RU2578381C1 - Endoscopic diagnostic probe - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention is intended for production of samples of biological fluids of hollow internal organs through the endoscope. Endoscopic diagnostic probe includes an endoscopic catheter and placed inside the catheter metal conductor. Conductor comprises a distal end with fixed on it absorbent material and a proximal end equipped with control handle conductor. A distal end of the conductor is made of two equal sections of metal wire, spirally twisted together with the possibility of fixation of the absorbent material between sections, and metal casting, diameter of which corresponds to inner diameter of the catheter.

EFFECT: invention allows safe and fast production of high-quality, informative sample of biological fluid from the analysed hollow organ without impurities associated flora.

2 cl, 4 dwg

Description

The invention relates to medicine, namely to medical equipment, and is intended for obtaining samples of biological fluids from hollow internal organs through an endoscope.

Currently, the collection of liquid biomaterial from hollow organs (various sections of the gastrointestinal tract, upper sections of the respiratory system) for its research is carried out using endoscopic equipment (gastroscope, colonoscope, bronchoscope) that has previously undergone high-level disinfection, and sampling tools (catheters, manipulators ) sterilization. However, when conducting an endoscope, its channel is contaminated with associated microflora, and, as a result, the catheter along the channel is contaminated to take biomaterial. Thus, the true picture of the biological landscape in the investigated area of the hollow organ is disrupted.

Various devices for collecting biological fluids from hollow organs, for example an aspiration catheter, are known in the art. With endoscopy (for example, esophagogastroscopy), the catheter is carried out along the endoscope channel and the contents of the hollow organ are taken for examination using an aspiration method (RU 2125402 C1, January 27, 1999). However, this device has significant drawbacks: when passing the endoscope to the study area (for example, the mouth, esophagus, stomach), the associated flora enters the endoscope channel. When conducting a catheter through the endoscope channel, the associated flora from the oral cavity, esophagus and stomach, which is already in the channel, enters the catheter, therefore, when the material is examined by the aspiration method, the result becomes uninformative. In addition, when using an aspiration catheter, it is not possible to take parietal secretion from the mucous organ.

The prior art cytological brushes for endoscopes are known (e.g., CN 202859161 U, 04/10/2013, US 6,899,685 B2, 05/31/2005). The brush consists of a catheter, a nitinol conductor and a brush on the working end of the conductor with different stiffness of the bristles. The device is designed to collect biomaterial by preliminary "loosening" of the test tissue and packaging the cells in a catheter. The disadvantages of this device: lack of tightness at the working end, distorting the information content of the taken biomaterial due to the ingress of associated material from the endoscope channel, trauma to the mucous organ with a brush when taking biological secret.

It is known from the prior art to use absorbent material for taking liquid biological samples from an organ lumen. The use of such material eliminates the trauma of the organ under study, however, known endoscopic devices with absorbents are not without significant drawbacks. So, the closest technical solution to the claimed endoscopic diagnostic probe is the endoscopic probe selected as a prototype, containing an endoscopic catheter and a metal conductor placed inside the catheter containing the distal end and the proximal end, while the absorbent material is fixed at the distal end, and the proximal end of the conductor is equipped with the control handle of the conductor (described in foreign patent GB 2504167 from 01/22/2014). The absorbent material absorbing the sample of biological fluid is rolled up in the form of a cylinder with adhesive strips applied to it and put on the distal end of the probe, which is the working part of the cytological brush. The probe allows you to quickly and accurately collect a sample of liquid biomaterial from a hollow organ, however, the lack of tightness at the working end of the probe significantly distorts the information content of the taken biomaterial, in addition, there is a high risk of sticking, swelling and slipping of the cylinder from the absorbent material into the lumen of the organ with the possible development of complications caused by the presence in the body cavity of a foreign body.

Thus, there is a need for an endoscopic device devoid of all the above disadvantages.

The technical result of the present invention is the creation of an endoscopic diagnostic probe that allows you to safely and quickly get a high-quality, informative sample of biological fluid from the investigated hollow organ without an admixture of associated secretions.

This technical result is achieved in that in an endoscopic diagnostic probe including an endoscopic catheter and a metal conductor located inside the catheter, containing a distal end with absorbent material fixed to it and a proximal end provided with a guide handle, it is proposed to make the distal end of the conductor of two equal pieces of metal wire helically twisted together with the possibility of reliable fixation of the absorbent material between trezkami and attached to the segments of the metal olive, whose diameter corresponds to the inner diameter of the catheter to create tightness when moving the probe to the test body and from it.

The absorbent material can be any biologically inert absorbent sheet material that quickly and efficiently absorbs liquid, for example, filter paper.

In FIG. 1 shows a General view of the device.

In FIG. 2 - photo of the device without absorbent material.

In FIG. 3 is a photograph of a device with a fixed absorbent material.

In FIG. 4 - photo of a general view of the device.

The endoscopic diagnostic probe (Fig. 1) contains a flexible endoscopic catheter (1) with a diameter of up to 2.8 mm and a metal conductor (2) with a diameter of up to 1.5 mm placed inside the catheter, containing a distal end (3) with absorbent material fixed on it ( 6) and the proximal end (4), equipped with a conductor control handle (8). The distal end of the conductor is made of two equal segments of metal wire helically twisted together (5). The segments are twisted so that it is possible to place a fragment of absorbent material between them (6). Usually, for this it is enough to make 1.5-3 turns when twisting the segments together (Fig. 2). A fragment of absorbent material placed between the segments is wrapped around the distal end of the conductor (Fig. 3). A metal olive (7) is soldered to twisted wire segments, the diameter of which corresponds to the inner diameter of the catheter. The metal used for the manufacture of the metal parts of the probe can be represented by any strong and biologically inert metal or alloy of metals (for example, carbon steel). The length of the endoscopic diagnostic probe and the distal one depends on the area of intended use (bronchoscopy, ureteroscopy, gastro-, duodeno-, colonoscopy, etc.).

The work of the endoscopic diagnostic probe is as follows.

When conducting an endoscopic examination, the proposed endoscopic diagnostic probe is inserted into the endoscope channel, then in the region of interest of the hollow organ the catheter (1), the lumen of which is hermetically sealed with metal olive (7), is removed from the distal end of the endoscope, the distal end is brought out with the guide handle (8) ( 3) a conductor (2), consisting of two equal segments of a metal wire, helically twisted together (5) with a piece of absorbent material fixed between them (6). A wall application of biological fluid with absorbent material is performed (6). With the control handle of the conductor (8), the conductor (2) is introduced with the biological material on the absorbent material (6) back into the catheter (1). When the conductor (2) is inserted into the catheter (1), the metal olive (7), whose diameter corresponds to the internal diameter of the catheter (1), hermetically seals the lumen of the catheter (1). Then the probe is removed from the channel of the endoscope with a sample of biological fluid. Thus, the fragment of the absorbing material (6), firstly, is securely fixed at the distal end of the conductor, and secondly, this fragment (6) is intact for the associated flora and liquids when moving the probe along the endoscope channel due to metal olive (7), acting as a sealed “cover” for the catheter (1), which allows you to maintain the information content of the resulting sample and opens up the possibility of sampling material not only for bacteriological, but also for biochemical, immunological studies of liquid biomaterial from various egg hollow organs.

A study of microbiological purity obtained by the proposed endoscopic diagnostic probe was carried out. The study was conducted on a group of patients with inflammatory changes in the stomach. As a result, pure cultures of bacteria (N. Pylori, S.viridans), specific for this group of diseases, were obtained, which were subsequently used to detect sensitivity to antibiotics.

The proposed endoscopic diagnostic probe can be used in various fields of endoscopy - laparoscopy and thoracoscopy, the study of the gastrointestinal tract, bronchoscopy, cystoscopy, to obtain reliable samples of biological fluids and parietal mucus for microbiological, biochemical, hormonal studies.

Thus, the use of the proposed endoscopic diagnostic probe allows you to safely and quickly get high-quality, informative sample of biological fluid from the investigated hollow organ.

Claims (2)

1. An endoscopic diagnostic probe, including an endoscopic catheter and a metal conductor located inside the catheter, comprising a distal end with absorbent material fixed to it and a proximal end provided with a control handle for the conductor, characterized in that the distal end of the conductor is made of two equal lengths of metal wire spirally twisted together with the possibility of fixing the absorbent material between the segments, and a metal olive whose diameter is Corresponds to the inner diameter of the catheter. 2. An endoscopic diagnostic probe according to claim 1, characterized in that the absorbent material is a filter paper.

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