RU2449757C1 - Method of laser papillotomy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, in particular to surgery of biliary tract. Revision of choledoch, duodenal papilla and its ampulla, during which presence and degree of constriction are determined, are carried out. Through instrumental channel of choledochoscope laser light guide, connected with source of laser radiation, is introduced. Butt end of laser light guide is brought to duodenal papilla. Laser papillotomy is carried out by means of YAG:Ho laser with wavelength 2.09 mcm in pulse mode with frequency 10-15 Hz and energy 0.5-5.0 J. Process of papillotomy takes place under visual control in real time mode. When impact is over, laser light guide is removed from choledochoscope and further manipulations are performed.

EFFECT: method makes it possible to reduce risk of hemorrhage development, trauma, risk of development of complications, risk of scar stenosis development in area of papillotomy.

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Description

The invention relates to medicine, more specifically to surgery of the biliary tract, can be used to restore an adequate outflow of bile in the presence of obstacles in the terminal section of the common bile duct and choledocholithiasis.

A known method of endoscopic papillosphincterotomy (EPST), which is implemented by dissecting the sphincter of the Vater's nipple and the lower sphincter of the common bile duct with a Classen-Demling type probe, which is inserted into the lumen of the duodenum (duodenum) through the working channel of the fibroduodenoscope inserted into the duodenum. Before performing EPST, it is necessary to perform endoscopic retrograde cholangiopancreatography (ERCP). After visualization of the papilla and the performance of ERCP in the papilla, a diathermic papillotome is introduced and EPST is performed under endoscopic and X-ray television control (Klimenko G.A. choledocholithiasis. - M .: Medicine, 2000, 183-194).

The disadvantages of this method are technical difficulties, and sometimes the impossibility of introducing a papillotome into the papilla with its stenosis or the presence of a restrained stone. Great technical difficulties and a high risk of complications in the form of perforation of the intestinal wall (in 1% -4% of cases) with EPST occur in the presence of parapapillary diverticula (in 7.5% -13.5% of cases). Bleeding after EPST occurs in 6.1% -15.6% of cases, sometimes fatal. Acute pancreatitis, as a complication after EPST, occurs in 4.3% -20.5% of cases. In addition, when performing ERCP, the patient and staff are exposed to x-ray exposure. Tissue dissection is performed using electric energy, which leads to a wide area of necrosis and further to cicatricial narrowing.

A known method of combined intraoperative endoscopic papillosphincterotomy, which consists in the fact that before EPST intraoperatively (during laparoscopic cholecystectomy), a fluoroplastic probe is carried out through the cystic duct before it enters the duodenum, after which a papillotomy is performed (Malkov I.S., Bikmukhametov A.F. ., Chagaeva ZI Correction of the bile outflow with complicated calculous cholecystitis // Surgery. - 2004. - No. 7. - P.19-22).

The disadvantages of this method are technical difficulties, and sometimes the impossibility of introducing a probe into the papilla with its stenosis or the presence of a restrained stone. The probe is carried out without visual inspection, which is often difficult technically and sometimes dangerous. There are frequent cases of bleeding, the development of acute pancreatitis. Tissue dissection is performed using electric energy, which leads to a wide area of necrosis and further to cicatricial narrowing.

A known method of antegrade bipolar papillosphincterotomy by bringing an electric papillotome to the large duodenal papilla through the stump of the cystic duct in cholecystectomy and dissection of the papilla under the control of fibrogastroduodenoscopy (Nazarenko P.M., Nazarenko D.P., Tarasov O.N., Yangolenko Y.V. increasing the effectiveness of endoscopic methods of treatment of acute cholecystitis and its complications Surgery 2010; 9: 42-46; patent No. 2253382 - prototype).

The disadvantages of this method are the need for parallel performance of fibrogastroduodenoscopy for visual inspection, which significantly complicates manipulation in the abdominal cavity due to bloating, technical difficulties and the risk of complications when holding a papillotome into the stenotic lumen of the papilla, lack of visual control in the lumen of the common bile duct. Tissue dissection is performed using electric energy, which leads to a wide area of necrosis and further to cicatricial narrowing.

The problem to be solved in the present invention is the development of a method for dissecting a large duodenal papilla.

The technical result achieved by the implementation of the proposed method is:

- reducing the risk of bleeding due to the aiming of the end of the fiber to the proposed section of the dissection and use for dissection of the papilla of laser radiation that has a coagulation effect, as well as a metered supply of energy;

- reduction: trauma, the risk of complications, the risk of cicatricial stenosis in the area of papillotomy. This is due, on the one hand, to the fact that the end of the laser fiber under visual control in real time is accurately fed to the papilla, thereby reducing the risk of damage to the pancreatic duct and perforation of the wall of the duodenum.

On the other hand, these effects are due to the laser radiation parameters used.

Use for dissection of the papilla of the laser radiation YAG: Ho laser. One of the long-standing complications of papillotomy is cicatricial restenosis of the papilla (renewal of narrowing of the lumen of the papilla, more precisely of the papillotomy opening, as a result of cicatricial processes). The more aggressive the effect on the tissue surrounding the incision, the more pronounced cicatricial changes. From a physical point of view, the process of interaction of laser radiation with biological tissue should be adiabatic (without heat exchange with surrounding tissues). The thermal effect from the papillotome electrode, even bipolar, spreads in all directions in approximately the same way and heats the surrounding tissue, causing a rather wide area of necrosis in the future. Laser radiation, having coherence, has exactly one direction. Accordingly, energy is released in the direction the beam is directed. At the same time, the effect on surrounding tissues is minimal. At the same time, we revealed that dissection of the large duodenal papilla using YAG: Ho laser radiation leads to rapid healing of wounds, with scarring changes being minimal. This, in turn, reduces the risk of cicatricial restenosis. Reducing the risk of restenosis can reduce the length of the incision, which, in turn, entails a further reduction in the risk of complications (bleeding, perforation, acute pancreatitis).

The reduction in the risk of complications during dissection of the large duodenal papilla is also due to the fact that the used laser radiation with a wavelength of 2.09 μm penetrates into soft tissues to a depth of about 0.4 mm (for comparison, the depth of YAG: Nd laser radiation is 7-8 mm), and also little dependent on vascularization of tissues. This means that the effect on adjacent tissues will be insignificant and you should not be afraid of unwanted extensive concomitant burns and severe necrosis around the laser wound. Since the wavelength used is well absorbed by water, instantaneous evaporation of water directly at the tip of the optical fiber takes place in a water medium during a pulse and forms a vapor bubble up to 5 mm in diameter, which is transparent to laser radiation. At the same time, part of the energy (10-20%) is spent on water evaporation, and the rest on surgical exposure. As a result, the area affected by laser radiation is limited to a sphere with a diameter of up to 5 mm, which greatly simplifies the work of the surgeon in conditions of limited visibility with endoscopic access in terms of reducing the risk of accidental damage to surrounding tissues.

Typically, the coagulation mechanism of various surgical devices is based on the thermal principle - strong heating of the biological tissue leads to boiling of blood and the formation of blood clots in the vessels. There is a possibility of a mechanical separation of the blood clot and the occurrence of bleeding. Radiation from the YAG: Ho laser mainly evaporates the blood, while the vessels are twisted. This greatly reduces the likelihood of secondary bleeding.

Use for dissection of the papilla of pulsed radiation with a frequency of 10-15 Hz. With equal output power of cw and pulsed laser radiation, the pulsed peak power is hundreds of times higher than the average cw power. The mode of operation of a holmium laser is pulsed. The pulse duration is 300-600 μs. A short powerful impulse heats the tissue at the point of application faster than a continuous, less powerful effect. At the same time, the distribution of heat to the surrounding tissues is minimal. During the operation of a continuous laser or an electric coagulator, before tissue destruction at the point of application, the surrounding tissues have time to warm up in a wide area to a temperature that is fatal to them. This entails the formation of extensive necrosis and scarring in the future.

If the pulses have a low repetition rate (less than 5 Hz), then a continuous cut is difficult to produce. Rather, it will be like perforations. The higher the pulse repetition rate, the closer the pulsed mode to the continuous tissue effect. Therefore, the optimal frequency is 10-15 Hz.

The proposed method is as follows.

One of the known methods in the bile duct is antegrade choledochoscope. An internal audit of the common bile duct, duodenal papilla and its ampoule is carried out, in which the presence and degree of narrowing is determined. A laser waveguide connected to a laser radiation source is introduced through the instrument channel of the choledochoscope. The end of the laser light guide down to the duodenal papilla. Laser papillotomy is performed using a YAG: Ho laser with a wavelength of 2.09 μm in a pulsed mode with a frequency of 10-15 Hz and an energy of 0.5-5.0 J. The papillotomy process is carried out under visual control in real time. At the end of the exposure, the laser fiber is removed from the choledochoscope, the choledochoscope is removed and further manipulations are performed.

Clinical example. Patient R., 67 years old, IS No. 13529 was admitted on an emergency basis with a diagnosis of ZHKB. Acute calculous cholecystitis. Obstructive jaundice. When fibrogastroscopy revealed parapapillary diverticulum and stenosis of the large duodenal papilla. An attempt to cannulate and perform retrograde papillotomy was unsuccessful. After preparation of the patient, a laparoscopic operation was performed - cholecystectomy with intraoperative choledochoscopy and antegrade laser papillotomy.

When choledochoscopy revealed a narrowing of the lumen of the large duodenal papilla to 1 mm. Through the instrument channel of the choledochoscope, the working end of the laser fiber from the laser radiation source was brought to the lumen of the papilla. Using a YAG: Ho laser with a wavelength of 2.09 μm, the papilla ampule wall was exposed to pulsation at a frequency of 10 Hz and an energy of 0.5 J. A papillotomy of up to 1.2 cm was performed. After that, the choledochoscope freely passed into the lumen of the duodenum guts. There was no bleeding. The choledoch was examined using a choledochoscope. No other pathology was detected in the common bile duct. The gall bladder is removed. After 5 days, the patient underwent control fibrogastroduodenoscopy, in which it was revealed that the site of dissection of the papilla without signs of inflammation, bile freely penetrates the duodenum. The level of bilirubin decreased to normal and the patient was discharged with recovery.

The proposed method is possible and appropriate to use in laparoscopic and "open" surgery of the biliary tract, in endoscopic surgery of the duodenal papilla.

Claims (1)

A laser papillotomy method, characterized in that a choledochoscope is inserted antegrade into the bile duct, a laser fiber connected to a laser source is inserted through the instrument channel of the choledochoscope, the end of the laser fiber is brought to the duodenal papilla, dissection of the large duodenal papilla using YAG radiation is performed under visual control: Ho laser with a wavelength of 2.09 μm in a pulsed mode with a frequency of 10-15 Hz and an energy of 0.5-5.0 J.