CN112294394B

CN112294394B - Adjustable peripheral blood vessel thrombus taking support assembly

Info

Publication number: CN112294394B
Application number: CN201910672524.8A
Authority: CN
Inventors: 史珂慧; 魏萌; 薛瑾虹; 陈蕾; 党喜龙
Original assignee: First Affiliated Hospital of Medical College of Xian Jiaotong University
Current assignee: First Affiliated Hospital of Medical College of Xian Jiaotong University
Priority date: 2019-07-24
Filing date: 2019-07-24
Publication date: 2021-09-03
Anticipated expiration: 2039-07-24
Also published as: CN112294394A

Abstract

The invention discloses an adjustable peripheral blood vessel thrombus taking support assembly which comprises a control handle, a stepping motor, a connecting shaft, a rotary guide wire, a steering plate, a tooth clamping sleeve, a knob shaft, a tooth clamping plate, a baffle, a spring A, a winding wheel, a tensioning guide wire, a polymerization sleeve, a conveying pipe, an elastic support, a spring B, a spring C, a thrombus taking head, a conical block and a steering head, wherein firstly, through the design of a tensioning type expansion mechanism, medical personnel can conveniently regulate and control the radial size of a thrombus taking device to form a first bulge and a second bulge, so that the maximum grasping force and safety during thrombus extraction are ensured; secondly through the electronic angle adjustment mechanism of operation rear end, realize the direction change of delivery tube head, make things convenient for medical personnel to adjust according to particular case, optimized the operation, the effectual burden that alleviates medical personnel finally passes through the aforesaid, has strengthened high efficiency, convenient and safety of peripheral blood vessel thrombectomy operation greatly, has expanded clinical practicality, does benefit to popularization and application.

Description

Adjustable peripheral blood vessel thrombus taking support assembly

Technical Field

The invention relates to a peripheral blood vessel thrombus removal support, in particular to an adjustable peripheral blood vessel thrombus removal support component.

Background

According to statistics, the number of death caused by thrombus accounts for 51 percent of the total death number in China, which is far higher than that of other diseases, about 260 million people in China die of stroke and myocardial infarction which take thromboembolism as a main expression form, and about one death happens every 12 seconds on average. The current methods for treating thrombus are mainly divided into two types: drug thrombolysis and mechanical thrombus removal.

Drug thrombolytic therapy is to reduce or eliminate the symptoms of the patient by dissolving the thrombus in the arterial or venous vessels, allowing blood to circulate again. Venous thrombolysis is a common rescue method for acute cerebral infarction, and the time window from the beginning to thrombolysis is within 4.5 hours, and the shorter the time is, the better the thrombolysis effect is. However, after the thrombolytic drug passes through the whole body, the drug concentration is greatly reduced, the treatment effect is greatly reduced, the success rate can only reach about 20%, and if the drug dosage is increased, complications are easy to generate, and the risk is very high.

Mechanical thrombus removal refers to a treatment method which can recover the smoothness of blood vessels by using a special instrument to remove thrombus blocking the blood vessels. The mechanical thrombus removal is to draw the thrombus into the near-end catheter to be taken out after the thrombus is sucked in vacuum through the near end or the thrombus is contacted with the far end, so that the blood perfusion can be quickly recovered, and the blood vessel recanalization is realized. The time window of mechanical thrombus removal is less than 8 hours, so mechanical thrombus removal can be considered when the time for dissolving the thrombus by the medicine is over. Compared with the medicine thrombus removal, the mechanical thrombus removal is simpler and quicker, the risk is reduced greatly, and the subsequent blood vessel passing rate is higher.

In 2008 1 month to 2013 6 months, 80 acute cerebral infarction patients analyzed and treated by neurologists in electric hospitals in Heilongjiang province, wherein 42 patients are treated by arteriovenous combined thrombolysis, and 38 patients are treated by mechanical thrombolysis. The treatment efficiency is judged by Barthel score, the blood vessel recanalization rate is judged by adopting a myocardial infarction thrombolysis grading standard (T IM I), and the effective rate, the blood vessel recanalization rate and the near-term and long-term prognosis effects of the 2 groups are compared. The results show that the curative effective rates of the arteriovenous combined thrombolysis treatment group and the mechanical thrombus taking group are 97.6 percent and 100 percent respectively, and the difference has no statistical significance (P is more than 0.05); the blood vessel recanalization rate is 71.4 percent and 100 percent; 45.2 percent and 15.7 percent (P is less than 0.05) respectively for the residual stenosis rate which is less than or equal to 30 percent; the acute reocclusion rate of the blood vessel is 47.6 percent and 0 percent respectively (P is less than 0.05); the disease death rates are 11.9% and 0% respectively. The results show that the curative effect of the artery and vein combined thrombolysis and the mechanical thrombolysis is similar, but the short-term and long-term prognosis of the mechanical thrombolysis group is far superior to that of the arteriovenous combined thrombolysis group. Analysis proves that the treatment effect of mechanical thrombus removal is more obvious than that of drug thrombolysis, the safety is higher, the later-stage prognosis is better, and the mechanical thrombus removal is more worthy of popularization in medical clinic.

According to the above, the chinese utility model patent 201420743450.5 discloses an adjustable intracranial vascular thrombus removal device, which comprises an adjusting guide wire, a thrombus removal device, and an external fixing sheath. The thrombus extraction device has the characteristics of strong operability, can accurately regulate and control the position of the thrombus extraction device, but has larger defects; 1. the support cannot be effectively raised, the thrombus catching force is still insufficient, and 2, the direction of the head of the support cannot be adjusted, so that the operation difficulty is increased, and medical staff cannot adjust the support according to the operation condition conveniently; in view of the above, there is a need to design a controllable peripheral vascular embolization stent assembly to solve the above problems.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provides an adjustable peripheral blood vessel embolectomy bracket component to solve the problems in the prior art.

In order to solve the technical problems, the technical scheme of the invention is as follows: the adjustable peripheral blood vessel thrombus taking support assembly comprises a control handle, a stepping motor, a connecting shaft, two rotary guide wires, a steering plate, a tooth clamping sleeve, a knob shaft, a tooth clamping plate, a baffle plate, an A spring, a winding wheel, a tensioning guide wire, a polymerization sleeve, a conveying pipe, an elastic support, a B spring, a C spring, a thrombus taking head, a conical block and a steering head, wherein the stepping motor is fixedly arranged at the middle end inside the control handle, the stepping motor is connected with the control handle through a bolt, the connecting shaft is sleeved on the right side of the stepping motor, the connecting shaft is tightly connected with the stepping motor, the rotary guide wire is fixedly arranged on the right side of the connecting shaft, the rotary guide wire is connected with the connecting shaft through welding, the steering plate is fixedly arranged at the port on the right side of the rotary guide wire, the steering plate and the rotary guide wire are integrally formed, the number of the two tooth clamping sleeves are fixedly arranged at the upper end and the lower end of the right side of the control handle, the tooth cutting ferrule and the control handle are integrally formed, the number of the knob shafts is two, the knob shafts penetrate through the upper end and the lower end of the right side in the control handle, the knob shafts are rotatably connected with the control handle, the tooth cutting ferrule is sleeved at the front end of the knob shafts, the tooth cutting ferrule and the knob shafts are integrally formed, the baffle is fixedly arranged at the rear end of the knob shafts, the baffle and the knob shafts are connected by welding, the spring A is sleeved at the rear end of the knob shafts, the spring A is connected with the baffle by welding, the winding wheel is sleeved at the middle end of the knob shafts, the winding wheel is tightly connected with the knob shafts, the tensioning guide wire is wound on the winding wheel, the tensioning right side penetrates through the control handle, the tensioning guide wire is connected with the control handle in a sliding mode, the polymerization sleeve is sleeved on the left sides of the outer sides of the rotating guide wire and the tensioning guide wire, the polymerization sleeve is respectively connected with the rotary guide wire and the tensioning guide wire in a sliding manner, the conveying pipe is fixedly arranged on the right side of the polymerization sleeve, the conveying pipe is connected with the polymerization sleeve by adopting an adhesive, the elastic support is sleeved on the right side of the conveying pipe, the elastic support is connected with the conveying pipe by adopting the adhesive, the spring B is fixedly arranged on the left side in the elastic support, the spring B and the elastic support are integrally formed, the spring B is connected with one tensioning guide wire in a welding manner, the spring C is fixedly arranged on the right side in the elastic support, the spring C is integrally formed with the elastic support, the spring C is connected with one tensioning guide wire in a welding manner, the bolt taking head is fixedly arranged on the port on the right side of the conveying pipe, the bolt taking head is integrally formed with the conveying pipe, the conical block is arranged on the right side in the bolt taking head, and the conical block is rotatably connected with the bolt taking head, the steering head is fixedly arranged on the right side of the conical block, and the steering head and the conical block are integrally formed.

Further, the control handle inside still be equipped with the installation cavity, the installation cavity be hollow cavity.

Further, the inside left side of control handle still set firmly the battery, battery and step motor adopt the wire to be connected, just battery and control handle adopt bolted connection.

Further, the control handle left side still set firmly the interface that charges, the interface that charges and battery adopt the wire to be connected, just the interface that charges and control handle adopt bolted connection.

Further, the right side of the bottom of the control handle is fixedly provided with a motor switch, the positive electrode and the negative electrode of the motor switch are respectively connected with the stepping motor and the storage battery through leads, and the motor switch is connected with the control handle through bolts.

Furthermore, the upper end of the control handle is also provided with an anti-falling groove from left to right, and the anti-falling groove is a groove.

Further, two blanking caps are fixedly arranged on the right side of the rear end of the control handle, and the blanking caps and the control handle are formed by hot-melt bonding.

Further, the inside right side of conveyer pipe still be equipped with I and dodge the hole, I dodge the hole and be the rectangle through-hole.

Further, the inside right side of conveyer pipe still be equipped with II and dodge the hole, II dodge the hole and be the rectangle through-hole.

Compared with the prior art, the adjustable peripheral blood vessel thrombus removal support assembly can achieve the following effects; 1. the conveying pipe is pushed to enable the thrombus taking device to reach a thrombus part, and the radial size of the thrombus taking device is controlled by using the adjustable handle to form a first bulge and a second bulge, so that the maximum grabbing force and safety during thrombus extraction are ensured; 2. through the electric angle adjustment mechanism of operation rear end, realize the direction change of transfer line head, make things convenient for medical personnel to adjust according to clinical particular case, optimized the operation, effectual medical personnel's burden has been alleviateed.

Drawings

FIG. 1 is a front view of an adjustable peripheral vascular embolectomy support assembly;

FIG. 2 is a perspective view of a control handle portion;

FIG. 3 is a top plan view of a control handle portion;

FIG. 4 is a cross-sectional view taken along line A of the control handle portion;

FIG. 5 is a rear view of the control handle portion;

FIG. 6 is an enlarged cross-sectional view of the resilient mount portion;

FIG. 7 is an enlarged cross-sectional view of the steering head portion;

FIG. 8 is an enlarged cross-sectional view of the portion of the polymerization sleeve;

FIG. 9 is an enlarged perspective view of the knob shaft, the tooth clamp sleeve, the tooth clamp plate, the baffle, the A spring and the blanking cover.

A control handle 1, a stepping motor 2,

A connecting shaft 3, a rotary guide wire 4,

A steering plate 5, a tooth clamping sleeve 6,

A knob shaft 7, a tooth clamping plate 8,

A baffle plate 9, an A spring 10,

A winding wheel 11, a tension guide wire 12,

A polymer sleeve 13, a conveying pipe 14,

An elastic bracket 15, a B spring 16,

C spring 17, bolt taking head 18,

A conical block 19, a steering head 20,

A mounting cavity 101, a storage battery 102,

A charging interface 103, a motor switch 104,

A drop-proof groove 105, a plugging cover 106,

I relief holes 141, II relief holes 142.

The following detailed description will be further described in conjunction with the above-identified drawings.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the concepts underlying the described embodiments, however, it will be apparent to one skilled in the art that the described embodiments may be practiced without some or all of these specific details, and in other cases well-known process steps have not been described in detail.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, the device comprises a control handle 1, a stepping motor 2, a connecting shaft 3, a rotating guide wire 4, a steering plate 5, a tooth clamping sleeve 6, a knob shaft 7, a tooth clamping plate 8, a baffle 9, an a spring 10, a winding wheel 11, a tensioning guide wire 12, a polymerization sleeve 13, a delivery pipe 14, an elastic support 15, a B spring 16, a C spring 17, a bolt taking head 18, a conical block 19 and a steering head 20, wherein the stepping motor 2 is fixedly arranged at the middle end inside the control handle 1, the stepping motor 2 is connected with the control handle 1 by bolts, the connecting shaft 3 is sleeved at the right side of the stepping motor 2, the connecting shaft 3 is tightly connected with the stepping motor 2, the rotating guide wire 4 is fixedly arranged at the right side of the connecting shaft 3, the rotating guide wire 4 is connected with the connecting shaft 3 by welding, the steering plate 5 is fixedly arranged at the port at the right side of the rotating guide wire 4, the steering plate 5 and the rotary guide wire 4 are integrally formed, the number of the tooth clamping sleeves 6 is two, the tooth clamping sleeves 6 are fixedly arranged at the upper end and the lower end of the right side of the control handle 1, the tooth clamping sleeves 6 and the control handle 1 are integrally formed, the number of the knob shafts 7 is two, the knob shafts 7 penetrate through the upper end and the lower end of the right side in the control handle 1, the knob shafts 7 are rotatably connected with the control handle 1, the tooth clamping plates 8 are sleeved at the front ends of the knob shafts 7, the tooth clamping plates 8 and the knob shafts 7 are integrally formed, the baffle plate 9 is fixedly arranged at the rear end of the knob shafts 7, the baffle plate 9 and the knob shafts 7 are connected in a welding mode, the spring A10 is sleeved at the rear end of the knob shafts 7, the spring A and the baffle plate 9 are connected in a welding mode, the winding wheel 11 is sleeved at the middle end of the knob shafts 7, and the winding wheel 11 is tightly connected with the knob shafts 7, taut seal wire 12 twine in wind-up wheel 11, just taut seal wire 12 right side run through in brake valve lever 1,

taut seal wire

12 and 1 sliding connection of brake valve lever, polymerization cover 13 cover locate rotatory seal wire 4 and taut seal wire 12 outside left side, polymerization cover 13 respectively with rotatory seal wire 4 and taut seal wire 12 sliding connection, conveyer pipe 14 set firmly in polymerization cover 13 right side, conveyer pipe 14 adopt the adhesive to be connected with polymerization cover 13, elastic support 15 cover locate conveyer pipe 14 right side, elastic support 15 and conveyer pipe 14 adopt the adhesive to be connected, B spring 16 set firmly in the inside left side of elastic support 15, B spring 16 and elastic support 15 integrated into one piece, just B spring 16 and one of them taut seal wire 12 adopt the welding to link to each other, C spring 17 set firmly in the inside right side of elastic support 15, the C spring 17 and the elastic support 15 are integrally formed, the C spring 17 is connected with one tensioning guide wire 12 in a welding mode, the bolt taking head 18 is fixedly arranged at the right end opening of the conveying pipe 14, the bolt taking head 18 and the conveying pipe 14 are integrally formed, the conical block 19 is positioned on the right side in the bolt taking head 18, the conical block 19 is rotatably connected with the bolt taking head 18, the steering head 20 is fixedly arranged on the right side of the conical block 19, and the steering head 20 and the conical block 19 are integrally formed;

when in embolectomy, medical personnel firstly hold the control handle 1, then implant the delivery pipe 14 from the arteriovenous puncture point, then push the delivery pipe 14 to enable the embolectomy device to reach the thrombus part, and then can adjust the radial dimension of the embolectomy device according to the requirement, and the specific operation is as follows; walk on tiptoe knob shaft 7 is pulled outwards to make knob shaft 7 drive tooth clamping plate 8 slide forwards to separate from tooth clamping sleeve 6, when tooth clamping plate 8 is separated from tooth clamping sleeve 6, the rotary rotation and synchronization of knob shaft 7 are realized, medical personnel rotates knob shaft 7 to realize that knob shaft 7 drives winding wheel 11 to link and tension guide wire 12 to wind inside control handle 1, at this time, through the tightening action of tensioning guide wire 12, B spring 16 or C spring 17 can be driven to contract towards the rear end, synchronization, because B spring 16 and C spring 17 are respectively connected with elastic support 15, elastic support 15 can be compressed to realize that the radial dimension of elastic support 15 expands outwards, namely elastic support 15 forms a first bulge and a second bulge, when the radial dimension of elastic support 15 reaches the requirement of medical personnel, knob shaft 7 is pushed into tooth clamping sleeve 6, at the moment, the reset of the spring B16 and the spring C17 can be avoided through the mutual matching action of the tooth clamping sleeve 6 and the tooth clamping plate 8, the subsequent stable thrombus taking operation is facilitated, and the maximum grasping force and the safety during thrombus taking are ensured; meanwhile, in the process of pushing the conveying pipe 14 by medical personnel, because the blood vessels in the body of the patient are staggered, in order to facilitate the thrombus taking device to reach the thrombus position, when the steering head 20 reaches the narrow and staggered blood vessel regions, the medical personnel can press the motor switch 104 to realize the opening of the stepping motor 2, after the stepping motor 2 is started, the connecting shaft 3 is driven to drive the rotating guide wire 4 to synchronously rotate, namely the rotating guide wire 4 drives the steering plate 5 of the head port when rotating, so as to realize the rotation of the steering plate 5, because the steering plate 5 is attached to one side of the conical block 19, when the steering plate 5 rotates around the conical block 19, the angle of the conical block 19 can be changed, namely the conical block 19 drives the steering head 20 to rotate inside the thrombus taking head 18, at the moment, the direction of the steering head can be changed through the operation, so that the medical personnel can conveniently carry out adaptive adjustment aiming at different blood vessel conditions, finally, the thrombus device can conveniently and smoothly reach the thrombus area in the body of the patient;

the control handle 1 is also internally provided with a mounting cavity 101, and the mounting cavity 101 is a hollow cavity; it should be noted that the installation cavity 101 is for facilitating the placement of the stepping motor 2, the storage battery 102, the connecting shaft 3, the winding wheel 11, and the like;

a storage battery 102 is fixedly arranged on the left side inside the control handle 1, the storage battery 102 is connected with the stepping motor 2 through a wire, the storage battery 102 is connected with the control handle 1 through a bolt, a charging interface 103 is fixedly arranged on the left side of the control handle 1, the charging interface 103 is connected with the storage battery 102 through a wire, and the charging interface 103 is connected with the control handle 1 through a bolt; a motor switch 104 is fixedly arranged on the right side of the bottom of the control handle 1, the positive and negative poles of the motor switch 104 are respectively connected with the stepping motor 2 and the storage battery 102 through leads, and the motor switch 104 is connected with the control handle 1 through bolts; it should be noted that the storage battery 102 is for facilitating energy supply to the stepping motor 2, the charging interface 103 is for connecting an external power supply to charge the storage battery 102, and the motor switch 104 is for disconnecting and connecting a circuit between the storage battery 102 and the stepping motor 2, so as to facilitate control by medical staff;

an anti-falling groove 105 is further formed in the upper end of the control handle 1 from left to right, and the anti-falling groove 105 is a groove; two blocking covers 106 are fixedly arranged on the right side of the rear end of the control handle 1, and the blocking covers 106 and the control handle 1 are formed by hot melting and bonding; the anti-drop groove 105 improves the stability of the hand holding the control handle 1, and the blocking cover 106 protects the baffle plate 9, the A spring 10 and the knob shaft 7;

an I avoiding hole 141 is further formed in the right side inside the conveying pipe 14, and the I avoiding hole 141 is a rectangular through hole; a II avoiding hole 142 is further formed in the right side inside the conveying pipe 14, and the II avoiding hole 142 is a rectangular through hole; it should be noted that the I avoidance hole 141 and the II avoidance hole 142 are for avoiding the tensioned guide wire 12, so that the tensioned guide wire 12 extends out of the delivery tube 14 to connect the B spring 16 and the C spring 17, and the tensioned guide wire 12 drives the B spring 16 and the C spring 17 to perform contraction control;

in summary, firstly, through the design of the tension type expansion mechanism, the medical staff can conveniently regulate and control the radial size of the thrombus taking device to form a first bulge and a second bulge, so that the maximum grasping force and the safety during thrombus extraction are ensured; secondly through the electronic angle adjustment mechanism of operation rear end, realize the direction change of delivery tube head, make things convenient for medical personnel to adjust according to particular case, optimized the operation, the effectual burden that alleviates medical personnel finally passes through the aforesaid, has strengthened high efficiency, convenient and safety of peripheral arteriovenous thrombectomy operation greatly, has expanded clinical practicality, does benefit to popularization and application.

Claims

1. The adjustable peripheral blood vessel thrombus taking support assembly is characterized by comprising a control handle, a stepping motor, a connecting shaft, a rotary guide wire, a steering plate, a tooth clamping sleeve, a knob shaft, a tooth clamping plate, a baffle plate, a spring A, a winding wheel, a tensioning guide wire, a polymerization sleeve, a conveying pipe, an elastic support, a spring B, a spring C, a thrombus taking head, a conical block and a steering head, wherein the stepping motor is fixedly arranged at the middle end in the control handle, the connecting shaft is sleeved on the right side of the stepping motor, the rotary guide wire is fixedly arranged on the right side of the connecting shaft, the steering plate is fixedly arranged on a port at the right side of the rotary guide wire, the number of the tooth clamping sleeves is two, the tooth clamping sleeves are fixedly arranged at the upper end and the lower end of the right side of the control handle, the knob shaft penetrates through the upper end and the lower end of the right side in the control handle, the tooth clamping plate is sleeved at the front end of the knob shaft, the spring A is sleeved at the rear end of the knob shaft, the winding wheel is sleeved at the middle end of the knob shaft, the tensioning guide wire is wound on the winding wheel, the right side of the tensioning guide wire penetrates through the control handle, the polymerization sleeve is sleeved at the left sides of the outer sides of the rotary guide wire and the tensioning guide wire, the conveying pipe is fixedly arranged at the right side of the polymerization sleeve, the elastic support is sleeved at the right side of the conveying pipe, the elastic support is connected with the conveying pipe through an adhesive, the spring B is fixedly arranged at the left side in the elastic support, the spring B is integrally formed with the elastic support, the spring B is connected with one tensioning guide wire through welding, the spring C is fixedly arranged at the right side in the elastic support, the spring C is integrally formed with the elastic support, the spring C is connected with one tensioning guide wire through welding, and the bolt taking head is fixedly arranged at the port at the right side of the conveying pipe, the conical block is positioned on the right side in the bolt taking head, and the steering head is fixedly arranged on the right side of the conical block.

2. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein the control handle further comprises a lumen disposed therein.

3. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein a battery is further fixedly arranged at the left side inside the control handle, and the battery is connected with the stepping motor through a lead.

4. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein a charging interface is fixedly arranged on the left side of the control handle, and the charging interface is connected with a storage battery through a wire.

5. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein a motor switch is further fixedly arranged on the right side of the bottom of the control handle, and the positive electrode and the negative electrode of the motor switch are respectively connected with the stepping motor and the storage battery through leads.

6. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein the upper end of the control handle is further provided with an anti-falling groove from left to right.

7. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein two plugs are fixedly arranged on the right side of the rear end of the control handle.

8. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein the delivery tube is further provided with an I-avoidance hole at the inner right side thereof.

9. The adjustable peripheral vascular embolectomy support assembly of claim 1, wherein the inner right side of the delivery tube is further provided with a II avoidance hole.