RU2815354C1 - Post-intervention hemostasis device - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to a device for haemostasis after interventions. Device comprises a means of attaching it to the patient's body, equipped at the ends with retainers, clamping element of air compression with port for filling with air and deflation and valve for regulation of filling with air to be placed above puncture point of radial artery. Device has clamping element for possibility of complete occlusion of blood flow along ulnar artery, made detachable with a port for filling with air and blowing and a valve for controlling air filling, equipped with a detachable connection element in the form of a hook & loop, which response element is placed on the attachment device on the patient's body. Air compression clamping element for placement above the puncture point of the radial artery is made of two hollow air compression elements, permanently connected by each edge of one side of each hollow element of air compression with means of attachment on patient's wrist. Hollow air compression elements have a permanent connection on the surface of opposite sides with a hole for air passage. One of the hollow air compression elements is equipped with a port for air filling and deflation. Air compression pressure elements are made of transparent material.

EFFECT: reduced risk of post-puncture complications.

1 cl, 3 dwg

Description

The invention relates to the field of medical technology, namely to devices for stopping bleeding from the arteries of the forearm, including after radial access, but can also be used, in particular, after angiography or puncture of an artery for any diagnostic or therapeutic purpose, or from wounds.

A device for hemostasis is known, containing two hinged jaws equipped with thrust and pressing elements, and a compression force control element.

(SU, author St. No. 1466722, IPC A61B 17/12, publ. 03/23/1989, Bulletin No. 11)

The disadvantage of this device is the lack of compression control and low efficiency of use.

A device for hemostasis is known, containing a pressing element and a means of fastening it on the patient’s body, made in the form of a tape made of inextensible material, equipped with clamps at the ends, where the pressing element is made with a rounded working end and with a through groove for passing the fastening means tape, on which the , with the possibility of longitudinal movement, at least two supporting elements made in the form of balls or cylinders with slots for placing the fastening element on the patient’s body on the tape.

(RU, patent for PM No. 42947, IPC A61B 17/12, publ. 12/27/2004, Bulletin No. 36)

The disadvantage of this device is the lack of compression control and the low efficiency of its use. It is also possible for the device to dislocate when the patient’s body position changes, which can lead to bleeding from the puncture site.

A device for hemostasis after transradial access is known, containing a pressing element made with a rounded working end and a means for fastening it on the patient’s body, equipped with clamps at the ends, in which the pressing element is equipped with a screw, in addition, the device for hemostasis additionally contains an air compression pressing element, made in the form of an elastic hemisphere with a valve for filling with air and deflating, while the pressing element is designed to completely block the blood flow through the ulnar artery, and the air compression element is designed to be inflated over the puncture site of the radial artery.

(RU, patent for PM No. 185417, IPC A61B 17/32, publ. 12/04/2018, Bulletin No. 34) The disadvantage is that the second clamping element is equipped with a screw for dosing compression. The screw is not located on a special platform and cannot be adjusted to the diameter of the patient’s wrist, which means it cannot provide reliable hemostasis. The screw-shaped pressure element is not wrist-shaped and, when applied, will distance the main compression element from the artery, leading to ineffective or partially ineffective hemostasis.

A device for hemostasis after interventional interventions is also known, containing two clamping elements and a means for fastening them on the patient’s body, equipped with clamps at the ends, where the clamping elements are air compression devices, made in the form of an elastic hemisphere with valves for filling with air and deflating, with one the element is rigidly fixed to the base of the device, and the second element is configured to be attached to the base of the device by means of a contact tape to adjust the distance between the elements depending on the distance between the ulnar artery and the puncture site on the patient's wrist.

(RU, patent for PM No. 199361, IPC A61 B 17/132, publ. 08.28.2020, Bull. No. 25)

The disadvantage of this device is the risk of developing post-puncture complications, since a pressure element in the form of a hemisphere, placed above the access artery, can completely block the artery, which will lead to occlusion. In addition, the pressing element above the radial artery consists of one air cushion, made in the form of a hemisphere, which does not allow creating adequate and targeted pressure on the anterior wall of the radial artery. This will create additional difficulties both in hemostasis and in the prevention of occlusion (complete occlusion) of the radial artery after the procedure.

The objective of the claimed invention is to create a reliable and effective device for hemostasis after interventional procedures, allowing control over compression, eliminating injury to soft tissues, reducing the risk of developing post-puncture complications and allowing, when used, to take into account the anatomical features and size of the wrist of each patient.

The technical result is to reduce the risk of post-puncture complications.

The technical result is achieved by the fact that in the inventive device for hemostasis after interventional interventions, containing a means of fastening it on the patient's body, equipped with clamps at the ends, an air compression pressing element with a port for filling with air and a valve for regulating filling with air, placed above the puncture site of the radial artery, as well as a pressing element with the possibility of completely blocking the blood flow through the ulnar artery, made removable with a port for filling with air and a valve for regulating filling with air, equipped with a detachable connection element in the form of Velcro, the counter element of which is placed on the means of fastening on the patient’s body, according to the invention, the air compression pressing element for placement above the puncture site of the radial artery is made of two hollow air compression elements, permanently connected by each edge of one side of each hollow air compression element with a means of fastening on the patient's wrist; hollow air compression elements have a permanent connection on the surface of opposite sides with an opening for air passage; one of the hollow air compression elements is equipped with a port for filling with air and deflating; The air compression clamping elements are made of transparent material.

Fig. 1 device for hemostasis, arrangement of elements;

Fig. 2 - device for hemostasis, side view;

Fig. 3 - device for hemostasis, view in working condition.

The proposed device for hemostasis contains: means 1 for fastening on the patient's wrist, equipped at the ends with fasteners 2, made, for example, in the form of fasteners or from plates of material such as “burdock” or “Velcro”. The braces are used with excess length to allow for use in patients with different wrist sizes.

The removable air compression pressing element 3, placed above the ulnar artery, is equipped with a detachable connection means 4 made of a “burdock” or “Velcro” type material, while the mating element of the detachable connection is located on the fastening means 1 on the patient’s wrist, which allows the removable pressing element to be placed in in accordance with the anatomical features and dimensions of the patient’s wrist. Through port 8, element 3 is filled with air with the ability to regulate the volume of pumped air.

The fixed air compression pressing element 5, placed above the puncture site of the radial artery (access artery), is made of two hollow air compression elements, permanently connected by the edges of one side of each element and with a means of fastening 1 on the patient's wrist. The permanent connection is shown in the drawings as number 6. In addition, the hollow air compression elements have a permanent connection on the surface of the opposing sides with a hole 7 for the passage of air, while one of the elements is equipped with a port 8 for filling with air and deflating.

All air compression clamping elements are made of transparent or translucent material. The material for making the hemisphere can be any material, such as polyethylene, polypropylene, etc.

The proposed device for hemostasis after interventional procedures, including after radial access, is used as follows.

The fastening means 1 is fixed on the patient's wrist using a clamp 2, so that the air compression clamping element 5 is located above the puncture site of the radial artery (access artery) and is filled with air through port 8. Using the detachable connection means 4, the air compression element 3 is installed above area of the ulnar artery to the means of attachment 1 on the wrist, taking into account the anatomical features of the patient’s hand. Then the air compression element 3 is filled with air through port 8 using a syringe until complete blocking of blood flow through the ulnar artery is confirmed. Next, the airlock is removed from the radial artery (in which there were instruments during the procedure) and element 5 is filled with air through port 8 using a syringe until the bleeding stops. Monitor with a pulse oximeter to check the patency of the radial artery. If complete compression of the artery is detected, the air element is deflated until blood flow through the artery resumes, or bleeding occurs from the puncture site. Bleeding is controlled thanks to the transparency of the pressure element.

Example

Patient V., 60 years old, was admitted to the cardiac surgery department for an operation to replace the aortic valve with a biological prosthesis and coronary artery bypass grafting with a diagnosis of coronary heart disease: three-vessel disease - stenosis of the anterior descending artery 90% in the proximal segment, 90% in the middle segment, occlusion of the right coronary artery in the proximal segment, stenosis of the circumflex artery in the proximal third of 90%., critical aortic stenosis, hyperlipidemia, chronic heart failure 2B, hypertension stage 3 stage 3 risk 4. Before the operation, diagnostic coronary angiography was routinely performed to visualize the arterial bed using left radial access .

After the operation, the inventive hemostasis device was applied to stop bleeding. A pulse oximeter is placed on the index finger. First, the element above the ulnar artery was inflated. At the same time, the pulse oximetric curve disappeared, which indicates complete compression of the ulnar artery by the compression element. After this, simultaneously with the removal of the introducer from the radial artery, air was injected into the compression element of the same name above it until the bleeding completely stopped. As soon as the bleeding stopped completely, the pressure in the compression element was reduced by 2 cm3, which led to the reappearance of the pulse oximetry curve on the index finger and reliably indicated that blood flow through the radial artery was restored, but there was no bleeding. After 3 hours, the device was removed, and an aseptic bandage was applied to the puncture site.

The use of the inventive device allows not only to stop bleeding, but not to completely block the lumen of the artery, that is, to constantly monitor the puncture site. The air compression clamping elements are made of transparent material, allowing one to see the adequacy of hemostasis. The ability to fill these elements with air (inflate) allows you to perform dosed compression, which is not very strong and sufficient for hemostasis, but does not completely compress the arteries.

When using the inventive device, minimal compression of the tissues of the limb occurs; small vessels providing collateral circulation are not pinched, which, in turn, eliminates the risk of developing tissue ischemia. In addition, making two air compression clamping elements removable, with the possibility of placing them directly above the radial and ulnar arteries, taking into account the anatomical features of each patient’s hand, increases the efficiency of using the inventive device.

The proposed device for hemostasis after interventional interventions is possible and advisable to use in angiography, endovascular surgery and other situations related to arterial puncture, in case of injuries to the vascular bundle, for local compression of the puncture site or artery wound area, in order to prevent the development of post-puncture complications, in particular, possible bleeding or the formation of a pulsating hematoma, as well as to exclude ischemia of the limb associated with its pressure. Its use makes it possible to perform long-term (up to several hours) and reliable hemostasis in the area of artery puncture or when it is injured, while eliminating limb ischemia associated with its clamping.

Claims (1)

A device for hemostasis after interventional interventions, containing a means for fastening it on the patient’s body, equipped with clamps at the ends, an air compression pressing element with a port for filling with air and deflating and a valve for regulating filling with air for placement above the puncture site of the radial artery, a pressing element for the possibility of complete blocking the blood flow along the ulnar artery, made removable with a port for filling with air and deflating and a valve for regulating filling with air, equipped with a detachable connection element in the form of Velcro, the counter element of which is placed on the means of fastening on the patient’s body, characterized in that the pressure element of air compression for placement above the puncture site of the radial artery, it is made of two hollow air compression elements, permanently connected by each edge of one side of each hollow air compression element with a means of fastening on the patient’s wrist; hollow air compression elements have a permanent connection on the surface of opposite sides with an opening for air passage; one of the hollow air compression elements is equipped with a port for filling with air and deflating; The air compression clamping elements are made of transparent material.