RU194892U1 - Device for providing optimal hemostasis in the inguinal-femoral region after endovascular interventions - Google Patents

Abstract

The utility model relates to the field of medicine and medical technology and is aimed at creating an easy-to-use, convenient to use device that provides optimal hemostasis in the early postoperative period in patients who underwent surgery using percutaneous vascular access in the inguinal-femoral region. that a device comprising a chamber with a manometer and an air blower, characterized in that the latter are placed in a pocket with a slot, which is movably connected by guzhikov to the fixing belt with a strap extending from it. A useful model can find application in the practice of cardiovascular surgery, namely during minimally invasive operations using percutaneous vascular access, when catheters are passed to the heart through punctured vessels (for example, the femoral artery), in particular, with transluminal balloon angioplasty.

Description

The utility model relates to the field of medicine and medical technology, in particular to devices designed to ensure optimal hemostasis in the early postoperative period in patients who underwent x-ray endovascular intervention on the heart and blood vessels using percutaneous vascular access in the inguinal-femoral region.

It is known that for a number of minimally invasive operations in cardiac surgery (for example, transluminal balloon angioplasty), percutaneous vascular access is used when catheters are passed to the heart through punctured vessels (in particular, the femoral artery).

However, in the early postoperative period, patients receiving antiplatelet therapy can experience extensive hematomas at the operative access site (in the inguinal-femoral region), which, in turn, increases pain, increases the level of anxiety in patients, and, in some cases, , contributes to the development of purulent complications, in connection with the anatomical and physiological features of this zone.

Today, in order to solve this problem, various kinds of dressings are used, created from medical bandages.

So, the known elastic bandage [Patent RU No. 2093127, publ. 10.20.1997], containing an elastomeric thread, warp thread and a cotton or polyester weft thread.

A medical bandage is also known [Patent RU No. 50824, publ. January 27, 2006], containing gauze as a basis, from which a pressure dressing is created.

A common drawback of these medical devices is the lack of hemostasis in the inguinal-femoral region, as they are not able to create additional local compression at the puncture site.

A device for mechanical pressing of a puncture hole [US Patent No. 5304186 A, publ. 04/19/1994], which is a vertical support rack along which the horizontal bar moves, a clamping unit is located on the free end of the bar, which has three degrees of freedom, allowing the device to be adapted to patients with different sizes. The design is fixed on a flat wide base. The patient is laid on the base of the structure, a horizontal bar with a clamping unit to the puncture hole is moved along the rack, the wound is pressed and parts of the structure are fixed in this position.

The main disadvantage is the inability to move the patient in cases of transportation for medical reasons, in addition, the patient must be in a forced position - strictly motionless, which reduces the reliability and ease of use of the device, since the slightest movement in the lumbar spine and lower limbs will lead to the displacement of the pressure unit regarding a postoperative wound. In this case, the patient should be on a solid foundation to ensure the stability of the device.

A device for pressing a puncture hole by inflating an elastic balloon above it (FemoStop) [Application US No. 2012/0271179 A1, publ. 10.26.2012], including a belt for girdling the patient at the level of operational access, the front part of the belt is represented by a synthetic strip acting as a rail along which an elastic hemisphere is connected, connected to a hand pump, with the possibility of pumping the hemisphere to increase its volume and press the lower hemisphere pole to the puncture hole to provide hemostasis.

The disadvantages of the known device are the lack of visual monitoring of the state of the wound (puncture opening) and difficult positioning, since the individual structure and parameters of the buttocks, areas of the hip joints, the size of these areas, the consistency of soft tissues are very different. Due to these factors, with the slightest inaccuracy in the positioning of the pressure element (hemisphere), postoperative complications may develop - bleeding, hematoma formation, etc. Over time (device exposure 6-8 hours), the probability of displacement increases.

Also known is a device for hemostasis [GoldFingerFemoralHemostasisCompressionDevice, developed by KeweiRisingMedical], comprising a horizontal arm, the distal end of which is rigidly connected to a vertical strut equipped with a support element for fixing the device to the patient’s thigh, the proximal end is connected to a vertical strut containing a retractable clamp a node that performs a hemostatic function by squeezing the soft tissues of the inguinal region above the puncture opening of the femoral artery, fixing (nat zhnoy) belt in the horizontal arm to be secured around the hip device and to limit its movement during activation of the compression unit. The fixing belt is rigidly attached to the horizontal lever, the clamping unit is mounted on a extendable tripod connected to an electric motor mounted inside the horizontal lever.

A disadvantage of the known device is that when the hemostasis procedure is carried out for a long time (6-8 hours) in the contact areas of the racks and the belt, the patient’s body is deformed, the pressure of the pressure device to the hemostasis zone decreases, which leads to serious negative consequences. Due to the different anthropometric parameters of patients, the use of a prototype having an unchanged geometry reduces reliability and ease of use, and in some cases (in obese patients) it is impossible to use. The distal stand with the element for fixing the device is not sufficiently fixed on the patient’s body, since it is kept from displacement only by the friction force on the body of the distal supporting element. During the hemostasis procedure, it is impossible to guarantee the patient's calm behavior, including involuntary movements, which leads to micro movements of the supporting surface, which, when combined, can cause its movement, which also leads to a decrease in the reliability of its use and the risk of complications.

The aim of the technical solution is to create an easy-to-use, convenient to use device that provides optimal hemostasis in the early postoperative period in patients who underwent surgery using percutaneous vascular access in the inguinal-femoral region.

The technical result of the goal is achieved by the fact that the device is represented by a strap 2, extending from the fixing belt 1, to which pocket 3, containing a slot 8, a chamber 5 with a manometer 6 and an air blower 7, is movably connected by means of buzzers 4.

In fig. 1 shows a general view of a utility model.

The utility model is used as follows:

After completion of the operation using percutaneous vascular access on the femoral artery, the device is superimposed on the patient’s body in such a way that the fixing belt 1 bends around the patient’s waist, and the strap 2 is pulled out from the dorsal side through the perineum, passes through the slot 8 and is tied, thereby securing the pocket 3 in the inguinal-femoral region. After displacement of the above element along the fixing belt 1 by means of buzzers 4 to select its most optimal position, the operator begins to inflate the chamber 5, using an air blower 7 and controlling the degree of gas voltage according to manometer 6. Then, having reached the required pressure values, depending on the patient’s complexion, the device remains on the patient during the early postoperative period, due to which optimal hemostasis is achieved.

The positive effect of the claimed technical solution consists not only in ease of use, but also in ensuring adequate hemostasis in the early postoperative period in patients who underwent x-ray endovascular intervention on the heart and blood vessels using percutaneous vascular access on the femoral artery, due to the optimal location and fastening of the pocket with a camera in the inguinal-femoral region.

Claims (1)

A device for providing optimal hemostasis in the inguinal-femoral region after x-ray endovascular interventions, comprising a chamber with a manometer and an air blower, characterized in that the camera with a manometer and an air blower are placed in a pocket with a slot, which is movably connected by means of guzhiks to a fixing belt with an outlet from it a strap made for passing through the pocket slot and tying.

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