CN205359560U - Blood vessel thrombectomy device and thrombus therapeutic instrument with helical structure - Google Patents

Abstract

The utility model relates to a blood vessel thrombectomy device and thrombus therapeutic instrument with helical structure, thrombectomy ware be including the ring that develops, the circle and setting up at the development ring sum thrombectomy ware between the circle that develops of developing, and the thrombectomy ware includes that the network management of compriseing the grid cell of a plurality of mutual hookups describes or cage -like structure, netted or cage -like structure is openly, and its side has axial clearance, axial clearance along netted or cage -like structure surface helical extension. The thrombus therapeutic instrument including the vascular thrombectomy device, protection scabbard pipe that have helical structure, carry silk, little pipe, guiding catheter and rotatory hemostasis valve, little pipe is along the guiding catheter propelling movement to thrombus stopper department in guiding catheter, the protection scabbard pipe communicates through rotatory hemostasis valve and little pipe each other, the thrombectomy ware is placed at protection scabbard intraductally, by carrying the silk propelling movement to the pipe a little in. The utility model discloses the compliance is good, and the thrombectomy ware can or reach the thinner blood vessel of distal end through crooked blood vessel, and it is minimum to cause the damage to fall to to the vascular wall.

Description

A kind of taking thrombus device with helical structure and thrombus treating apparatus thereof

Technical field

This utility model relates to a kind of taking thrombus device with helical structure and uses the thrombus treating apparatus of this device, specifically, particularly to a kind of medical apparatus and instruments getting involved blood vessel, for when acute ischemic stroke occurs, eliminating mechanically and be blocked in endovascular thrombosis to reach the Therapeutic Method of instant recovery blood flow, what be particularly suited for intracranial vessel takes bolt.

Background technology

Cerebral infarction is once occur, it is necessary within the shortest time, (effective time window) makes revascularization.At present, the Therapeutic Method of Intracranial thrombus mainly has two kinds: medicine thrombolytic and machinery take bolt.

Medicine thrombolytic is with thrombus by intravenous injection rt-PA (tissue-type plasminogen activator) or urokinase, it is possible to by intra-arterial contact thrombolysis, antiplatelet aggregation and anticoagulant treatment etc..Although thromboembolism treatment has been shown to improve preferably neurological outcome, but, according to US National sacred disease and apoplexy institute (TheNationalInstituteNeurologicalDisordersandStrokert-PAS trokeStudyGroup, NINDS) research is thought, intravenous thrombolysis should carry out within falling ill 3 hours, Arterial thrombolysis time window should within 6 hours, and the patient that so short thrombolytic time window causes only 4.5%-6.3% can accept thromboembolism treatment；Secondly, thromboembolism treatment is suitable only for the thrombosis of small volume, and the therapeutic effect of large volume thromboembolism is unsatisfactory；And, thrombolytic drug is had anaphylaxis by some patients, is not suitable for thromboembolism treatment.

In order to solve the problem of said medicine thrombolytic, for exceeding thrombolytic time window and not tolerating the patient of thromboembolism treatment, adopt machinery to take bolt and remove the thrombosis of blocking.In the prior art, it has been disclosed that machinery as described below takes pin device:

In the utility model patent that the patent No. is CN104000635A " take bolt device and take pin device " that China announces, have and multiple stretch into the cancellated intraluminal interior female rod with three-D profile, tube chamber is fixed at its two ends, in removal process after catching thrombosis, it is possible to by interior female rod fix blood bolt.

The utility model patent " for removing the device of thrombosis from blood vessel " that the patent No. disclosed in China is CN101340849A, by a caged or tubular structure, one distal member with the fiber extended radially out is taken in wherein, and safely eliminate thrombosis from Ink vessel transfusing under the help of fiber.

In the utility model patent " Intravascular Thrombus and embolus resectoscope " that the patent No. disclosed in China is CN101396295A; there is the thrombectomy device of a thrombectomby spring and the basket in contraction or release conditions; basket is positioned at the far-end of thrombectomy device; arrest thrombosis by the winding of thrombectomby spring, and take out to protect the far-end of blood vessel with basket together with thrombosis fragment by taking the clot of generation in bolt process.

In the utility model patent that the patent No. is CN102316809A " endovascular thrombosis grabber " that China announces, having the line main body haunted freely and be located at the thrombosis capture portion of its front end, the motion of the elastica circle body by being erected between fixed part and movable part removes, to catch, the thrombosis being attached to blood vessel wall.

In the utility model patent " device for removal of thromboses " that the patent No. disclosed in China is CN101035474A, there is the guide wire that a far-end is equipped with the fiber component of an orthohormbic structure, from body cavity and blood vessel, take out foreign body and thrombosis by the motion before and after it.

In the utility model patent that the patent No. is CN102014772A " method and apparatus for restoration of blood flow " that China announces, have a self expandable taper overlay structure by the cancellated parts of interconnective line or filament or pillar, by microtubular with push after wire is introduced into inaccessible blood vessel self expandable to recover blood flow.

In the utility model patent " for treating the system and method for cerebral infarction " that the patent No. disclosed in China is CN101027004A, there is guiding and occlusion catheter, conveying and draw catheter, lift suction pump, thromboembolic receiver and thromboembolic separator, lift suction pump passes through draw catheter by Biochemical analyzer to thromboembolic receiver, thus withdrawing from external.

In the utility model that the patent No. is ZL200620164685.4 " taking bolt device " of China's bulletin, there is the umbrella of the three-jaw short by two length one of elastic memory function, with periphery have net formed a circular configuration take pin device, by drawing push-pull bar to make three-jaw close up outward, thrombosis pocket is recovered in trocar sheath in umbrella portion, thrombosis is taken out.

In the utility model patent that the patent No. is US7931659B2 " SystemandMethodforTreatingIschemicStroke " of U.S. Publication, there is a receptor being surrounded into hollow tubular by many filaments being fixed on an elongated extension tube end, by extension tube, receptor is placed in blood vessel embolism position, and thrombosis taken in the intracavity of receptor hollow and takes out external.

In the utility model patent that the patent No. is US2006/0047286A1 " ClotRetrieverDevice " of U.S. Publication, there is one and be fixed on the expansible of pusher end and the recovery basket shunk, it has a tinsel that can pass through to be fixed on basket end control the uncovered in order to be caught in basket by thrombosis of opening and closing.

In the utility model patent that the patent No. is US2002/0049452A1 " ClotRetrieverDevice " of U.S. Publication, have one or more be fixed on slender conduit can in compression element movable have a shape memory take latch, after being transported to thromboembolism position by slender conduit, take in latch is flared out thrombosis is caught and is wrapped in.

In the utility model patent that the patent No. is US2009/0240238A1 " ClotRetrievalMechanism " of U.S. Publication, have one be fixed on a slender axles end can the snare of self-expanding and an attached to it folding sack being made up of flexible non-porous material, by slender axles, device is placed in thromboembolism position along internal passage, opens sack by thrombosis bag in the inner.

Various machineries described above take pin device, all there is open defect: when thrombosis cannot be looked at straight, the catching device of basket or web form tends not to entangle blood clot and causes taking bolt failure, and its volume is often excessive, cannot use in the cerebral arterieies such as thinner middle cerebral artery M1, M2 section of blood vessel diameter, when catching recovery after thrombosis, thrombosis is fixed insecure, it is easy to come off；Although although the pin device that takes having solves the problem of thrombus breaks loose, but its structure is complicated, the interior female rod structure for fixing thrombosis of increase makes the compliance taking pin device overall greatly reduce, so as to tortuous intracranial vessel can not be passed through.

On the other hand, although it is safe that the mode of existing negative pressure absorbing takes bolt, but only that relatively soft thromboembolism is effective by drawing removal；In order to strengthen drawing effect, adopt rotating blade or resectoscope fragmentation thrombosis, although this rotating blade feature improves the effect of this aspiration technique, but considerably increased the risk that blood vessel wall is caused damage；Although laser and ultrasound wave are cleaning and the effective energy, but such as misoperation, very easily peripheral vessels are caused damage, and energy is too low then invalid, too high then injured blood vessel, therefore it is difficult to determine that giving how high-octane laser intensity can be only achieved optimum curative effect.

Accordingly, it would be desirable to prior art is further improved, it is desirable to the intracranial vessel designing a kind of improvement takes bolt device, one, and volume should be sufficiently small, compliance should be enough good, so that device can enter the distal vessels that intracranial is thinner；Its two, capture rate is high, and thrombosis is grip good, fixation in taking bolt removal process, difficult drop-off；Its three, radially support force is little, and blood vessel wall and Peripheral Vascular Injuries is little.

Utility model content

Technical problem to be solved in the utility model is in that, a kind of taking thrombus device with helical structure and thrombus treating apparatus thereof are provided, take bolt utensil and have the open architecture that helically formula rises, take during bolt the chucking power of thrombosis is sufficiently large, take thrombosis in bolt process and do not slip；Folding property is good, and compliance is high, takes bolt device and can pass through curved blood vessel or arrive the blood vessel that far-end is thinner；Radially support force is little, takes in bolt process and causes damage to be preferably minimized blood vessel wall and peripheral vessels.

This utility model is realized in, a kind of taking thrombus device with helical structure is provided, can be used for intracranial, cervical region, take bolt device and include being positioned at the developing ring of its near-end, its far-end development circle and be arranged on developing ring and development circle between take bolt device, described take webmaster shape or the cage structure that bolt device includes being made up of multiple unit grids being coupled to each other, each described unit grid by interconnective muscle around forming, this webmaster shape or cage structure can be collapsed folding under pressure and have self-expanding recovery capability in a free state, and, this webmaster shape or collapsing of cage structure fold and expand and can mutually change without difficulty；Described netted or cage structure is open, and its side has axial clearance, and described axial clearance is along netted or cage structure outer surface spiral extension.This device can be used for human vas, and other adapts to position.

Further, described in take the unit grid of bolt device and be incremented by one by one in the vertical, described axial clearance) spiral helicine starting point and ending point axial-rotation one week.

Further, described in take bolt device unit grid each two in the vertical be incremented by, the spiral helicine starting point and ending point of described axial clearance is at axial-rotation half cycle.

Further, described in take the unit grid of bolt device in the vertical every three be incremented by, the spiral helicine starting point and ending point of described axial clearance was axial-rotation 1/4th weeks.

Further, described in take bolt device there is oblong shape or oblong shape under self-expanding state, its length range is between 5 millimeters to 60 millimeters, and its diameter range is between 2 millimeters to 6 millimeters.

Further, the ratio of the length of described unit grid and height is more than 1 and less than 2.

Further, the proximal end taking bolt device described under self-expanding state is arranged to pyramidal structure, its proximate expand gradually, and its tapering is 30 ° to 60 °.

Further, the surface-coated taking bolt device described in has the coating containing anticoagulant or antiplatelet drug.

Further, described developing ring and development circle all by can be visual under X ray material make.

Further, described developing ring and development circle are connected with taking bolt device by modes such as welding or crimp or be cementing.

Further, take bolt device described in be made up of shape-memory material.

The invention also discloses a kind of thrombus treating apparatus, employ the aforesaid taking thrombus device with helical structure, this therapeutic instrument also includes protection sheath pipe and conveying silk, and/or microtubular, and/or guiding catheter, the external diameter of described protection sheath pipe is less than the internal diameter of guiding catheter, the external diameter of described microtubular is less than the internal diameter of protection sheath pipe, described protection sheath pipe is placed in guiding catheter, described microtubular is placed in protection sheath pipe, the described bolt device that takes is placed in protection sheath pipe, or it is placed in microtubular, described conveying silk one end couples with the developing ring taking bolt device near-end, the conveying of described conveying silk takes bolt device.

Further, described conveying silk is made up of the soft tinsel with certain rigidity.

Further, described protection sheath pipe is made up of polymeric material.

Compared with prior art, taking thrombus device with helical structure of the present utility model and thrombus treating apparatus thereof provide the benefit that: can be greatly improved the chucking power to thrombosis by taking the design of bolt device spiral fold in the axial direction, make to take bolt device, whole taking, bolt process can be helically wrapped around whole thrombosis, greatly reduce the risk of thrombus breaks loose；And due to open design so that taking bolt device folding property good, overall compliance is enough good；Structurally, it does not have increase extra parts, this purpose can just be reached only by change shape, it is easy to processing.

Accompanying drawing explanation

Fig. 1 is the structural representation of the thrombus treating apparatus of the blood vessel with helical structure of the present utility model；

The bolt device that takes that Fig. 2 is in Fig. 1 is accommodated in the viewgraph of cross-section protected in sheath pipe；

Fig. 3 is the schematic perspective view taking bolt device of the present utility model；

Fig. 4 is the expansion schematic diagram taking bolt device first embodiment of Fig. 3, and wherein the spiral of unit grid is incremented by one by one；

Fig. 5 be Fig. 4 take the schematic perspective view that bolt device is under free state, the helical structure of its axial clearance rotates a circle；

Fig. 6 is the expansion schematic diagram taking bolt device the second embodiment of Fig. 3, and wherein the spiral each two of unit grid is incremented by；

Fig. 7 be Fig. 6 take the schematic perspective view that bolt device is under free state, the helical structure half revolution of its axial clearance；

Fig. 8 is the expansion schematic diagram taking bolt device the 3rd embodiment of Fig. 3, and wherein every three of the spiral of unit grid is incremented by；

Fig. 9 be Fig. 8 take the schematic perspective view that bolt device is under free state, the helical structure of its axial clearance rotates 1/4th weeks；

Figure 10 is the size relationship schematic diagram of the unit grid of Fig. 4.

Detailed description of the invention

In order to make technical problem to be solved in the utility model, technical scheme and beneficial effect clearly understand, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain this utility model, be not used to limit this utility model.

In terms of the present utility model, " far-end " and " near-end " is appreciated that and observes from the direction of the doctor in charge.Far-end is remote from the side of the doctor in charge, and it relates to the parts of this utility model device being advanced in vascular system further, and near-end represents towards the doctor in charge, i.e. it is not far that the nearside arrangement component of this device is introduced in blood vessel.

In this utility model, if phrase " longitudinal direction " is with in this document, it is to be understood as the direction representing that this utility model device is pushed into, and the longitudinal axis of this device also overlaps along the longitudinal axis of its blood vessel moved forward with this device.It is defined as axially with longitudinally perpendicular direction.

Shown in Fig. 1 and Fig. 3, a kind of taking thrombus device with helical structure of this utility model, including taking bolt device 100, being positioned at the developing ring 300 taking bolt device 100 near-end and be positioned at the development circle 200 taking bolt device 100 far-end.Take webmaster shape or cage structure that bolt device 100 includes being made up of multiple unit grids 170 being coupled to each other, each unit grid 170 by interconnective muscle 120 around forming.This webmaster shape or cage structure can be collapsed folding under pressure and have self-expanding recovery capability in a free state, and, this webmaster shape or collapsing of cage structure fold and expand and can mutually change without difficulty.

Netted or cage structure is open, and its side has axial clearance 160, and axial clearance 160 is along netted or cage structure outer surface spiral extension.Open be interpreted as unit grid 170 be interconnected to do not close, there are webmaster shape or the cage structure of open axial clearance 160 in its side, this axial clearance 160 has at least a place, it is possible to design has many places.Axial clearance 160 of the present utility model embodiment design is a place, as shown in Fig. 5, Fig. 7 and Fig. 9.With this structure, take bolt device 100 and can fold easily in thinner blood vessel, and due to fold plane twist, its chucking power clamping thrombosis will be greatly improved, and effectively prevent thrombus breaks loose from flowing to the blood vessel that far-end is more tiny.

The helicoidal structure taking the axial clearance 160 of bolt device 100 has numerous embodiments, this utility model to give following several embodiment:

Embodiment one, as shown in Figures 3 to 5: the unit grid 170 taking bolt device 100 is incremented by the vertical one by one, the spiral helicine starting point and ending point of axial clearance 160 was axial-rotation one week.What this allowed for taking bolt device 100 circumferentially any point is folded into possibility, say, that takes the bolt device 100 folding clamping to thrombosis around whole circumference, is nonlinear, the clamping dynamics of thrombosis will be greatly improved.

Embodiment two, as shown in Fig. 6 and Fig. 7: unit grid 170 each two in the vertical taking bolt device 100 is incremented by, and the spiral helicine starting point and ending point of axial clearance 160 is at axial-rotation half cycle.The advantage of this spline structure is, both ensure that taking bolt device 100 is clamped on semi-circumference helix to the folding of thrombosis, also can make to take the pliability that bolt device 100 keeps certain, be unlikely to cave in the progradation taking bolt device 100.

Embodiment three, as shown in FIG. 8 and 9: take the unit grid 170 of bolt device 100 in the vertical every three be incremented by, the spiral helicine starting point and ending point of axial clearance 160 was axial-rotation 1/4th weeks.Such structure can make to take bolt device 100 and limitedly fold on axial screw line, has certain radial direction support force while ensureing thrombosis is clamped.

The near-end taking bolt device 100 is arranged to pyramidal structure 130, proximate expand gradually, and its tapering is 30 ° to 60 °.The advantage of this design is can greatly to reduce propelling resistance when taking bolt device and reclaiming into guiding catheter.

Taking bolt device 100 and have oblong shape or oblong shape under self-expanding state, its length range is between 5 millimeters to 60 millimeters, and its diameter range is between 2 millimeters to 6 millimeters, to adapt to the anatomical structure of patient's intracranial vessel.

Refer to shown in Figure 10, the ratio of the length L1 of unit grid 170 and height H1, more than 1 and less than 2, is similar to diamond structure, and the advantage of this structure is easy to deformation, taking bolt device self-expanding expansion and retraction can be readily accomplished when subsiding folding.

The surface-coated taking bolt device 100 has the coating containing anticoagulant or antiplatelet drug, to strengthen the mobility of blood, it is simple to take pushing of bolt device.

Developing ring 300 and development circle 200 all by can be visual under X ray material make, it is preferable that for platinum, platinoiridita, platinum-tungsten alloys, gold, silver etc..The not transmission X-ray label of the type adds to be located at and takes bolt device 100 proximally and distally so that the doctor in charge can monitor by imaging device location relative to each other and therapeutic advance thus improve the accuracy taking bolt.Being connected to the label developing ring with not transmission X-ray taking bolt device two ends and development circle, making to take bolt device can operate visually under the support of digital subtraction angiography system, and makes to take bolt accurately and reliably.Doctor only advances and withdraws this device and just can complete to take bolt operation, with traditional take bolt operation compared with, operation process is greatly simplified, and has both alleviated the workload of doctor, get again the treatment time of preciousness for patient, strive for the more time for reversible ischemic tissue of brain.

Developing ring 300 and development circle 200 are connected with taking bolt device 100 by modes such as welding or crimp or be cementing.This connection should reach certain intensity, it is prevented that takes bolt device and comes off in taking bolt process.

Take bolt device 100 to be made up of shape-memory material.The shape-memory material of this utility model indication refer in particular to generation be NiTi evanohm.Taking bolt device 100 is adopt NiTi evanohm to make via cut.

Shown in Fig. 1 and Fig. 2; the invention also discloses a kind of thrombus treating apparatus; employ the above-mentioned taking thrombus device with helical structure; this therapeutic instrument also includes protection sheath pipe 400, conveying silk 500, microtubular 600, guiding catheter (not shown) and rotates haemostatic valve (not shown), and the external diameter of microtubular 600 is less than the internal diameter of guiding catheter.Microtubular 600 is pushed to blood embolization place along guiding catheter in guiding catheter; protection sheath pipe 400 is interconnected with microtubular 600 by rotating haemostatic valve; take bolt device 100 and be placed in protection sheath pipe 400, conveying silk 500 be pushed in microtubular 600, and be pushed to blood embolization place.Guiding catheter has ratio for placing protection sheath pipe 400 and the bigger internal diameter of microtubular 600.So, whole thrombosis and be in the bolt device 100 that takes of its swelling state and can move and be placed in guiding catheter.During treating, microtubular 600 is also advanced to usually by guiding catheter, although guiding catheter can be pushed ahead until blood embolization position, but in the blood vessel that inner chamber is little especially, especially in intracranial area, only with the microtubular 600 that diameter is only small, take bolt device 100 and be placed in microtubular 600 and be transported to the enforcement of blood embolization position take bolt operation.

Conveying silk 500 is made up of the soft tinsel with certain rigidity.Should be appreciated that to expect purpose, the far-end of conveying silk 500; especially into intracranial vessel section, it is necessary to have enough rigidity, but simultaneously must be sufficiently flexible or flexible; make them can pass protection sheath pipe 400 or guiding catheter, and be damaged from blood vessel wall.Its length dimension should ensure that and will take pin device and be delivered to the position of thromboembolism.Protection sheath pipe 400 is made up of polymeric material.This polymeric material is politef.The internal diameter of protection sheath pipe 400 and length dimension should ensure that and the soft taking bolt device 100 and conveying silk 500 far-end is held protection wherein.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent replacement and improvement etc. made within spirit of the present utility model and principle, should be included within protection domain of the present utility model.

Claims (14)

1. the taking thrombus device with helical structure, the described bolt device (100) that takes includes being positioned at the developing ring (300) of its near-end, be positioned at its far-end development circle (200) and be arranged on developing ring (300) and development circle (200) between take bolt device (100), it is characterized in that, described take webmaster shape or the cage structure that bolt device (100) includes being made up of multiple unit grids (170) being coupled to each other, one or more described unit grids (170) and other adjacent cells grid (170) are formed by connecting, this webmaster shape or cage structure can be collapsed folding under pressure and have self-expanding recovery capability in a free state, and, this webmaster shape or collapsing of cage structure fold and expand and can mutually change；Described netted or cage structure is open, and its side has axial clearance (160), and described axial clearance (160) are along netted or cage structure outer surface spiral extension.

2. the taking thrombus device with helical structure as claimed in claim 1, it is characterized in that, the described unit grid (170) taking bolt device (100) is incremented by the vertical one by one, and the spiral helicine starting point and ending point of described axial clearance (160) was axial-rotation one week.

3. the taking thrombus device with helical structure as claimed in claim 1, it is characterized in that, described unit grid (170) each two in the vertical taking bolt device (100) is incremented by, and the spiral helicine starting point and ending point of described axial clearance (160) is at axial-rotation half cycle.

4. the taking thrombus device with helical structure as claimed in claim 1, it is characterized in that, the described unit grid (170) taking bolt device (100) in the vertical every three be incremented by, the spiral helicine starting point and ending point of described axial clearance (160) was axial-rotation 1/4th weeks.

5. the taking thrombus device with helical structure as described in any one in Claims 1-4, it is characterized in that, the described bolt device (100) that takes has oblong shape or oblong shape under self-expanding state, its length range is between 5 millimeters to 60 millimeters, and its diameter range is between 2 millimeters to 6 millimeters.

6. the taking thrombus device with helical structure as claimed in claim 5, it is characterised in that the length (L1) of described unit grid (170) and the ratio of height (H1) are more than 1 and less than 2.

7. the taking thrombus device with helical structure as claimed in claim 5, it is characterized in that, the proximal end taking bolt device (100) described under self-expanding state is arranged to pyramidal structure (130), its proximate expand gradually, and its tapering is 30 ° to 60 °.

8. the taking thrombus device with helical structure as claimed in claim 5, it is characterised in that described in take the surface-coated of bolt device (100) and have the coating containing anticoagulant or antiplatelet drug.

9. the taking thrombus device with helical structure as claimed in claim 5, it is characterised in that described developing ring (300) and development enclose (200) all by can be visual under X ray material make.

10. the taking thrombus device with helical structure as claimed in claim 9, it is characterised in that described developing ring (300) and development circle (200) are connected with taking bolt device (100) by modes such as welding or crimp or be cementing.

11. the taking thrombus device with helical structure as claimed in claim 5, it is characterised in that described in take bolt device (100) and be made up of shape-memory material.

12. a thrombus treating apparatus, it is characterized in that, employ the taking thrombus device with helical structure as described in any one in Claims 1-4, this therapeutic instrument also includes protection sheath pipe (400) conveying silk (500), microtubular (600), guiding catheter and rotation haemostatic valve, the external diameter of described microtubular (600) is less than the internal diameter of guiding catheter, described microtubular (600) is pushed to blood embolization place along guiding catheter in guiding catheter, described protection sheath pipe (400) is interconnected with microtubular (600) by rotating haemostatic valve, the described bolt device (100) that takes is placed in protection sheath pipe (400), it is pushed in microtubular (600) by described conveying silk (500), and it is pushed to blood embolization place.

13. thrombus treating apparatus as claimed in claim 12, it is characterised in that described conveying silk (500) is made up of the soft tinsel with certain rigidity.

14. thrombus treating apparatus as claimed in claim 12, it is characterised in that described protection sheath pipe (400) is made up of polymeric material.