CN209826842U - Vein compression patch suitable for sclerosing agent treatment - Google Patents

Abstract

The utility model discloses a vein compression paste suitable for hardening agent treatment, which comprises a pressurization dressing part, a pasting part and a protective film, wherein the pressurization dressing part comprises a pressurization dressing part main body and a pressurization dressing layer arranged in the middle of the upper surface of the pressurization dressing part main body, the utility model can realize accurate positioning of veins after hardening agent treatment, the pressurization dressing part main body and the pressurization dressing layer therein cover the vein deformation surface skin and are tightly jointed with the surface skin to realize effective eccentric compression, and a plurality of vein compression pastes can be mutually matched for use through the design of an arc connecting surface, an arc connecting part and an arc cutting line, thereby avoiding the condition that the length of a single vein compression paste is not enough to cover the treatment vessels, in addition, the vein compression paste can be cut according to the arc cutting line, avoiding the overlong length of the single vein compression paste, realize accurate application, the utility model discloses easy and simple to handle, clinical maneuverability is high.

Description

Vein compression patch suitable for sclerosing agent treatment

Technical Field

The utility model relates to the technical field of medical supplies, in particular to a vein compression patch applicable to the treatment of sclerosing agents.

Background

Varicose veins are one of the common lower limb venous diseases, and approximately 10 to 20 percent of adult males and 20 to 30 percent of adult females can have symptomatic varicose veins, which affect the quality of life of people. The surgical operation for treating the great saphenous vein is a standardized clinical diagnosis and treatment scheme implemented for many years, but has the defects of large wound, postoperative pain, inconvenient movement of affected limbs, swelling, scar formation, long recovery period, high cost and the like. With the development of minimally invasive techniques, newer, less invasive techniques are being developed, such as sclerosant therapy.

The sclerosing agent has the advantages of stability, high efficiency and small side effect when used for treating varicose vein of lower limb. Foam sclerosing agents have originated in europe and are now widely used throughout the world. Approximately 92% of american female patients choose a foam sclerosing agent as the preferred treatment, which treats varicose veins by injecting a chemical (sclerosing agent) into the varicose vein for sterile inflammation and subsequent fibrous occlusion, which is safe and effective. But the curative effect is related to the vein compression after sclerosing agent injection, good compression can lead the damaged vein intima to be fully closed after injection, and no dead space is left. Otherwise, subcutaneous induration and superficial thrombophlebitis may occur in the patient after the operation. Superficial thrombophlebitis can cause discomfort and limited function of lower limbs, and typical clinical symptoms are local red swelling and pain of affected parts, aggravation during activity, and touchable pain of cord-like hard strips or beading-like nodules. At present, the compression is realized by selecting an elastic bandage or an elastic sock clinically, but the compression mode is the compression on the whole lower limb, and the compression which is powerful and effective enough on the whole process of the local varicose vein is difficult to realize. Clinicians also choose to press the part of the vein after the sclerosing agent treatment by gauze or cotton ball, and then combine with elastic socks or elastic bandages to achieve effective compression. However, the gauze compression still has difficulty in generating accurate effective compression, and the gauze is easy to displace, thereby causing compression failure. Cotton ball compression can produce eccentric compression, but the process is complicated in its concrete work, has seriously influenced the efficiency of treatment, and it is difficult to realize even compression moreover, therefore clinical application is less. The follow-up visit of 2 months after the lower limb varicosity is treated by the foam sclerosing agent, such as Zhangong hospital of Nanjing drummer and the like, shows that after a common vein pressurization mode is adopted, the incidence rate of thrombophlebitis of the sclerosing agent for treating the lower limb varicosity is about 11.1 percent. Jiangjinsong and the like report that the highest incidence rate of subcutaneous induration after the lower limb varicose vein treatment by the hardener can reach 29.4 percent. Thus, the lack of an effective means of compression has severely affected the clinical use of sclerosing agents.

At present, patent products aiming at vein compression in the market mainly relate to a compression device of a vein puncture point, but sclerosing agent treatment mainly aims at tiny varicose veins, and compression after the varicose vein sclerosing agent treatment requires long-period whole-course compression instead of compression aiming at the puncture point. And the shape of the varicose vein is often distorted, and the requirement on the compression device is increased, so that the problem to be solved by technical personnel in the related field is that the design of the vein compression patch suitable for the sclerosing agent treatment is urgent.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a technical scheme does: the vein compression patch suitable for sclerosing agent treatment comprises a compression dressing part, an adhering part and a protective film, wherein the compression dressing part comprises a main body of the compression dressing part and a compression dressing layer arranged in the middle of the upper surface of the main body of the compression dressing part, the shape of the compression dressing layer is matched with that of the main body of the compression dressing part, so that the section of the compression dressing part is in a convex shape, the adhering part is arranged on the upper surface of the main body of the compression dressing part, the adhering part is circumferentially arranged on the outer side of the compression dressing layer, the protective film is arranged on the upper part of the compression dressing part, and the outer edge of the protective film is connected with the adhering part and covers the upper surface of the compression;

the tail of the main body of the compression dressing part is inwards sunken to form an arc connecting surface, the head of the main body of the compression dressing part protrudes outwards to form an arc connecting part, the head of the compression dressing layer is provided with an arc dressing layer which is matched with the arc connecting part in shape, and the tail of the main body of the compression dressing part extends outwards to form an arc connecting layer.

As an improvement, the radian of the arc connecting surface is matched with the radian of the head end of the arc connecting part.

As an improvement, the radian of the tail end of the arc connecting layer is matched with the radian of the head end of the arc dressing layer, and the length of the arc connecting layer extending out of the main body of the pressure dressing part is equal to the distance from the head end of the arc dressing layer to the head end of the arc connecting part.

As an improvement, the bottom surface of the main body of the pressurizing dressing part is provided with a plurality of arc-shaped cutting lines along the length direction of the bottom surface, and the side surface of the main body of the pressurizing dressing part is provided with a vertical cutting line connected with the arc-shaped cutting lines.

As an improvement, the radian of the arc-shaped cutting line is the same as that of the arc-shaped connecting surface.

As an improvement, a tail end film which is matched with the shape of the arc connecting layer is arranged at one end, close to the arc connecting layer, of the protective film.

After the structure more than adopting, the utility model has the advantages of as follows: the utility model has simple structure and convenient use, compared with the prior art, the utility model can realize the accurate positioning of the vein after the hardening agent treatment, generate eccentric compression and is not easy to shift, through the arrangement of the main body of the pressurizing dressing part, the pasting part and the pressurizing dressing layer, the main body of the pressurizing dressing part and the pressurizing dressing layer therein can be enabled to cover the blood vessel deformation surface skin and be tightly attached with the surface skin, thereby realizing the effective eccentric compression, the pressurizing dressing layer can absorb the blood trace of the puncture point, through the design of the arc connecting surface, the arc connecting part and the arc cutting line, a plurality of vein compression pastes can be mutually matched for use, the condition that the length of a single vein compression paste is not enough to cover the treatment vessel is avoided, in addition, the cutting can be carried out according to the arc cutting line, the overlong length of a single vein compression paste is avoided, the accurate application is realized, the utility model has, the clinical operability is high.

Drawings

Fig. 1 is a schematic structural view of a vein compression patch suitable for use after sclerosing agent treatment.

Fig. 2 is a schematic structural view of the intravenous compression patch of the present invention in a combined use state after being treated by the sclerosing agent.

Fig. 3 is a schematic view of the bottom surface of the intravenous compression patch of the present invention in a combined use state after treatment with a sclerosing agent.

Fig. 4 is a schematic cross-sectional structure view of a vein compression patch suitable for use after treatment with a sclerosing agent.

As shown in the figure: 1. the pressure dressing portion, 1.1, pressure dressing portion main part, 1.1, circular arc connection face, 1.1b, circular arc connecting portion, 1.1c, arc cutting line, 1.1d, vertical cutting line, 1.2, the pressure dressing layer, 1.2a, the circular arc dressing layer, 1.2b, the circular arc connecting layer, 2, the portion of pasting, 3, the protection film, 3.1, the tail end membrane.

Detailed Description

With reference to the attached drawings 1-4, the vein compression patch applicable to sclerosing agent treatment comprises a compression dressing part 1, an adhesion part 2 and a protective film 3, wherein the compression dressing part 1 comprises a main body 1.1 of the compression dressing part and a compression dressing layer 1.2 arranged in the middle of the upper surface of the main body 1.1 of the compression dressing part, the shape of the compression dressing layer 1.2 is matched with that of the main body 1.1 of the compression dressing part, so that the section of the compression dressing part 1 is in a convex shape, the adhesion part 2 is arranged on the upper surface of the main body 1.1 of the compression dressing part, the adhesion part 2 is circumferentially arranged on the outer side of the compression dressing layer 1.2, the protective film 3 is arranged on the upper part of the compression dressing part 1, and the outer edge of the protective film 3 is connected with the adhesion part 2 and covers the upper surface of the;

the tail of the pressurizing dressing part main body 1.1 is inwards sunken to form an arc connecting surface 1.1a, the head of the pressurizing dressing layer 1.2 is outwards protruded to form an arc connecting part 1.1b, the head of the pressurizing dressing layer 1.2 is provided with an arc dressing layer 1.2a matched with the arc connecting part 1.1b in shape, and the tail of the pressurizing dressing part main body 1.1 is outwards protruded to form an arc connecting layer 1.2 b.

As a preferred embodiment of this embodiment, the radian of the circular arc connecting surface 1.1a is adapted to the radian of the head end of the circular arc connecting portion 1.1 b.

As a preferred embodiment of this embodiment, the curvature of the tail end of the arc connecting layer 1.2b is adapted to the curvature of the head end of the arc dressing layer 1.2a, and the length of the arc connecting layer 1.2b extending out of the main body 1.1 of the pressure dressing portion is equal to the distance from the head end of the arc dressing layer 1.2a to the head end of the arc connecting portion 1.1 b. Due to the arrangement, when the vein compression pastes are matched for use, the arc connecting layer 1.2b in the previous vein compression paste can cover the arc connecting part 1.1b in the next vein compression paste, so that the pressurizing dressing layers 1.2 on the vein compression pastes are connected seamlessly, dead corners are not left, and accurate application is realized.

As a preferred embodiment of this embodiment, the bottom surface of the main body of the pressure dressing part 1.1 is provided with a plurality of arc-shaped cutting lines 1.1c along the length direction thereof, and the side surface of the main body of the pressure dressing part 1.1 is provided with a vertical cutting line 1.1d connected with the arc-shaped cutting lines 1.1 c.

As a preferred embodiment of this embodiment, the radian of the arc-shaped trimming line 1.1c is the same as that of the arc-shaped connecting surface 1.1 a.

As a preferred embodiment of this embodiment, one end of the protection film 3 close to the arc connecting layer 1.2b is provided with a tail end film 3.1 adapted to the shape of the arc connecting layer 1.2 b.

When the utility model is implemented, firstly the protective film 3 covering the upper part of the pressurizing dressing part 1 is torn off, and the pressurizing dressing layer 1.2 in the pressurizing dressing part 1 covers the blood vessel shape-walking surface skin, and the two sides of the main body 1.1 of the pressurizing dressing part are pressed, so that the sticking part 2 arranged on the surface is adhered and fixed with the skin, if the single pressurizing dressing part 1 is not enough to cover the blood vessel surface skin to be treated, a plurality of vein compression pastes can be used in cooperation, the circular arc connecting part 1.1b of the next vein compression paste is connected with the circular arc connecting surface 1.1 of the previous vein compression paste, the circular arc connecting layer 1.2b extending out from the previous vein compression paste covers the head end of the next circular arc connecting part 1.1b and is connected with the pressurizing dressing layer 1.2 in the next vein compression paste, so that the pressurizing dressing layers 1.2 are tightly connected, no gap exists, and the contact surface can be adjusted in angle according to the blood vessel shape-walking, if the length of the single or the later vein compression paste is too long, the pressing dressing part can be used after being cut according to the arc-shaped cutting line 1.1c on the bottom surface of the pressing dressing part main body 1.1, the pressing dressing part 1 is made of sponge materials and can absorb bloodstains on puncture points, and after the pressing dressing part is completely pasted, the elastic bandage or the elastic socks are used for pressing, so that the eccentric compression on the vein to be treated can be realized, the occurrence of related complications of sclerosing agent treatment can be reduced, and the satisfactory curative effect of the sclerosing agent can be achieved.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a vein oppression subsides suitable for sclerosing agent treatment back which characterized in that: the pressure dressing part comprises a pressure dressing part main body and a pressure dressing layer arranged in the middle of the upper surface of the pressure dressing part main body, the shape of the pressure dressing layer is matched with that of the pressure dressing part main body, so that the section of the pressure dressing part is in a convex shape, the upper surface of the pressure dressing part main body is provided with the sticking part, the sticking part is circumferentially arranged on the outer side of the pressure dressing layer, the protective film is arranged on the upper part of the pressure dressing part, and the outer edge of the protective film is connected with the sticking part and covers the upper surface of the pressure dressing layer;

the tail of the main body of the compression dressing part is inwards sunken to form an arc connecting surface, the head of the main body of the compression dressing part protrudes outwards to form an arc connecting part, the head of the compression dressing layer is provided with an arc dressing layer which is matched with the arc connecting part in shape, and the tail of the main body of the compression dressing part extends outwards to form an arc connecting layer.

2. A intravenous compression patch as claimed in claim 1 adapted for use after sclerosing treatment, wherein: the radian of the arc connecting surface is matched with the radian of the head end of the arc connecting part.

3. A intravenous compression patch as claimed in claim 1 adapted for use after sclerosing treatment, wherein: the radian of the tail end of the arc connecting layer is matched with that of the head end of the arc dressing layer, and the length of the arc connecting layer extending out of the main body of the pressure dressing part is equal to the distance from the head end of the arc dressing layer to the head end of the arc connecting part.

4. A intravenous compression patch as claimed in claim 1 adapted for use after sclerosing treatment, wherein: the bottom surface of the main body of the pressurizing dressing part is provided with a plurality of arc-shaped cutting lines along the length direction of the main body, and the side surface of the main body of the pressurizing dressing part is provided with a vertical cutting line connected with the arc-shaped cutting lines.

5. A intravenous compression patch as claimed in claim 4, adapted for use after sclerosing treatment, wherein: the radian of the arc-shaped cutting line is the same as that of the arc-shaped connecting surface.

6. A intravenous compression patch as claimed in claim 1 adapted for use after sclerosing treatment, wherein: and a tail end film which is matched with the shape of the arc connecting layer is arranged at one end of the protective film, which is close to the arc connecting layer.