enters the aorta normally for circulation. When the blood is not returned to the aorta, the blood is only required to be taken out and conveyed into the arterial blood vessel, so that the blood pressure measuring instrument can meet the requirement of 100mm to 200mm and can reduce the conveying pressure.

In some embodiments, in the arterial blood circulation tubing assembly, the blood return tubing further comprises: the inner diameter of the joint pipe of the back-feeding pump joint (24) is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the pipe of the back-feeding section (23), for example, the inner diameter of the joint pipe of the back-feeding pump joint (15) is more than 7 mm.

In some embodiments, in the arterial blood circulation conduit assembly, the left ventricular access conduit further comprises: a blood sampling pump joint connected with the conveying section and used for connecting the left ventricle blood sampling channel with an inlet of an extracorporeal pump, wherein the inner diameter of an interface pipe of the blood sampling pump joint (15) is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the pipe of the conveying section (14), for example, the inner diameter of the interface pipe of the blood sampling pump joint (15) is more than 7 mm;

a pump assembly is not arranged in the left ventricle blood taking channel; and the delivery section of the left ventricle blood taking channel is not provided with a side opening.

In some embodiments, in the arterial blood circulation tube assembly, each of the plurality of blood sampling holes has an area of 1mm or more²The sum of the areas of the blood sampling holes is more than or equal to 1 time of the cross section area of the pipeline of the conveying section, preferably more than or equal to 1.1 times of the cross section area of the pipeline of the conveying section, preferably more than or equal to 1.2 times of the cross section area of the pipeline of the conveying section, and preferably more than or equal to 1.5 times of the cross section area of the pipeline of the conveying section.

The ranges described above may be used alone or in combination. The present application can be more easily understood by the following examples.

Example 1 [ section of return 100mm, return to aorta vessel nearer to the medial thigh ]

Fig. 1 is a schematic view of a left ventricle blood sampling channel (1) in this embodiment, and the left ventricle blood sampling channel (1) is composed of a pigtail section (11), an extension section (12), a blood sampling port section (13), a delivery section (14), and a pump connector (15) for blood sampling in sequence;

the length of the pigtail section (11) is 30mm, a loop with the diameter of about 10mm is formed at one end of the pipeline, the outer diameter of the tube of the pigtail section (11) is 2mm, and the inner diameter of the tube is 1 mm;

the length of the blood taking port section (13) is 50mm, the inner diameter of the tube is 6mm, 17 blood taking holes (131) are arranged on the tube wall of the blood taking port section (13), and the blood taking holes (131) are arranged on the blood taking port section (13)13) The area of each of the blood sampling holes (131) is 2.0mm²The sum of the areas of the blood sampling holes (131) is 1.2 times of the cross section area of the pipeline of the conveying section (14),

the length of the conveying section (14) is 900mm, the inner diameter of the tube is 6mm, and an angle of about 150 degrees is formed between the blood taking port section (13) and the conveying section (14);

the length of the extension section (12) is 10mm, the inner diameter of the tube of the extension section is changed from 1mm to 6mm, and the outer diameter of the tube is changed from 2mm to 6.5 mm;

the inner diameter of the tube of the blood taking pump joint (15) is 7.2mm, which is 1.2 times of the inner diameter of the tube of the conveying section (14).

The pig tail section (11), the extension section (12), the blood taking port section (13) and the conveying section (14) are all made of nylon 12, and stainless steel wire meshes are embedded in the nylon 12.

Fig. 2 is a schematic view of a blood return line (2) according to the present embodiment, said blood return line (2) comprising in sequence: a tip section (21), a blood return hole section (22), a return section (23), and a return pump connector (24).

Wherein the length of the feedback section (23) is 100mm, the inner diameter of the pipe is 5mm,

the inner diameter of the tube of the blood return hole section (22) is 6mm, and the length of the blood return hole section (22) is 50 mm; the tube wall of the blood return hole section (22) is provided with 17 blood return holes (221), and the area of each blood return hole (221) is 2.0mm²The sum of the areas of the blood return holes (221) is 1.2 times of the cross section area of the pipeline of the transfusion section (23),

the end section (21) has a length of 10mm, a tube inner diameter varying from 6mm to about 2mm at the extreme end of the flashback bore section (22), and a tube outer diameter varying from about 6.5mm to about 2.5mm at the extreme end of the flashback bore section.

The inner diameter of the pipe of the pump joint (24) for returning is 7.2mm, which is 1.2 times of the inner diameter of the pipe of the returning section (23).

Fig. 3 is a schematic diagram of an artificial artery blood extracorporeal circulation system in the embodiment, which includes the left ventricle blood taking channel (1) shown in fig. 1, the blood returning channel (2) shown in fig. 2, and the extracorporeal pump (3), wherein the extracorporeal pump (3) is a centrifugal pump, outputs a pressure of 140 mmhg, and has a tube inner diameter of an input and output channel equal to 7.2mm, and accordingly, the tube diameters of the blood taking pump joint (15) and the returning pump joint (24) are matched with the tube inner diameter of the input and output channel of the extracorporeal pump (3).

The artificial arterial blood extracorporeal circulation system in this embodiment returns arterial blood to the aortic blood vessels closer to the inner thigh during treatment.

Example 2 [ infusion back segment 900mm, infusion back into the aorta near the outside of the left ventricle ]

Fig. 4 shows an artificial artery extracorporeal circulation system in this embodiment, which includes a left ventricle blood taking channel (1), a blood returning channel (2), and an extracorporeal pump (3), and its structural parameters are substantially the same as those of embodiment 1, except that the length of the returning section (23) of the blood returning channel (2) is 900mm, a layer of fine stainless steel wire net is arranged inside the left ventricle blood taking channel (1) and the blood returning channel (2) to enhance the strength of the channels, the extracorporeal pump (3) outputs a pressure of 150 mm hg, the tube inner diameter of the input and output channel is equal to 10mm, and correspondingly, the tube diameters of the blood taking pump joint (15) and the returning pump joint (24) are matched with the tube inner diameter of the input and output channel of the extracorporeal pump (3).

In the treatment process, the artificial artery blood extracorporeal circulation system in the embodiment conveys arterial blood back to the aorta near the outside of the left ventricle, and the arterial blood flows in the blood vessel in a normal mode similar to the normal mode that the heart provides pumping power, so that a better blood circulation effect can be achieved.

The present application includes the following:

embodiment 1, an arterial blood circulation tubing assembly, comprising: the left ventricle blood taking channel consists of a pigtail section, an extension section, a blood taking port section and a conveying section in sequence;

the length of the pigtail section is more than 20mm, for example, 20mm to 38mm, a loop with the diameter of 7mm to 13mm is formed at one end of the pipeline, and the outer diameter of the tube of the pigtail section is 1-3 mm;

the length of the blood taking port section is 30mm to 70mm, the inner diameter of the tube is 4.5mm to 6.5mm, and a plurality of holes are formed in the tube wall of the blood taking port section and are called blood taking holes;

the length of the conveying section is 700mm to 1400mm, the inner diameter of the pipe is 4.5mm to 6.5mm, and an angle of about 120 degrees to about 170 degrees is formed between the blood taking port section and the conveying section;

the length of the extension section is 7mm to 13 mm.

Embodiment 2, the arterial blood circulation tubing assembly of embodiment 1, wherein the delivery segment has a tube inner diameter of 5.4mm to 6.0mm and a length of 800mm to 1100mm, the blood access segment and the delivery segment forming an angle of about 140 to about 160 degrees therebetween.

Embodiment 3, the arterial blood circulation line assembly according to embodiment 1, further comprising a blood return line, the blood return line comprising in order: a tail end section, a blood return hole section and a transfusion section,

wherein the length of the feedback section is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the inner diameter of the blood returning hole section is 4.5mm to 6.5mm, a plurality of holes are formed in the tube wall of the blood returning hole section, namely blood returning holes, and optionally, the length of the blood returning hole section is 30mm to 70 mm;

the length of the end section is more than or equal to 10mm, the inner diameter of the tube of the end section is changed from the inner diameter of the tube of the blood return hole section to the most end of 1-3mm, and the outer diameter of the tube is changed from the outer diameter of the tube of the blood return hole section to the most end of about 1-3 mm.

Embodiment 4, the arterial blood circulation conduit assembly of embodiment 3, wherein the length of the return segment is 700mm to 900mm or 100mm to 200mm and the tube inner diameter is 5.4mm to 6.0 mm. The return segment is long and can be placed on the aorta so that blood removed from the left ventricle enters the aorta normally for circulation. When the blood is not returned to the aorta, the blood is only required to be taken out and conveyed into the arterial blood vessel, so that the blood pressure measuring instrument can meet the requirement of 100mm to 200mm and can reduce the conveying pressure.

Embodiment 5, the arterial blood circulation tubing assembly of embodiment 3, wherein the blood return tubing further comprises: the pipe inner diameter of the joint of the back-feeding pump joint is more than 1.1 times, more than 1.2 times or more than 1.3 times of the pipe inner diameter of the back-feeding section, for example, the pipe inner diameter of the joint of the back-feeding pump joint (15) is more than 7 mm.

Embodiment 6 the arterial blood circulation conduit assembly of embodiment 1, wherein the left ventricular access conduit further comprises: a blood sampling pump joint connected with the conveying section and used for connecting the left ventricle blood sampling channel with an inlet of an extracorporeal pump, wherein the inner diameter of an interface pipe of the blood sampling pump joint is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the pipe of the conveying section, for example, the inner diameter of the interface pipe of the blood sampling pump joint (15) is more than 7 mm;

a pump assembly is not arranged in the left ventricle blood taking channel; and the delivery section of the left ventricle blood taking channel is not provided with a side opening.

Embodiment 7 the arterial blood circulation line assembly according to embodiment 1, wherein each of the plurality of blood drawing holes has an area of 1mm or more²The sum of the areas of the blood sampling holes is more than or equal to 1 time of the cross section area of the pipeline of the conveying section, preferably more than or equal to 1.1 times of the cross section area of the pipeline of the conveying section, preferably more than or equal to 1.2 times of the cross section area of the pipeline of the conveying section, and preferably more than or equal to 1.5 times of the cross section area of the pipeline of the conveying section.

Embodiment 8, an artificial artery extracorporeal circulation system, comprising: a left ventricle blood taking channel, an extracorporeal pump and a blood returning channel,

wherein the content of the first and second substances,

the inner diameter of the input/output pipeline of the extracorporeal pump is larger than that of the left ventricle blood sampling pipeline, for example, the inner diameter of the input/output pipeline of the extracorporeal pump is more than 1.1 times, more than 1.2 times or more than 1.3 times of the inner diameter of the conveying section of the left ventricle blood sampling pipeline. This results in less blood pressure loss from the tubing, greater blood flow, and can meet basic blood flow requirements, and the pump can operate at lower rotational speeds, with less damage to blood cells, reduced risk of hemolysis, and longer extracorporeal support for the patient and longer treatment time for the physician.

Embodiment 9 and the artificial artery extracorporeal circulation system according to embodiment 8, wherein a tube inner diameter of the input/output tube of the extracorporeal pump is equal to or greater than 7.00 mm.

Embodiment 10 the extracorporeal circulation system of artificial artery blood according to embodiment 8, wherein the extracorporeal pump is a centrifugal pump or a squeeze pump, and can output a pressure of 100 to 200 mmhg.

Embodiment 11 the extracorporeal circulation system of artificial artery blood according to embodiment 8, wherein,

the left ventricle blood taking channel sequentially comprises a pigtail section, an extension section, a blood taking port section and a conveying section;

the length of the pigtail section is more than 20mm, for example, 20mm to 38mm, a loop with the diameter of 7mm to 13mm is formed at one end of the pipeline, and the outer diameter of the tube of the pigtail section is 1-3 mm;

the length of the blood taking port section is 30mm to 70mm, the inner diameter of the tube is 4.5mm to 6.5mm, and the tube wall of the blood taking port section is provided with a plurality of blood taking holes;

the delivery segment has a length of 800mm to 1200mm, a tube inner diameter of 4.5mm to 6.5mm, and an angle of about 120 to about 170 degrees is formed between the blood withdrawal segment and the delivery segment;

the length of the extension section is 7mm to 13mm, and the inner diameter of the tube of the extension section is changed from the inner diameter of the tube of the pigtail section to the inner diameter of the tube of the blood taking section;

the blood returning pipeline sequentially comprises: a tail end section, a blood return hole section and a transfusion section,

wherein the length of the feedback section is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the length of the blood return hole section is 30mm to 70mm, the inner diameter of the tube is 4.5mm to 6.5mm, and a plurality of blood return holes are formed in the tube wall of the blood return hole section;

the length of the end section is more than or equal to 10mm, the inner diameter of the tube of the end section is changed from the inner diameter of the tube of the blood return hole section to the most end of 1-3mm, and the outer diameter of the tube is changed from the outer diameter of the tube of the blood return hole section to the most end of about 1-3 mm.

The above description is intended to be exemplary of the present disclosure, and not to limit the scope of the present disclosure, which is defined by the claims appended hereto.

Claims (27)

1. An arterial blood circulation tubing assembly comprising: the left ventricle blood taking channel (1), wherein the left ventricle blood taking channel (1) is sequentially composed of a pigtail section (11), an extension section (12), a blood taking port section (13) and a conveying section (14);

the length of the pigtail section (11) is more than 20mm, a loop with the diameter of 8mm to 12mm is formed at one end of the left ventricle blood sampling channel (1), and the outer diameter of the tube of the pigtail section (11) is 1-3 mm;

the length of the blood taking port section (13) is 30mm to 70mm, the inner diameter of the tube is 4.7mm to 6.3mm, and a plurality of holes are formed in the tube wall of the blood taking port section (13) and are called blood taking holes (131);

the length of the conveying section (14) is 700mm to 1400mm, the inner diameter of the pipe is 4.7mm to 6.3mm, and an angle of about 130 degrees to about 160 degrees is formed between the blood taking opening section (13) and the conveying section (14);

the length of the extension section (12) is 8mm to 12 mm.

2. The arterial blood circulation tubing assembly according to claim 1 wherein the delivery section (14) has a tube inner diameter of 5.4mm to 6.0mm and a length of 800mm to 1100mm, the blood access section (13) and the delivery section (14) forming an angle of about 140 to about 160 degrees therebetween.

3. Arterial blood circulation line assembly according to claim 1, further comprising a blood return line (2), said blood return line (2) comprising in sequence: a tip section (21), a blood return hole section (22) and a return section (23),

wherein the length of the feedback section (23) is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the inner diameter of the blood return hole section (22) is 4.5mm to 6.5mm, and a plurality of holes, namely blood return holes (221), are formed in the wall of the blood return hole section (22);

the length of the end section (21) is greater than or equal to 10 mm.

4. The arterial blood circulation tubing set according to claim 3, wherein the length of the return section (23) is 700mm to 900mm and the tube inner diameter is 5.4mm to 6.0 mm.

5. The arterial blood circulation line assembly according to claim 3, wherein the blood return line (2) further comprises: the back-feeding pump joint (24) is used for being connected with an outlet of the external pump (3), and the inner diameter of an interface pipe of the back-feeding pump joint (24) is more than 1.1 times of the inner diameter of the pipe of the back-feeding section (23).

6. The arterial blood circulation conduit assembly according to claim 1, wherein the left ventricular access conduit (1) further comprises: the blood taking pump joint (15), the blood taking pump joint (15) is connected with the conveying section (14) and used for connecting the left ventricle blood taking channel (1) with an inlet of an extracorporeal pump (3), and the inner diameter of an interface pipe of the blood taking pump joint (15) is more than 1.1 times of the inner diameter of the pipe of the conveying section (14);

a pump assembly is not arranged in the left ventricle blood taking channel (1); and the delivery section (14) of the left ventricular access vein (1) is not provided with a side opening.

7. The arterial blood circulation tubing assembly according to claim 1 wherein each of the plurality of blood drawing holes (131) has an area of 1mm or more²The sum of the areas of the blood sampling holes (131) is more than or equal to 1 time of the cross section area of the pipeline of the conveying section (14).

8. The arterial blood circulation tubing set according to claim 1, characterized in that the pigtail (11) has a length of 20 to 38 mm.

9. The arterial blood circulation tubing assembly according to claim 3 wherein the length of the return orifice section (22) is 30mm to 70 mm.

10. The arterial blood circulation tubing set according to claim 3, wherein the length of the return section (23) is 100mm to 200mm and the tube inner diameter is 5.4mm to 6.0 mm.

11. The arterial blood circulation tubing set according to claim 5, characterized in that the interface tube inner diameter of the return pump connector (24) is more than 1.2 times the tube inner diameter of the return segment (23).

12. The arterial blood circulation tubing set according to claim 5, characterized in that the interface tube inner diameter of the return pump connector (24) is more than 1.3 times the tube inner diameter of the return segment (23).

13. The arterial blood circulation line assembly according to claim 3, wherein the blood return line (2) further comprises: the return pump joint (24) is used for being connected with an outlet of the external pump (3), and the inner diameter of an interface pipe of the return pump joint (24) is more than 7 mm.

14. The arterial blood circulation tubing assembly according to claim 6, wherein the interface tube inner diameter of the blood-taking pump connector (15) is more than 1.2 times the tube inner diameter of the delivery section (14).

15. The arterial blood circulation tubing assembly according to claim 6, wherein the interface tube inner diameter of the blood-taking pump connector (15) is more than 1.3 times the tube inner diameter of the delivery section (14).

16. The arterial blood circulation line assembly according to claim 6, wherein the interface tube inner diameter of the blood pump connector (15) is 7mm or more.

17. The arterial blood circulation tubing set according to claim 7, characterized in that the sum of the areas of the blood drawing holes (131) is equal to or greater than 1.1 times the cross-sectional area of the tubing of the delivery section (14).

18. The arterial blood circulation tubing set according to claim 7, characterized in that the sum of the areas of the blood drawing holes (131) is equal to or greater than 1.2 times the cross-sectional area of the tubing of the delivery section (14).

19. The arterial blood circulation tubing set according to claim 7, characterized in that the sum of the areas of the blood drawing holes (131) is equal to or greater than 1.5 times the cross-sectional area of the tubing of the delivery section (14).

20. An artificial artery blood extracorporeal circulation system, comprising: a left ventricle blood taking channel (1), an extracorporeal pump (3) and a blood returning channel (2),

wherein the content of the first and second substances,

the inner diameter of the pipe of the input and output pipeline of the external pump (3) is larger than that of the pipe of the left ventricle blood taking pipeline (1).

21. The system of claim 20, wherein the internal diameter of the input/output tube of the extracorporeal pump (3) is equal to or greater than 7.00 mm.

22. The system according to claim 20, wherein said extracorporeal pump (3) is a centrifugal pump or a squeeze pump and can deliver a pressure of 100 to 200 mmhg.

23. The artificial artery blood extracorporeal circulation system of claim 20,

the left ventricle blood taking channel (1) sequentially comprises a pigtail section (11), an extension section (12), a blood taking port section (13) and a conveying section (14);

the length of the pigtail section (11) is 20mm, a loop with the diameter of 8mm to 12mm is formed at one end of the pipeline, and the outer diameter of the tube of the pigtail section (11) is 1-3 mm;

the length of the blood taking port section (13) is 30mm to 70mm, the inner diameter of the tube is 4.7mm to 6.3mm, and the tube wall of the blood taking port section (13) is provided with a plurality of blood taking holes (131);

the length of the conveying section (14) is 800mm to 1200mm, the inner diameter of the pipe is 4.7mm to 6.3mm, and an angle of about 130 degrees to about 160 degrees is formed between the blood taking port section (13) and the conveying section (14);

the length of the extension section (12) is 8mm to 12 mm;

the blood returning pipeline (2) comprises the following components in sequence: a tip section (21), a blood return hole section (22) and a return section (23),

wherein the length of the feedback section (23) is 100mm to 1000mm, the inner diameter of the pipe is 4.5mm to 6.5mm,

the length of the blood return hole section (22) is 30mm to 70mm, the inner diameter of the tube is 4.5mm to 6.5mm, and a plurality of blood return holes (221) are formed in the tube wall of the blood return hole section (22);

the length of the end section (21) is more than or equal to 10mm, the inner diameter of the tube of the end section is 1-3mm from the inner diameter of the tube of the blood return hole section (22) to the tail end, and the outer diameter of the tube of the end section is about 1-3mm from the outer diameter of the tube of the blood return hole section (22) to the tail end.

24. The extracorporeal circulation system for artificial artery blood according to claim 20, wherein the inner diameter of the tube of the input/output tube of the extracorporeal pump (3) is 1.1 times or more the inner diameter of the tube of the delivery section of the left ventricular aspiration blood vessel (1).

25. The extracorporeal circulation system for artificial artery blood according to claim 20, wherein the inner diameter of the tube of the input/output tube of the extracorporeal pump (3) is 1.2 times or more the inner diameter of the tube of the delivery section of the left ventricular aspiration blood vessel (1).

26. The extracorporeal circulation system for artificial artery blood according to claim 20, wherein the inner diameter of the tube of the input/output tube of the extracorporeal pump (3) is 1.3 times or more the inner diameter of the tube of the delivery section of the left ventricular aspiration blood vessel (1).

27. An artificial arterial blood extracorporeal circulation system according to claim 23, wherein the pigtail (11) has a length of 20mm to 38 mm.

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