RU2726922C1 - Method for determining type of complications due to correction by fillers of age-related changes of face soft tissues - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: proposed invention refers to medicine, namely to cosmetology. Densities of tissues are detected by compression sonoelastography in ultrasound. After correction of age-related changes in the patient, hyaluronic acid is introduced in the complex in the grey scale with 18-MHz linear sensor to identify the localization and echo characteristics of the fillers. Relative density of filler K is measured in isolated section at its centre. If the values of K are less than 40 %, a tissue seal corresponding to ultrasonic signs of fibrous changes is determined, and if K is more than 70 %, hypercorrection with fillers is determined.

EFFECT: method enables higher reliability of the study, improves the result of correcting the undesirable effects of the contour plasty, improves the medical and social significance of the ultrasound of the complications arising after the contour face plasty of the hyaluronic acid-based gels when planning their correction.

1 cl, 2 ex

Description

The proposed invention relates to cosmetology and can be used to identify the type of complications arising from the correction of age-related changes in the soft tissues of the face with fillers.

The urgency of the problem is due to the annual increase in the number of injections with the use of fillers based on hyaluronic acid for aesthetic reasons, which, in turn, led to a sharp increase in the number of complications after contour plasty.

Until now, there are no uniform standards for the diagnosis and treatment of undesirable consequences and complications after face contouring, criteria for assessing the degree of biodegradation of fillers and, as a consequence, criteria for evaluating the effectiveness of the therapy.

An analogue is patent No. 2626588 "Method for the treatment of overcorrection arising from contouring with gels based on hyaluronic acid", which indirectly describes the biodegradation of the filler as heterogeneous fragmented filler structures in comparison with hypo- and anechoic boluses with clear contours before treatment. Disadvantages: does not reliably assess biodegradation; it is difficult to determine the density of the filler structure in comparison with the surrounding tissues.

The closest analogue of the present invention is the assessment of tissue density indicators in the zone of correction of contour deformities of the maxillofacial region using autotransplantation of adipose tissue [Senchikhina OA, Grishchenko S.V. Lipofilling: current state and perspective of application in facial contouring // Metamorphoses. - 2018. - No. 21 - P.16-24.]. Elastography was used to assess the dynamics of changes in tissue density after lipofilling in the intervention zones. It was found that low-density tissues correspond to adipose tissue, medium density - adipose tissue with signs of fibrotization, muscle tissue, and high-density tissues - scar tissue and cysts, while researchers of digital designations of the density of each tissue, which values of the relative density in percent correspond cicatricial, adipose, muscle tissue does not lead, thus, the method is uninformative, complex, unreliable.

The lack of imaging standards for fillers based on hyaluronic acid, an increase in the number of complications after their injection, served as the basis for the search for objective criteria for assessing the type of complications after contouring, which are important to consider when planning their treatment.

Tasks:

1. To increase the reliability of the method for assessing the type of complications after injections of fillers based on hyaluronic acid;

2. Simplify the method while expanding its information content;

3. To improve the tactics of correcting complications arising after facial contouring with gels based on hyaluronic acid;

4. To shorten the period of medical and social rehabilitation.

Technical result:

1. The method improves the reliability of the study;

2. To improve the result of correction of undesirable consequences of contour plastics;

3. To increase the medical and social significance of ultrasound of complications arising after face contouring with gels based on hyaluronic acid when planning their correction, by using two modes in a complex: a gray scale mode, which allows visualizing the filler in the soft tissues of the face, then, in the compression mode sonoelastography, estimate its relative density as a percentage. This allows expanding the information content about the type of complication, specifies the tactics of choosing its subsequent correction.

The essence of the invention is that in a patient after correcting age-related changes by introducing hyaluronic acid in a complex in a gray scale mode, a linear sensor 18 MHz reveals the localization zones and echo characteristics of fillers, then, in parallel, focusing on the center of the intact area of adipose tissue, determine its relative density in percent in the selected area and take 40-60% as the norm, and measure the relative density of the filler (K), also, in the selected area in its center, and provided that K values are less than 40%, tissue compaction is determined corresponding to ultrasound signs of fibrotic changes, and when Over 70% - overcorrection with fillers.

The proposed method has been tested on 30 patients for two years. The group included women aged 27 to 55 years, who complained of asymmetry after facial contouring with hyaluronic acid-based gels. At the same time, 10 people were with HA-based fillers injected for up to three months, 10 people with fillers in soft tissues - from 6 months to a year, and 10 people - for more than a year.

The proposed method for determining the type of complications due to fillers correction of age-related changes in the soft tissues of the face is as follows. Using ultrasound on the MyLab Twice device (manufactured by Esaote, Italy) in the gray scale mode with a linear transducer with a frequency of 18 MHz, they search for gel fragments in the soft tissues of the face, determine its echo characteristics, and then turn on the compression sonoelastography mode. Compression sonoelastography is performed by the operator by light translational pressure on the sensor, during which a qualitative measurement of the density of the underlying structures subject to compression is performed. The result is displayed on the screen, the information about the type of complication, specifies the tactics of choosing its subsequent correction.

The essence of the invention is that in a patient after correction of age-related changes by introducing hyaluronic acid in a complex in a gray-scale mode with a linear sensor 18 MHz, localization zones and echo characteristics of fillers are detected and the relative density of the filler (K) is measured in the selected area in its center, and provided values of K less than 40% determine tissue compaction corresponding to ultrasound signs of fibrotic changes, and if K is more than 70%, hypercorrection with fillers.

The proposed method has been tested on 30 patients for two years. The group included women aged 27 to 55 years, who complained of asymmetry after facial contouring with hyaluronic acid-based gels. At the same time, 10 people were with HA-based fillers injected for up to three months, 10 people with fillers in soft tissues - from 6 months to a year, and 10 people - for more than a year.

The proposed method for determining the type of complications due to fillers correction of age-related changes in the soft tissues of the face is as follows. Using ultrasound on the MyLab Twice device (manufactured by Esaote, Italy) in the gray scale mode with a linear transducer with a frequency of 18 MHz, they search for gel fragments in the soft tissues of the face, determine its echo characteristics, and then turn on the compression sonoelastography mode. Compression sonoelastography is performed by the operator by light translational pressure on the sensor, during which a qualitative measurement of the density of the underlying structures subject to compression is performed. The result is displayed on the monitor screen of the device, the image is fixed with the "frieze" button. Further, at the same time, focusing on the center of the intact area of adipose tissue, determine its relative density as a percentage in the selected area and simultaneously measure the relative density of the filler (K), also in the selected area, focusing on its center. In this case, the area of the measured areas is the same, which is possible due to the standard settings in the program for measuring the relative density.

The relative density of the tissues of the selected areas is automatically displayed as a histogram image with a digital designation of the average density of the selected object, as well as a graph of the spectrum of colors and a scale indicating the correspondence of the color to the stiffness of the tissue. For example, the red spectrum 100% - the most soft tissues, 1% blue spectrum - the most hard tissues.

Example # 1. A 39-year-old female patient complained of asymmetry that arose after the introduction of hyaluronic acid fillers into the adipose tissue of the periorbital region two years ago. The asymmetry arose almost immediately after the fillers were injected and persisted for two years. Together with the cosmetologist, attempts were made to treat by introducing hyaluronidase preparations, which did not lead to an improvement in the clinical picture. At the reception during the examination, objectively: the left periorbital region looks larger than the right, outwardly resembling local edema. During ultrasound examination with a linear 18 MHz transducer in gray scale mode, the filler looked like a hypoechoic heterogeneous formation, due to hyperechoic linear structures, with clear even contours, a hyperchogenic rim, 8 × 2 mm in size. The fatty tissue surrounding the filler is well visualized as an isoechoic heterogeneous structure without signs of edema. Further, in the mode of compression sonoelastography, by lightly compressing the investigated area, after obtaining an image, fixing it on the screen with the "frieze" button, the relative tissue density of the central part of the filler and the central part of intact adipose tissue in the investigated area was measured. The relative density of the central part of the intact adipose tissue was 40%, the central part of the filler was 71%, which corresponded to

filler hypercorrection. The patient is recommended to be treated by injecting hyaluronidase preparations under ultrasound control directly into the filler, followed by a course of phonophoresis procedures for 10 days. The control examination after the course of therapy showed that the relative density of the filler was 60%. The patient has no complaints, treatment is discontinued.

Example # 2. A 27-year-old female patient complained of asymmetry of the nasolabial folds that arose after correction with fillers based on hyaluronic acid six months after injection, which they tried to treat by repeated administration of hyaluronidase preparations, according to the patient, more than 10 times within two months. During examination, a swelling is determined over the left lateral part of the upper lip. On palpation, a seal is determined. During ultrasound navigation with an 18 MHz linear transducer in the gray scale mode, a heterogeneous formation is located in the subcutaneous fatty tissue above the upper lip on the left, due to the predominance of hyperechoic linear structures with areas of hypo- and isoechoic inclusions, with clear uneven contours of 6 × 4 mm. The fatty tissue surrounding the filler is well visualized as an isoechoic heterogeneous structure without signs of edema. Further, in the mode of compression sonoelastography, by lightly compressing the investigated area, after obtaining an image, fixing it on the screen with the "frieze" button, the relative tissue density of the central part of the filler and the central part of intact adipose tissue in the investigated area was measured. The relative density of the central part of the intact adipose tissue was 60%, the central part of the filler - 39%, which corresponded to ultrasound signs of fibrotic changes in soft tissues. A consultation with a plastic surgeon was recommended to resolve the issue of surgical correction. The monitor of the apparatus is fixed with the "frieze" button. Further, at the same time,

Claims (1)

A method for determining the type of complications due to the correction of age-related changes in the soft tissues of the face with fillers, including the detection of tissue density using compression sonoelastography during ultrasound, characterized in that the patient, after correcting age-related changes by introducing hyaluronic acid in a complex in a gray scale mode with a linear sensor 18 MHz, reveals zones localization and echo characteristics of fillers and measure the relative density of the filler - K in the selected area in its center, and if K values are less than 40%, tissue compaction is determined, corresponding to ultrasound signs of fibrotic changes, and if K is more than 70% - hypercorrection with fillers.