CN106823108A - A kind of hypotube - Google Patents

Abstract

The embodiment provides a kind of hypotube, including：Body, body is a hollow structure；Lining silk, the first end for serving as a contrast silk is located in hollow structure, the second end for serving as a contrast silk is located in the tube chamber of the distal end body of rod of sacculus dilating catheter, and the distance between first end of the guidewire port on sacculus dilating catheter and lining silk is less than the distance between the second end and first end of lining silk of lining silk, and the second end of lining silk is chondritic, part helically structure of the lining silk beyond hollow structure, the cross-sectional area of the part on the external diameter and lining silk of helical structure in addition to chondritic is gradually reduced along near-end to the direction of the distal end for serving as a contrast silk of lining silk, embodiments of the invention are while the full and pumpback speed of sacculus dilating catheter is accelerated, good supporting role can be played to the distal end body of rod tube chamber of sacculus dilating catheter, the axial thrust being effectively applied on body is sent on the distal end body of rod of sacculus dilating catheter.

Description

A kind of hypotube

Technical field

The present invention relates to medical devices field, more particularly to a kind of hypotube.

Background technology

Hypotube refers to the metal tube of near-end (one end near apart from operator) in sacculus dilating catheter, Human body can be entered in interventional procedure, material is generally the stainless steel of medical grade 304.In Stent, Hypotube is a part for induction system.Hypotube superior function directly influences the success rate of operation, because He is that operator pushes whole sacculus dilating catheter into unique force application part in patient body, is also whole ball The part of maximum intensity in capsule dilating catheter.

At present evaluate hypotube performance refer mainly to indicate：Push power transmission performance, buckle resistance, can reverse The supportive of property, compliance, tube chamber size and the distal end body of rod to sacculus dilating catheter.Market today Shanghai The design of wave duct is varied, specifically variant in the following aspects：External surface coating, diameter, wall thickness, Length and distal end (one end remote apart from operator) form.The structure of wherein distal end form is most complicated, design Difference is maximum.And distal end form has decided on whether that can will push power passes from the near-end of hypotube to greatest extent Distal end is sent to, and whether can reach compliance by smoothly transitioning from that near-end to distal end is incremented by, while extra large Wave duct integrally keeps good buckle resistance energy.

Existing hypotube distal end form is basically divided into three classes：Lining wire type, stepped and cutting-type.

But without seamlessly transitting, proximally body serves as a contrast silk in terms of buckle resistance and compliance to lining wire type to distal end Change is big and unexpected, simultaneously as lining silk is soft, the enabling capabilities of its distal end body of rod to sacculus dilating catheter Also it is poor.

Stepped hypotube is by pipe diameter and the length limitation of ladder part, and usual changeover portion is shorter, it is impossible to Realizing the slow gradual change of submissive performance cannot be also supported to the body of rod of guidewire port more distal portions, and this is just limited The push power transmission performance of hypotube is made.And the hypotube of step type takes sacculus and expands at guidewire port position The distal rod intracoelomic cavity large percentage of conduit is opened, easily the full and pumpback time of influence sacculus dilating catheter (need to inject contrast agent liquid in the distal end body of rod tube chamber to sacculus dilating catheter in interventional procedure Make balloon expandable).

Cutting-type does the pliability for cutting raising body radial direction that different lines are designed by hypotube body The conduction of axial force is not influenceed simultaneously.To realize the cooperation cutting-type with the distal end body of rod of sacculus dilating catheter Hypotube he need be applied in combination with step type because cutting process can only be carried out on complete body. Relative to step type, the hypotube of cutting-type proximally arrives distal end transition in terms of buckle resistance and compliance and puts down It is sliding, but equally power cannot will be pushed well be delivered on the body of rod than guidewire port more distal end, also occur The distal rod intracoelomic cavity large percentage of sacculus dilating catheter is taken at guidewire port position, balloon expandable is easily influenceed The problem of the full and pumpback time of conduit.

In sum, although in existing hypotube distal end form for cutting-type hypotube can accomplish hypotube from Near-end transitions smooth in terms of buckle resistance and compliance to distal end, but it still cannot will be applied to hypotube Axial thrust on near-end (body) is sent on the distal end body of rod of sacculus dilating catheter.

The content of the invention

The purpose of the embodiment of the present invention is to provide a kind of hypotube, accelerate the full of sacculus dilating catheter and While pumpback speed, good supporting role can be played to the distal end body of rod tube chamber of sacculus dilating catheter, The axial thrust being effectively applied on body is sent on the distal end body of rod of sacculus dilating catheter.

In order to achieve the above object, The embodiment provides a kind of hypotube, including：

Body, body is a hollow structure；

Lining silk, the first end for serving as a contrast silk is located in hollow structure, and is fixedly connected with the inwall of hollow structure, is served as a contrast Second end of silk is located in the distal end body of rod tube chamber of sacculus dilating catheter, and the guidewire port on sacculus dilating catheter The distance between the second end and first end of lining silk with the distance between the first end of lining silk less than lining silk, and The second end for serving as a contrast silk is chondritic, wherein

Lining silk beyond hollow structure part helically structure, and axis and the hollow structure of helical structure axle Line overlaps, and the cross-sectional area of the part on the external diameter and lining silk of helical structure in addition to chondritic is along lining silk Near-end to the direction of distal end for serving as a contrast silk be gradually reduced.

Wherein, the material of body is 304 stainless steels.

Wherein, the pipe thickness of body is 0.05~0.12 millimeter, and the external diameter of body is 0.5~1.2 millimeter.

Wherein, lining silk uses cross section to be made for circular real core metal silk, and the material of real core metal silk is 304 stainless steels.

Wherein, 30%~50% of the external diameter of a diameter of body of diameter maximum on silk, diameter on lining silk are served as a contrast A diameter of 0.009~0.011 millimeter at minimum.

Wherein, the length of lining silk is 150~300 millimeters, and the length that lining silk is located in hollow structure is 4~5 Millimeter.

Wherein, lining silk is located at inwall of the part in hollow structure with hollow structure by way of three are spot welded It is fixedly connected.

Wherein, the pitch of helical structure is 0.1~2 millimeter.

Wherein, external diameter of the external diameter of helical structure top external diameter maximum less than body.

Wherein, a diameter of 0.018~0.022 millimeter of chondritic.

Such scheme of the invention at least includes following beneficial effect：

In an embodiment of the present invention, because lining silk is beyond the part helically structure of hollow structure, therefore lining The volume that silk takes the distal end body of rod tube chamber of sacculus dilating catheter is few, can accelerate the full of sacculus dilating catheter With pumpback speed, while the helical structure causes entirely to serve as a contrast the tough flexible, bend resistance of silk, realizing by managing Body, can be to the remote of sacculus dilating catheter to silk part compliance and while seamlessly transitting of anti-bending strength is served as a contrast Side pole body tube chamber plays good supporting role, and the axial thrust being effectively applied on body is sent to ball On the distal end body of rod of capsule dilating catheter, so that it is guaranteed that balloon portion more accurately can be pushed to patient by patient Diseased region, improve success rate of operation, the recovery time after desmopyknosis, is that patient brings glad tidings.

Brief description of the drawings

Fig. 1 is one of structural representation of hypotube in the embodiment of the present invention；

Fig. 2 is the two of the structural representation of hypotube in the embodiment of the present invention；

Fig. 3 is the three of the structural representation of hypotube in the embodiment of the present invention；

Fig. 4 is one of structural representation of lining silk in the embodiment of the present invention；

Fig. 5 is the two of the structural representation of lining silk in the embodiment of the present invention.

Description of reference numerals：

1st, body；101st, hollow structure；2nd, silk is served as a contrast；201st, chondritic；202nd, solder joint.

Specific embodiment

The exemplary embodiment of the disclosure is more fully described below with reference to accompanying drawings.Although being shown in accompanying drawing The exemplary embodiment of the disclosure, it being understood, however, that may be realized in various forms the disclosure without should be by Embodiments set forth here is limited.Conversely, there is provided these embodiments are able to be best understood from this It is open, and can by the scope of the present disclosure it is complete convey to those skilled in the art.

As shown in Fig. 1~Fig. 5, The embodiment provides a kind of hypotube, the hypotube includes： Body 1, body 1 is a hollow structure 101；Lining silk 2, the first end for serving as a contrast silk 2 is located at hollow structure 101 It is interior, and be fixedly connected with the inwall of hollow structure 101, the second end for serving as a contrast silk 2 is chondritic 201, and The second end for serving as a contrast silk 2 is located in the distal end body of rod tube chamber of sacculus dilating catheter, and leading on sacculus dilating catheter The distance between first end of silk mouth and lining silk 2 is less than between the second end of lining silk 2 and the first end of lining silk 2 Distance, i.e. lining silk 2 the second end extend to guidewire port more distal end sacculus dilating catheter the distal end body of rod In tube chamber.

It should be noted that above-mentioned hypotube uses existing with the connected mode of the distal end body of rod of sacculus dilating catheter There is technology to realize, therefore connected mode between hypotube and the distal end body of rod of sacculus dilating catheter is herein no longer Repeat.

Wherein, in an embodiment of the present invention, above-mentioned lining silk 2 beyond the part of hollow structure 101 helically Structure, can be overlapped with the bending of pliable blood vessel, and the axis of the helical structure with the axis of hollow structure 101, The cross-sectional area of the part on the external diameter and lining silk 2 of helical structure in addition to chondritic 201 is along lining silk 2 Near-end to the direction of distal end for serving as a contrast silk 2 be gradually reduced.It should be noted that in order to realize by body 1 Seamlessly transitted to the lining part compliance of silk 2 and anti-bending strength, it is desirable to the helical structure top external diameter maximum External diameter is less than the external diameter of body 1, while the pitch for requiring the helical structure is 0.1~2 millimeter.

In an embodiment of the present invention, the material of above-mentioned tubular body 1 can be the stainless steel of medical grade 304, certainly may be used To understand, in an embodiment of the present invention, the specific material of body 1 is not limited.

In an embodiment of the present invention, the pipe thickness of body 1 and external diameter entire body are consistent.Specifically, The pipe thickness of body 1 is 0.05~0.12 millimeter, and the external diameter of body 1 is 0.5~1.2 millimeter, it is of course possible to Understand, in an embodiment of the present invention, not limiting the specific size of body 1, i.e. its size can be with It is adjusted according to actual needs.

In an embodiment of the present invention, above-mentioned lining silk 2 can use cross section to be made for circular real core metal silk, And the material of real core metal silk can be the stainless steel of medical grade 304.Of course, it should be understood that of the invention In embodiment, the specific material of lining silk 2 is not limited.

Specifically, the length of lining silk 2 is 150~300 millimeters, and lining silk 2 is located in hollow structure 101 Length is 4~5 millimeters.Additionally, the external diameter of a diameter of body 1 of diameter maximum on lining silk 2 30%~50%, a diameter of 0.01 millimeter ± 10% (i.e. 0.009~0.011 milli on lining silk 2 at diameter minimum Rice).It is understood that in an embodiment of the present invention, not limiting the specific size of lining silk 2, i.e., Its size can be adjusted according to actual needs.

In an embodiment of the present invention, as shown in figure 3, the part that lining silk 2 is located in hollow structure 101 can Fixed with the inwall of hollow structure 101 by way of 3 points (3 solder joints 202 in such as Fig. 3) are welded Connection.

In an embodiment of the present invention, the second end of above-mentioned lining silk 2 is designed as chondritic 201, be in order to Prevent from serving as a contrast the other parts that silk 2 punctures sacculus dilating catheter.Preferably, the chondritic 201 is a diameter of 0.02 millimeter ± 10% (i.e. 0.018~0.022 millimeter), it is of course possible to understanding, in implementation of the invention In example, the specific size of chondritic 201 is not limited.

It should be noted that in order to prevent from serving as a contrast the other parts that silk 2 punctures sacculus dilating catheter, serving as a contrast silk 2 The second end in addition to being designed as chondritic 201, serve as a contrast silk 2 the second end be also designed to it is round and smooth Cambered surface.

In an embodiment of the present invention, because lining silk 2 is beyond the part helically structure of hollow structure 101, Therefore the volume of the distal end body of rod tube chamber that lining silk 2 takes sacculus dilating catheter is few, can accelerate balloon expandable and lead The full and pumpback speed of pipe, so as to reduce the time that blood flow in surgical procedure is blocked, improves the peace of product Full property and validity.The helical structure causes entirely to serve as a contrast the tough flexible, bend resistance of silk 2 simultaneously, is realizing By body 1 to lining the part compliance of silk 2 and while seamlessly transitting of anti-bending strength, can be to balloon expandable The distal end body of rod tube chamber of conduit plays good supporting role, and the axial direction being effectively applied on body 1 pushes away Power is sent on the distal end body of rod of sacculus dilating catheter, thereby ensures that patient can more accurately by sacculus portion Point push to the diseased region of patient, improve success rate of operation, the recovery time after desmopyknosis is patient with Carry out Gospel.

The above is the preferred embodiment of the present invention, it is noted that for the common skill of the art For art personnel, on the premise of principle of the present invention is not departed from, some improvements and modifications can also be made, These improvements and modifications also should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of hypotube, it is characterised in that including：

Body (1), the body (1) is a hollow structure (101)；

Lining silk (2), it is described lining silk (2) first end be located at the hollow structure (101) in, and with institute The inwall for stating hollow structure (101) is fixedly connected, and the second end of lining silk (2) is led positioned at balloon expandable In the distal end body of rod tube chamber of pipe, and guidewire port on the sacculus dilating catheter and lining silk (2) the The distance between one end is less than between the second end of lining silk (2) and the first end of lining silk (2) Distance, and the second end of lining silk (2) is chondritic (201), wherein

Lining silk (2) is beyond the part of the hollow structure (101) helically structure, and the spiral The axis of structure overlaps with the axis of the hollow structure (101), the external diameter of the helical structure and described The cross-sectional area of the part on lining silk (2) in addition to the chondritic (201) is along lining silk (2) Near-end to the direction of distal end of lining silk (2) be gradually reduced.

2. hypotube as claimed in claim 1, it is characterised in that the material of the body (1) is 304 Stainless steel.

3. hypotube as claimed in claim 1, it is characterised in that the pipe thickness of the body (1) It it is 0.05~0.12 millimeter, the external diameter of the body (1) is 0.5~1.2 millimeter.

4. hypotube as claimed in claim 1, it is characterised in that lining silk (2) uses cross section For circular real core metal silk is made, and the material of the real core metal silk is 304 stainless steels.

5. hypotube as claimed in claim 4, it is characterised in that diameter is maximum on lining silk (2) The 30%~50% of the external diameter of a diameter of described body (1) at place, on lining silk (2) at diameter minimum A diameter of 0.009~0.011 millimeter.

6. hypotube as claimed in claim 1, it is characterised in that the length of lining silk (2) is 150~300 millimeters, and length of lining silk (2) in the hollow structure (101) is 4~5 millis Rice.

7. hypotube as claimed in claim 1, it is characterised in that lining silk (2) is in described Part in hollow structure (101) is consolidated by way of three are spot welded with the inwall of the hollow structure (101) Fixed connection.

8. hypotube as claimed in claim 1, it is characterised in that the pitch of the helical structure is 0.1~2 Millimeter.

9. hypotube as claimed in claim 1, it is characterised in that the helical structure top external diameter is maximum External diameter of the external diameter at place less than the body (1).

10. hypotube as claimed in claim 1, it is characterised in that the chondritic (201) A diameter of 0.018~0.022 millimeter.