RU2240751C1 - Method for fixing allobrefotissue in frontal and maxillary antra - Google Patents

Abstract

FIELD: medicine, otorhinolaryngology.

SUBSTANCE: after removing pathologically altered mucous membrane one should apply dura mater and mucous membranes of human fetal nasal septum onto osseous walls of frontal and maxillary antra from inside to be then fixed to osseous antral walls. Fixation should be performed with a distal part of a light guide's edge of semiconductor laser "ATKUS-15" by contact-type technique at output power of laser radiation being 8 W, in impulse mode at impulse duration being 500-700 msec. Method of laser "biological" welding enables to increase efficiency of therapy achieved due to dense fixation of allobrefotissue's fragment to osseous antral walls by not introducing endotracheal tubes with gaskets into antral cavity and applying large endonasal anastomoses to be inserted further into antral cavity.

EFFECT: higher efficiency of fixation.

Description

The invention relates to medicine, namely to laser ENT surgery.

Known methods for restoring the anatomical integrity of the frontal and maxillary sinuses after opening and removing pathological contents in them through the proposed various types of operations using cartilage xenografts. In ENT surgery, there are reports of the use of animal cartilage in humans [1].

The pig cartilage was used as a plastic material. The material was previously canned in a 0.5% formalin solution for a period of 1 to 12 months. The frontal sinuses of dogs served as a model of the bone cavity, the cavity of which, after performing an operation of the type of radical frontotomy, was filled with fragments of canned cartilage with a volume of about 0.5 cm ² . Frontal sinus preparations were examined by standard histological techniques at various times after implantation.

The disadvantages of the analogue are:

1. Due to the fact that the implantable tissue of the animal is genetically foreign to humans, there are frequent cases of its resorption after transplantation.

2. Resorption of the graft very often occurs with its suppuration and the development of complications.

3. Due to the processes of reconstruction of implanted tissues in the sinus cavity, scar tissue develops, which divides the sinus cavity into many isolated cavities with the possible development of suppurative process in the latter.

4. The absence of the front wall of the sinus can lead to the formation of a cosmetic defect and infringement of the I and II branches of the trigeminal nerve.

5. Formalin inhibits the reconstruction of the graft and its replacement in the recipient implanted in the mother’s bed for up to 12-18 months.

6. Formalin has a carcinogenic effect [2, 3, 4].

As a prototype, a method for obliteration of the frontal sinuses with formalinized fragments of allobrefokosti was taken [5].

After opening the frontal sinuses, the pathological contents and the entire mucous membrane are carefully removed from them. The inner cortical layer of the sinus bone was scraped with a bone spoon. The bone walls were rubbed twice with 96 ° alcohol. The fronto-nasal anastomosis was not restored. If, as the pathological contents are removed from the frontal sinus, a message is formed from the nasal cavity or the patency of the natural or created frontal-nasal anastomosis is restored, the sinus is isolated. A bone flap from the arch of the fetal skull with the periosteum facing the nasal cavity is placed at this place. This flap was fixed by filling the bosom with “bones” of allobrefokosti. The filling density was achieved by pressing on the implanted bone mass with a tupfer. In conclusion, plastic surgery was performed on the postoperative opening in the front wall of the sinus with the bone of the cranial vault of the fetus.

The disadvantages of the prototype is:

1. The sinus cavity, filled with allobrefokost, loses its anatomical integrity, physiology, characterized by the absence of its airiness, resonant ability, excretory, warming and moisturizing functions.

2. Allobrefokost in an isolated space is often resorbed with suppuration and the formation of multi-chamber cavities inside the sinus filled with pyogenic fluid, in connection with which inflammatory infiltrates of soft tissues of the forehead and cheek, intraocular complications often occur.

The aim of this invention is to fix allobrefotkani (dura mater and mucous membrane of the septum of the human fetus) to the bone walls of the frontal and maxillary sinus of the laser "biological" welding using a semiconductor laser "ATKUS-15" contact method.

This goal is solved by the fact that on the bone walls of the frontal and maxillary sinus from the inside after removal of the pathologically altered mucous membrane, a solid cerebral and mucous membrane of the nasal septum of the human fetus is laid, which is fixed to the bony walls of the sinuses by the LBS method, the distal end of the ATKUS-15 semiconductor laser fiber by contact method with an output power of laser radiation of 8 W, in an impulse mode with a pulse duration of 500-700 ms, allobrefot tissue was welded to the bone walls along awn sinuses. The LBS contact method made it possible to fix the allobrefot tissue flap to the sinus bone walls without introducing endotracheal tubes with cuffs into the cavity and applying large endonasal anastomoses for their passage into the sinus cavity.

An example of a specific implementation 1.

Under observation were 12 patients aged 20 to 62 years with various forms of recurrent purulent-polypous sinusitis. All operations were performed under general anesthesia.

Our proposed method for transplanting allobrefot tissue into the frontal and maxillary sinus using laser “biological” welding (LBS) was preceded by a comparative evaluation of various methods of treatment of recurring purulent-polypous sinusitis that exist until now, various methods of harvesting and preserving donor tissues used for reconstructive operations, which subsequently, during experimental studies, it confirmed the feasibility of using LBS to restore anatomical th integrity and physiological sinus in this pathology.

During transplantation of the mucosa and dura mater of a human fetus, a certain staging is noted. So, on semi-thin sections (4-5 microns), the mucous membrane in the place of its laser fixation is infiltrated by leukocytes by the 10th day of the experiment. By the 20th day, a significant decrease in lymphoid infiltration is determined, epithelial cells swell, a large number of vacuoles are found in their cytoplasm. By the 30th day - in the area of adjacent connective tissue, collagen formation is stimulated by fibroblasts and the growth of blood capillaries is noted. By the 40th day of the experiment, the contact zone is represented by an increased amount of loose connective tissue, along the blood capillaries there is an accumulation of fat cells that have close contact with mast cells. Degranulation of the latter leads to the resorption of fat droplets from lipocytes. Laser exposure stimulates the engraftment process and fibrillogenesis with the activation of trophic and plastic processes involving fat and mast cells.

The implanted dura mater, after two weeks of the experiment after its LBS, undergoes the disintegration and degeneration of the collagen fibers of the graft. The process ends with the introduction of new cellular elements (fibroblasts) involved in the formation of their own collagen fibers by the 40th day of the experiment. It should be emphasized that in the LBS zone the old transplant structure is not restored, being a stimulating matrix for the formation of their own loose unformed connective tissue.

Example. 2 Patient T., 47 years old, was hospitalized with a diagnosis of Chronic left-sided sinusitis, purulent-polypous form. After the examination, the patient underwent surgery - radical maxillary sinusotomy on the left with plastic surgery of the sinus walls of the dura mater of the human fetus using laser "biological" welding (LBS).

After cutting the mucous membrane along the transitional fold of the upper lip onto the gum and separating them, the front wall of the maxillary sinus was exposed, the opening was performed with a chisel, the pathological contents of the sinus cavity were removed with a bone spoon. An anastomosis between the maxillary sinus and the nasal cavity in the lower nasal passage with a partial resection of the anterior third of the lower nasal concha was superimposed with a spoon-raspator. A flap of the dura mater of the human fetus was placed on the exposed bony walls of the sinus, which was fixed to the walls of the sinus using LBS. The distal end of the fiber of the ATKUS-15 semiconductor laser was mounted directly on the surface of the graft, to which 8 W laser power was supplied in a pulsed mode of 500-700 ms, which ensured welding of the dura mater flap to the bone. The pulsed regime of laser radiation excluded carbonization of the graft at the point of contact with the distal end of the fiber, the zone of laser exposure (ablation) corresponded to the diameter of the distal part of the fiber end (600 μm). Plastic surgery of the maxillary sinus front wall was performed with a flat bone of the cranial vault of a human fetus. The surgical wound was sutured in layers. Transplant restructuring in the maxillary sinus was monitored using video endoscopy. In the postoperative period, the patient received anti-inflammatory therapy. At the follow-up examination after 1.5 months by means of video endoscopy, the replacement of the transplant with the own mucous membrane of the maxillary sinus was determined. The functions of the maxillary sinus were preserved, and no relapse of the disease was observed.

Sources of information

1. Melnikov M.N. Results of obliterative operations with canned xeno-cartilage. // Materials of the regional scientific-practical conference of otorhinolaryngologists and the expanded plenum of RNOLO (Irkutsk, June 20-21, 1990). - M. - 1990. - P.94-95.

2. Didenko V.I., Gusakov A.D. Primary and secondary reconstructive plastic surgery on the frontal sinuses using spongy autobone and bone marrow // Folia Otorhinolaryngologica. - Vol. 3. - No. 3-4. - R.28-37.

3. Ballenger J.J. Some effects of formaldehyde on the upper respiratory tract // Laryngoscope. - 1984. 94. - No. 11. - R. 1411-1413.

4. Holstrom M., Wlhemsson B., Hellgust H. et al. Histological changes in the nasal mucosa in persons occupationally exposed to formaldehyde alone and in combination with wood dust // Acta Otolaryngology. - 1989. - V.107. - No. 1-2. - P.120-129.

5. Tsimerinov E.I. On the issue of rehabilitation of patients with chronic recurrent frontitis. // Bulletin of otorhinolaryngology. - 1985. - No. 4. - S. 45-47.

Claims (1)

A method of fixing allobrefotkani in the frontal and maxillary sinuses, characterized in that the fixation of allobrefotkina to the bony walls of the sinuses is carried out by the radiation of the ATKUS-15 laser, by the contact method, the distal part of the fiber end, through which 8 W radiation is supplied in pulsed mode with a pulse duration of 600 600 -700 ms.