RU2727933C1 - Method for treating post-ulcer cicatricial deformities of pyloric part of stomach and duodenal bulb - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to a method of treating post-ulcer cicatricial deformations of pyloric part of stomach and duodenal bulb. Method involves irradiation of cicatricial deformation zones with red laser at exposure time of 5–7 minutes, with repetition of procedure every other day, and introduction of 3,000 IU of Longidaza diluted in 2 ml of lidocaine solution, immediately after laser irradiation, both in cicatricial tissue, and in sections of mucosa at distance of 1–1.5 cm from cicatrized tissues, repeated endoscopic injection procedures are performed once after irradiation with laser, therapeutic course makes 4–8 procedures of laser irradiation and 2–4 procedures of introduction of Longidaza accordingly.EFFECT: invention provides higher effectiveness and reduced traumatism of treatment of post-ulcer cicatricial deformities of pyloric ring and duodenal bulb if surgical interventions are impossible due to complex effect on scar tissue of optimally selected course of laser radiation and endoscopic Longidaza injections.1 cl, 2 ex

Description

The invention relates to medicine, namely to gastroenterology and endoscopy, and is intended for the treatment of post-ulcerative cicatricial deformities of the pylorus ring and duodenal bulb.

Cicatricial degeneration of the pylorus and duodenum leads to the rigidity of the intestinal tube, not closing the pyloric sphincter, creating conditions for the occurrence of duodenogastric reflux and ulcer recurrence. Penetrating into the stomach, the bile components change the pH of the medium to alkaline and this stimulates the secretion of gastrin with an increase in the production of hydrochloric acid and pepsin. The resulting antrum gastritis and hypersecretion of hydrochloric acid create favorable conditions not only for the recurrence of duodenal ulcers, but also for the formation of ulcers in the antrum of the stomach. Constantly alternating periods of exacerbation of peptic ulcer and scarring processes are the direct cause of the progressive development of post-ulcer cicatricial deformities of the pylorus ring and duodenal bulb.

So, the most optimal and effective methods of treating this pathology are surgical interventions, for example, a method of surgical treatment of duodenal ulcer, combined with chronic disorders of duodenal patency (RU 2124863 C1, publ. 20.01.1999); method of surgical treatment of decompensated cicatricial ulcerative stenosis of the duodenal bulb (RU 2336032 C1, publ. 20.10.2008), etc. Surgical approaches have the following disadvantages: complexity and a high percentage of complications and mortality in the postoperative period, the presence of contraindications for surgical intervention.

Closest to the proposed is a method for the treatment of decompensated pyloroduodenal stenosis in duodenal ulcer (RU 2441675 C1, publ. 10.02.2012), which we have chosen for the prototype. The method consists in endoscopic injections of the drug into the areas of the gastric mucosa at a distance of 1.5-2.5 cm from the scar tissue of the duodenal bulb and the pyloric canal of the stomach along the perimeter of the stomach. As a medicine, a combined biomaterial Alloplant is used, consisting of a regeneration stimulator of connective tissues of 35-45 wt. %, phagocytosis stimulator 35-45 wt. % and a stimulator of the regeneration of nerve structures 10-30 wt. %, and the injections are carried out in courses in the amount of 8-12 with a break between them 1-2 weeks, 4-12 injections per course. The disadvantages of this method are the possibility of excessive stimulation of tissue regeneration, contributing to the creation of a mechanical barrier to the movement of the food bolus and a violation of the motor-evacuation function of the stomach.

Thus, there is a need for a method for treating post-ulcer cicatricial deformities of the pyloric ring and duodenal bulb, devoid of the above disadvantages.

The technical result of the proposed method is to increase the efficiency and reduce the trauma of the treatment of post-ulcer cicatricial deformities of the pyloric ring and duodenal bulb in the impossibility of performing surgical interventions due to the complex effect on the scar tissue of an optimally selected course of laser radiation and endoscopic longidase injections.

The stated technical result is achieved by the fact that in the method of treating post-ulcerative cicatricial deformities of the pylorus ring and duodenal bulb, including a course of endoscopic drug injections, it is proposed to additionally irradiate the cicatricial deformation zone with a red laser with a wavelength of 662 nm, a power of 30-40 mW / cm ² , exposure time 5-7 minutes, repeated procedures are carried out every other day, and immediately after laser irradiation, both in scar tissue and in mucosal areas, at a distance of 1-1.5 cm from scar-altered tissues, as a medicine 3000 IU longidase, diluted in 2 ml of lidocaine solution, is administered through 1-3 punctures, repeated endoscopic injection procedures are carried out once after laser irradiation, the course of treatment is 4-8 laser irradiation procedures and 2-4 longidase administration procedures, respectively.

The method is carried out as follows.

Before treatment, esophagofibrogastroscopy is performed to assess the topography and severity of post-ulcer cicatricial deformities of the pyloric ring and duodenal bulb. The patient is prescribed a combined treatment: the zones of cicatricial deformation are irradiated with a red laser with a wavelength of 662 nm, a power of 30-40 mW / cm ² , exposure time is 5-7 minutes, repeated procedures are carried out every other day; endoscopic injections using an Olympus NM-3K injector are carried out both into scar tissue and into areas of the mucous membrane located in the immediate vicinity, at a distance within 1-1.5 cm from the scar tissue of the duodenal bulb and pyloric ring , since it is far from always possible to puncture dense scar tissue.

Injections are preferably carried out into scar tissue, and if it is impossible to puncture and high scar density, into areas of healthy gastric mucosa adjacent to scar tissue, at a distance of 1-1.5 cm, the tissues are pretreated through a Teflon catheter with 70% ethyl alcohol. As a preparation for injection, 3000 IU longidase is used, diluted in 2 ml of lidocaine solution, each injection is carried out through 1-3 punctures.

Repeated procedures of endoscopic injections are carried out once after laser irradiation, the course of treatment is 4-8 laser irradiation procedures and 2-4 longidase administration procedures, respectively, the duration of the course depends on the severity of post-ulcer cicatricial deformities of the pylorus ring and duodenal bulb.

In the treatment of patients with post-ulcerative cicatricial deformities of the pylorus ring and duodenal bulb, a red laser with a wavelength of 662 nm, a power of 30-40 mW / cm2, an exposure time of 5-7 minutes acts as a photoregulatory effect that normalizes the rate of cell proliferation, morphogenesis and cell differentiation, the formation of reproductive cell structures and other functions.

Laser exposure with the indicated parameters is capable of changing the functional state of key metabolic processes in this area, in particular, the antioxidant defense system and lipid peroxidation processes. It is believed that the targets of red light in the cell are oxygen and catalase molecules. The results of representative studies suggest that NO-dependent regulatory systems are also involved in the effects of the biological action of light, namely NO is a modulator of cytochrome c oxidase activity. It was found that when exposed to laser radiation with a wavelength of 662 nm, the concentration of ATP, the activity of Na +, K + changes, the membrane depolarizes and the number of free radicals increases. Red light is able to detect an inhibitory effect (suppresses the activity of chemical reactions) depending on the dose of radiation (Karandashov V.I., Petukhov E.B., Zrodnikov B.C. Quantum therapy. M., 2004, pp. 50-63).

Endoscopic injections of longidase 3000 ME, in combination with laser irradiation, cause a significant decrease in the severity of clinical signs of scar growth, an increase in the metabolic rate and normalization of microcirculation in scar tissues, and enhance collagen degradation in them.

Example 1. Patient C, 57 years old, clinic of compensated pyloroduodenal stenosis for 13 years. Bronchial asthma, persistent severe course.

Esophagofibrogastroscopy: the pylorus is slit-like narrowed, the contractile response is reduced, duodenogastric reflux, stomach contents are represented by a significant amount of bile, post-ulcerative cicatricial deformities of the pylorus ring and duodenal bulb.

According to the proposed method, a course of treatment was carried out: irradiation of cicatricial deformation zones with a red laser with a wavelength of 662 nm, a power of 30 mW / cm ² , exposure time was 5 minutes, repeated procedures were carried out every other day, and immediately after laser irradiation into scar tissue, as The drug was injected with 3000 MB of longidase diluted in 2 ml of lidocaine solution through 1 puncture, repeated endoscopic injections were performed once after laser irradiation, the course of treatment consisted of 4 laser irradiation procedures and 2 longidase administration procedures, respectively.

As a result of the course of treatment, the permeability of liquid and solid food increased. The patient's weight gain was 4.5 kg over 6 months of observation.

Example 2. Patient E., 42 years old, clinic of decompensated pyloroduodenal stenosis for 8 years. Diabetes mellitus type 1. Anamnestically, according to the discharged epicrisis, the progression of the disease is noted.

Esophagofibrogastroscopy: the pylorus is narrowed slit, the contractile reaction is practically absent, duodenogastric reflux with a picture of antrum gastritis, the stomach contents are represented by a significant amount of bile, post-ulcer cicatricial deformities of the pylorus ring and duodenal bulb.

According to the proposed method, a course of treatment was carried out: irradiation of areas of cicatricial deformation with a red laser with a wavelength of 662 nm, power of 40 mW / cm ² , exposure time was 7 minutes, repeated procedures were carried out every other day, and immediately after laser irradiation as in scar tissue (1 injection), and into areas of the mucosa at a distance of 1.5 cm from the scar tissue (2 injections), 3000 IU longidase, diluted in 2 ml of lidocaine solution, was injected as a drug through 3 punctures, repeated procedures of endoscopic injections was carried out once after laser irradiation, the course of treatment consisted of 8 laser irradiation procedures and 4 longidase administration procedures, respectively.

As a result of the course of treatment, the permeability of liquid and solid food increased. The patient's weight gain was 8 kg over 6 months of observation.

Claims (1)

A method of treating post-ulcer cicatricial deformities of the pyloric region of the stomach and duodenal bulb, including a course of endoscopic drug injections, characterized in that cicatricial deformity zones are additionally irradiated with a red laser with a wavelength of 662 nm, a power of 30-40 mW / cm ² , exposure time 5 -7 minutes, repeated procedures are carried out every other day, and immediately after laser irradiation, both in the scar tissue and in the areas of the mucous membrane at a distance of 1-1.5 cm from the scar tissue, 3000 IU longidase, diluted in 2 ml of lidocaine solution, after 1-3 punctures, repeated procedures of endoscopic injections are carried out once after laser irradiation, the course of treatment is 4-8 laser irradiation procedures and 2-4 longidase administration procedures, respectively.