RU2241997C1 - Method for determining stomach wall and duodenum redox potential - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves introducing platinum needle-shaped electrode of 0.6 mm diameter and 3 mm length via fibrogastroduodenoscope. The electrode is implanted into wall area of organ under study in perpendicular to mucous membrane plane to a depth of 2 mm. Redox potential magnitude is determined from voltage difference formed between the active electrode and comparison electrode not earlier as in 1 min.

EFFECT: high accuracy of the method.

Description

The invention relates to medicine, namely to methods for measuring the redox potential (Eh) of the wall of the stomach and duodenum.

There is a method of determining pO ₂ of the gastric mucosa (Zatevakhin II and others in the book. "New technologies in the treatment of ulcerative gastroduodenal bleeding." - M., 2001).

In order to determine pO ₂ in the gastric mucosa, a polarographic study was performed using an original endoscopic technique: the contact-type active platinum electrode with a conductor was carried out through a biopsy channel of the fibrogastroduodenoscope, the active electrode was tightly contacted with the gastric mucosa; a calomel electrode was used as a reference electrode, and a polarograph was used as a recording device.

The method has the following disadvantages:

With this method of determination, the electrode and hydrochloric acid of gastric juice inevitably come into contact, and in this connection, an error in the measurement of pO ₂ by the H ⁺ clearance.

Technical difficulties in maintaining tight contact of the electrode with a given area of the mucosa during gastric wall mobility (peristalsis, respiration, insufflation of air) leads to electrode displacement and also to measurement errors.

The need to calibrate the active electrode before each measurement; indirect (polarography) measurement of the pO ₂ value implies a distortion of the true values.

The present invention is the study of Eh in the wall of the stomach and duodenum.

The problem is solved by the fact that a method for determining the redox potential of the wall of the stomach and duodenum is proposed, which consists in introducing an active needle platinum electrode with a diameter of 0.6 mm and a length of 3 mm through a fibrogastroduodenoscope, which is implanted perpendicular to the wall of the organ under study the plane of the mucous membrane to a depth of 2 mm and the value of the redox potential is determined by the potential difference that arose between the active electrode and the ele by reference in at least 1 min.

The study consists in recording the redox potential (Eh) that arises between the measuring electrode implanted in the mucous-submucous layer of the stomach wall (duodenum) and the reference electrode.

The measuring electrode is a platinum needle electrode, 0.6 mm in diameter and 3 mm long. The measuring electrode is connected to the recording device by means of a conductor 2000 mm long and 1 mm in diameter. The conductor, the junction of the active electrode with the conductor and 1 mm of the active electrode closest to the conductor are coated with an insulator layer (polyvinyl chloride). The total diameter of the conductor and insulator should not exceed 2 mm.

The reference electrode is silver chloride, standard, factory-made. The reference electrode is placed in the patient’s left armpit, and the reference electrode and skin are contacted with a gauze cloth soaked in 0.9% sodium chloride solution.

The recording device is a voltmeter with a measuring range of at least -300 ... + 300 mV, resolution 1.

The potential of the measuring electrode relative to the reference electrode is checked in control solutions according to GOST 8.450 at a temperature of + 25 ° C + 1 ° C.

A fibrogastroduodenoscope is inserted into the lumen of the stomach (duodenum), the end part of the fibrogastroduodenoscopy is installed opposite the studied section of the organ wall at a distance of 5 mm from the last.

An active electrode with a conductor is inserted through the working channel of the fibrogastroduodenoscope into the lumen of the stomach (duodenum).

The active electrode is implanted in the studied section of the wall of the stomach (duodenum) perpendicular to the plane of the mucous membrane to a depth of 2 mm until the insulator is in full contact with the mucous membrane.

The recording device is put into potential detection mode. The true value of the redox potential is the value recorded at least 1 min after the start of the measurement.

The proposed method allows to establish the ratio of the activity of oxidants and antioxidants in the tissue by the formula

Eh = Eo + klg [Ox] / [Red],

where Eo is the stationary redox potential for a given temperature,

[Red] -concentration of reducing agents in the tissue,

[Ox] is the concentration of oxidizing agents in the tissue.

At Eh≤Eo, repair processes predominate in the tissue,

at Eh> Ео - oxidation processes.

The ratio [Ox] / [Red] and, therefore, Eh reflects the activity of peroxidation processes and the viability of the antioxidant system of a given tissue under given conditions.

↑ [Ox] is noted in the presence of tissue ischemia or with reperfusion syndrome with the development of tissue necrosis.

Experimental measurements were carried out:

In rats of the white line, Eh was measured in the thigh muscles (Еh = + 10 mV). Tissue ischemia was simulated by temporary compression of the aorta for 15 minutes, with Eh ↑ up to +60 mV. With the resumption of blood flow Eh (up to + 20-15 mV (histologically acute muscle dystrophy). With compression of the aorta for more than 15 min, Eh ↑> 90 mV (histologically - tissue necrosis) was noted.

The method was tested on the basis of Moscow hospitals.

In volunteers in the absence of pathology of the stomach and duodenum, Eh = + 15 mV. In conditions of acute tissue blood loss, Eh ↑ up to + 60-70 mV. Subsequently, acute erosive-ulcerative lesions of the wall of the stomach or duodenum were detected, which was predicted by Eh.

Thus, a change in Eh compared with the Eo norm serves as a criterion for determining tissue necrosis.

Claims (1)

A method for determining the redox potential of the wall of the stomach and duodenum, characterized in that an active needle platinum electrode with a diameter of 0.6 mm and a length of 3 mm is introduced through a fibrogastroduodenoscope, which is implanted into the wall of the organ under study perpendicular to the plane of the mucous membrane to a depth of 2 mm and the value of the redox potential is determined by the potential difference arising between the active electrode and the reference electrode in at least 1 min.