RU2596873C1 - Method for reduction and correction of body weight using physical effect on human mind by creation the sense of fullness or absence of appetite state in it - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. Intragastric stent is installed in the stomach. Stent is made of titanium nickelide wire tightly sealed in a silicone tube. Turns of the stent after the installation press the walls providing a long-time effect on the gastric mucosa receptors. Stent gives the way to all the food passing through the stomach.

EFFECT: method of using intragastric stent allows creating long-term comfortable conditions of body weight reduction for the patient due to creation of sense of fullness.

1 cl, 1 tbl, 3 dwg

Description

A method of reducing and correcting body weight using physical effects on a person’s consciousness by creating a state of fullness or lack of appetite.

The method relates to medicine and is intended to reduce excess body weight or treat obesity.

Obesity (exceeding the proportion of total fat in the body) is a disease in which a large amount of fat in the body impedes the functioning of internal organs. This leads to poor health. Obese people have a high risk of developing a number of health problems: the higher the body mass index, the greater the risk of certain diseases, such as heart disease, stroke, high blood pressure, type 2 diabetes, night apnea (respiratory arrest during sleep) and arthritis. The risk of developing diabetes mellitus, gallstone disease, hypertension, heart disease, stroke and various types of cancer increases depending on how overweight a person is.

In ninety percent of cases, the cause of obesity in a healthy person is his consumption of food, the caloric value or energy value of which significantly exceeds his daily requirement.

For the treatment of obesity, body weight correction, various methods are used separately and in combination: low-calorie diets, physical exercises, medical methods, psychotherapeutic, and surgical methods. However, all of them have such disadvantages as a short duration of action, a decrease in body weight of no more than 10-15%, an immediate threat to health during surgery or with medical treatment.

Currently, the most progressive direction in the treatment of obesity and body weight correction is a way of physically affecting a person’s consciousness by creating a state of fullness or lack of appetite using a number of designs placed in the patient’s stomach and then removed from it. This leads to a sharp restriction of the food consumed by the patient and, accordingly, a significant reduction in weight in a very significant time interval.

Patents published: US Patent N 20070239284 A1 and US Patent N 20120095497 A1, - involving the placement of wire structures in the patient’s stomach with the above goals, but they are not used anywhere in medical practice, since their implantation in the stomach is extremely difficult through the esophagus, if only it’s possible in principle, but their extraction is impossible without abdominal surgery, it can also be assumed that complex structures of wires placed in the patient’s stomach in one way or another will cause injury to the mucous membrane that makes up the surface of the stomach, and ue wounds and wound surfaces, due to these practical drawbacks as defined designs have not. The actual use in medical practice was received by the so-called intragastric balloon (US Patent N 20130035711), also called the BioEnterics Intragastric Balloon (BIBT) system, which is shown in FIG. 1 and acts according to the following principle. A small amount of food enters the upper "small" ventricle and slowly passes through a narrow transitional opening into the lower sections, with a prolonged effect on the receptors of the gastric mucosa both directly by the food itself and by the wall of the balloon. Signals from nerve endings enter the brain, exciting the center of saturation, helping to maintain a feeling of satiety for a long time. After a few months, a conditionally unconditioned reflex of the appearance and maintenance of a feeling of satiety for the consumption of a small amount of food is created and fixed. Considering the fact that the mechanism of action of the balloon is not based on suppressing the center of hunger (as with the use of pharmaceuticals), but on stimulating the saturation center, the withdrawal syndrome does not occur after its removal. The installation of an intragastric balloon is a temporary procedure. The maximum period of its stay in the stomach according to the recommendations of manufacturers (guaranteeing the integrity of the cylinder wall) is 6 months. Since a new conditionally unconditioned food reflex manages to form and gain a foothold in the brain, patients continue to adhere to the diet that they had while they had an intragastric balloon without harming themselves.

Despite the positive results achieved using the intragastric balloon, this method has serious disadvantages:

- double use of general anesthesia, leaving a negative mark in the human body;

- the possibility of destruction of the balloon with subsequent dislocation into the intestine and the need for its removal by immediate abdominal surgery;

- the presence of pain, feelings of severe "overeating", heaviness in the stomach, nausea, vomiting in the first 7-10 days after the installation of an intragastric balloon;

- mechanical restriction of food intake into the stomach and its evacuation from it due to the prolonged presence of a foreign body filling a significant part of the stomach;

- intestinal obstruction (in Fig. 1 shows that the balloon covers almost completely the working space of the stomach);

- frequent complications: inflammation of the gastric mucosa (gastritis), severe forms of inflammation can lead to the development of ulcers; nausea and vomiting lasting more than 14 days;

- the high cost of the operation of placing an intragastric balloon into the human stomach and extracting it.

Closest to the proposed method at a technical level is a prototype - a method of reducing and correcting body weight using physical effects on a person’s consciousness by creating a state of feeling full or lack of appetite, consisting in the fact that an intragastric stent is inserted into the stomach using endoscopic technique. before installation, a straight shape, and when installed, having the form of a cylindrical spring with at least two full turns with an outer diameter corresponding to p the size of the patient’s stomach, and which, by expanding the walls of the stomach, creates the necessary and comfortable conditions for the patient to significantly reduce body weight, made of titanium nickelide (nitinol) wire, an alloy having a predetermined shape memory with protective tips made of polyethylene attached to the ends of the wire, and which is shown in FIG. 2 (RF Patent No. 147288 U1).

The above-described intragastric stent, having a predetermined shape and size corresponding to the size of the patient’s stomach, can be easily placed into the stomach without the use of general anesthesia, since before the placement and during the placement in the stomach it has the appearance of a straight elastic wire (probe). Due to the unique property of titanium nickelide (nitinol) material - recalling a predetermined shape when a certain temperature is reached, when a stent is placed in the stomach when it is heated to the patient’s body temperature, it takes a predetermined shape of a cylindrical spring of a predetermined size and performs not only the above functions of the intragastric balloon, but and, in addition, allows for diagnostic endoscopic examinations, which is very difficult if there is intragastric in the stomach one balloon.

However, the above-described intragastric stent has significant drawbacks. Extremely unstable under conditions in the patient’s stomach is a protective tube around the wire used in the prototype, made of polyethylene, which breaks down both mechanically due to its lack of flexibility under the influence of alternating mechanical loads already described above and chemically under the influence of gastric juice consisting of saline acids and enzymes. Violation of the tightness of the protective tube on the wire in the event of its mechanical destruction and subsequent destruction of the wire will lead to injury to the tissues of the stomach and surrounding tissues, which will pose a risk to the life of the patient and necessitates an immediate cavity operation. The free presence of a wire with protective polyethylene tips in a flexible tube significantly increases the likelihood of surface injury to the inner surface of the stomach if these tips protrude from the end edges of the flexible tube due to the free (not fixed) position of the wire in the flexible tube and penetrate into the walls of the stomach .

The objective of the present invention, the solution of which the claimed technical solution is directed, is to completely eliminate the likelihood of at least even partial destruction of the intragastric stent while it is in the patient’s body and, thus, eliminating the risk to the patient’s life when it is established, located in the stomach and removed from it, respectively, the absence of the need for abdominal surgery, as well as the exclusion of the possibility of superficial injury to the inner surface of the stomach.

The technical result consists in the fact that the flexible pipe in which the wire of titanium nickelide (nitinol) is located is made of silicone that is resistant to the chemical environment of the stomach, and the wire with the tips is hermetically sealed in a silicone pipe.

In the proposed method, the intragastric stent has a straight shape before installation, and when installed and in the installed state, it has the form of a cylindrical spring with at least two full turns with an outer diameter corresponding to the size of the patient’s stomach, and is made of titanium nickelide (nitinol) wire, an alloy, possessing a memory of a predetermined shape, enclosed in a flexible pipe made of silicone, with protective tips made of polyethylene or polyvinyl chloride put on the ends of the wires, hermetically sealed in a silicone pipe.

A diagram of an intragastric stent installed in the stomach is shown in FIG. 3: the intragastric stent bursts into the walls of the stomach, creating a feeling of fullness or lack of appetite.

The algorithm for working with an intragastric stent is as follows. For implantation of the indicated intragastric stent, an esophagogastrophysical microscope with a polyvinyl chloride tube pre-mounted on it is inserted into the cavity of the patient’s stomach. The tube-conductor has a length equal to the length from the oral cavity to the stomach cavity, in the same position it is fixed, and the esophagogastroscopic vibroscope is removed. The next stage, an intragastric stent is inserted into the cavity of the stomach in the form of a straight wire, which, heating up in the stomach to the patient’s body temperature, unfolds into a double spiral and bursts the walls of the stomach, giving the patient a feeling of its full filling. This is followed by control gastroscopy and extraction of the conductor tube.

Being in the patient’s stomach and bursting its walls, the intragastric stent stimulates the receptors of the gastric mucosa in the same way as the action of intragastric cylinders and food particles; as a result, the patient does not experience hunger. The amount of food taken by the patient decreases sharply, as a result, the patient steadily loses weight over the entire period of time when the intragastric stent is in his stomach. The intragastric stent can remain in the patient’s stomach for up to 12 months, which, in principle, is not required in practice, but is possible due to the protective properties of the silicone tube. Endoscopic control during the implementation of the proposed method in the first month is carried out once every two weeks, then once a month.

Extraction of the intragastric stent is carried out by an esophageal stent extractor or endoscopic loop using a conductor tube.

The implantation and extraction of the intragastric stent is performed under local anesthesia, which is commonly used for endoscopic examinations and is carried out by irrigation of the oral part of the pharynx.

Examples of the proposed method. Table 1 shows examples of the proposed method in comparison with the prototype method. The data obtained as a result of the application of the proposed method, in comparison with the data of the prototype method, show very close significant significant positive changes in terms of reducing body weight and body mass index of patients. However, the intragastric stents of the prototype method collapsed in the stomach of patients, creating a potential threat to the life of patients and stopping the necessary effect on the walls of the patient’s stomach. This required their emergency removal from the patient’s stomach, while the intragastric stents of the proposed method continued to be in the patient’s stomach without destruction and were removed after the planned period of 3 months, leading to a further significant reduction in the patient’s body weight, the adaptation period was seven to ten times shorter (one day versus 7-10 days for the prototype method).

Claims (1)

A method of reducing body weight using a physical effect on a person’s consciousness by creating a state of fullness or lack of appetite in which an intragastric stent is inserted into the stomach using endoscopic technique, which has a straight shape before installation and has the form of a cylindrical spring when installed with at least two full turns with an outer diameter corresponding to the size of the patient’s stomach, bursting the walls of the stomach, made of titanium nickelide wire (nitinol) - an alloy having a predetermined shape memory with protective tips made of polyethylene on the ends of the wire, characterized in that the flexible tube in which the wire is made of titanium nickelide (nitinol) is made of silicone resistant to the chemical environment of the stomach, and the wire with ferrules is hermetically sealed in a silicone pipe.

Images