RU2730973C1 - Diagnostic technique for exudative otitis media - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, to otorhinolaryngology and functional diagnostics. Media are visualized in external auditory canal and drum cavity by OCT microprobe sensor. Microprobe directly touches the tympanic membrane. Study is carried out by cross-polarization optical coherence tomography (OCT) with single-step production of an OCT image in direct polarization. Exudate presence in tympanic cavity is registered due to optical properties of gaseous and liquid medium.EFFECT: method allows non-invasive in out-patient conditions without application of expensive equipment, without use of anesthesia to objectively confirm exudate presence in tympanic cavity by results of cross-polarization optical coherence tomography.1 cl, 4 dwg, 2 ex

Description

The invention relates to medicine, to the field of otorhinolaryngology and functional diagnostics and can be used to diagnose exudative otitis media.

At the age of up to 3 years, hearing impairment due to diseases of the middle ear occurs in 0.64 per 1000 population, and among children under 14 years of age this figure reaches 1.9 per 1000 population. According to a number of authors, exudative otitis media (EMI) is 15-17% among all ear diseases [1, 2]. The prevalence of ESO in children from 2 to 7 years of age reaches 30%, the process is more often bilateral [3]. In adults, exudative otitis media is noted on average 4 times less frequently than in childhood and is overwhelmingly unilateral [4, 5]. Ineffective treatment of exudative otitis media leads to the development of persistent hearing loss, which leads to a decrease in social adaptation and the quality of life of adult patients, and also has a negative impact on the development of the child, including the formation of speech [6].

There is also known a method for diagnosing exudative otitis media by measuring the axillary temperature and the temperature of the tympanic cavity, and finding the difference between them [8]. The disadvantage of this method is low information content, due to a wide range of indicators of axillary temperature and temperature of the tympanic cavity in a patient, as well as the influence of various environmental factors on the accuracy of temperature measurement, such as ambient temperature, various local inflammatory processes in the external and middle ear.

A known method for the diagnosis of exudative otitis media using tympanometry. It is based on the study of the compliance of the tympanic membrane with a change in the difference between the pressure in the external auditory canal and the pressure in the tympanic cavity, as well as the compliance of the tympanoossicular system [9]. The disadvantages of this method are that when analyzing tympanometry data, the following circumstances should be taken into account: curves of the "B" type are recorded not only with exudative otitis media, but also with adhesive otitis media, provided that the tympanic membrane is fused or adjacent to the cape. The mobility of the auditory ossicles and tympanic membrane can be impaired not only with exudative otitis media, but also with adhesive otitis media, tympanosclerosis, dislocation of the auditory ossicles and other diseases. Moreover, the "B" type curve, characteristic of exudative exudative otitis media on the tympanogram, may continue to be recorded against the background of recovery, because normal pressure in the tympanic cavity is restored much later than the exudate disappears.

The closest analogue of our proposed method in terms of the problem being solved and a set of similar essential features is a method for visualizing exudative otitis media using ultrasound sonography. The study is carried out using one-dimensional ultrasound sonography, for which the auricle is pulled backward and upward, filled with a 0.9% NaCl solution, at t = 36-39 ° C, an ultrasonic sensor is attached to the opening of the passage, so that its probing part is immersed into the liquid, and the sound signals reflected from the tympanic membrane and the medial wall of the tympanic cavity are recorded, and if there are two peaks on the sonogram, with a distance between the tops of 2 to 7 mm, exudative otitis media is diagnosed [7]. This method is characterized by a rather high cost of an apparatus for ultrasound sonography, and also requires special training to work with this apparatus.

The objective of the invention is to develop a method for the diagnosis of exudative otitis media with a clear identification and differentiation of environments in the external auditory canal and tympanic cavity.

The technical result of the implementation of the task is an objective confirmation of the presence of exudate in the tympanic cavity according to the results of cross-polarization optical coherence tomography.

The task is achieved by the fact that the visualization of the media in the external auditory canal and tympanic cavity is carried out using an OCT microprobe sensor, which is in direct contact with the tympanic membrane, while the study is carried out by the method of cross-polarization optical coherence tomography (OCT) with one-step acquisition of an OCT image in direct polarization. Registration of the presence of exudate in the tympanic cavity is possible due to the different optical properties of the gaseous and liquid medium.

Registration of the presence of exudate in the tympanic cavity is carried out by the method of cross-polarization optical coherence tomography with one-step acquisition of OCT images in direct polarization. OCT scanning is carried out using a microprobe, which is in contact with the tympanic membrane through the external auditory canal, as a result of which an OCT image of tissues in a longitudinal section is obtained.

To visualize the exudate in the tympanic cavity, we used an OKT1300-U fiber-optic optical coherence tomograph, developed at the IAP RAS (Nizhny Novgorod) and equipped with an end probe, the outer diameter of which is 2.7 mm. OKT1300-U uses probe radiation with a wavelength of 1300 nm and a power of 3 mW. Each OCT image has the following characteristics: 200 × 200 pixels, size 2 × 2 mm, depth resolution 15 μm in free space, longitudinal resolution 25 μm. The image is registered for 2 seconds [10, 11].

The proposed method is not invasive, is carried out on an outpatient basis without the use of expensive equipment, without the use of anesthesia and qualified specialists, objectively confirms the presence of exudate in the tympanic cavity according to the results of cross-polarization optical coherence tomography.

This method of visualization of exudate in the tympanic cavity was tested on the basis of the otorhinolaryngological department of the FBUZ POMC FMBA of Russia. 26 patients underwent visualization of the external auditory canal and tympanic cavity using OCT. The patients were divided into 2 groups: group 1 - patients who did not complain of hearing loss (12 patients), group 2 - patients with a confirmed diagnosis of unilateral ESO (14 patients). The diagnosis made by examination, otoscopic examination, and audiological examination was consistent with the OCT scan data. This provides a basis for the use of this method in the clinic for indications for the diagnosis of exudative otitis media.

The method was carried out as follows.

Optical coherence tomography (OCT) is performed under the control of a microscope without anesthesia, while the microprobe of the device contacts the tympanic membrane through the ear canal, the results of OCT are recorded and entered into the database.

All patients of the 1st group had the same optical density of the media in the external auditory canal and in the tympanic cavity, the lumen of the cavity was clear [Fig. 1]. All patients of group 2 showed an increase in the signal from the environment in the tympanic cavity, a clear difference in optical properties from the environment of the external auditory canal. In all cases, inclusions with an enhanced signal were recorded in the lumen of the tympanic cavity, probably air bubbles, which were present in the form of a suspension [Fig. 2]. In 2 patients from group 1 and 4 patients from group 2, the size of the tympanic cavity allowed recording a signal from the promontory mucosa. In the study of patients from group 2, the strength of the recorded signal from the mucous membrane was significantly less than in patients from group 1 [Fig. 3]. In 3 cases, it was possible to register the boundary of the air and liquid medium inside the tympanic cavity [Fig. 4].

Clinical examples of the method.

Example # 1. Patient G. 59 years old. Diagnosis: Left-sided exudative otitis media. The diagnosis was established based on examination, otoscopic examination and audiological examination. Complaints at the time of admission for left ear congestion, hearing loss in the left ear. When otoscopy: the tympanic membrane with a yellow tint, the light reflex is smoothed, air bubbles are visualized behind the tympanic membrane. During the audiological examination, type B of the tympanometric curve is recorded, the stapedial reflex is absent, the volume of the tympanic cavity is 0.12 ml, on the audiogram there is a conductive component with a bone-airway interval of up to 30 dB. OCT scan was performed. In the lumen of the tympanic cavity, an increase in the signal is recorded, in comparison with the environment of the external auditory canal, with the presence of inclusions in the form of a suspension. The patient underwent tympanostomy. A small amount of viscous exudate was evacuated from the tympanic cavity.

Example # 2. Patient G. 69 years old. Diagnosis: Left-sided exudative otitis media. The diagnosis was established based on examination, otoscopic examination and audiological examination. Complaints at the time of admission for left ear congestion, hearing loss in the left ear. When otoscopy: the tympanic membrane is retracted, cloudy with a yellow tinge, motionless, the meniscus of exudate is determined in the tympanic cavity. During the audiological examination, type B of the tympanometric curve is recorded, the stapedial reflex is absent, the volume of the tympanic cavity is 0.14 ml, on the audiogram there is a conductive component with a bone-airway interval of up to 25 dB. OCT scan was performed. In the lumen of the tympanic cavity, an increase in the signal is recorded, in comparison with the environment of the external auditory canal, with the presence of inclusions in the form of a suspension. The boundary of the air and liquid medium in the tympanic cavity is determined. The patient underwent tympanostomy. A moderate amount of exudate was evacuated from the tympanic cavity.

The proposed method using OCT is not invasive. It can be carried out on an outpatient basis without the use of expensive equipment and qualified specialists without the use of anesthesia and objectively confirms the presence of exudate in the tympanic cavity.

The most effective method can be used for the diagnosis of exudative otitis media in children and for screening mass examinations.

Sources of information:

1. Volodkina V.V. Recurrent exudative otitis media in children: dis. - M .: V.V. Volodkina, 2006.

2. Arbesman C. Secretory Otitis Media. A Review // Acta Otorhinolaringol. (Stockh.). 1979, - v. 33. - No. 4. - p. 464-473.

3. Kovalenko S.L. Research of hearing in preschool children at the present stage // Russian otorhinolaryngology. - 2009. - No. 4. - S. 69-74.

4. Beetle R.V. Secretory otitis media: pathophysiology and treatment results in different age groups // Vestn. otorinolar., Appendix: mat. III scientific and practical. conf. "Science and Practice in Otorhinolaryngology". - M., 2004 .-- S. 188-190.

5. Preobrazhensky N.A., Goldman I.I. Exudative otitis media. M .: Medicine, 1987 .-- 91 p.

6. Svistushkin V.M. and others. Exudative otitis media - modern possibilities of conservative treatment // Russian otorhinolaryngology. - 2014. - No. 2. - S. 153.

7. Shcherbik N.V., Konushkin V.A., Starokha A.V., Litvak M.M. A method for diagnosing exudative otitis media. RF patent №2487667. Published on July 20, 2013.

8. Anyutin R.G., Dmitriev N.S., Ivkina S.V., Mileshina N.A. A method for diagnosing exudative otitis media. RF patent №216040. Published on 12/10/2000.

9. Savenko I.V., Boboshko M.Yu., Lopotko A.I., Tsvyleva I.D. Exudative otitis media. SPb .: Dialogue, 2010 .-- 80 p.

10. Guide to optical coherence tomography. / Ed. MD, prof. N. D. Gladkova, MD N.M. Shakhova, Corresponding Member, Doctor of Physics and Mathematics A.M. Sergeeva. - M .: FIZMATLIT, 2007 - 296 p.

11. Optical coherence tomography in a number of medical imaging methods: A course of lectures. N. D. Gladkova, N. Novgorod: IAP RAS, 2005 .-- 324 p.

Claims (1)

A method for diagnosing exudative otitis media, including the determination of exudate in the tympanic cavity, characterized in that the visualization of the media in the external auditory canal and the tympanic cavity is carried out by the method of cross-polarization optical coherence tomography (OCT) with one-step acquisition of an OCT image in direct polarization, as a sensor a microprobe is used, which is in direct contact with the tympanic membrane, the results of OCT are recorded and entered into the database.

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