RU205366U1 - DEVICE FOR REMOVAL OF CONCRETE FROM GALLERY - Google Patents

Abstract

The utility model relates to medical devices for endoscopic surgery, in particular, to devices for removing foreign bodies from the lumen of hollow organs, for example, stones from the bile ducts. The device can also be used to remove foreign bodies from the ureters, gallbladder, urethra, salivary glands, esophagus, etc. strings placed in the casing with the possibility of reciprocating movement; a central string made elongated with the possibility of reciprocating movement in the casing, the proximal end of which is connected to the top of the dome; while the peripheral strings have a working part made with a shape memory with the possibility of placing in the casing in the transport position and having a convex shape in the working position, the proximal ends of the peripheral strings are connected to the base of the dome. The casing is equipped with a hollow cylindrical tube placed coaxially with the casing, while the central string is placed in the hollow cylindrical tube, and the peripheral strings are placed independently of each other in the gap between the cylindrical tube and the casing, the basket dome is made of elastic material and is equipped with holes and X-ray contrast marks located in the lower part of the dome, while the dome is made with the possibility of placing it in the transport position in the lumen of the casing together with the central and peripheral strings, and the connection of the proximal ends of the peripheral strings with the base of the dome is atraumatic. with a decrease in the trauma of lithoextraction, especially in the case of complex choledocholithiasis.

Description

Technical field to which the utility model belongs

The utility model relates to medical devices for endoscopic surgery, in particular, to devices for removing foreign bodies from the lumen of hollow organs, for example, stones from the bile ducts. Also, the device can be used to remove foreign bodies from the ureters, gallbladder, urethra, salivary glands, esophagus, etc.

State of the art

The most common device for removing foreign bodies from the ureters is the Dormia basket, which was registered in the USA in 1960 by Enrico Dormia (patent US2943626). The Dormia basket and similar devices in various modifications are currently very widely used in gastroenterology, urology and surgery to remove foreign bodies (most often calculi) from the bile ducts, ureters, gallbladder, esophagus, salivary glands and other organs or ducts. As a rule, the basket itself consists of several metal (nitinol) strings or branches connected at opposite ends, forming closed or S-shaped loops (the number of which varies from 2 to 15), or is made of durable fabric, or has a combination of these elements.

In most cases, endoscopic retrograde cholangiopancreatography (ERCP) is not difficult, incl. for a beginner specialist. However, there are a number of severe cases - the so-called "complex" choledocholithiasis, when the calculus located in the lumen of the duct has a very large diameter (more than 1.5-2.0 cm) and a solid structure; or in the presence of a large number of calculi (in the case of advanced choledocholithiasis), filling the lumen of the common bile and common hepatic ducts from the ampulla to the confluence zone; or in the presence of a small calculus, the transverse size of which exceeds the diameter of the section of the bile duct; or when calculi are in the lumen, as a rule, slightly dilated right or left lobar ducts, from where it is practically impossible to get them; or in the presence of anatomical changes in the duct (for example, strictures), etc. Also, in rare cases, a calculus stuck in the area of the ampulla of Vater, as in a niche, and which is practically inaccessible for removal by a balloon and difficult to remove with the Dormia basket, can cause difficulties in extraction.

The listed cases cause significant difficulties in the process of lithoextraction, which lengthens the procedure time and, accordingly, the time during which the patient must be under anesthesia. The mucous membrane of the common hepatic and common bile ducts, the lobar ducts is injured by the basket due to repeated attempts to move it in the lumen of the duct to remove the calculus, as well as by the calculus itself in the process of its extraction, which subsequently - in the distant postoperative period - can cause cicatricial stricture of the ducts. For the same reasons, there is a sharp edema of the BDS (large duodenal papilla), which makes it difficult to pass the string or basket into the lumen of the bile ducts. The risk of developing postoperative pancreatitis and pancreatic necrosis, bleeding from the area of dissection of the large duodenal papilla increases significantly. Also, the time of anesthetic treatment is lengthened (up to several hours), which can adversely affect the patient (especially, over 65 years of age or with a serious concomitant pathology).

In cases of large cholangiolithiasis, as a rule, they resort to using a lithotripter (mechanical or laser). It should be noted that laser lithotripsy requires special technical equipment, which limits the application of this method in practice. Mechanical lithotripter is usually more affordable than laser lithotripter and can be quite effective in some cases. However, a mechanical lithotripter turns out to be ineffective in the presence of very large choledocholithiasis (2.0 cm or more), or very hard large calculi, or in the presence of a large amount of hard calculi filling the hepaticoledochus from the ampulla to the confluence zone, which does not allow the branches of the basket to open.

Less often, situations arise in which the transverse size of the calculus exceeds the diameter of the section of the unexpanded bile ducts, completely obstructing the lumen of the duct at its level. With this pathology, it is sometimes possible to start the Dormia basket behind a calculus, however, when it is backtracked at the level of the calculus, the working part of the basket "collapses" (squeezed by the calculus). In this regard, endoscopic one-stage lithoextraction becomes impossible in this patient and ends either with the installation of a biliary stent into the lumen of the common bile duct as a palliative method to resolve hyperbilirubinemia, or with the installation of a nasobiliary drainage tube into the lumen of hepatic choledochus as a temporary measure to resolve hyperbilirubinemia with the ability to "blur »Large calculus to a smaller size, after which the patient undergoes repeated ERCP after a few days. Either lithoextraction is performed operatively (laparoscopy or laparotomy), which is a much more traumatic intervention than endoscopic lithoextraction.

A device for removing calculi (patent US6368328 B1) is known from the prior art, containing a 4-string basket, to which a fragment of laser-resistant fabric in the form of a rectangle, circle, etc. is attached. Each of the four strings of the basket has a proximal and distal part. The distal part of each string is bent outward from the central axis at an angle of preferably 35 to 60 degrees. A piece of tissue attached to the distal ends of the strings forms an elastic flat surface that can serve as a protective shield for calculus during laser lithotripsy, and can also be used to move calculus. In another embodiment, the piece of fabric may have a convex shape, in which case the 4-string basket takes the shape of an umbrella.

It is also known a device for removing calculi (application US20060247663 A1), made in the form of a basket, densely covered with elastic tissue on all sides, except for the front in the open position. The basket is inserted inside in a closed position, and while it is closed, the frontal opening of the elastic tissue is tightly closed, then the basket is opened and a calculus is captured through the frontal opening in the tissue. After fixation of the calculus in the basket with the help of a laser, its fragmentation can be carried out. Elastic fabric that completely covers the basket reduces the risk of loose calculus migration.

An umbrella catheter is known from the prior art for removing calculi, debris and other foreign bodies from the biliary and urinary tract and any other hollow tubular structures (patent US3472230). The device includes a catheter, at the distal end of which an umbrella is placed, at the proximal end - an umbrella control device. The umbrella is a frame made of strings made with shape memory (having a convex shape in the open position of the umbrella), the distal ends of which are connected to stiffening ribs, to which a fragment of elastic material is attached. The strings from the proximal end are connected to a slider that ensures the movement of the strings in the catheter cavity. The umbrella is inserted into the organ in a closed position, and as soon as it is inserted further (above) the foreign body, the umbrella is opened and foreign bodies are collected in it, after which the umbrella is closed by moving the slider and removed together with the captured calculi or other foreign bodies outward. Placing stones in the umbrella prevents excessive trauma to the mucous membrane by sharp corners of stones and fragments during their extraction.

However, in all of the above devices, the umbrella dome is made of fabric, which in the open state is provided with a frame of peripheral strings along the entire length of the dome, closing from the distal end of the device, which determines the shape of the dome, limiting the ability to change the shape of the dome for a more reliable grip and retention of calculus in the lumen of the basket during traction of the device. The presence of such a framework made of closed lateral strings increases the diameter of the basket, complicating the performance of endoscopic lithoextraction in the detection of complex choledocholithiasis.

In some devices, the fabric dome is made perforated, while the holes are small enough to retain calculi or other foreign bodies with a diameter of 1 mm or less. At the same time, the use of a fabric with a fine perforation in comparison with a larger perforation increases the transverse dimensions of the working part of the device - the umbrella dome, in the folded position. In addition, in some devices, the tissue dome is made of a non-radiopaque material, which does not provide the possibility of visualizing the position of the calculus in relation to the edge of the tissue dome. In addition, the known devices are characterized by the difficulty of removing the captured calculus or carrying the basket without concomitant significant damage to the surrounding tissues in the presence of large calculi, or with small transverse dimensions of the lumen of hollow structures. In addition, the number of strings during the execution of the basket frame affects the efficiency of gripping and removing calculus. When making a frame of three or four strings, a foreign body easily passes through the wide gaps between the strings into the lumen of the basket, while the reliability of keeping the calculus in the lumen of the basket during traction of the device is not ensured, especially if the calculus has a small transverse size. In the presence of a frame of a large number of strings (5 or more), the foreign body is more reliably retained in the lumen of the basket, however, there are difficulties associated with the capture of the foreign body.

Closest to the claimed solution is a device for extracting foreign bodies, for example, calculi or thromboemboli, from a hollow organ (US6350266 B1). The device consists of a handle, a hollow shell starting from the handle and a gripping part - a basket. The basket consists of distal and proximal parts. In one embodiment of the device, the distal part consists of a plurality of legs, and the proximal part is a pocket, the edge of which is connected to the tips of the legs. The pocket of the basket is made in the form of a net or a bag of nitinol thread. The gaps between the woven threads allow fluid to pass freely, but are sufficient to retain small stones from 0.1 cm in diameter. In another embodiment, the device includes a central string, the proximal end of which is attached to the proximal part of the basket. The central string is made with the possibility of reciprocating movement, providing a change in the position of the distal part of the basket from curved to concave.

This device has a rigid frame of the proximal part of the basket, which does not provide its elasticity, which is necessary for traction in the case of complex choledocholithiasis. In addition, the basket of nitinol thread in the folded position is characterized by large transverse dimensions in comparison with fabric baskets. In addition, baskets made of nitinol thread have a higher probability of damage to the inner walls of the bile ducts compared to tissue baskets, incl. due to possible damage to the threads during operation of the device.

Thus, a technical problem is the creation of a device for removing stones from the bile ducts, eliminating the above disadvantages.

Disclosure of a utility model

The technical result of the useful model is to increase the efficiency of removing calculi from the bile ducts while reducing the trauma of lithoextraction, especially in the case of complex choledocholithiasis.

The technical result is achieved when implementing a device for removing stones from the bile ducts, containing a basket, the proximal part of which is made in the form of a dome, and the distal part is made of peripheral (lateral) strings (or branch strings) placed in the casing with the possibility of reciprocating movement ; a central string made elongated with the possibility of reciprocating movement in the casing, the proximal end of which is connected to the top of the dome; while the peripheral strings have a working part made with a shape memory with the possibility of placing in the casing in the transport position and having a convex shape at the proximal end in the working position; the proximal ends of the peripheral strings are connected to the base of the basket dome; the casing is equipped with a hollow cylindrical tube placed coaxially with the casing, while the central string is placed in the hollow cylindrical tube, and the peripheral strings are placed independently of each other in the gap between the cylindrical tube and the casing, the basket dome is made of elastic material and equipped with holes and X-ray contrast marks located in the lower part of the dome, while the dome is made with the possibility of placing it in the transport position in the lumen of the casing together with the central and peripheral strings, and the connection of the proximal ends of the peripheral strings with the base of the dome is atraumatic.

The connection of the peripheral strings to the dome can be realized by soldering them into the dome material. Peripheral strings can be located on the inside of the dome. The outer surface of the dome can be covered with a layer of silicone. X-ray contrast markers are preferably located at the base of the dome (soldered into the dome material) between adjacent peripheral strings. The peripheral strings are equidistant from each other.

The central string can be made with an atraumatic tip protruding beyond the surface of the dome, and is equipped with two point thickenings (couplings), in the working position of the basket one of which is located on the central string above the dome, and the second - under the dome, at the level of the location of the proximal ends of the peripheral strings.

The inventive device is an effective tool that provides a more reliable capture and removal of calculus from the bile ducts (including and in cases where the balloon, Dormia basket or mechanical lithotripter is not effective) in the presence of complex choledocholithiasis, single large calculi, multiple large calculi wedged into the lumen of an unexpanded bile or common hepatic duct, calculi from the lobar ducts, with minimal damage to the mucous membrane of the bile ducts while reducing the operation time.

Thanks to the elastic dome, the instrument is as atraumatic as possible with the minimum diameter of the working part of the device. The presence of three or four metal (nitinol) peripheral strings located along the perimeter (along the periphery) at an equidistant distance from each other, and one autonomous central string, allows maintaining the shape of the dome of the fabric element of the basket in the open state. The execution of the dome of the basket from a durable elastic material (polyethylene, synthetic elastomers, polytetrafluoroethylene, etc.) in combination with shortened peripheral strings contributes to a more reliable grip of the calculus than the strings of the working part of the Dormia basket, which tend to easily slide tangentially from a large, smooth, or "Inconvenient" located calculus (in the ampulla of Vater or in the lumen of the lobar ducts). In addition, the use of an elastic and durable material for making the dome ensures the removal of both large soft and hard stones with sharp angles (the latter, like the large diameter of the calculus, is an obstacle to removal with a litho-extraction balloon). The fabric dome, which helps to retain a foreign body in the lumen of the basket, makes it possible to use a device with a small number of peripheral strings (3-4) no less efficiently than its counterparts with a large number of peripheral strings (5 or more). Implementation of the claimed device with 4 peripheral strings can serve as an alternative to a lithospheric balloon. The autonomous central string is made with the possibility of reciprocating movement, providing a reverse movement of the working part of the basket, in one direction - to capture the calculus, in the opposite direction - to remove the "caught" calculus from the basket. The location of the distal ends of the peripheral strings on the inner side of the dome or in the thickness of the dome material helps to reduce trauma to the mucous membrane of the bile ducts when performing litho extraction. The dome is made of perforated elastic material, which ensures the maximum opening diameter of the dome with the smallest possible diameter of the basket in the folded position (comparable to the diameter of the catheter).

Thus, the inventive device is a more effective tool for removing foreign bodies from ducts or vessels, allows to reduce the time of operations in cases of complex choledocholithiasis, reduces the invasiveness of the operation being performed, with the possibility of visualizing the location of the lower edge of the tissue dome during X-ray control.

Brief Description of Drawings

The utility model is illustrated by drawings, where Figs. 1 and 2 show a cross-section of the device casing with two variants of the peripheral channel - with and without radial partitions; in fig. 3-4 shows an embodiment of the claimed device with a central string soldered to the top of the dome, longitudinal section and general view, respectively; figure 5 shows the node connecting the top of the dome with the central string, made extending beyond the dome of the device (through); Fig. 6-7 show possible options for the implementation of the inventive device with a through central string; Figures 8-9 show a device with a reverse arrangement of the dome for freeing the basket from a foreign body, in which the top of the dome, the proximal part of the basket, is located at the distal end of the working part of the device; Fig. 10 shows a possible variant of attaching the peripheral strings 2 to the handle of the device ...

Positions in the drawings indicate: 1 - central string; 2 - peripheral strings (lateral strings or branch strings); 3 - a casing (or a guiding tube made with the possibility of passing in the bile duct, or a guiding catheter); 4 - inner (central) tube; 5 - radial partitions; 6 - atraumatic tip of the central through string; 7 - central opening of the dome; 8 - proximal sleeve; 9 - distal sleeve; 10 - section of the dome thickening; 11 - X-ray contrast marks; 12 - perforation (holes) of the dome; 13 - dome; 14 - independent sections; 15 - dome in reverse position; 16 - the location of the central string inside the casing; 17 - central channel; 18 - peripheral channel; 19 - working part of the device (basket); 20 - proximal end of the working part of the device (basket) - top of the dome; 21 - distal end of the working part of the device (basket); 22 - dome base, 23 - handle.

Implementation of the utility model

The claimed device is a modification of the Dormia basket, includes a casing 3 with a cylindrical tube 4 located inside it, a working part 19 and control elements, and can be implemented in various versions, some of which are shown in FIG. 1-10.

The casing 3 is a flexible cylindrical tube made of polymeric material, the outer diameter of which is comparable to the diameter of the endoscope channel (no more than 2.8 mm). The casing is provided along its length with a coaxially located inner (central) tube 3, while the gap between the casing and the inner tube can be divided by thin radial partitions 5 with the formation of independent sectors 14 (or peripheral channels (see Fig. 2), forming several peripheral channels for It is preferable to form a utility model with the number of peripheral channels corresponding to the number of peripheral strings used in the construction. , corresponds to the length of the working part of the device.The working part of the device (basket) 19 consists of peripheral strings 2 and a thin perforated fabric dome 13. The control elements include the handle 23 and the central string 1.

The peripheral strings 2 of the basket, as a rule, are made of metal (preferably nitinol) with shape memory, in the amount of three or four. In the fully open position (in the working position), the peripheral strings take on a convex (rounded) shape. The peripheral strings 2 are made shortened in relation to the central string 1 located in the central channel 17 (Fig. 2), the ratio of their lengths can vary from 1: 1.5 to 1: 2. The peripheral strings 2 are not connected to each other, passing through one or more peripheral channels 18 to the handle 23. thickened in cross-section, or woven with an additional thread in order to impart greater rigidity to the structure of the device.

The central string 1 is made with the possibility of independent control (reciprocating movement) from the peripheral strings 2 and is located in the central channel 17 , can also be made thickened to give the central string 1 the necessary rigidity to ensure reciprocating movement. The central string 1 supports the top of the dome 13, and also serves as a tool for removing calculus from the device after its capture, having autonomous control, it can also serve as a stop for the dome in the process of performing manipulations. In one of the embodiments of the device, the central string 1 can be made passing through the hole 7 in the top of the dome 13 with a soft atraumatic tip 6 and thickenings in the form of sleeves 8 and 9, overlapping the opening 7, while the proximal sleeve 8 is located above the elastic dome 13, and the distal sleeve 9 - below it, for example, at a distance of up to 10 cm from the proximal sleeve 8. The central string 1 from the side of the distal end with the handle in one of the embodiments of the utility model may not be connected to the handle (Fig. 10).

The dome 13, made of an elastic material, at the base is atraumatically connected to the free (distal) ends of all peripheral strings 2, the ends of which, up to 1.0 cm in length, can either be mounted (soldered) into the thickness of the dome, or fixed on the inner side of the dome. As an elastic material of the dome, polyethylene, synthetic elastomers, polytetrafluoroethylene, polyetheretherketone, ethylenetetrafluoroethylene and other polymer compounds can be used, characterized mainly by the possibility of long-term operation at high temperatures (up to 350 ⁰ С) while maintaining their physical and mechanical properties, high tensile strength, resistance to high energy rays, inertness and non-toxic. The dome thickness should not exceed 100 microns. In this case, the material of the dome around the hole 7 is made thickened (2-4 times) to prevent the eruption or slipping of the couplings 8 and 9 with increased traction.

The dome is perforated. The holes 12 are sized and positioned to reduce the transverse dimension of the fabric dome 13 at its base in the closed position while maintaining the ability to retain foreign bodies in the basket's operating position. Typically, the diameter of the dome holes ranges from 0.3 cm to 0.5 cm, with the preferred location of the larger holes closer to the base. The holes are evenly distributed over the surface of the dome, in a preferred embodiment, they are staggered at an equidistant distance from each other, while part of the dome at the site of its attachment to the ends of the lateral strings can be made without holes. Along the edge of the dome 13, point X-ray contrast marks 11 are located to ensure the possibility of monitoring its position relative to a foreign body. X-ray contrast markers 11 can be soldered into the dome body, or attached by any methods known from the prior art. The number of marks can vary from 4 to 8. It is preferable to use marks of no more than 1.0 mm in size to exclude the possibility of shielding small calculi, and at the same time clearly visible on the monitor of the X-ray apparatus. To enhance the sliding effect relative to the inner walls of the hollow organs, the dome 13 can be covered with a silicone layer from the outside. The maximum diameter of the dome (at its base) in the open (working) state can be 1.5 cm, 2.0 cm, 2.5 cm, 3.0 cm.

Examples of the implementation of the proposed device are presented in figure 1-10.

In particular, in FIG. 1 and FIG. 2 shows embodiments of the device without radial partitions and with radial partitions with the formation of independent sections, respectively. The peripheral strings are located in one peripheral channel 18 (Fig. 1), or in independent sections 14 formed by radial partitions 5 located between the central tube 4 and the casing 3 (Fig. 2), which form several peripheral channels. Placing peripheral strings in independent sections (separate peripheral channels) prevents them from tangling during traction.

Some embodiments of the device are shown in FIG. 3, 4, 6, 7. All of these figures show a device with a fully open dome 13 and peripheral strings 2 in an operating position. FIG. 3, 4, the central string 1 is located in the central channel 17 and is soldered to the top of the dome 20 at the distal end. Four peripheral strings 2 are located in the peripheral channel at an equidistant distance from each other. FIG. 5 shows in more detail the node connecting the proximal part of the basket (the top of the dome 20) with the central string 1. Figs. 6-7 show variants of the device with couplings 8 and 9 located on the central string, which perform the function of locking elements for the basket dome in reciprocating movement of the string 1. In particular, the sleeve 8 serves as a stopper for the string in the proximal direction, the sleeve 9 - in the distal direction. The location of the sleeve 9 at the central hole of the dome 7, when the string 1 is moved in the distal direction, brings the basket to the working position necessary to capture a foreign body. The location of the clutch 8 at the central hole 7 when the string 1 is moved in the opposite direction leads to the reverse position of the dome 15, that is, the placement of the dome inside the volume formed by the working sections of the strings (Figs. 8, 9). This movement of the string 1 ensures the displacement of a foreign body outside the basket. To ensure easier sliding of the string 1 through hole 7, it is allowed to cover the section of the string between the couplings with silicone grease or other material that reduces friction.

After removing the calculus, the device is brought into the transport position, for which first the string 1 is moved in the proximal direction, providing the working (open) position of the basket, then by traction of the control handle, to which the peripheral strings are attached, the basket is inserted in the open position into the casing 3.

This device can be used in practice as an auxiliary one, in case of an unsuccessful attempt to extract calculus with the usual Dormia basket, or it can serve as a device of choice for litho extraction.

The manufactured prototype of the claimed device contained a single-lumen casing 300 cm long with an outer diameter of 6 Fr (2.7 mm), equipped with a central tube with a diameter of 6 Fr with a central string 1 placed in it with a diameter of 0.035 inches, a length of 445 cm, soldered into the apex of an elastic dome, and also four peripheral strings located in the gap between the casing and the central tube at an equidistant distance from each other. The ratio of the length of the peripheral strings to the length of the central string in the lumen of the working part of the device was 1: 1.5. The dome is made of ethylene tetrafluoroethylene with a thickness of 100 µm and with two rows of holes - 6 holes in a row, up to 0.3 cm in diameter, staggered closer to the proximal end of the dome. At the base of the dome, point X-ray contrast marks up to 1.0 mm in diameter are installed, two between each pair of adjacent lateral strings (8 in total). The material of the dome is covered with a layer of silicone on the outside. The maximum diameter of the dome in the open state is 2.0 cm, the height of the dome in the open state is 4.0 cm, and the length of the working part (basket) together with the dome is 7.5 cm.

Example 1. Patient A., 39 years old, with newly diagnosed choledocholithiasis in another institution according to MRI data, was admitted to the institute for treatment. On admission, ultrasound revealed several large calculi in the lumen of the dilated common bile and common hepatic ducts.

Endoscopic retrograde cholangiopancreatography (hereinafter referred to as RCP) was performed under general anesthesia. The duodenoscope is sequentially passed into the esophagus, stomach, 12pc. The intestinal mucosa is pale pink. On the postero-medial wall of the vertical portion of the duodenum, an unchanged papilla is determined, and the flow of bile is also noted. Performed selective keterization of the common bile duct. Introduced 20.0 ml of a water-soluble contrast agent "Ultravist" at a dilution of 1: 3. X-ray examination: with the introduction of 20.0 ml of a water-soluble contrast agent "Trazograph" at a dilution of 1: 3, the bile ducts and the gallbladder were contrasted. Segmental ducts up to 0.4 cm in diameter, right and left lobar ducts up to 0.8 cm in diameter. Common hepatic duct and common bile ducts up to 1.2 cm in diameter. The lumen of the common hepatic duct and common bile duct is inhomogeneous due to several (at least 5) filling defects of an oval shape with a maximum diameter of up to 0.8 cm. The shadow of the intrahepatic bile ducts is homogeneous. The contours of the visible extra-intrahepatic bile ducts are smooth and clear. The discharge of the contrast agent into the 12pc lumen is not detected. Then a wide endoscopic papillosphincterotomy was performed. During the revision of the common bile duct with the basket of Dormia, after numerous attempts, it was possible to remove part of the calculi.

Further, as an additional tool under X-ray control, the claimed device was used, the working part of which was inserted into the bile ducts above the remaining calculi. A series of reciprocating movements was performed by the device with the capture of calculi in the lumen of the basket, while the X-ray contrast marks made it possible to visualize the process of capture of the calculus by the dome of the basket. During traction of the device "towards itself", the working part of the device was removed from the bile ducts into the lumen of 12pc. Then the calculi were removed from the basket. Subsequently, the repeated contrasting of the bile ducts with a water-soluble contrast agent did not reveal any filling defects.

This example demonstrates the effectiveness of using the proposed device, reducing the invasiveness and time of surgical intervention in comparison with the use of only the classic Dormia basket.

Example 2.

Patient P., 45 years old, was admitted with complaints of yellowing of the skin and sclera, nausea for 3 days, pain in the abdominal cavity without clear localization.

During the initial examination, according to ultrasound data, an expansion of the extrahepatic bile ducts up to 1.5 cm in diameter was revealed, as well as sludge without a clear acoustic shadow in the distal third of the common bile duct. According to scintigraphy, a "block" of bile excretion was revealed at the level of the common bile duct. When performing a biochemical blood test, an increase in the level of total bilirubin up to 112 μol / L was revealed. It was decided to carry out the RCPG. The duodenoscope is sequentially inserted into the esophagus, stomach, duodenum. In the vertical portion of the duodenum, BDS is determined along the posterior-medial wall, the mouth is up to 0.2 cm in diameter, the longitudinal fold is moderately expressed. In the lumen of the intestine, the minimum amount of light bile. Selective cannulation of the common bile duct was performed. Introduced contrast agent.

X-ray examination ("Ultravist" 20.0 ml at a dilution of 1: 3) contrasted with dilated extra- and intrahepatic bile ducts, 12pc. Segmental ducts up to 0.5 cm in diameter, right and left lobar ducts up to 0.9 cm in diameter. Common hepatic duct up to 1.5 cm in diameter, common bile duct up to 2.0 cm in diameter. The shadow of the common bile duct at the level of the distal third is inhomogeneous due to a round filling defect measuring 1.25 × 2.0 cm, as well as due to single fuzzy small filling defects of an irregular shape (sludge). For the rest of the length, the shadow of the extra- and intrahepatic ducts is homogeneous. The contours of the visible extra-intrahepatic bile ducts are smooth and clear. No discharge of contrast agent into the 12pc lumen was detected.

Then endoscopic papillosphincterotomy was performed.

For the purpose of lithoextraction, the claimed device was used to remove foreign bodies, the working part of which was inserted into the bile ducts above the identified calculus. A short series of reciprocating movements was performed by the device with the capture of the calculus and its placement in the lumen of the distal part of the basket, while the X-ray contrast marks made it possible to visualize the process of capturing the calculus by the dome. The holes in the dome allowed sludge and small debris to pass through, reducing the basket's resistance during traction. During traction of the device "towards itself", the working part of the device was removed from the bile ducts into the lumen of 12pc. Then the calculus was removed from the basket. Next, the bile ducts were re-stained with a water-soluble contrast agent under X-ray control in order to control the removal of a foreign body from the bile ducts. The sludge and small calculi were removed using a litho-extraction balloon.

The duration of this intervention was 40 minutes (from the moment of intubation of the patient to the removal of the device from the stomach and esophagus). Edema of adjacent tissues in the area of the dissection of the duodenal papilla was minimal. No bleeding from the dissection zone was observed. The foreign body was quickly removed, no re-intervention or placement of a drainage tube or stent was required.

Claims (9)

1. A device for removing calculi from the bile ducts, containing a basket, the proximal part of which is made in the form of a dome, and the distal part is made of peripheral strings placed in the casing with the possibility of reciprocating movement; a central string made elongated with the possibility of reciprocating movement in the casing, the proximal end of which is connected to the top of the dome; while the peripheral strings have a working part made with a shape memory that can be placed in the casing in the transport position and having a convex shape in the working position, the proximal ends of the peripheral strings are connected to the base of the dome, characterized in that the casing is equipped with a hollow cylindrical tube placed coaxially with casing, while the central string is placed in a hollow cylindrical tube, and the peripheral strings are placed independently of each other in the gap between the cylindrical tube and the casing, the basket dome is made of elastic material and equipped with holes and X-ray contrast marks located in the lower part of the dome, when In this case, the dome is made with the possibility of placing it in the transport position in the lumen of the casing together with the central and peripheral strings, and the connection of the proximal ends of the peripheral strings with the base of the dome is atraumatic. 2. The device according to claim 1, characterized in that the connection of the peripheral strings with the dome is realized by soldering them into the material of the dome. 3. The device according to claim 1, characterized in that the peripheral strings are located on the inner side of the dome. 4. The device according to claim 1, characterized in that the dome is coated with a silicone layer on the outer surface. 5. The device according to claim 1, characterized in that the X-ray contrast marks are placed at the base of the dome between adjacent peripheral strings. 6. The device according to claim 1, characterized in that the peripheral strings are equidistant from each other. 7. The device according to claim 1, characterized in that the X-ray contrast marks are soldered into the dome material. 8. The device according to claim 1, characterized in that the gap between the cylindrical tube and the casing is divided by partitions into sections for accommodating individual peripheral strings. 9. The device according to claim 1, characterized in that the central string has an atraumatic tip protruding beyond the surface of the dome, and is equipped with two point thickenings - couplings, one of which is located on the central string above the dome, and the second - under the dome, at the level the location of the proximal ends of the peripheral strings.

Images