RU2721141C1 - Method for determining degree of age atrophy of muscular tissue of lower one-third of face according to elastometry - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ultrasonic diagnostics, and can be used for determining degree of age atrophy of muscular tissue of lower one-third of face. Ultrasonic examination of the facial muscles is performed. Sonoelastography is used as sonication. Examination is performed in two positions sitting or standing and lying. Stiffness values of buccinator muscle belly and buccinator muscle edge are determined. Percentage difference of stiffness values in two positions is calculated. Based on the obtained data, a degree of muscle atrophy of the lower third of the face due to age-related changes is determined. If percentage difference of stiffness values for muscle belly is ≥17.4 % and for muscle edge ≥16.7 %, determine a low degree of atrophy indicating a physiological norm. If percentage difference of stiffness values for muscle belly is 7 % to 17.3 %, and for muscle edge is from 5.2 % to 16.6 %, a moderate degree of atrophy is stated. If percentage difference of stiffness values for muscle belly is ≤7 % and for muscle edge ≤5.2 %, determine a low degree of atrophy, indicating considerable deviations from the physiological norm.

EFFECT: method provides determining the degree of age atrophy of muscular tissue of the lower one-third of the face by determining the value of the difference in the stiffness of the buccinator muscle in the standing and lying patient.

1 cl, 5 tbl, 2 ex

Description

The invention relates to medicine, namely to functional diagnostics, plastic surgery, cosmetology. The developed method can be used to determine the degree of age-related atrophy of muscle tissue of the lower third of the face according to elastometry, which will allow the selection of a method of correcting age-related changes in muscle tissue of the face that is adequate to individual characteristics.

Loss of physical attractiveness often leads to a decrease in self-esteem and quality of life, so women, especially those aged 35-60, are most interested in improving their appearance. In aesthetic cosmetology, the question of the condition of the lower third of the face, the preservation of its oval shape, is one of the most relevant, because it is this part of the face that most clearly demonstrates signs of age-related changes in the female face.

An important role in facial deformation is played by age-related changes in muscle tissue. With age, the following major changes occur in the muscles of the face: sarcopenia, lengthening and hypertonicity of the muscles, and a change in the amplitude of movement. Tone at rest approaches tone with maximum contracture, due to which there is a shift and redistribution of fat compartments and a face defect occurs: wrinkles, wrinkles, bruises.

However, years are not the only reason, because problems with the symmetry of the face or with the skin can occur at any age.

Two main methods are used to correct facial contours: injection and surgical.

Injections of various drugs that rejuvenate and heal the skin, solve its aesthetic problems, confidently declared themselves as an alternative to a scalpel in many cases. Modern drugs and materials minimize the risks of side effects and tissue rejection. Most of the ingredients used are not implants, but simply contribute to the production of collagen in the skin.

Surgical plastic facelift can be performed by various methods, depending on the severity of the changes, the specific wishes of the patient and other reasons, apply: plastic using facial implants; SMAS-plastic (space-lifting); circular facelift; endoscopic facelift.

The choice of this or that method of correction of facial ptosis should be determined not only and not so much by the patient’s desire, but also objective data on the state of the muscular skeleton of the lower third of the face, its elasticity.

Currently, there are practically no methods for objectively assessing age-related changes in the lower third of the face, while there is a need for such methods. In plastic surgery, it is important to evaluate the type of surgical intervention and plan further procedures in detail, depending on the characteristics of the tissues of the face of each patient. At the moment, the main method is a visual assessment by the surgeon of the patient's muscle tissue.

A known method for assessing age-related changes in muscle tissue of the lower third of the face based on the results of an ultrasound study of the state of the masticatory muscle [Wortsman X., Ferreira-Wortsman C., Quezada N. Facial Ultrasound Anatomy for Non-invasive Cosmetic and Plastic Surgery Procedures. In: Atlas of Dermatologic Ultrasound. Springer, Cham. 2018; 147-178 - prototype]. However, the known method only discloses in detail the methodology for conducting an ultrasound examination, the installation of the sensor, but does not disclose the interpretation of the results, namely the assessment of the viability and degree of atrophy of muscle tissue, and also does not imply a study in two positions of the patient.

Currently, in practical medicine, such an ultrasound technique as sonoelastography is increasingly being used. It is a rapidly evolving ultrasound technology for real-time compression assessment and color mapping of tissue density / elasticity. This technique extracts data on tissue deformation, converts this information into a color map and a quantitative indicator. Images obtained using elastography are more sensitive and less subjective, and are an additional diagnostic “tool” for measuring tissue response in response to applied pressure.

The technical problem that we were solving was the search for prognostically significant indicators for assessing the state of the muscles of the face, according to sonoelastography, which determine the degree of muscle atrophy of the lower third of the face.

Achievable technical result is an objective non-invasive differentiated assessment of the state of muscles of the lower third of the face due to age-related changes.

The essence of the invention is to use sonoelastography at the stage of examination to determine the state of the facial muscle tissue, for effective planning of further correction of ptosis of its lower third.

Various indicators are used to assess tissue elasticity. One of the main ones is Young's modulus - coefficient, also called elastic modulus. The value of Young's modulus is proportional to the stiffness of the fabric, i.e. the greater the stiffness of the fabric, the greater the value of Young's modulus. It is measured in pascals (Pa) or in newtons per square centimeter (N / cm ² ).

Dynamic elastography (mainly called shear wave elastography (SWE) in foreign literature) is shear wave elastography, a technique based on estimating the velocity of transverse elastic waves arising, for example, when ultrasonic signals generate acoustic radiation pressure pulses - acoustic radiation force impulse (ARFI ) [Osipov L.V. Technologies of elastography in ultrasound diagnostics. Overview. Medical alphabet. Diagnostic radiology and oncotherapy. 2013; 3-4: 5-21]. To obtain shear waves, vibrational or mechanical impulse pressure is also used, depending on the apparatus and software used. When using SWE in diagnostics, it is possible to obtain not only a qualitative, but also a quantitative assessment of tissues using the Young's module [Garra B.S. Elastography: Current status, future prospects, and making it work for you. Ultrasound Quarterly. 2011; 3 (27): 177-186 .; Sigrist R.M.S., Liau J., Kaffas A.E., Chammas M.C., Willmann J.K. Ultrasound elastography: Review of techniques and clinical applications. Theranostics. 2017; 5 (7): 1303-1329.]. In our study, we used precisely this method of measuring tissue stiffness, which allowed us to obtain exact numerical values of the measured parameter.

To solve the problem of assessing the state of muscle tissue, a study was conducted of its elasticity in the region of the buccal muscle of the face on the left side. A preliminary study showed that there were no significant differences between the measurements on the right and left sides of the face, so we used data on the left side of the face. The study was conducted on 24 women who were divided into three age groups: 20-30 years old (group 1), 30-40 years old (group 2) and over 40 years old (group 3). Separation by these groups was necessary to assess the expected differences in the indicators of elasticity of muscle tissue depending on age. It was assumed that the results among the subjects of the 1st and 2nd group within the same age group with a step from the minimum to the maximum value of ten years will differ slightly. Group 3 (over 40 years old) was formed in this way, due to the highest frequency of visits to plastic surgeons with complaints of ptosis of soft tissues of the face at this age.

The average age of the subjects in the 1st group is 25.1 ± 0.97 years (7 people).

The average age of the subjects in the 2nd group was 33.8 ± 0.98 years (7 people).

The average age of the subjects in the 3rd group was 52.2 ± 6.97 years (10 people).

According to the anamnesis, all subjects are healthy: there is no history of connective or muscle tissue pathologies, there are no (degenerative) neuromuscular diseases, they have never been subjected to invasive or minimally invasive procedures in the face area (reconstructive surgery, facelift, biorevitalization, hyaluronic injection acids, installation of threads or implants and other manipulations), which could affect the results of the study to one degree or another.

The data of all measurements taken were entered into the created database in the MS Excel program, all further statistical calculations were carried out in the IBM SPSS Statistics program. To evaluate the results and their predictive value, the following data were calculated:

1. average values and medians within each group for each muscle measurement parameter;

2. standard deviation for each group according to the specified parameters;

3. Kruskal-Wallis test for independent samples.

Within each age group, the average values of the elasticity of muscle tissue of the lower third of the face were obtained for each position (standing and lying on the couch) for the abdomen and edge of the muscle (Table 1-3).

In a horizontal position, the effect of gravitational forces on muscle tissue is less, which was reflected in the obtained values. The average values of elasticity indices are less for horizontal than vertical, but the average difference does not exceed 2. This can be explained by the age of the subjects of group 1, since all face structures, including the studied muscle tissue, have not yet begun to undergo significant age-related changes in during the first 30 years of life.

A progressive decrease in the average values from group 1 to group 3 was observed, which reflects the natural course of the aging process of tissues, a decrease in their elasticity, which affects muscle tissue as well.

The method is as follows:

The study is carried out by an ultrasonic sensor with an operating frequency of 7.5 MHz (it is possible to use a sensor with a frequency of 5 to 10 MHz).

The examination begins in B-mode to verify individual muscle structures and adipose tissue.

The buccal muscle is differentiated ((in preliminary studies we found that the anatomical location of this particular muscle in the lower third of the face allows the study to be made so that it is possible to obtain comparable results). After determining the buccal muscle, the sensor is fixed in the region of interest, window The survey should include directly the zone of interest and the surrounding tissue.

In the ultrasound scanner, the shear wave sonoelastography mode is turned on (in this case, a configurable translucent color map of elasticity and the B-mode are combined on one screen, making it possible to instantly compare the base image obtained in the B-mode and the elastogram). Compress the sensor of the study area. The cursor is set in the zone of interest and the stiffness (elasticity) of the tissue is calculated.

The elasticity (density) of muscle tissue varies in the abdomen and the edges of the muscles, therefore, measurements are carried out in both areas. The study is carried out in two positions of the patient: lying and sitting or standing to determine the degree of stiffness (elasticity) of muscle tissue (the difference in the digital indicators of sonoelastogram in two positions (median stiffness)), which allows us to assess the degree of tissue elasticity characterizing the degree of muscle atrophy. The smaller the difference in performance when changing position, the more pronounced age-related atrophy of the muscle and, therefore, it is necessary to use surgical treatment, since injection with fillers will be already ineffective.

As a result of our studies, we have identified the following degrees of muscle atrophy of the lower third of the face associated with age-related changes:

- with a percentage difference in stiffness in two positions for the abdominal muscle ≥17.4% and for the edge of the muscle ≥16.7%, a low degree of atrophy is determined, indicating a physiological norm;

- with a percentage difference in stiffness in two positions for the abdomen of the muscle from 7% to 17.3% and for the edge of the muscle from 5.2% to 16.6%, determine a moderate degree of atrophy;

- with a percentage difference in stiffness in two positions for the abdominal muscle ≤7% and for the edge of the muscle ≤5.2%, a low degree of atrophy is determined, indicating significant deviations from the physiological norm.

Clinical example 1.

A 34-year-old woman complained of deformation of the lower third of the face. A history of any injection or surgery was not performed.

After a visual examination of a plastic surgeon, an ultrasound scan was performed with sonoelastography of the soft tissues of the lower third of the face.

In the study in the B-mode, a significant increase in the fat component in the soft tissues was not detected. Pathological changes in soft tissues were also not detected. When examining the left buccal muscle in sonoelastography mode, the results are shown in table 4.

The difference in stiffness in two positions of the patient for the abdomen of the muscle is 7.45%, for the edge of the muscle the difference in the indicators is 9.49%, and therefore, the presence of a moderate degree of atrophy of the muscles of the lower third of the face is determined.

The data obtained indicate a sufficient reserve of muscle tissue stiffness, in connection with which, the patient is shown correction by injection fillers.

This type of correction has been applied. During the control examination of the patient a month after the correction, the achievement of the desired cosmetic effect was noted. The patient also repeated the study we developed, which made it possible to obtain the following data: the percentage difference in stiffness in two positions in the patient for the abdomen of the muscle was 17.58%, for the edge of the muscle, the difference was 16.85%, which indicates an improvement in muscle condition lower third of the face.

Clinical example 2.

A 49-year-old woman complained of deformation of the lower third of her face. In the history from the age of 40 to the present, the patient underwent injection contour correction of soft tissues of the face three times with unknown fillers (the patient cannot provide documented data on the administration of drugs).

After a visual examination of a plastic surgeon, an ultrasound scan was performed with sonoelastography of the soft tissues of the lower third of the face.

In the study in B-mode, a significant increase in the fat component in the soft tissues was noted. Also in the region of the nasolabial triangle and along the folds, fragmentary fibrotic changes are noted with slight depletion of the vascular pattern. When examining the left buccal muscle in the sonoelastography mode, the results are shown in Table 5.

The difference between the stiffness indices in the two positions of the patient for the abdomen of the muscle is 2.56%, for the edge of the muscle there is no difference in the indices, and therefore, the presence of a high degree of muscle atrophy of the lower third of the face is determined.

The data obtained indicate an insufficient reserve of muscle tissue stiffness, and therefore, it is advisable for the patient to perform surgical correction.

A tightening of the skin and soft tissues of the lower third of the face was carried out. During the follow-up examination of the patient 1.5 months after surgical correction, the achievement of the desired cosmetic effect was noted. Also, the patient re-developed the study we developed, which allowed us to obtain the following data: the percentage difference in stiffness indicators in two positions in the patient for the abdomen of the muscle was 7.23%, for the edge of the muscle, the difference was 5.21%, which indicates an improvement in muscle condition lower third of the face. The patient was asked to re-conduct the study after 3-4 months.

We conducted studies that demonstrated the achievement of the above result when performing ultrasound examination both sitting and standing, as well as when obtaining the values of the difference in stiffness indicators in all intervals.

Claims (4)

A method for determining the degree of age-related atrophy of muscle tissue in the lower third of the face, including ultrasound examination of the state of the facial muscle, characterized in that sonoelastography is used as an ultrasound examination, the study is carried out in two positions, sitting or standing and lying down, stiffness indicators of the abdomen of the buccal muscle and the edge of the buccal are determined muscles, calculate the percentage difference between the values of the stiffness indicators in two positions, based on the data obtained, determine the degree of atrophy of the muscles of the lower third CA caused by age-related changes: - with a percentage difference in stiffness indicators for the abdominal muscle ≥17.4% and for the edge of the muscle ≥16.7%, a low degree of atrophy is determined, indicating a physiological norm; - with a percentage difference in stiffness indicators for the abdominal muscle from 7% to 17.3% and for the edge of the muscle from 5.2% to 16.6%, determine a moderate degree of atrophy; - with a percentage difference in stiffness indicators for the abdominal muscle ≤7% and for the edge of the muscle ≤5.2%, a low degree of atrophy is determined, indicating significant deviations from the physiological norm.