RU186133U1 - DEVICE FOR FENCING BIOLOGICAL MATERIAL FROM THE WEDGE-SHAPED SINUS OF THE NOSE - Google Patents

Abstract

The utility model relates to medicine, to the otorhinolaryngology section, namely to medical instruments, and can be used to collect biological material from the sphenoid sinus. The technical result of the utility model is the possibility of developing a device design that protects a sample of biological material taken from the sphenoid sinus from bacterial contamination by microorganisms of the transient flora, which will increase the reliability of the study of a sample of biological material. This is achieved by the fact that the device for collecting biological material from the sphenoid sinus contains a metal tube with a polyvinyl on it, the length of which is 4 cm longer than the metal one, which protects the sample of biological material taken on the absorbent surface of the cotton winding located on the spiral distal parts of a metal wire located in a metal tube.

Description

The utility model relates to medicine, to the otorhinolaryngology section, namely to medical instruments, and can be used to collect biological material from the sphenoid sinus.

The study of the microbial flora of the mucous membrane of the sphenoid sinus is relevant for the differential diagnosis of inflammatory diseases and the identification of the pathogen, followed by the selection of adequate systemic antibacterial therapy. The sphenoid sinus is located next to such vital formations as the pituitary, internal carotid artery, III, IV, V, VI pairs of cranial nerves. Predisposing factors for the development of inflammation in the sphenoid sinus are the anatomical structural features (curvature of the nasal septum, abnormally located or narrow anastomosis, multi-chamber sinus, hypertrophy of the middle nasal concha), contributing to the block of the natural anastomosis of the main sinus. The endoscopic endonasal approach allows you to adequately sanitize the cavity of the sphenoid sinus and restore its drainage function [1]. However, in cases of acute inflammatory process of the mucous membrane of the sphenoid sinus, or an isolated lesion of the latter, as well as in patients with immunosuppressive conditions, surgical treatment should be supplemented with systemic antibacterial therapy, taking into account the sensitivity spectrum of microorganisms detected in the sinus. Such complex therapy can prevent the development of intracranial complications and achieve stable remission of the disease [2].

The results of smears taken from the nasal cavity with direct rhinoscopy cannot be considered reliable, since in the sphenoid sinus, as in other paranasal sinuses, the composition of the microbial flora may differ from that in the nasal cavity [3]. The microorganisms that persist in the paranasal sinuses and the mucous membrane of the nasal cavity are significantly different, and in this regard, the targeted sampling of the material from the surface of the mucous membrane of the sphenoid sinus during surgery without the contamination of microflora from other parts of the nasal cavity or nasopharynx is important.

It is known to use flexible nasopharyngeal velor swabs to study the microbiological composition of the nasopharynx. The diameter and length of the device allows material sampling even in patients with an anatomically narrow nasal cavity [4, 5].

The disadvantages of using flexible nasopharyngeal velor tampons for studying the microbiological composition from the nasopharynx include bacterial contamination by microorganisms from the nasal cavity during the sampling of the material from the sphenoid sinus and, therefore, the unreliability of the study, which is caused by the lack of isolation of the tip of the velor tampon.

As a prototype for the closest technical essence, we chose a mini-velor swab with a nylon tip and a plastic applicator for collecting material from hard-to-reach areas of the nasal cavity and nasopharynx with a distance to the fracture point of 100 mm [4, 5].

The disadvantage of the prototype is bacterial contamination by microorganisms of a sample of biological material taken from the sphenoid sinus, caused by its exposure to transient flora during application of the sphenoid sinus or other deeply located sections of the nasal cavity that is detached from the surface of the mouth, which leads to an unreliable study.

The objective of the utility model is to increase the reliability of the study of a sample of biological material taken from the sphenoid sinus.

The technical result of the utility model is the possibility of developing a device design that allows you to protect a sample of biological material taken from the sphenoid sinus from bacterial contamination by microorganisms of the transient flora.

The technical result of the utility model is achieved in that the device for collecting biological material from the sphenoid sinus of the nose contains a handle consisting of a metal rod and three manipulation rings for fingers, one of which is rigidly connected to the proximal end of the metal rod, and two rings located diametrically opposite to each other, rigidly interconnected using a latch with the possibility of their movement along the metal rod. The device also contains a metal tube worn on it with polyvinyl. Both tubes are fixed to the distal part of the metal rod of the handle using a screw lock so that the proximal ends of both tubes are at the same level. Between the two clamps there is a coil spring, the ends of which are fixed by the above clamps. A metal wire in the form of a loop is placed in the metal rod and spring, the distal part of which is 4 cm long, made spiral and protrudes beyond the boundaries of the polyvinyl tube, and the proximal part of the metal wire in the form of two free ends is brought out through the ring retainer, the length of the polyvinyl tube is longer than the length of the metal 4 cm.

The essential distinguishing features of the utility model and the causal relationship between them and the achieved technical result:

- A device for collecting biological material from the sphenoid sinus of the nose contains a handle consisting of a metal rod and three manipulation rings for the fingers, one of which is rigidly connected to the proximal end of the metal rod, and two rings are rigidly connected to each other using a latch with the possibility of their movement along metal rod.

Three manipulation rings for the fingers of the handle are designed to install the thumb, index and middle fingers of the doctor in 3 manipulation rings. Two manipulation rings are located diametrically opposite to each other for the convenience of placing the thumb and forefinger of a doctor in them.

- The device also contains a metal tube with a polyvinyl chloride attached to it. A metal wire is placed in a metal tube in the form of a loop, the distal part of which, 4 cm long, is made spiral-shaped, and its proximal part in the form of two free ends is brought out through the ring retainer. The length of the polyvinyl tube is 4 cm longer than the metal length, while the distal part of the metal wire in the form of a loop, made of a spiral, extends beyond the boundaries of the polyvinyl tube.

A metal tube is necessary to accommodate a metal wire in it, the execution of which in the form of a loop is necessary to enable its distal part to be spiral-shaped, which, in turn, makes it possible to screw a cotton swab onto it, with which biological material is taken from the sphenoid sinus.

The presence of a tube made of polyvinyl material and worn on a metal one, due to its length being 4 cm longer than the length of the metal tube, protects the sample of biological material taken from the sphenoid sinus of the nose from contamination caused by the contact of the absorbent surface of the cotton wound with mucous membrane shell when passing in the nasal cavity of a metal wire in the form of a loop, and, thus, increases the reliability of the results of the study of biological material.

- The length of the distal part of the metal wire in the form of a loop made of a spiral, and 4 cm, is selected taking into account the average size of the sphenoid sinus: on average, the volume of the sphenoid sinus is 6.9 cm ³ , thus, the distal part of the metal wire, made of a spiral, with cotton winding allows you to install it directly into the sinus cavity and produce a discharge separated exclusively from the surface of the mucous membrane of the sphenoid sinus. The length of the distal part of the metal wire, made spiral, more than 4 cm is the risk of injury to the mucous membrane at the time of extraction of the cotton swab from the silicone tube.

- The distal part of the metal wire, made spiral, protrudes beyond the boundaries of the polyvinyl tube.

The presence of cotton winding does not allow the distal part of the metal wire, made helically, to be pulled into the cavity of the metal rod, and the larger diameter inherent in the polyvinyl tube provides reliable protection of the cotton winding from contamination and has a residual volume for enclosing the spiral-shaped end with cotton winding inside the polyvinyl rod.

- Both tubes are fixed to the distal part of the metal rod of the handle using a screw lock so that the proximal ends of both tubes are at the same level. The fact that the proximal ends of both tubes are at the same level ensures that the distal end of the polyvinyl tube protrudes beyond the distal end of the metal tube by 4 cm, which, as indicated above, provides reliable protection of the cotton winding from contamination.

- A coil spring is placed between the two latches, the ends of which are fixed by the latches indicated above. The metal wire in the form of a loop is placed not only in the metal tube, but also in the coil spring.

- The coil spring fixes the part of the wire loop located between the proximal and distal screw clamps of the tool.

The presence of a helical spring ensures the exit of the metal wire in the form of a loop from the metal tube, since when pressed by the side rings along the axis of the metal case, the helical spring is compressed, due to which the metal wire moves in a straight line, and it leaves the metal tube beyond the polyvinyl into the sphenoid sinus. nose.

- The proximal part of the metal wire in the form of two free ends is brought out through the ring retainer. The free ends of the proximal part of the metal wire are brought out in order to be able, if necessary, to increase the length of the distal part of the metal wire, made helically to the length of the free ends.

In FIG. 1 presents a General view of a utility model, where:

1 - manipulation ring rigidly connected to the proximal end of a metal rod;

2 - two manipulation rings located diametrically opposite to each other;

3 - handle;

4 - metal rod;

5 - a clamp;

6 - coil spring;

7 - metal wire;

8 - the distal part of the metal wire, made spiral;

9 - a metal tube;

10 - polyvinyl tube;

11 - screw lock.

The utility model works as follows:

Insert the thumb, index and middle fingers into the manipulation rings, (1, 2) handles (3), the middle finger into the manipulation ring (1), rigidly connected to the proximal end of the metal rod (4), and the index and middle fingers into two manipulation rings located diametrically opposite to each other (2), rigidly connected to each other by means of a retainer (5). The anastomosis expanded during the operation between the main sinus of the nose and the nasal cavity is cleaned of blood and pathological discharge. After that, the distal end of the device is inserted through the enlarged anastomosis of the sphenoid sinus with the nasal cavity into the sinus. Then, two manipulation rings are pressed, diametrically opposed to each other (2) along the axis of the metal rod (4), as a result of which the coil spring (6) is compressed, due to which there is a rectilinear movement of the metal wire (7) and the distal part of the metal wire, made spiral ( 8), with a wound sterile hygienic cotton wool, leaves the metal tube (9) outside the polyvinyl tube (10), directly into the sphenoid sinus. Moreover, both tubes, both metal and polyvinyl, are fixed to the distal part of the metal rod of the handle using a screw lock (11).

By rotating clockwise movements, the absorption surface of the cotton winding of the metal wire (7) glides along the surface of the mucous sphenoid sinus. Then two manipulation rings located diametrically opposite to each other (2) are released and, by means of a helical spring (5), the distal part of the metal wire, made of a spiral (8), is drawn into a polyvinyl tube (10) with a wound sterile hygienic cotton wool.

The working end of the claimed device is removed from the nasal cavity. Further, in a similar manner, as described above in the first paragraph of this section, provide its output. Using sterile forceps, twist the cotton wool from the distal part of the metal wire, made spiral (8), and place it in a sterile container for shipment to the laboratory for research.

We give an example from clinical practice:

Example 1. Patient S. born in 1965 was admitted to the clinic of otorhinolaryngology PSPbGMU them. Acad. I.P. Pavlova with a diagnosis of Acute isolated left-sided sphenoiditis. At the time of the examination, the patient complained of a headache in the parieto-occipital region, heaviness “behind the eyes”, swelling of the mucous discharge along the back of the throat. From the anamnesis it is known that the patient received systemic antibiotic therapy (Amoxicillin Clavulanat 875 mg + 125 mg, 1 tablet 2 times a day for 7 days), topical corticosteroids (Azelastine + Mometasone 50 mcg + 140 mcg 2 times before hospitalization). per day for 14 days). Against the background of the therapy, the patient noted an increase in headaches, “heaviness” in the head, there was an episode of unsystematic dizziness. According to the results of cone beam computed tomography, a total decrease in pneumatization of the left sphenoid sinus was determined. A decision was made on emergency surgical treatment in the amount of endoscopic endonasal sphenotomy using general anesthesia.

Under conditions of general anesthesia using artificial ventilation of the lungs and fluorine-containing anesthetics, a left-sided sphenoidotomy was performed under endoscopic examination. When the sinus was revised with an endoscope of 30 °, it was found: severe hyperemia and swelling of the mucous membrane of the sphenoid sinus, thick purulent discharge. After expanding the natural anastomosis of the left main sinus with the nasal cavity, a smear was taken from the surface of the mucous membrane of the affected sinus using the claimed utility model.

According to the results of the bacteriological study, separated from the sphenoid sinus (Table 1) and separated from the nasal cavity (Table 2), it was found that the composition of the microbiota of the nasal cavity and sphenoid sinus are different; bacteriological discharge of the sphenoid sinus of the nose (Pseudomonas aeruginosa v. pop mucosa) has acquired resistance to the antibacterial drugs treated by the patient (Table 1).

Thus, the use of systemic antibacterial therapy, taking into account the sensitivity spectrum of the antimicrobial drug and the rehabilitation of the foci of infection, made it possible to achieve stable remission of the underlying disease.

The claimed utility model has been successfully tested in 13 patients, including children - in 3.

Parts of the device, excluding the polyvinyl tube, are made of medical steel. Before use, the device is sterilized.

Thus, for the first time, the design of a device was developed to protect a sample of biological material taken from the sphenoid sinus from bacterial contamination by microorganisms of the transient flora caused by the contact of the absorbent surface of the cotton winding with conducting paths, which made it possible to increase the reliability of the study of the sample of biological material.

List of used literature:

1. Karpishchenko S.A., Voloshina A.V., Stancheva O.A. Pain syndrome with isolated sphenoiditis: Our experience in the diagnosis, treatment. Folia Otorhinolaryngologiae et Pathologiae Respiratoriae // Volume 23, No. 2-2017

2. J. A. J. Deans (a1) and A.R. Welch. Acute isolated sphenoid sinusitis: a disease with complications. The journal of laringology and ohology. Vol. 105, Iss. 12 Dec. 1991, pp. 1072-1074. Doi: https://doi.Org/10.1017/S0022215100118225

3. Nadel, Douglas M .; Lanza, Donald C; Kennedy, David W. Endoscopically Guided Cultures in Chronic Sinusitis. American Journal of Rhinology, Volume 12, Number 4, July-August 1998, pp. 233-241 (9). Doi: https://doi.Org/10.2500/105065898781390000.

4.O.M. Kolesnikova, Yu.S. Mullayarova, H.N. Rogacheva. Features of rhinocytograms in pregnant women. Russian otorhinolaryngology. 2014; 1 (68): 110-112.

5. Ciofalo A. et al. Pathological and cytological changes of the nasal mucosa in acute rhinosinusitis: the role of hyaluronic acid as supportive therapy // European review for medical and pharmacological sciences. - 2017.- T. 21. - C. 4411-4418.

Claims (1)

A device for collecting biological material from the sphenoid sinus of the nose, containing a handle consisting of a metal rod and three manipulation rings for fingers, one of which is rigidly connected to the proximal end of the metal rod, and two rings located diametrically opposite to each other are rigidly interconnected with using a clamp with the possibility of their movement along a metal rod; the device also contains a metal tube with a polyvinyl chloride worn on it, both tubes are fixed to the distal part of the handle metal rod with a screw lock so that the proximal ends of both tubes are at the same level; a coil spring is placed between the two clamps, the ends of which are fixed by the above clamps; in the metal tube and coil spring there is a metal wire in the form of a loop, the distal part of which is 4 cm long, made spiral and protrudes outside the polyvinyl tube, and the proximal part of the metal wire in the form of two free ends is brought out through the ring retainer, the length of the polyvinyl tube is longer than the length metal on 4 cm.

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