CN111481272A

CN111481272A - Ultrasonic guided puncture positioning guide line and manufacturing method thereof

Info

Publication number: CN111481272A
Application number: CN202010408668.5A
Authority: CN
Inventors: 张小青; 李正迁; 周阳; 王军; 郭向阳
Original assignee: Peking University Third Hospital Peking University Third Clinical Medical College
Current assignee: Peking University Third Hospital Peking University Third Clinical Medical College
Priority date: 2020-05-14
Filing date: 2020-05-14
Publication date: 2020-08-04
Anticipated expiration: 2040-05-14
Also published as: CN111481272B

Abstract

The invention relates to an ultrasonic-guided puncture positioning guide line and a manufacturing method thereof, and the guide line comprises an X developing line and a disposable sterile dressing adhesive film, wherein the disposable sterile dressing adhesive film comprises a dressing adhesive layer and a paper isolation layer, and the dressing adhesive layer comprises a sticky surface and a non-sticky surface; the X developing line is attached to the sticky surface of the dressing film adhesive layer; the paper isolation layer covers the dressing film adhesive layer and clamps the X developing line between the dressing film adhesive layer and the paper isolation layer; the part of the dressing film adhesive layer, which is contacted with the X developing line, is made of transparent material; the X-ray developing line is a single line which is woven by adopting a knotting method of surgical square knots.

Description

Ultrasonic guided puncture positioning guide line and manufacturing method thereof

Technical Field

The invention relates to the technical field of medical instruments, in particular to an ultrasonic-guided puncture positioning guide wire and a manufacturing method thereof.

Background

With the popularization of the puncture technology under the guidance of ultrasound, the method of performing nerve block and blood vessel puncture by using ultrasound is widely applied, and the puncture success rate is also greatly improved. However, for the patients with difficulty in puncturing (such as the patients with small radial artery or arm and poor central vein position), the ultrasound probe cannot completely stick to the skin of the patient, and thus the middle point of the image displayed by the ultrasound image is not the true middle point of the part to be punctured. However, the operation process is difficult to notice, and the actual contact position is difficult to judge, so that the operation technology which should be simplified becomes a main hindering factor influencing the operation success due to the change of the contact area between the probe and the skin.

In order to solve the problems, if the probe can be marked with a mark which can be developed in the ultrasonic imaging process, the operator can judge the puncture target position, determine a needle inserting point and improve the puncture success rate. Through literature search, it has been reported that by applying a developing line that is opaque to X-rays, an acoustic shadow can be generated at the site of ultrasound imaging to help locate. However, in practical operation, the applicant finds that although the developing line is opaque to x-ray, but the thickness of the developing line is not more than 1mm, in the ultrasonic imaging process, the ultrasonic wave can directly pass through the developing line without influencing the image of the tissue below the developing line, so that the image effect is not ideal; meanwhile, the requirements on ultrasonic performance such as resolution are high, and the ultrasonic imaging system is not easy to realize in many hospitals. In addition, the film is easy to twist when fixing the developing line, and bubbles are easy to generate when the gel is used for attaching, so that the using effect is influenced, and the success rate of self-made X developing lines is limited.

Disclosure of Invention

The invention aims to provide a puncture positioning guide line under ultrasonic guidance and a manufacturing method thereof, and aims to solve the technical problem of how to improve the developing effect of a developing line so that the developing line can be easily identified in ultrasonic tissue imaging.

In order to achieve the aim, the invention provides an ultrasonic-guided puncture positioning guide line, which comprises an X developing line and a disposable sterile dressing film, wherein the disposable sterile dressing film comprises a dressing film adhesive layer and a paper isolation layer, and the dressing film adhesive layer comprises an adhesive side and a non-adhesive side; the X developing line is attached to the sticky surface of the dressing film adhesive layer; the paper isolation layer covers the dressing film adhesive layer and clamps the X developing line between the dressing film adhesive layer and the paper isolation layer; at least the part of the dressing film adhesive layer, which is in contact with the X developing line, is made of transparent material; the X-ray developing line is a single line which is woven by adopting a knotting method of surgical square knots.

Preferably, the braided length of the X-ray lines is about 3-5 cm.

Alternatively, the X developing lines can be bonded by a plurality of developing lines.

Alternatively, the X developing lines can also be woven by a plurality of developing lines.

Further, as an alternative preferable scheme, other ultrasound easily-imageable materials can also be used instead of the developing lines.

The manufacturing method of the puncture positioning guide line under the ultrasonic guidance comprises the following steps:

Firstly, weaving a single line as an X-ray developing line by adopting a knotting method of surgical square knots;

Secondly, tearing off a paper isolation layer of the disposable sterile dressing film, and attaching the woven X developing line to the sticky surface of the sticky layer of the dressing film;

And thirdly, restoring the paper isolation layer to enable the paper isolation layer to cover the dressing film adhesive layer and clamp the X developing line between the dressing film adhesive layer and the paper isolation layer.

Preferably, the braided length of the X-ray lines is about 3-5 cm.

Alternatively, in the first step, the X developing lines may be bonded by a plurality of developing lines.

Alternatively, in the first step, the X developing lines may be woven by a plurality of developing lines.

Further, as an alternative preferable scheme, in the first step, other ultrasound easily-imageable materials may be used instead of the development lines.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: the invention modifies the developing line to change the double-line mode into the single-line mode after weaving. Weaving and modifying the developing line by adopting a knotting method of surgical square knots, repeatedly carrying out double-knot operation, wherein the weaving length is about 3-5cm, and then attaching the developing line to a sterile film to cover an ultrasonic probe. The puncture positioning guide line under the ultrasonic guidance provides a guiding direction for the needle insertion of the puncture needle, and the target blood vessel/nerve can be hit by closely sticking the guide line for puncture. The method combining the developing line and the sterile membrane can greatly improve the puncture efficiency and accuracy of the target blood vessel/nerve under the ultrasonic guidance.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic structural diagram of a disposable sterile dressing film according to the present invention.

Fig. 2 is a schematic structural view of a disposable sterile dressing film with a paper isolation layer removed and X-ray developed lines attached.

Figure 3 is a schematic structural view of the puncture positioning guide wire under ultrasonic guidance according to the invention.

Detailed Description

The present invention is described in more detail below to facilitate an understanding of the present invention.

As shown in fig. 1 to 3, the ultrasound-guided lower puncture positioning guide line of the invention comprises an X-ray development line 1 and a disposable sterile dressing film, wherein the disposable sterile dressing film comprises a dressing film adhesive layer 2 and a paper isolation layer 3, and the dressing film adhesive layer 2 comprises an adhesive side and a non-adhesive side; the X developing line 1 is attached to the sticky surface of the dressing film sticking sticky layer 2; the paper isolation layer 3 covers the dressing film adhesive layer 2 and clamps the X developing line 1 between the dressing film adhesive layer 2 and the paper isolation layer 3; at least the part of the dressing film adhesive layer 2, which is in contact with the X developing line 1, is made of transparent material; the X-ray developing line 1 is a single line which is woven by adopting a knotting method of surgical square knots. Wherein the X-ray development line 1 is opaque to X-rays.

Preferably, the braided length of the X-ray image lines 1 is about 3-5 cm.

Alternatively, the X-ray 1 may be bonded by a plurality of lines.

Alternatively, the X-shaped development lines 1 may be woven alternately by a plurality of development lines.

Firstly, weaving a single wire as an X developing wire 1 by adopting a knotting method of surgical square knots;

Secondly, tearing off a paper isolation layer 3 of the disposable sterile dressing film, and attaching the woven X-ray developed line 1 to the sticky surface of the adhesive layer 2 of the dressing film;

Thirdly, the paper isolation layer 3 is restored, so that the paper isolation layer 3 covers the dressing film adhesive layer 2 and the X developing line 1 is clamped between the dressing film adhesive layer 2 and the paper isolation layer 3.

Preferably, the braided length of the X-ray image lines 1 is about 3-5 cm.

Alternatively, in the first step, the X-lines 1 may be bonded by a plurality of lines.

Alternatively, in the first step, the X-lines 1 may be woven alternately by a plurality of lines.

When the puncture positioning guide line under the ultrasonic guidance is used, the paper isolation layer 3 of the disposable sterile dressing film is torn off, the X developing line 1 covers the ultrasonic probe, the length direction of the X developing line 1 is vertical to the length direction of the ultrasonic probe, and the X developing line 1 and the adhesive surface of the adhesive film 2 which are attached to the dressing film are adhered to the ultrasonic probe together to be fixed properly. Care should be taken that the portion that contacts the patient's skin remains sterile.

The invention innovatively solves the problem of how to accurately position a target under the condition that an ultrasonic probe cannot be attached to the skin, creatively solves the problem that a single-strand developing wire cannot be well imaged by a method of weaving the developing wire with the minimum cost, creatively applies a weaving method of a surgical knot, can achieve a satisfactory imaging effect under ultrasonic, and creatively combines the developing wire with a sterile film, so that the puncture speed and the puncture success rate under ultrasonic guidance can be greatly improved.

The ultrasonic-guided lower puncture positioning guide line has the advantages of simple material taking, simple manufacture and low cost, the knotting method of the surgical square knots is a key for determining whether the operation can be successfully carried out, and the combination of the developing line and the sterile film is an effective method for improving the puncture efficiency and the puncture success rate.

The foregoing describes preferred embodiments of the present invention, but is not intended to limit the invention thereto. Modifications and variations of the embodiments disclosed herein may be made by those skilled in the art without departing from the scope and spirit of the invention.

Claims

1. An ultrasonic-guided puncture positioning guide line is characterized by comprising an X developing line and a disposable sterile dressing film, wherein the disposable sterile dressing film comprises a dressing film adhesive layer and a paper isolation layer, and the dressing film adhesive layer comprises an adhesive side and a non-adhesive side; the X developing line is attached to the sticky surface of the dressing film adhesive layer; the paper isolation layer covers the dressing film adhesive layer and clamps the X developing line between the dressing film adhesive layer and the paper isolation layer; at least the part of the dressing film adhesive layer, which is in contact with the X developing line, is made of transparent material; the X-ray developing line is a single line which is woven by adopting a knotting method of surgical square knots.

2. The ultrasound-guided puncture positioning guide wire according to claim 1, wherein the braided length of the X-ray is 3-5 cm.

3. The ultrasonically guided puncture positioning guide wire of claim 1, wherein the X-ray visualization wire is bonded using a plurality of visualization wires.

4. The ultrasonically guided puncture positioning guide wire according to claim 1, wherein the X-ray visualization thread is woven by a plurality of visualization threads.

5. The ultrasound-guided puncture positioning guide wire according to claim 1, wherein the visualization line is replaced with an ultrasound-guided lower imageable material.

6. The method for making an ultrasound-guided piercing positioning guidewire as claimed in any one of claims 1 to 5, comprising the steps of:

7. The method for making the puncture positioning guide wire under the ultrasonic guidance according to claim 6, wherein the braided length of the X-ray is 3-5 cm.

8. The method as claimed in claim 6, wherein in the first step, the X-ray imaging lines are bonded by a plurality of imaging lines.

9. The method as claimed in claim 6, wherein in the first step, the plurality of X-ray image lines are woven alternately.

10. The method of claim 6, wherein in the first step, the developing line is replaced by a material easily imageable by ultrasound.