RU94837U1 - DEVICE FOR SEARCH FOR FLOWS OF LARGE SACINOUS VEIN WITH AUTOVENOUS SHUNTING INTERVENTIONS "IN SITU" - Google Patents

Abstract

 A device for searching inflows of the great saphenous vein during autogenous bypass surgery according to the “in situ” technique, which is a rigid metal probe with a circular cross-section, with a diameter of 1-2 mm and a total length of at least 40 cm; circular indicator notches are made on the surface of the probe every 10 cm; the proximal end of the probe is made in the form of an olive-shaped thickening with an angle of deviation from the axis of the probe of 45-60 °, having a length of not more than 6 mm, and a diameter of not more than 4 mm; in the end part of the distal end of the probe, a guide bar is fixed rigidly, perpendicular to its axis and aligned with its proximal end.

Description

The utility model relates to medical equipment, namely to surgical instruments, and can be used when performing autovenous femoral-popliteal-tibial bypass grafting according to the “in situ” technique to facilitate the search for inflows of the great saphenous vein (BPV) for the subsequent elimination of arteriovenous discharges.

Currently, the following methods are used to detect and eliminate the discharge of arterial blood from the inflows of the BPV during autogenous bypass interventions using the in situ technique: palpation, ultrasound (Doppler ultrasound or duplex scanning), radiopaque angiography, subcutaneous endovideoscopy, angioscopy, and exposure BPV trunk during surgery. Each of the described methods has certain disadvantages and limitations.

The palpation method is based on the tactile determination of the localization of the inflows of the BPV by the characteristic systolic-diastolic trembling in the zone of discharge of arterial blood from the shunt into the inflows, however, with the deep location of the BPV, the possibilities of this method are significantly limited.

Ultrasound dopplerography, duplex scanning, angiography, subcutaneous endovideoscopy and angioscopy make it possible to determine with high accuracy the places where the tributaries of the great saphenous vein leave, but they are laborious, require the use of special diagnostic equipment, the participation of qualified personnel, significantly extend the time of surgical intervention, and are not always available in conditions emergency surgery.

Surgical intervention aimed at finding and eliminating the inflows of the great saphenous vein consists in isolating the vein from individual skin incisions in its projection on the thigh and lower leg, followed by ligation of the revealed venous collaterals. Thus, the surgical method is associated with the need for extensive skin incisions in the projection of the BPV, which lengthens the surgical intervention, leads to an increased risk of trauma to the lymphatic limb collectors and wound complications. In this case, use the following tools: scissors, tweezers, retractor.

The authors of the claimed utility model in the available literature did not find a description of surgical instruments specifically designed to search for inflows of the UCV during autovenous shunt interventions using the in situ technique.

The technical result of the utility model is the development of a surgical instrument specifically designed to search for inflows of the ventricular arteries when performing autogenous bypass interventions using the in situ technique, the use of which does not require the involvement of additional specialists and equipment, as well as allowing to reduce search time and reduce surgical trauma by reducing the length of skin incisions performed during surgical intervention aimed at finding and eliminating the inflows of BPV.

The technical result is achieved by the fact that the device for searching inflows of the ventricular arteries during autologous bypass interventions according to the in situ technique is a rigid metal probe with a circular cross-section, with a diameter of 1-2 mm and a total length of at least 40 cm. On the surface of the probe every 10 cm made circular indicator notches. The proximal end of the probe is made in the form of an olive-shaped thickening with an angle of deviation from the probe axis of 45-60 °. The olive-shaped thickening has a length of not more than 6 mm and a diameter of not more than 4 mm. In the end part of the distal end of the probe, a guide bar is fixed rigidly, mounted perpendicular to its axis and aligned with its proximal end.

The salient features of the claimed utility model are:

- the shape of the device in the form of a rigid metal probe with a round_cross-section and a diameter of 1-2 mm;

- the total length of the device is not less than 40 cm;

- the presence of circular indicator notches on the surface of the probe every 10 cm of its length;

- the implementation of the proximal end of the probe in the form of an olive-shaped thickening with an angle of deviation from the axis of the probe at 45-60 °;

- dimensions of olive-shaped thickening: length not more than 6 mm and diameter - not more than 4 mm;

- the presence of a guide bar rigidly fixed in the end part of the distal end of the probe and mounted perpendicular to its axis, as well as co-directional with its proximal end.

Causal relationship between the essential distinguishing features of the claimed design and the achieved result:

- The shape of the device in the form of a rigid metal probe with a round cross section with a diameter of 1-2 mm ensures its non-invasive conduct inside the vessel.

- The total length of the device of at least 40 cm allows without technical difficulties to explore the autovenous shunt throughout. The minimum possible length of the metal probe corresponds to the maximum length of the autovenous shunt when performing femoral-popliteal bypass surgery above the gap of the knee joint.

- The presence of circular indicator notches on the surface of the probe every 10 cm of its length allows you to accurately determine the location of the olive-shaped thickening;

- Deviation of the proximal end of the probe from its axis by 45-60 ° allows it to penetrate into the mouth of the tributaries of the great saphenous vein. The shape of the thickening of the probe in the form of olive allows its proximal section, which has a smaller diameter compared to the maximum, to atraumatically glide along the venous wall and penetrate the mouth of the tributaries of the great saphenous vein.

- The dimensions of the olive-shaped thickening: a length of not more than 6 mm and a diameter of not more than 4 mm provide an atraumatic and unhindered introduction of the instrument into the lumen of the autovenous shunt, and also reduce the risks of overextension and perforation of the venous wall.

- The presence of a guide bar, rigidly fixed in the end part of the distal end of the probe and mounted perpendicular to its axis, provides the ability to rotate the tool in order to study various walls of the autogenous shunt, thereby increasing the usability of the device. The alignment of the bar and the proximal end of the probe provides control over the direction of the olive-shaped thickening.

The set of essential distinguishing features is new and has allowed the development of a surgical instrument specifically designed to search for inflows of the ventricular arteries during autologous shunt interventions using the in situ technique, the use of which does not require the involvement of additional specialists and equipment, as well as allowing, in comparison with analogous methods significantly reduce the time required to search for inflows of the great saphenous vein, and in comparison with surgical intervention aimed at and the search and elimination of inflows of the BPV, reduce surgical trauma by reducing the length of skin incisions.

The essence of the utility model is illustrated by the drawing, where Fig. 1 schematically shows a device for searching for supply of BPV - a general view, where:

1 - proximal end of a metal probe;

2 - the distal end of the metal probe;

3 - olive-shaped thickening;

4 - a directing lath;

5 - circular indicator notches;

The operation of the claimed utility model is carried out in 4 stages. In the first step, the proximal end (1) of the metal probe is inserted into the lumen of the selected distal section of the large saphenous vein. The olive-shaped thickening (3) is directed towards the medial wall of the vein with the help of a guide bar (4) installed in the end of the distal part (2) of the probe. Moving the probe along the vein in the proximal direction, they make stops in those places where the sensation of a “step” or “failure” is determined, followed by an insurmountable obstacle, which corresponds to the level of discharge of the venous inflows. In these places, the surgeon stops the progression of the probe, turns the guide bar (4) in the direction of the proper skin area, palpates the location of the olive-shaped thickening (3) and marks it. In case of uninformative palpation method (marked development of subcutaneous adipose tissue, deep location of the great saphenous vein), an alternative method of localizing olive-shaped thickening is possible (3). To this end, determine the length of the portion of the probe inserted into the lumen of the vein, according to the indicator circular notches (5) on its surface.

Having reached the level of the proximal end of the great saphenous vein, the probe is carried out in the opposite direction to its distal mobilized area.

The second stage, using the guide bar (4), rotate the probe clockwise, directing the olive-shaped thickening (3) towards the front wall of the vein. Subsequently, a probe is carried out in the proximal direction of the vein in compliance with the sequence of actions described in the first stage.

The third and fourth stages carry out the advancement of the probe along the lateral and posterior walls of the vein, respectively, according to the described algorithm.

After the stage of searching for BIV branches is completed, small length incisions (2-3 cm) are made in the projection of the marked skin areas, through which the revealed venous inflows are isolated and bandaged.

The device is made of medical steel.

For the first time, a surgical instrument has been developed specifically designed to search for inflows of BPV during autogenous bypass surgery according to the “in situ” technique.

The developed utility model, in comparison with analogous methods, can significantly reduce the time required to search for inflows of the great saphenous vein. Compared with surgical intervention aimed at finding and eliminating the inflows of BPV, the claimed device also allows to reduce surgical trauma by reducing the length of skin incisions. The developed device does not require the involvement of additional specialists and equipment, and can also be used in emergency conditions, when the use of auxiliary diagnostic methods is limited.

Claims (1)

A device for searching the inflows of the saphenous vein during autogenous bypass surgery according to the “in situ” technique, which is a rigid metal probe with a circular cross-section with a diameter of 1-2 mm and a total length of at least 40 cm; circular indicator notches are made on the surface of the probe every 10 cm; the proximal end of the probe is made in the form of an olive-shaped thickening with an angle of deviation from the axis of the probe of 45-60 °, having a length of not more than 6 mm, and a diameter of not more than 4 mm; in the end part of the distal end of the probe, a guide bar is fixed rigidly, perpendicular to its axis and aligned with its proximal end.