UA137696U - DEVICE FOR PERFORMANCE OF INTERNAL EDUCATIONAL OBLITERATION - Google Patents

Abstract

The device for performing intraluminal obliteration contains a power source - a generator for generating high-frequency voltage, a bipolar tool. The bipolar tool consists of replaceable or integral working parts formed of two multipolar electrically insulated electrodes fixed to each other to form an arbitrary shape similar to a cylinder, the surface of which is divided along the dielectric layer into two equal parts by area of the metal part. connected to each other, including electrically, by a flexible tube containing at least one AC conductor from the generator, which is connected, including - electrically, with a removable or non-removable terminal containing AC conductors and has a connector for connecting voltage from the generator.

Description

The useful model belongs to medicine, in particular to surgery, and can be used for surgical treatment of varicose veins of the lower extremities, as well as obliteration of bronchi and venous vessels of the small pelvis.

Varicose veins of the lower limbs or varicose veins of the lower limbs - expansion of superficial veins, accompanied by valve failure and impaired blood flow. This is the most common disease of peripheral vessels. According to epidemiological data, various forms of this disease occur in 26-28% of women and 10-20% of men of working age.

Varicose veins are characterized by: heaviness in the legs, pain, swelling and cramps of the calf muscles, the appearance of nodes in the subcutaneous veins, which are prone to infection and blood clots.

The progression of the disease is accompanied by a change in skin color, the formation of trophic ulcers.

There are many approaches to the treatment of varicose veins, but to date, the most effective method of treatment is surgical operation - venectomy. Medication and compression therapy are used both as auxiliary methods in surgical treatment and as independent methods in the initial stages of varicose veins and the presence of contraindications to surgical treatment.

Treatment of varicose veins should be complex and individual, most often includes a combination of conservative and operative treatment.

Types of surgical treatment of varicose veins: - classic phlebectomy; - minirlebectomy; - endovenous laser coagulation (EVLK); - combined method.

A device is known for performing endovasal obliteration of a large saphenous vein in an adapted mode of high-frequency electrowelding, which contains a probe for passing into the lumen of a large saphenous vein and its extraction with step-by-step electrowelding, consisting of: a power source - a generator in which a high-frequency voltage is formed, according to the selected mode of automatic obliteration, bipolar instrument, sensors

From the electric current and voltage, the unit for automatic processing of information about the change in the resistance of biological tissue and the generation of control signals for the user and the associated sound alarm unit, while the structural elements interact in such a way that a high-frequency voltage is formed in the generator, according to the selected mode of automatic obliteration of veins by high-frequency electric welding: a potential difference of 110-100 V is applied to the poles of the developed tool, the handle of which is held by the user, controlling its progress along the damaged vein, the information processing unit contains a program that sets the algorithm for adapting and automating the mode of endovenous obliteration of the great saphenous vein, determining the change resistance of biological tissue by fixing the coefficient of resistance of biological tissue K, which varies depending on the conditions of endovenous obliteration of the great saphenous vein, but necessarily within the range of indicators from З to 4, the information processing unit generates signals d at the user's side and through the sound alarm unit activates the alarm, which notifies the user (surgeon) about the advancement of the working part of the tool to a new section of the damaged vein, the information processing unit automatically determines the duration of welding on a separate segment of the vein based on feedback signals from sensors and voltage, according to resistance or current of a conductive medium in a defined range of changes in relative resistance or current (ША Mo 130447 ), AbЭ1В 17/00, Ab18 12/18, 20161.

The indicated device has the following disadvantages: - the duration of endovasal obliteration of the large saphenous vein is too long, as it consists of a large number of iterations on each segment of the vessel, the length of which is determined by the geometric size of the working part of the ellipsoidal tool and is equal to 9/10 of the larger diagonal of the ellipsoid; - the release of heat occurs in a small volume, which leads to the concentration and accumulated heat in the local segment and can lead to burns.

The basis of a useful model is the task of creating a device for performing intraluminal, including endovasal, obliteration, which would reduce the duration of the process, increase the accuracy of identification and positioning of the tool, as well as the accuracy of determining and distributing the allocated heat in the volume.

The task is solved by the fact that in the device for performing intraluminal obliteration, which contains a power source - a generator for forming a high-frequency voltage, a bipolar tool, according to a useful model, the bipolar tool consists of interchangeable or integral working parts formed from two different polar electrically of isolated electrodes fixed immovably to each other with the formation of an arbitrary shape similar to a cylinder, the surface of which is divided along the dielectric layer into two levels by area of metal parts connected to each other, including electrically, by a flexible tube containing , at least one conductor of alternating current from the generator, which is connected to a removable or non-removable, including - electrically, terminal containing conductors of alternating current and having a connector for connecting voltage from the generator.

The length of the cylinder is from Е to 70 mm, and the maximum diameter is from 0.6 to 7 mm.

The thickness of the dielectric layer is no more than 3 mm.

A flexible tube can additionally contain an insulated cord or a filler to increase its elasticity.

The device contains an opening for the supply of physiological solution and may additionally contain means of regulating the opening.

The device may additionally contain a mechanism for coupling detachable parts.

The working part can be flexible, in which the electrodes can be composed of any number of dielectrically isolated segments, or the electrodes can be made of a flexible material, for example, copper.

The claimed device has significant advantages compared to the nearest analog.

The duration of the process mainly consists of 7-20 iterations, which allows shortening the operation to 20 minutes.

It is possible to use a bipolar instrument for obliteration of the veins of the small pelvis, coagulation of capillaries in the lumen of the bronchi.

The bipolar tool has a flexible design, including the working part, which ensures the use of a minimally invasive method of its introduction through puncture or endoscopic access and ensures unhindered passage along the hollow organ along its entire length (when used on the veins of the small pelvis or in the lumen of the bronchus ).

The bipolar instrument has a clearer visualization by means of ultrasound scanning during surgery.

The process is more predictable and ensures repeatable results at the expense

From the reduction of positioning errors and the number of iterations.

Identification of the state of the tissue based on feedback signals occurs with high accuracy due to the lower influence of non-informative reactions on the entire plane of contact of the tool with the tissues of tubular hollow structures or organs.

A useful model is explained with drawings.

In Fig. 1 shows the device for intraluminal obliteration in section; in Fig. 2 - a schematic view of the device for performing intraluminal obliteration.

The device for performing intraluminal obliteration contains a bipolar instrument, which is designed for controlled ohmic heating due to the release of heat during the flow of an HF current through the biological tissues of people or animals that form tubular structures or belong to hollow organs - in the adapted mode of high-frequency electric welding or other automatic mode of electrosurgical influence (coagulation).

The device consists of replaceable or non-separable working parts, formed from two different polar electrically isolated electrodes 1, firmly fixed to each other to form an arbitrary shape similar to a cylinder, with linear dimensions of length (height) - from 6 to 70 mm and a maximum diameter from 0.6 to 7 mm. The surface of the cylinder is divided along the dielectric layer 2 into two metal parts of equal area, the thickness of the dielectric layer is no more than 3 mm, which are connected to each other, including electrically, by a flexible tube 3, which contains at least one conductor of alternating current from the generator 4, and may also contain an insulated cord or filler 5 to increase the elasticity of the flexible tube, which is connected, including electrically, to a removable or non-removable terminal 6, which contains alternating current conductors and has a connector 7 for voltage connection from the generator 4.

The working part can be flexible, that is, the electrodes 1 can consist of any number of segments isolated by a dielectric, or the electrodes 1 can be made of a flexible material, for example, copper.

The claimed device works as follows.

At the location of varicose veins, a bipolar instrument is introduced into the lumen of the vein through puncture access, gradually pushing it along the entire length of the vessel. After the introduction of the bipolar instrument, a high-frequency electric current is turned on from the generator 4, and the device is gradually drawn in the opposite direction. As a result, the electric current is applied to the electrodes 1 and flows through the soft tissues, causing heating and ablation of the walls and contents of the lumen of the varicose vessel (bronchus). By moving the bipolar instrument in the opposite direction, blood flow is stopped (ablation) of the varicose vessel (bronchus) along the entire length of the device's insertion length.

In thoracic surgery, a version of the tool with a length of the working part from 6 mm to 20 mm is used to pass the trunk of the bronchus in the channel of the fibrobronchoscope. It can be used, including palliatively, for the spread of benign and malignant formations in the lungs, embolism of the pulmonary arteries, which leads to distortion and difficult passage of air through the lumen of the bronchus. The principle of operation of the tool is the same as in obliteration of veins.

The tool provides sufficient hemostasis of the capillaries while restoring the permeability of the bronchus.

Claims (5)

USEFUL MODEL FORMULA 1. A device for performing intraluminal obliteration, containing a power source - a generator for the formation of high-frequency voltage, a bipolar tool, which is characterized by the fact that the bipolar tool consists of a changeable or non-separable working part, formed from two different polar electrically isolated electrodes fixed immovably one with one with the formation of an arbitrary shape similar to a cylinder, the surface of which is divided along the dielectric layer into two metal parts equal in area, connected to each other, including electrically, by a flexible tube that contains at least one conductor of alternating current of current from the generator, which is connected, including electrically, to a removable or non-removable terminal containing alternating current conductors and having a connector for connecting voltage from the generator. 2. The device according to claim 1, which differs in that the length of the cylinder is from 6 to 70 mm, and the maximum diameter is from 0.6 to 7 mm. Z. The device according to claim 1, which differs in that the thickness of the dielectric layer is no more than 3 mm. 4. The device according to claim 1, which is characterized by the fact that the flexible tube additionally contains an insulated cord or a filler to increase its elasticity. Zo 5. The device according to claim 1, which is characterized by the fact that it contains an opening for the supply of physiological solution and, in addition, the means for regulating the opening. b. The device according to claim 1, which is characterized by the fact that it additionally contains a mechanism for coupling detachable parts. 7. The device according to claim 1, which is characterized by the fact that the working part is flexible, in which the electrodes are composed of an arbitrary number of segments isolated by a dielectric or the electrodes are made of a flexible material, for example, copper. 3 4 15 I and book 7 Fig. 1 in py x and ah and in x z, Koza x and How ee x and how co ZV soyu x "KZ ze i she i Y o o o Y a Ks M Zk Ma Z Another 1st: Fig. 2