CN208339565U

CN208339565U - Mechanical thrombus remove device

Info

Publication number: CN208339565U
Application number: CN201720783019.7U
Authority: CN
Inventors: 韩建超; 张琳琳; 丁双喜; 史增佐; 樊亚明; 李中华; 苗铮华
Original assignee: Minimally Invasive Medical Technology (shanghai) Co Ltd
Current assignee: Shanghai Lanmai Medical Technology Co ltd; Shanghai Minimally Invasive Heart Pulse Medical Technology Group Co ltd; Shanghai Microport Endovascular Medtech Co Ltd
Priority date: 2017-06-30
Filing date: 2017-06-30
Publication date: 2019-01-08
Anticipated expiration: 2027-06-30

Abstract

The utility model provides a kind of mechanical thrombus remove device, it is inhaled in the machinery thrombus remove device and ties system including suction means and inhale bolt pipe, the mode that suction based on the structure ties system offer negative pressure is different from the mode that the existing high speed rotation based on helical structure forms siphon and provides negative pressure mode, negative pressure needed for satisfaction inhales bolt can be formed without high speed rotation, to effectively reduce process revolving speed too fast the problem of causing temperature excessively high and seal wire is caused to be broken that existing helical structure forms negative pressure.In addition, it is two mutually independent systems that the suction of the utility model, which ties system and the broken system that ties, effectively avoid inhaling influencing each other for bolt and broken bolt process；Broken bolt process is carried out taking in bolt head, effectively reduces patient and the probability of blood urine and renal failure complication and the incidence of vascular puncture occurs.

Description

Mechanical thrombus remove device

Technical field

The utility model relates to the field of medical instrument technology, in particular to a kind of mechanical thrombus remove device.

Background technique

Lower limb deep venous thrombosis (deep venous thrombosis, DVT) be blood in deep veins of lower limb not It is normal to condense caused disease.DVT causes vein pressure to increase, obstruction of blood return, lower extremity swelling and distension, pain and function barrier occurs Hinder, exists simultaneously the risk of thrombus breaks loose, and thrombus breaks loose reaches pulmonary artery as blood flow impacts, and can cause pulmonary embolism (pulmonary embolism, PE).If DVT is not effectively treated in acute stage, thrombus organization, phlebemphraxis, valve function It can lose, vein reflux and venous hypertension form postthrombotic syndrome (post thrombosis syndrome, PTS), jeopardize Limbs existence, life-threatening safety.

By oral or injection aspirin, heparin or warfarin etc., drug can be made to enter hematological system, effectively dissolved The incidence of deep vein thrombosis and pulmonary embolism is greatly reduced in phlebothrombosis.At the same time, there is also significant for chemoprophylaxis treatment Limitation, for being easy hemorrhagic constitution, hemorrhagic diabetes, hemorrhagic apoplexy, nerve surgery, serious wound, thoracic cavity Situations such as hematocele, pelvis caused by intracranialing hemorrhage and fracture of lower limb, anticoagulation obstacle, is likely to result in serious body bleeding, jeopardizes Patient vitals.

Pipe thrombolysis (catheter-directed thrombolysis, CDT) is set, it can be by thrombolytic drug (such as urokinase Deng) orientation is transported to thrombi, effectively reduces thrombus load, the intravenous positive blood flow of early recovery releases or alleviates quiet Arteries and veins obstruction, protects vein valve form and function, and the pathologic process for blocking PTS to occur reduces the incidence of PTS.But CDT is treated DVT has that the thrombolysis time is long (average 53.4 hours thrombolysis time), will lead to long-time inlying catheter, increases patient's Sense of discomfort extends the hospital stays；It draws blood repeatedly, need monitoring and high-level nursing closely；Limb is seriously even jeopardized for swelling The case of body survival, is unfavorable for opening blood flow as early as possible；The bleeding risk of thrombolytic drug；CDT is not suitable for the high trouble of bleeding risk Person's (such as severe hypertension) is also unsuitable for patient after childbirth and pregnant.

Traditional surgery, which takes bolt to be suitable for the quite serious DVT of clinical symptoms again, cannot use the patient of thrombolytic drug. Its disadvantage is: vein thrombectomy is invasive operation, is unsuitable for the poor patient of ordinary circumstance；Take bolt that may destroy valve function Energy；There is remaining thrombus, wound complication easily occurs in further thrombolytic-anticoagulant.

With the development of technology, occur mechanical thrombus in recent years and remove (percutaneous mechanical Thrombectomy, PMT) device, it is one group and is used to remove the instrument that intravascular acute and subacute stent thrombosis is formed, and use is molten Solution crushes, Smoking regime removing Intravascular Thrombus, restores blood fortune circulation and valvular function.PMT is the chamber of minimally invasive (chu ā ng) wound Interior thrombus remove device can quickly remove thrombus, restore blood flow, save valvular function.

United States Patent (USP) US2014/0088610 A1 discloses a kind of structure of mechanical thrombus remove device, and the structure is by one Roots and tops have the conduit of multiple side openings, and catheter interior has an independent pipeline perfusion liquid and is arranged on pipeline top There are multiple apertures.When work, high pressure physiological saline is perfused inside independent tubes, sprays physiological saline in the aperture on pipeline top It shoots out, the physiological saline and catheter tip side opening of high speed injection cooperate generation Bernoulli effect to lead thrombus by side opening sucking In pipe, while the massive of sucking is smashed and is excreted by negative-pressure ward by the physiological saline of high speed injection, postoperative to go back Reduction residual thrombus can be reduced to intra-arterial infusion thrombolytic drug by conduit.The patent is solved Biochemical analyzer and row External problem out, but due to its design feature, the physiological saline of high speed injection can be sprayed by conduit side opening, be destroyed in blood Erythrocyte, and the erythrocyte that these are destroyed is not pumped to all external, is easy to happen blood urine, renal failure etc. simultaneously Send out disease；The physiological saline of high speed stimulates vascular wall, easily causes off one's dot；The channel of its postoperative perfusion thrombolytic drug and thrombus are taken out The channel of suction is same channel, is partially evacuated to the thrombus of conduit since drug infusion causes to be again introduced into vivo, reduction takes bolt to imitate Fruit.

WO2011/024124 A1 discloses a kind of mechanical thrombus remove device structure, which there are a roots and tops to have side It the conduit in hole and is formed positioned at the helical structure of catheter interior, forming negative pressure by the high speed rotation of helical structure when work will In the thrombus suction lead near conduit side opening, and the helical structure cuts the thrombus of sucking with the cooperation of conduit side opening It cuts, achievees the purpose that broken bolt, finally excrete thrombus.The device is solved since its broken bolt is carried out in catheter interior It the problem of blood urine, but helical structure revolving speed is too fast when it is due to its suction, easily leads to that conduit temperature is excessively high, seal wire fracture, causes Adverse reaction；Due to its design feature, thrombolytic drug can not be perfused by the device.

For the deficiency of existing mechanical thrombus remove device, those skilled in the art always search for the method solved.

Utility model content

It is mechanical in the prior art to make up use the purpose of this utility model is to provide a kind of mechanical thrombus remove device Deficiency existing for thrombus remove device.

In order to solve the above technical problems, the utility model provides a kind of mechanical thrombus remove device, the machinery thrombus is clear Except device includes

Bolt head is taken, it is described that bolt head is taken to connect by sheath with sheath pipe connections；

Broken to tie system, including rotation drive device, transmission tube and broken bolt knife, the proximal end of the transmission tube and the rotation are driven Dynamic device connection, distally connect with the broken bolt knife, the transmission tube is extended to along the lumen of the sheath pipe connections and sheath It is described to take in bolt head；Under the driving effect of the rotation drive device, the transmission tube rotates and drives the broken bolt knife rotation Turn, carries out broken bolt to the thrombus for taking bolt head has been sucked；And

Suction ties system, including suction means and suction bolt pipe, the proximal end for inhaling bolt pipe are connect with the suction means, distal end It is connect with the sheath pipe connections, the cavity formed between the transmission tube and the sheath connect to form suction with the suction bolt pipe Bolt lumen.

It optionally, further include Drug Infusion system in the mechanical thrombus remove device, the Drug Infusion system Including syringe and perfusion tube, the proximal end of the perfusion tube is connect with the syringe, the distal end of the perfusion tube and the biography Dynamic pipe connection, drug is via the transmission tube and described bolt head is taken to reach thrombi.

Optionally, in the mechanical thrombus remove device, the rotation drive device is a hollow shaft motor, described Hollow shaft motor is mounted on the outside of the transmission tube；Or

The rotation drive device includes: rotation motor, first gear and second gear, and the first gear is installed on institute It states the outside of transmission tube and is engaged with the second gear, the second gear is installed on the output shaft of the rotation motor.

Optionally, in the mechanical thrombus remove device, the suction means is peristaltic pump, and the suction bolt pipe is soft Pipe.

Optionally, in the mechanical thrombus remove device, the sheath pipe connections are three-cavity structure, the transmission tube Across the remote chamber and nearly chamber of the sheath pipe connections, the side chamber of the sheath pipe connections connects the distal end for inhaling bolt pipe, described Sheath pipe connections further include for sealing the sealing structure for inhaling bolt lumen.

Optionally, in the mechanical thrombus remove device, the distal end of the perfusion tube is via the sheath pipe connections It is connected to the transmission tube or the distal end of the perfusion tube is connected to via transmission tube tail end connector with the transmission tube.

Optionally, in the mechanical thrombus remove device, the transmission tube includes: the front end transmission being sequentially connected to Pipe, intermediate transmission pipe and tail end transmission tube, the broken bolt knife, which is fixed on the front end transmission tube and is placed in, described takes bolt head It is interior；The intermediate transmission tube capacity is placed in the sheath and sheath pipe connections；The tail end transmission tube and rotation driving fill Set connection.

Optionally, in the mechanical thrombus remove device, the intermediate transmission pipe is helix tube, in the helix tube It is additionally provided with inner tube, said inner tube covers the interconnecting piece of the helix tube Yu the front end transmission tube and the tail end transmission tube Position.

Optionally, in the mechanical thrombus remove device, the distal end of the transmission tube tail end connector passes through fixation The cooperation of cap and sealing ring is fixed on the transmission tube, the transmission tube tail end connector proximally by locking cap and sealing The distal end of the transmission tube, and the proximal end of the transmission tube tail end connector and the proximal end of the locking cap are fixed in the cooperation of ring It is provided with thread eye, the channel that the thread eye enters and leaves as seal wire and is connected to the transmission tube.

Optionally, in the mechanical thrombus remove device, the locking cap and the transmission tube tail end connector it Between there is the screw thread that matches, tightened along the screw thread by controlling the locking cap or unclamped to adjust closing for the thread eye It closes or opens.

Optionally, described to take bolt head for hollow member and with proximal end and far in the mechanical thrombus remove device End, the distal end for taking bolt head is conical camber structure and has an apical pore, and the proximal end for taking bolt head includes that at least one takes Bolt side opening.

Optionally, in the mechanical thrombus remove device, the broken bolt knife is tubulose engraved structure, including at least one A knife edge, the broken bolt knife are located at the inner cavity for taking bolt head, and the position of the knife edge and the position phase for taking bolt side opening It is corresponding.

Optionally, in the mechanical thrombus remove device, the distal end of the transmission tube includes the first side opening, and described the One side opening is matched with the inclined hole taken on bolt head, and the drug reaches blood via first side opening and the inclined hole Spigot position.

In mechanical thrombus remove device provided by the utility model, is inhaled in the machinery thrombus remove device and tie system Including suction means and bolt pipe is inhaled, the mode that the suction of the utility model ties system offer negative pressure is different from existing helical structure The mode that high speed rotation forms siphon provides negative pressure, negative pressure needed for satisfaction inhales bolt can be formed without high speed rotation, to have The existing helical structure of reduction of effect forms process revolving speed too fast the problem of causing temperature excessively high and seal wire is caused to be broken of negative pressure.This Outside, it is two mutually independent systems that the suction of the utility model, which ties system and the broken system that ties, effectively avoids inhaling bolt and broken bolt process Influence each other；Broken bolt process is carried out taking in bolt head, effectively reduce patient occur blood urine and renal failure complication probability and The incidence of vascular puncture.The utility model additionally uses independent Drug Infusion system, can in surgical procedure whenever Thrombolytic drug is perfused to diseased region, avoids the thrombus being pumped down in conduit and is again introduced into patient's body because of drug infusion The problem of.The utility model also to taking bolt head to improve, increases thrombolysis area, improves thrombolysis efficiency.The utility model also mentions Supplied collection perfusion thrombolytic drug, negative pressure inhale bolt, it is mechanical it is broken be bolted at integrated mechanical thrombus remove device, can substantially speed up and take bolt Process shortens operating time, mitigates patient suffering, the operation scope of application has also been enlarged.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of mechanical thrombus remove device in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram that bolt head is taken in an embodiment of the present invention；

Fig. 3 is in Fig. 2 along the diagrammatic cross-section in the direction A-A；

Fig. 4 is the structural schematic diagram of broken bolt knife in an embodiment of the present invention；

Fig. 5 is the diagrammatic cross-section of an embodiment of the present invention mesotheca pipe connections；

Fig. 6 is the diagrammatic cross-section of transmission tube tail end connector in an embodiment of the present invention；

Fig. 7 is the partial cutaway schematic of transmission tube in an embodiment of the present invention；

Fig. 8 is a kind of structural schematic diagram of rotation drive device in an embodiment of the present invention；

Fig. 9 is another structural schematic diagram of rotation drive device in an embodiment of the present invention.

In figure:

Mechanical thrombus remove device -1000；Peristaltic pump -1340；Hose -1310；Pump head -1320；Sheath -1120；Take bolt Head -1110；Apical pore -1111；Inclined hole -1112；Take bolt side opening -1113；Collection vessel -1330；Transmission tube -1270；First side opening- 1221；Fill orifice -1251；Front end transmission tube -1220, intermediate transmission pipe -1240；Tail end transmission tube -1250；Inner tube 1260；Rotation Rotary driving device -1140；Rotation motor -1141；First gear -1252；Second gear -1142；Transmission tube tail end connector- 1150；Broken bolt knife -1210；The knife edge -1211；Inspirator -1 180；Perfusion tube -1160；Check valve -1170；Sheath pipe connections- 1130；Positioning ring -1230；Locking cap -1131,1151；Sealing ring -1132,1152；Locking cap -1153；Sealing ring -1154；It leads Wire hole -1155.

Specific embodiment

Below in conjunction with the drawings and specific embodiments to the utility model proposes mechanical thrombus remove device make further it is detailed It describes in detail bright.According to following explanation and claims, will be become apparent from feature the advantages of the utility model.It should be noted that attached Figure is all made of very simplified form and using non-accurate ratio, only to convenient, lucidly aid illustration is originally practical new The purpose of type embodiment.

Herein " proximal end " and " distal end " is defined as: it is first in course of normal operation that " distal end " is often referred to the Medical Devices It is introduced into one end of patient's body, and " proximal end " typically refers to the Medical Devices and leans on the one of proximal operator in course of normal operation End.

Referring to FIG. 1, its structural schematic diagram for the mechanical thrombus remove device of the utility model.The mechanical thrombus Remove device 1000 include: take bolt head 1110, suction tie system and it is broken tie system, it is described that bolt head 1110 is taken to pass through sheath 1120 and sheath Pipe connections 1130 connect；It includes suction means and suction bolt pipe, the proximal end for inhaling bolt pipe and the absorption that the suction, which ties system, Device connection, distally connect with the sheath pipe connections, the cavity formed between the transmission tube and the sheath 1120 and institute It states to inhale bolt pipe and connect to be formed and inhales bolt lumen.

Wherein, in the present embodiment shown in inhale tie system in the suction means be peristaltic pump 1340, the suction bolt Pipe is hose 1310, additionally includes the collection vessel 1330 for collecting thrombus, distal end and the sheath of the hose 1310 The proximal end of pipe 1120 is connected to, and the proximal end of the hose 1310 is connected to the collection vessel 1330, the distal end of the sheath 1120 Bolt head 1110 is taken to be connected to described；Under the suction function that the peristaltic pump 1340 generates, the blood for taking bolt head 1110 to suck Bolt is transferred in the collection vessel 1330 through the sheath 1120, the hose 1310.Further, the peristaltic pump 1340 further include pump head 1320, and the hose 1310 is installed on pump head 1320, and under the rotation of the pump head 1320 drive Switch between squeezed state and nonextruding state.

Hose 1310 of the course of work of the peristaltic pump 1340 as being full of fluid with finger pinching one, with finger Forward slip tube fluid moves forward, and the peristaltic pump 1340 is also this principle only by pump head 1320 instead of finger. Hose 1310 is alternately squeezed and released by pump head 1320 to pump fluid, pump head 1320 squeezes hose 1310 When, with the movement of pump head 1320, hose 1310 forms negative pressure by own tension, and fluid flows under the action of negative pressure.This In embodiment, the fluid in hose 1310 is thrombus and/or blood.Using peristaltic pump as the source for generating negative pressure, for pump First 1320 rotation speed is of less demanding, and the high speed rotation compared to existing helical structure forms siphon to provide needed for aspirate thrombi Negative pressure for, greatly reduce to form temperature caused by the process of negative pressure, to avoid causing because temperature is excessively high seal wire disconnected The problem of splitting.The hose 1310 is preferably silicone tube；The collection vessel 1330 is preferably collecting bag.It is provided in the present embodiment The mode of negative pressure includes but is not limited to the mode based on peristaltic pump, and those skilled in the art can also use negative pressure drainage bag etc. Mode provides negative pressure to remove thrombus.

The broken system that ties includes: rotation drive device 1140, transmission tube 1270 and broken bolt knife 1210, the transmission tube 1270 proximal end is connect with the rotation drive device 1140, and the distal end of the transmission tube 1270 connects with the broken bolt knife 1210 It connects, the transmission tube 1270 extends to described take in bolt head 1110 along the lumen of the sheath pipe connections 1130 and sheath 1120； Under the driving effect of the rotation drive device 1140, the transmission tube 1270 rotates and the broken bolt knife 1210 is driven to revolve Turn, carries out broken bolt to the thrombus for taking bolt head 1110 has been sucked.

Wherein, Fig. 3 and Fig. 4 are please referred in the present embodiment, Fig. 4 is the structural schematic diagram of broken bolt knife.As shown in figure 4, described Broken bolt knife 1210 is tubulose engraved structure, and the broken bolt knife 1210 includes at least one knife edge 1211,1210, the broken bolt knife 1110 inner cavity of bolt head is taken in described, and the position of the knife edge 1211 is corresponding with the position for taking bolt side opening 1113.

In another embodiment of the utility model, the machinery thrombus remove device 1000 further includes drug infusion system System, the Drug Infusion system include syringe 1180 and perfusion tube 1160, proximal end and the injection of the perfusion tube 1160 Device 1180 connect, the distal end of the perfusion tube 1160 be connected to via the sheath pipe connections 1130 with the transmission tube 1270 or The distal end of the perfusion tube is connected to via transmission tube tail end connector with the transmission tube, is carried in the syringe 1180 molten Bolt drug via the transmission tube 1270 and it is described take bolt head 1110 reach thrombi, the thrombus of thrombi is softened Or dissolution.Preferably, Drug Infusion system further includes check valve 1170, and the check valve 1170 is set to the perfusion tube 1160 On, to control the circulating direction for conveying liquid in the perfusion tube 1160.The distal end of the perfusion tube is connected via the sheath Part is connected to the transmission tube or the distal end of the perfusion tube is connected to via transmission tube tail end connector with the transmission tube.

Referring to FIG. 6, Fig. 6 is the diagrammatic cross-section of transmission tube tail end connector.As shown in fig. 6, in order to ensure the biography The stability and leakproofness that dynamic pipe 1270 extends and is fixed in the transmission tube tail end connector 1150, pass through locking cap 1151 The distal end of the transmission tube tail end connector 1150 is fixed on the transmission tube 1270 by the cooperation with sealing ring 1152；And lead to The proximal end of the transmission tube tail end connector 1150 is locked in described by the cooperation for crossing locking cap 1153 and sealing ring 1154 Outside the end of transmission tube 1270.The proximal end of the transmission tube tail end connector 1150 and the proximal end of the locking cap 1153 are respectively provided with There is a thread eye 1155, the channel that the thread eye 1155 enters and leaves as seal wire and is connected to the transmission tube 1270.Preferably, institute It states and is screwed between locking cap 1153 and the transmission tube tail end connector 1150 by what is matched, by controlling the lock Tight cap 1153 is tightened or is unclamped to adjust closing or opening for the thread eye 1155.When the locking cap 1153 is tightened, The thread eye 1155 is closed, and seals the end of the transmission tube 1270；It is described to lead when the locking cap 1153 unclamps Wire hole 1155 is opened and seal wire is allowed to enter and leave.

As shown in fig. 6, extending on the transmission tube 1270 in the transmission tube tail end connector 1150 has at least One fill orifice 1251, the fill orifice 1251 enter the path of transmission tube 1270 as the thrombolytic drug in perfusion tube 1160.

Suction in the mechanical thrombus remove device 1000 of the utility model ties system, broken ties system and Drug Infusion system is each From workflow it is specific as follows.

Inhale the suction bolt process for tying system are as follows: suction means (being peristaltic pump 1340 in this implementation) generation negative pressure → take bolt head It (is soft in this implementation that 1110 body cavity → thrombus that aspirate thrombi → thrombus enters sheath 1120 under the action of negative pressure, which pass through suction bolt pipe, Pipe 1310) the collection thrombus of → collection vessel 1330.

The broken broken bolt process for tying system are as follows: the broken bolt knife of 1140 work of rotation drive device → 1270 rotations of transmission tube → drive 1210 rotations → take the thrombus of bolt head to carry out broken bolt sucking.

The workflow of Drug Infusion system are as follows: thrombolytic drug → 1160 → transmission tube of perfusion tube is injected in syringe 1180 1270 → take bolt head 1110 → arrival thrombi to soften or dissolve thrombus.

The mechanical thrombus remove device collection drug infusion of the utility model, aspirate thrombi, it is mechanical it is broken be bolted at one, in conjunction with each Thrombolytic drug known to the process of a system is irrigated by the cavity (i.e. transmission tube) independently of aspirate thrombi (sheath), therefore Can while broken bolt and aspirate thrombi or before, thrombolytic drug is poured at thrombus, so that thrombolysis or softening, will use up Acute, the subacute stent thrombosis of blocking blood vessel more than possible are pumped in vitro, and not will lead to thrombus and be again introduced into blood because of perfusion In pipe, reduction takes bolt effect.Further, it is also possible to after broken bolt and aspirate thrombi in the blood vessels by thrombolytic drug perfusion, it will A small amount of remaining thrombolysis, reduces the recurrence rate of thrombus.

In the present embodiment, the specific structure of the rotation drive device 1140 includes but is not limited to following two.

Configuration one: as shown in figure 8, the rotation drive device 1140 is a hollow shaft motor, the hollow shaft motor peace Mounted in the outside of the transmission tube 1270, in other words, the hollow shaft motor is using transmission tube 1270 as rotary shaft, in the sky When spindle motors are run, the transmission tube 1270 is driven to be rotated, and then drives the distal end for being fixed on transmission tube 1270 The broken bolt knife 1210 rotate, broken bolt is carried out to the thrombus around the broken bolt knife 1210.

Configuration two: as shown in figure 9, the rotation drive device 1140 include: rotation motor 1141, first gear 1252 and Second gear 1142, the first gear 1252 be installed on 1270 outside of the transmission tube (be equivalent to using transmission tube 1270 as The axis of first gear 1252) and engaged with the second gear 1142, the second gear 1142 is installed on the rotation motor On 1141 output shaft.When the rotation motor 1141 works, output shaft rotation drives the second gear 1142 to do therewith and revolves Transhipment is dynamic, due to engaging for the first gear 1252 and the second gear 1142, the first gear 1252 is in institute It states and is also rotated under the transmitting effect of second gear 1142, and then the transmission tube 1270 is driven to be rotated, To drive the broken bolt knife 1210 for the distal end for being fixed on the transmission tube 1270 to rotate, bolt head 1110 and position are taken to having entered Thrombus around the broken bolt knife 1210 carries out broken bolt.

Fig. 1 and Fig. 5 are please referred to, Fig. 5 is the diagrammatic cross-section of sheath pipe connections.The sheath pipe connections 1130 are three chamber knots Structure, including remote chamber, nearly chamber and side chamber, the transmission tube 1270 pass through remote chamber and nearly chamber (the i.e. institute of the sheath pipe connections 1130 State medium of the transmission tube 1270 using the sheath pipe connections 1130 as the lumen for entering the sheath 1120), the sheath connects The side chamber connection of fitting 1130 distal end for inhaling bolt pipe (being hose 1310 in Fig. 1).The sheath pipe connections 1130 are as each The medium that a system (take and tie system, broken tie system, Drug Infusion system) is connected to the sheath 1120, the work of similar connector With.In the present embodiment, it takes to tie and unite with the broken system that ties through the connection of sheath pipe connections 1130, it is broken to tie system and drug infusion system It unites and is connected by transmission tube tail end connector 1150, but skilled person will appreciate that above-mentioned connection type is only a kind of preferred Connection type, take and tie system and broken system and the Drug Infusion system of tying and can all be connected by sheath pipe connections 1130.

As shown in figure 3, the transmission tube 1270 is hollow tubular structure, the body cavity of the transmission tube 1270 is as seal wire The perfusion path of transport path and thrombolytic drug.The distal end of the transmission tube 1270 includes the first side opening 1221, first side Hole 1221 is matched with the inclined hole 1112 taken on bolt head 1110, and the drug is via first side opening 1221 and institute It states inclined hole 1112 and reaches thrombi.

As shown in figure 5, the sheath pipe connections 1130 further include for seal inhale bolt lumen (the i.e. described transmission tube with it is described The cavity formed between sheath with it is described suction bolt pipe connect the lumen to be formed) sealing structure, the sealing structure include fix Cap 1131 and sealing ring 1132 will extend through the sheath pipe connections by the cooperation of locking cap 1131 and sealing ring 1132 1130 transmission tube 1270 is fixed on the sheath pipe connections 1130.

In the present embodiment, the transmission tube 1270 includes: the front end transmission tube 1220 being sequentially connected to, intermediate transmission pipe 1240 And tail end transmission tube 1250, the broken bolt knife 1210, which is fixed on the front end transmission tube 1220 and is placed in, described takes bolt head It is interior；The intermediate transmission pipe 1240 is placed in the sheath 1120 and sheath pipe connections 1130；The tail end transmission tube 1250 It is connect with the rotation drive device 1140.Specifically, at least one described first side opening 1221 is opened in front end transmission tube In 1220 circumferential direction；At least one described fill orifice 1251, which is opened in, to be extended and is fixed on the transmission tube tail end connector 1150 On interior remainder tail end transmission tube 1250.Wherein, the front end transmission tube 1220 is preferably a fixing pipe, for transmitting rotation Transhipment is dynamic；The intermediate transmission pipe 1240 be a helix tube, the helix tube can bending deformation to a certain extent, alleviate through tail The rotating force for holding transmission tube 1250 to transmit, avoids tube body from being broken.It is close between 1270 each sections of tube bodies of transmission tube in order to increase Feng Xing is additionally provided with inner tube 1260 in the helix tube, and said inner tube 1260 covers the helix tube and the front end transmission tube 1220 and the tail end transmission tube 1250 connecting portion (specifically referring to Fig. 7).

Please refer to Fig. 2 and Fig. 3, described bolt head 1110 is taken to be hollow member and have proximally and distally, the bolt head that takes Proximal end includes that at least one takes bolt side opening 1113, it is preferred that the proximal end structure annular in shape for taking bolt head 1110；It is described to take bolt The distal end of head is conical camber structure and has at least one inclined hole 1112 and an apical pore 1111.Wherein, described to take bolt side opening 1113 enter as thrombus and take path in bolt head 1110；Wherein, the broken bolt knife 1210 takes the interior of bolt head 1110 positioned at described Chamber, and the position of the knife edge is corresponding with the position for taking bolt side opening 1113.The inclined hole 1112 and the apical pore 1111 As it is described take bolt head perfusion thrombolytic drug path, compared with only from apical pore 1111 to thrombus convey thrombolytic drug, multiple inclined holes 1112 can effectively increase the contact area of thrombolytic drug and thrombus.The inclined hole 1112 is by favouring conical camber structure The direction on surface punches to be formed, compared to perpendicular to conical camber body structure surface direction punching for, increase be perfused it is molten The area that bolt drug is contacted with thrombus improves thrombolysis efficiency.

With continued reference to FIG. 3, the sheath 1120 takes bolt head 1110 to connect by positioning ring 1230 with described, the positioning Ring 1230 is hollow tubular structure, and the positioning ring 1230 is sleeved and fixed the outside in the transmission tube 1270 and closes on described broken Bolt knife 1210, to limit the position of the broken bolt knife 1210.Wherein, the sheath 1120 is single layer tubing or multi-layered composite pipe Material.It include wire sheathing in layer structure when the sheath 1120 is MULTILAYER COMPOSITE tubing.

In preparing the present embodiment when all parts of mechanical thrombus remove device, each component can be added by machinery The processing methods production such as work, injection molding (extrusion) molding and/or laser engraving；Laser can be used in being fixedly connected between different components The mode of welding or glue bonding, such as the front end transmission tube 1220, the intermediate transmission pipe 1240 and tail end transmission Transmission tube 1270 is successively welded to form by laser between pipe 1250, the broken bolt knife 1210 is fixed on described by laser welding On front end transmission tube 1220, the hose is mounted on the sheath pipe connections 1130 by glue bonding.Due to not being related to pair The improvement of technical solutions of the utility model, does not repeat excessively herein.

In order to be better understood from the mechanical thrombus remove device of the utility model, mechanical blood is elaborated below with reference to Fig. 1 The process that bolt remove device 1000 is applied, detailed process is as follows:

It before operation starts, takes bolt head to be placed in physiological saline mechanical thrombus remove device 1000, starts peristaltic pump Stop peristaltic pump when visible physiological saline into collection vessel 1330, syringe 1180 is connected on check valve 1170, so that Syringe 1180 and perfusion tube 1160 connect, and start to be pumped to visible physiological saline in syringe 1180 and stop suction, excavator Air in tool thrombus remove device 1000；

In surgical procedure, mechanical thrombus remove device 1000 is transported to lesion (blood along seal wire (another purchase) by puncture vessel Bolt) position, locking cap is screwed, syringe 1180 aspirates thrombolytic drug (such as urokinase) afterwards with 1170 connection of check valve, presses Syringe 1180, thrombolytic drug by perfusion tube 1160 reach the inside of transmission tube tail end connector 1150 and from fill orifice 1251 into Enter 1270 inner cavity of transmission tube, then passes sequentially through 1250 inner cavity of tail end transmission tube, 1240 inner cavity of intermediate transmission pipe, front end transmission tube 1220 inner cavities, and by the first side opening 1221, take the apical pore 1111 and inclined hole 1112 of bolt head after reach lesion (thrombus) position, Thrombolytic drug carries out softening or thrombus to thrombus after contacting with thrombus；About after ten minutes, start rotation drive device 1140, drive broken bolt knife 1210 to be rotated by transmission tube 1270；Subsequent start-up peristaltic pump is being extruded by hose 1310 When suction 1120 inner cavity of sheath be formed by suction function, by thrombus by take bolt side opening 1113 sucking take inside bolt head 1110, The knife edge 1211 of rotation takes the cooperation of bolt side opening 1113 to take the thrombus inside bolt head 1110 to shred sucking with fixed, then passes through The thrombus of chopping is sucked out external and is delivered in collection vessel 1330 by the negative pressure that peristaltic pump 1340 provides.It, can in surgical procedure It is moved forward and backward mechanical thrombus remove device 1000 along seal wire according to the specific location of Intravascular Thrombus, raising takes bolt efficiency；Meanwhile Thrombolytic drug can be fed by thrombi by syringe 1180 at any time as needed.

After Biochemical analyzer, rotation drive device 1140 is closed, is then turned off peristaltic pump, together by all devices finally Withdraw from human body.

To sum up, mechanical thrombus remove device has the advantages that

(1) mode that the high speed rotation that the mode that suction ties system offer negative pressure is different from existing helical structure forms siphon mentions For negative pressure, negative pressure needed for satisfaction inhales bolt can be formed without high speed rotation, is formed to effectively reduce existing helical structure The process revolving speed of negative pressure too fast the problem of causing temperature excessively high and seal wire is caused to be broken；

(2) collection perfusion thrombolytic drug, negative pressure suction bolt, machinery are broken is bolted at one, while can be significant using these types of mode Acceleration takes bolt process, shortens operating time, mitigates patient suffering；

(3) facilitate doctor according to selected in the course of surgery the case where patient one or more of them mode combine take bolt, Expand the scope of application of mechanical thrombus remove device；

(4) therefore the perfusion of thrombolytic drug can performed the operation using the lumen independently of the transmission tube except aspirate thrombi Journey whenever to diseased region be perfused thrombolytic drug, avoid the thrombus being sucked up to take in bolt head due to drug infusion The problem of being again introduced into patient's body；

(5) broken bolt is carried out inside bolt head taking, and avoids the destruction to cell in blood, greatly reduces patient and blood urine occurs And the probability of renal failure complication；

(6) broken bolt knife is located at the inner cavity for taking bolt head, can effectively reduce the incidence of vascular puncture.

Foregoing description is only the description to the utility model preferred embodiment, not to any limit of the scope of the utility model Fixed, any change, the modification that the those of ordinary skill in the utility model field does according to the disclosure above content belong to right and want Seek the protection scope of book.

Claims

1. a kind of machinery thrombus remove device characterized by comprising

Broken to tie system, including rotation drive device, transmission tube and broken bolt knife, the proximal end of the transmission tube and rotation driving fill Connection is set, is distally connect with the broken bolt knife, the transmission tube extends to described along the lumen of the sheath pipe connections and sheath It takes in bolt head；Under the driving effect of the rotation drive device, the transmission tube rotates and drives the broken bolt knife rotation, right It has sucked the thrombus for taking bolt head and has carried out broken bolt；And

Suction ties system, including suction means and inhales bolt pipe, and the proximal end for inhaling bolt pipe is connect with the suction means, distally with institute The connection of sheath pipe connections is stated, the cavity formed between the transmission tube and the sheath, which connect to be formed with the suction bolt pipe, inhales bolt pipe Chamber.

2. machinery thrombus remove device as described in claim 1, which is characterized in that it further include Drug Infusion system, the medicine Object be perfused system include syringe and perfusion tube, the proximal end of the perfusion tube is connect with the syringe, the perfusion tube it is remote End be connected to the transmission tube, drug via the transmission tube and it is described take bolt head arrival thrombi.

3. machinery thrombus remove device as described in claim 1, which is characterized in that the rotation drive device is a hollow shaft Motor, the hollow shaft motor are mounted on the outside of the transmission tube；Or

The rotation drive device includes: rotation motor, first gear and second gear, and the first gear is installed on the biography It moves the outside of pipe and is engaged with the second gear, the second gear is installed on the output shaft of the rotation motor.

4. machinery thrombus remove device as described in claim 1, which is characterized in that the suction means is peristaltic pump, described Suction bolt pipe is hose.

5. machinery thrombus remove device as described in claim 1, which is characterized in that the sheath pipe connections are three-cavity structure, The transmission tube passes through the remote chamber and nearly chamber of the sheath pipe connections, and the side chamber of the sheath pipe connections connects the suction bolt pipe Distally, the sheath pipe connections further include for sealing the sealing structure for inhaling bolt lumen.

6. machinery thrombus remove device as claimed in claim 2, which is characterized in that the distal end of the perfusion tube is via the sheath Pipe connections are connected to the transmission tube or the distal end of the perfusion tube is via transmission tube tail end connector and the transmission tube Connection.

7. machinery thrombus remove device as described in claim 1, which is characterized in that the transmission tube includes: sequentially to be connected to Front end transmission tube, intermediate transmission pipe and tail end transmission tube, the broken bolt knife are fixed on the front end transmission tube and are placed in institute It states and takes in bolt head；The intermediate transmission tube capacity is placed in the sheath and sheath pipe connections；The tail end transmission tube and the rotation Rotary driving device connection.

8. machinery thrombus remove device as claimed in claim 7, which is characterized in that the intermediate transmission pipe is helix tube, institute It states and is additionally provided with inner tube in helix tube, said inner tube covers the helix tube and the front end transmission tube and the tail end transmission tube Connecting portion.

9. machinery thrombus remove device as claimed in claim 6, which is characterized in that the distal end of the transmission tube tail end connector Be fixed on the transmission tube by the cooperation of locking cap and sealing ring, the transmission tube tail end connector proximally by locking The distal end of the transmission tube, and the proximal end of the transmission tube tail end connector and the locking are fixed in the cooperation of cap and sealing ring The proximal end of cap is provided with thread eye, the channel that the thread eye enters and leaves as seal wire and is connected to the transmission tube.

10. machinery thrombus remove device as claimed in claim 9, which is characterized in that the locking cap and the transmission tube tail There is the screw thread matched between end connection, tightened by the control locking cap along the screw thread or unclamp is described to adjust Thread eye closes or opens.

11. machinery thrombus remove device as described in claim 1, which is characterized in that described to take bolt head for hollow member and tool Have proximally and distally, the distal end for taking bolt head is conical camber structure and has an apical pore, and the proximal end for taking bolt head includes At least one takes bolt side opening.

12. machinery thrombus remove device as claimed in claim 11, which is characterized in that the broken bolt knife is tubulose hollow out knot Structure, including at least one knife edge, the broken bolt knife is located at the inner cavity for taking bolt head, and the position of the knife edge takes bolt with described The position of side opening is corresponding.

13. machinery thrombus remove device as claimed in claim 2, which is characterized in that the distal end of the transmission tube includes first Side opening, first side opening are matched with the inclined hole taken on bolt head, and the drug is via first side opening and institute It states inclined hole and reaches thrombi.