A remote radial artery puncture site compression bandage

By designing a compression bandage for the distal radial artery puncture point and using a combination of bandages and patches, the problems of uneven compression, inconvenient fixation, and high cost were solved, achieving uniform hemostasis and comfortable compression, and adapting to different hand sizes of patients.

CN224441398UActive Publication Date: 2026-07-03RENJI HOSPITAL AFFILIATED TO SHANGHAI JIAO TONG UNIV SCHOOL OF MEDICINE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
RENJI HOSPITAL AFFILIATED TO SHANGHAI JIAO TONG UNIV SCHOOL OF MEDICINE
Filing Date
2025-03-13
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing technologies suffer from uneven compression at the distal radial artery puncture site, inconvenient fixation, lack of personalized adjustment, and high cost of single-use applications, resulting in poor hemostasis and low patient comfort.

Method used

A distal radial artery puncture point compression bandage was designed. It applies pressure evenly from five directions: the web between the thumb and index finger, both sides of the palm, and both sides of the wrist, through a combination of a first bandage, a second bandage, and a third bandage. The bandage is connected by Velcro and adhesive tape to improve wearing efficiency and adaptability, and to accommodate different hand sizes.

Benefits of technology

It achieves uniform and comfortable compression hemostasis, simplifies the operation process, reduces costs, and adapts to the needs of different patients.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of far end radial artery puncture point compression bandage, the front of first bandage one end is provided with first patch, the middle part of first bandage front is provided with second patch, the back of first bandage other end is provided with third patch, and first bandage back is provided with dressing;One end of second bandage is connected with the edge of first bandage by first elastic belt, and the back of other end of second bandage is provided with fourth patch;One end of third bandage is connected with one side of second bandage by second elastic belt, and the front of other end of third bandage is provided with fifth patch, and the back of third bandage in the position of fifth patch is provided with sixth patch;First patch is connected with fourth patch, second patch is connected with sixth patch, and fifth patch is connected with third patch.The utility model solves the technical problems of uneven compression, inconvenience of fixation, lack of personalized adjustment and high cost of one-time use in the prior art.
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Description

Technical Field

[0001] This utility model relates to the field of human necessities, especially to the field of medical auxiliary equipment, and in particular to a distal radial artery puncture point compression bandage. Background Technology

[0002] Cardiac interventional surgery is a novel technique for diagnosing and treating cardiovascular diseases. Distal radial artery puncture, due to its fewer complications and higher patient comfort, has gradually become the preferred approach for coronary intervention. However, postoperative wound compression hemostasis remains a critical issue. Traditional methods often use elastic or adhesive bandages, but these suffer from inconvenience, uneven pressure, and low patient comfort. Furthermore, while commercially available hemostatic devices can provide some pressure, they are often unsuitable for distal radial artery hemostasis, especially in the snuffbox area, and are mostly disposable, increasing medical costs for patients.

[0003] There are many types of compression hemostasis devices available, but they still have some drawbacks:

[0004] 1. Uneven pressure: Traditional elastic bandages or adhesive bandages often fail to ensure even pressure on the puncture site during bandaging, resulting in poor hemostasis or causing patient discomfort.

[0005] 2. Inconvenient fixation: Currently, in clinical practice, traditional elastic bandages are often used to fix the wound by wrapping it 3 to 5 times or by wrapping it in the figure-eight method. This is inconvenient to operate and takes a long time to wrap.

[0006] 3. Lack of personalized adjustment: Different patients have different wrist shapes and sizes, but existing hemostatic products often lack personalized adjustment functions, making it difficult to meet the needs of different patients.

[0007] 4. High cost due to single-use: While some high-end hemostatic products can provide good hemostatic effects, they are mostly for single use, increasing the medical costs for patients. For example, a technical solution disclosed in CN114259271A (distal radial artery compression hemostatic device) uses multiple complex components such as a fixation plate, a steering component, a pressure application component, and left and right straps to achieve the effect of compression hemostasis. The structure is complex and the cost is high. Utility Model Content

[0008] The purpose of this utility model is to provide a distal radial artery puncture point compression bandage, which aims to solve the technical problems of uneven compression, inconvenient fixation, lack of personalized adjustment, and high cost of single use in the prior art.

[0009] A distal radial artery puncture point compression bandage includes a first bandage, a first patch on the front of one end of the first bandage, a second patch on the middle of the front of the first bandage, a third patch on the back of the other end of the first bandage, and a dressing on the back of the first bandage, the dressing being located between the first patch and the second patch; a second bandage, one end of the second bandage being connected to the edge of the first bandage via a first elastic band, the connection point of the elastic band and the first bandage being adjacent to the dressing position, and a fourth patch on the back of the other end of the second bandage; a third bandage, one end of the third bandage being connected to one side of the second bandage via a second elastic band, the connection point of the second elastic band and the second bandage being adjacent to the first elastic band, a fifth patch on the front of the other end of the third bandage, and a sixth patch on the back of the third bandage at the position of the fifth patch; the first patch and the fourth patch are detachably connected, the second patch and the sixth patch are detachably connected, and the fifth patch and the third patch are detachably connected.

[0010] Furthermore, the second strap is perpendicular to the first strap, and the third strap is parallel to the first strap.

[0011] Furthermore, the first patch, second patch, third patch, fourth patch, fifth patch, and sixth patch are Velcro or adhesive tape.

[0012] Compared with existing technologies, the advantages of this invention are positive and obvious:

[0013] 1. This utility model uses a first strap, a second strap, and a third strap to connect with each other, so as to apply pressure evenly to the radial artery puncture area from five directions: the tiger's mouth of the hand, both sides of the palm, and both sides of the wrist, thereby improving the hemostasis effect and dispersing the pressure to improve the comfort of binding.

[0014] 2. This utility model improves wearing efficiency and makes operation more convenient by connecting the first patch to the third patch, the second patch to the fourth patch, and the fifth patch to the fourth patch, for a total of three connections.

[0015] 3. This utility model utilizes the micro-elasticity of the first elastic band, the second elastic band, and the bandage itself to adapt to patients with various hand sizes, improving fit and meeting the needs of different patients.

[0016] 4. This utility model has a simple structure and low cost, making it suitable for large-scale promotion. Attached Figure Description

[0017] Figure 1 A front view of an embodiment of this utility model.

[0018] Figure 2 A schematic diagram of the rear structure of an embodiment of this utility model.

[0019] Figure 3 A side view of the wearing embodiment of this utility model.

[0020] Figure 4 A frontal wearing diagram of an embodiment of this utility model.

[0021] In the diagram: 1. First bandage; 101. First patch; 102. Second patch; 103. Third patch; 2. Second bandage; 201. Fourth patch; 3. Third bandage; 301. Fifth patch; 302. Sixth patch; 4. Dressing; 5. First elastic band; 6. Second elastic band. Detailed Implementation

[0022] The following embodiments will further illustrate the present invention, but are not intended to limit the present invention.

[0023] like Figures 1 to 4 As shown, this embodiment provides a compression bandage for the distal radial artery puncture point.

[0024] The device includes a first bandage 1, with a first patch 101 on the front of one end of the first bandage 1, a second patch 102 on the middle of the front of the first bandage 1, a third patch 103 on the back of the other end of the first bandage 1, and a dressing 4 on the back of the first bandage 1, which is located between the first patch 101 and the second patch 102. The dressing 4 can be a hemostatic sponge, which is used to apply to the distal radial artery puncture site to achieve hemostasis and compression.

[0025] It includes a second bandage 2, one end of which is connected to one side edge of the first bandage 1 via a first elastic band 5. The connection point between the elastic band and the first bandage 1 is adjacent to the dressing 4. A fourth patch 201 is provided on the back of the other end of the second bandage 2.

[0026] It includes a third strap 3, one end of which is connected to one side of the second strap 2 via the second elastic band 6. The connection between the second elastic band 6 and the second strap 2 is adjacent to the first elastic band 5. A fifth patch 301 is provided on the front of the other end of the third strap 3, and a sixth patch 302 is provided on the back of the third strap 3 at the position of the fifth patch 301.

[0027] The second strap 2 is perpendicular to the first strap 1, and the third strap 3 is parallel to the first strap 1.

[0028] The first patch 101 and the fourth patch 201 are adhesive patches that are connected to each other by adhesive. The second patch 102, the third patch 103, the fifth patch 301, and the sixth patch 302 are hook and loop fasteners, of which the second patch 102 and the third patch 103 have a textured surface, and the fifth patch 301 and the sixth patch 302 have a hook surface.

[0029] The first patch 101 and the fourth patch 201 are detachably connected, the second patch 102 and the sixth patch 302 are detachably connected, and the fifth patch 301 and the third patch 103 are detachably connected.

[0030] This embodiment has two versions, one for the left hand and one for the right hand, which are symmetrical.

[0031] How to use this embodiment:

[0032] The method of use is based on the right hand as an example, using the right-hand version of the compression bandage.

[0033] With the back of the first bandage 1 facing the patient's hand, the dressing 4 is placed over the distal radial artery puncture site.

[0034] The second strap 2 wraps around the patient's thumb and forefinger, with its free end reaching the left side of the palm, and the fourth patch 201 is attached to the first patch 101 at the left end of the first strap 1.

[0035] The free end of the third strap 3 wraps around the right side of the wrist to the back of the hand, and the sixth patch 302 is connected to the second patch 102 on the first strap 1 via Velcro.

[0036] The right end of the first strap 1 wraps around the right side of the palm to the left side of the wrist, and then wraps around the left side of the wrist to the back of the hand. The third patch 103 and the fifth patch 301 are connected by Velcro.

[0037] After connection, the first strap 1, the second strap 2, and the third strap 3 apply pressure evenly to the area near the dressing 4 (near the radial artery puncture area) from five directions: the web of the hand, both sides of the palm, and both sides of the wrist. This improves the hemostatic effect, and the even distribution of pressure also improves the comfort of the binding.

[0038] Meanwhile, by utilizing the elasticity of the first elastic band 5 and the second elastic band 6, as well as the slight elasticity of the bandage itself, the stretching length can be selected according to the patient's hand size during wrapping, thereby improving the fit and meeting the needs of patients with different hand sizes.

[0039] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A remote radial arterial puncture site compression bandage, characterized by: include A first bandage (1) is provided with a first patch (101) on the front side of one end of the first bandage (1), a second patch (102) is provided in the middle of the front side of the first bandage (1), a third patch (103) is provided on the back side of the other end of the first bandage (1), and a dressing (4) is provided on the back side of the first bandage (1), the dressing (4) being located between the first patch (101) and the second patch (102); The second bandage (2) has one end connected to the edge of the first bandage (1) via the first elastic band (5). The connection between the elastic band and the first bandage (1) is adjacent to the dressing (4). A fourth patch (201) is provided on the back of the other end of the second bandage (2). The third strap (3) has one end connected to one side of the second strap (2) via the second elastic band (6). The connection between the second elastic band (6) and the second strap (2) is adjacent to the first elastic band (5). A fifth patch (301) is provided on the front of the other end of the third strap (3), and a sixth patch (302) is provided on the back of the third strap (3) at the position of the fifth patch (301). The first patch (101) is detachably connected to the fourth patch (201), the second patch (102) is detachably connected to the sixth patch (302), and the fifth patch (301) is detachably connected to the third patch (103).

2. A remote radial artery puncture site compression bandage according to claim 1, wherein: The second strap (2) is perpendicular to the first strap (1), and the third strap (3) is parallel to the first strap (1).

3. A remote radial artery puncture site compression bandage according to claim 1, wherein: The first patch (101), the second patch (102), the third patch (103), the fourth patch (201), the fifth patch (301), and the sixth patch (302) are Velcro or adhesive tape.