RU2570543C2 - Method for light-emitting diode phototherapy in chronic nasal polyposis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: preliminary interstitial laser-induced heat treatment with high-energy laser beam covering nasal polyp tissue is followed by introducing 1% emoxipine in an amount up to 1.0 ml into a polyp stroma. A distal end of a flexible light pipe of AFS/IK light-emitting-diode therapy apparatus emitting infrared light is brought to the polyp. A light power is 60 mW/cm²; a spot diameter is up to 2 cm. The polyp is illuminated for 5 minutes daily for 7 days.

EFFECT: method enables accelerating the process of nasal polyp tissue shrinking and necrotising tissue rejection that is ensured by fast accumulation of an antioxidant in the polyp stroma induced by the phototherapy, lipid peroxidation suppression, and improved antioxidant tissue protection.

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Description

The invention relates to medicine, namely to a physiotherapeutic method of treating chronic polypous rhinosinusitis using LED phototherapy in otorhinolaryngology.

Known methods of treatment by introducing topical glucocorticosteroids into polypous tissue, for example, by introducing a suspension of hydrocortisone and Kenalog into the tissue of nasal polyps without surgical intervention / 1, 2 /.

The disadvantages of the analogue are:

1. The use of a suspension of hydrocortisone as an injection into the polyp tissue often gives undesirable side effects associated with the high bioavailability of corticosteroids.

2. The introduction of a kenalog into the polyp tissue and the lower nasal concha can cause the patient to become blind due to the drug entering the bloodstream, namely, the orbital vein.

As a prototype taken the method of LED phototherapy in the treatment of diseases of the ear, throat and nose / 3 /. We performed LED therapy with the AFS apparatus in the treatment of allergic rhinitis, both using projection techniques for exposing the skin of the external nose and the projection area of its sinuses, and endonasally, irradiating the mucous membrane of the nasal cavity and nasopharynx.

The disadvantages of the prototype are:

1. The effect of radiation from the LED device of the AFS of various wavelengths on the skin of the projection region of the maxillary sinus is almost impossible due to the powerful barrier to LED radiation in the form of its bone wall, which leads to the absence of impact on the mucous membrane of the sinus cavity.

The objective of the invention is to provide a method that allows you to enhance the therapeutic effect of a solution of emoxipin on polypous tissue of the nose.

This problem is solved by the fact that after a preliminary technique of laser interstitial thermotherapy (LITT) was performed using high-energy laser radiation of polypous tissue of the nasal cavity, infiltration was introduced into the stroma of the polyp with a 1% solution of emoxipine (antioxidant) in a volume of up to 1.0 ml, then distal was fed to the polyp end of the flexible light guide apparatus "APS / IR" therapy LED emitting visible infrared radiation having a wavelength of 0.85 m, radiation power output of 60 mW / cm ^2, the light spot diameter of 2 cm osvechivalas polypous tissue in the nasal cavity. The technique was performed daily, exposure duration 5 minutes. The course of treatment was 7 days.

Example. Patient P., 59 years old, was on an outpatient treatment with a diagnosis of Chronic right-sided polypous rhinosinusitis with an increase in polypous tissue to grade I according to an endoscopic examination of the nasal cavity. After the examination of the patient under local application anesthesia, the LITT technique was preliminarily performed using high-energy laser radiation. A day after LITT in a sitting position, the patient was infiltrated into the stroma of the polyp with a 1% solution of emoxipin (antioxidant) in a volume of up to 1.0 ml, then the distal end of the flexible fiber of the “APS / IR” LED therapy radiating visible infrared radiation was fed to the polyp with a wavelength of 0.85 μm, an output radiation power of 60 mW / cm ² , a light spot diameter of 2 cm, and polypous tissue in the nasal cavity was illuminated. The technique was performed daily, exposure duration 5 minutes. The course of treatment was 7 sessions.

Simultaneously with the LED phototherapy of polypous tissue, a study of blood biochemical parameters was carried out to assess the effectiveness of the treatment in comparison with patients who underwent laser interstitial thermotherapy (Table 1).

The dynamics of lipid peroxidation after treatment (table 1).

A solution of emoxipin, introduced into the polyp stroma under the influence of LED phototherapy, contributed to the rapid accumulation of the required concentration of antioxidant in the polyp stroma, which led to inhibition of lipid peroxidation and, as a result, inflammatory edema of polypous tissue, the antioxidant increased the level of antioxidant protection of tissues, accelerated the wrinkling process polypous tissue and rejection of necrotic polyp tissues (Tab. 2).

The dynamics of antioxidant protection after treatment (table 2).

The technical result of using the invention is to create a method that allows you to enhance the effect of emoxipin on the polypous tissue of the nose, thereby contributing to a reduction in recovery time, restoration of nasal breathing.

Information sources

1. Trofimenko S. L., Volkov A. G. Allergic diseases of the nose and paranasal sinuses. - Rostov-on-Don: CJSC "Book", 2001. - 351 p.

2. Lopatin A.S. Medical and surgical treatment of polypous rhinosinusitis. Treatment of sinusitis associated with bronchial asthma. / Russian rhinology. - 1999. - No. 1. - 65-67.

3. Nasedkin AN, Grachev SV., Abrahamyan Zh.N. et al. Comparison of clinical indicators of the effectiveness of the use of laser therapy and LED phototherapy in the treatment of diseases of the ear, throat and nose // Health and medical equipment. - 2005. - No. 8 (22). - p. 45.

Claims (1)

A method of LED phototherapy for chronic polyposis of the nasal cavity, including LED therapy for polyps of the nasal cavity, characterized in that laser interstitial thermotherapy with high-energy laser radiation of the polypous tissue in the nasal cavity is preliminarily performed, then a 1% solution of emoxipine is introduced into the stroma of the polyp in a volume of up to 1.0 ml , the distal end of the flexible fiber of the “AFS / IR” LED therapy device is fed to the polyp, emitting infrared radiation with a radiation power of 60 mW / cm ² , light diameter it is clear up to 2 cm and the polyp is consecrated for 5 minutes daily for 7 days.