SU1124980A1 - Probe for enteral nutrition - Google Patents

Abstract

ENDERAL POWER SUPPLEMENT PROBE, made in the form of an elastic tube with perforations in the middle part and a blind working end, in which the working element is placed, characterized in that, in order to facilitate insertion of the probe into the small intestine, stimulation of intestinal motility and elimination of pressure ulcers of the mucous membrane the shell of the organs of the gastrointestinal tract, the working end of the tube is provided with a transverse partition, forming a closed cavity in which the working element is placed, made in the form of successively installed balls, ametr Kagor is 0.9-0.95 of the internal diameter of the tube, and a non-working end of the tube is formed utonchennpk.

Description

The invention relates to medical technology, namely to probes for enteral enteric feeding in the early postoperative period, as well as in the diagnosis and treatment of surgical and therapeutic diseases.

A probe for enteral feeding is known, made in the form of an elastic tube with a perforation in the middle part and with a blind working end in which the working element l is placed.

The disadvantages of the known probe are the difficulty of introducing it into the intestinal tract and the possibility of decubitus of the mucous membrane of the organs of the gastrointestinal tract.

The aim of the invention is to facilitate insertion of the probe into the lumen of the small intestine, stimulation of intestinal peristalsis and the elimination of the ulcers of the mucous membrane of the organs of the gastrointestinal tract.

The goal is achieved by the fact that in the enteral feeding probe, made in the form of an elastic tube with perforation in the middle chapel and a blind working end in which the working element is placed, the working end of the tube is provided with a transverse partition forming the closed cavity in which the working element is placed, ; in the form of successively installed balls, the diameter of which is 0.9-0.95 of the inner diameter of the tube, and the non-working end of the tube is made thin.

The drawing shows a probe for enteral nutrition, a general view.

The probe for enteral feeding contains an elastic tube 1, in the middle part of the working end 2 of which there are holes 3 for introducing the nutrient mixture, and the working end 4 has a transverse partition 5 for forming a closed cavity 6 and filling it with a working element.

The cavity 6 has an olive 7, and the operating element is made in the form of freely placed metal balls 8, the diameter of each of which is 0.9-0.95 of the internal diameter of the elastic tube. At the same time, the proximal end 9 has a section 10, the length of which is 1 / 5-1 / 6 of the probe length, and the diameter is 0.3-0.7 of the outer diameter of the elastic tube. In this case, the diameter of each of the balls 8 is less than the internal diameter of the elastic tube, based on the conditions for creating a high flexibility of the distal end with the exception of the closure of the walls at .lalyx bending radii. At the same time relatively free placement of balls due to their location with gaps relative to

the inner surface of the wall of the elastic tube and the plane of the partition promotes the rolling of the balls one relative to the other, which creates conditions for the free maneuvering of the probe along the physiological curves of the loops of the small intestine, excluding its full bending and folding. The aspect ratio of the area 10 of the proximal end is 5-6 times smaller than the probe length and the diameter smaller than the diameter of the tube is selected experimentally based on the application of this one. probe in practice, in accordance with the anatomy of the gastrointestinal tract. Along with the described functional properties, the metal balls are the x-ray mark, with which the exact location of the working part of the probe is determined under the x-ray screen, and because of its rigidity, the olive also serves as a guide element the probe.

The probe for enteral enteric feeding works as follows. zom.

At the end of the surgery, before suturing the anterior abdominal wall, a spring-type conductor, previously carefully lubricated with vaseline oil, is introduced into the elastic tube 1. The conductor is inserted up to the partition 5. The flexible tube 1 is also carefully lubricated with vaseline oil. Then, under the control of a laryngoscope, the anesthesiologist inserts an elastic tube 1 with a distal end 4 through the external nasal passage and nasopharynx into the mouth j of the esophagus. After this, the Larynecop is removed. From the proximal 10 end of the probe of the elastic tube -1, the anesthesiologist pushes it through the esophagus and into the stump of the stomach or into the esophageal-intestinal anastomosis (with gastrectomy, i.e., complete removal of the stomach). The surgeon or assistant captures the olive 7 through the wall of the stomach or intestine and guides to the loop of the small intestine, and the anesthesiologist, slowly pushing from the proximal end, leads the probe to the emptying intestine and, continuing to slowly push the elastic tube 1, turns the probe into the loop guts. At the same time, the olive 7, meeting on the path of the bends of the intestinal loops, slows down the movement of the elastic tube 1, which is transmitted to the working end 4 of the elastic tube 1 of the distal end. Under the influence of braking forces and by making the probe out of an elastic tube 1, the latter begins to bend, and the presence in the cavity 6 of freely moving metal balls 8 contributes to the bending of the end 4 of the evil plastic tube 1 without strong efforts when it stops against

intestinal wall and intestinal shape, i.e. its bend. This allows the elastic tube 1 to move forward freely. Thus, the probe is set up for an anastomosis for the required distance, i.e. up to 20 cm, while the proximal end 10 occupies a position from the middle third of the esophagus to the external nasal passage, and the execution of the proximal end 10 with a diameter smaller than the diameter of the elastic tube 1 helps to prevent

complications such as erosion of the mucous membrane of the nasal passage and oropharyngeal zone, pressure sores and pneumonia.

Thus, the proposed probe for enteral enteric feeding has a superior quality compared with the known probes, by preventing errsion, ulcers of the mucous organs of the gastrointestinal tract and at the same time stimulating intestinal motility and improving maneuverability.

Claims (1)

ENERAL POWER PROBE, made in the form of an elastic tube with perforation in the middle of new balls, the diameter of which is 0.9-0.95 of the inner diameter of the tube, and the non-working end of the tube is made thinning *. Yu