RU2699727C2 - Method of ultrasonic diagnostics of retroperitoneal visceral obesity - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ultrasonic diagnostics, and can be used for ultrasonic diagnostics of retroperitoneal visceral obesity. Ultrasonic examination is performed in transverse scanning along the middle line of the body at level of 5 cm downwards from the xiphoid process. Distance between the posterior aortic wall and the anterior surface of the lumbar spine is determined. If distance between posterior aortic wall and front surface of lumbar spine is 4.3 ± 0.6 mm and more, retroperitoneal visceral obesity is diagnosed.

EFFECT: method provides objective diagnostics of retroperitoneal visceral adiposity, accurate localization of adipose tissue growth in retroperitoneal space in retroperitoneal visceral adiposity by determining the distance between the posterior aortic wall and the anterior surface of the lumbar spine.

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Description

The invention relates to medicine, namely to ultrasound diagnostics, and can be used to diagnose retroperitoneal visceral obesity, for example, in patients with metabolic syndrome of various origins in practical ultrasound diagnostics, therapy, endocrinology.

Retroperitoneal space is a part of the abdominal cavity located posterior to the abdominal cavity between the posterior sheet of the parietal peritoneum and the posterior section of the intraperitoneal fascia. Retroperitoneal space extends from the diaphragm to the pelvis.

There are methods for radiological diagnosis of visceral obesity, including an increase in adipose tissue in the retroperitoneal space, for example, “A method for radiation diagnosis of visceral obesity” (RU 2610859 C1, 01/25/2016).

The essence of the method lies in the fact that they perform computed tomography with strictly symmetrical relative to the midline of the body horizontal position of the patients, obtaining computed tomographic images of two transverse sections of the trunk with a thickness of 7 mm at a level between II and III, between IV and V of the lumbar vertebrae (levels LII- III and LIV-V); the area of visceral adipose tissue was determined on each section using the software tools of the workstation of the apparatus, highlighting the abdominal region by the abdominal fascia, and the sum of the areas of visceral adipose tissue was determined on the back surface, excluding back muscles, at the level of LII-III and LIV-V and with values of the indicator of the sum of the areas of visceral adipose tissue at two levels of 223 square meters. cm and above diagnose visceral obesity. The main disadvantages of the above method are: radiation exposure: computed tomography is based on computer processing of a series of images (tomograms) obtained using x-ray radiation; the high cost of the study, because when applying the method of computed tomography, the use of expensive equipment - a computed tomograph and the use of consumables; the presence of a large number of contraindications for computed tomography (for example, pregnancy, claustrophobia, early childhood, patient weight exceeding the permissible values for specific models of computed tomography); the impossibility of differential diagnosis of retroperitoneal visceral obesity.

The closest to the achieved positive results (prototype) is the "Method for ultrasonic diagnosis of visceral obesity" (RU 2407440 C1, 07.27.2009). The implementation of this method is achieved by the fact that during an ultrasound examination with subsequent measurement of the distance that the visceral fat occupies at a level of 5 cm down from the xiphoid process along the midline of the body. Before the study, oral contrasting of the stomach is performed. The patient drinks 200 ml of degassed liquid. The thickness of the visceral fat layer - S (mm) is determined by the formula: S = l-h, where l is the distance between the white line of the abdomen and the anterior wall of the aorta, h is the distance between the walls of the stomach, and for S> 30 mm, visceral obesity is diagnosed.

However, the implementation of this method does not allow to diagnose retroperitoneal visceral obesity.

The author offers an effective method for the ultrasound diagnosis of retroperitoneal visceral obesity.

The technical result of the proposed method is to provide an objective diagnosis of retroperitoneal visceral obesity, establishing the exact localization of an increase in adipose tissue in the retroperitoneal space with retroperitoneal visceral obesity, improving the quality of the study, as well as providing the possibility of establishing control of treatment outcomes with retroperitoneal visceral obesity.

The method of ultrasound diagnosis of retroperitoneal visceral obesity is as follows. An ultrasound scan is performed with a transverse scan along the midline of the body at a level of 5 cm down from the xiphoid process with subsequent measurement of the distance, characterized in that the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine is determined, while increasing the distance between the posterior wall of the aorta and the front surface of the lumbar spine up to 4.3 ± 0.6 mm or more is diagnosed with retroperitoneal visceral obesity.

Providing an objective diagnosis of retroperitoneal visceral obesity is carried out by analyzing ultrasound during transverse scanning along the midline of the body at a level of 5 cm down from the xiphoid process with subsequent measurement of the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine, while increasing the distance between the posterior wall the aorta and the anterior surface of the lumbar spine up to 4.3 ± 0.6 mm or more are diagnosed with retroperitoneal visceral obesity.

The exact location of the increase in adipose tissue in the retroperitoneal space with retroperitoneal visceral obesity is ensured by accurate visual determination of the retroperitoneal space, as well as accurate measurements of the retroperitoneal space between the posterior wall of the aorta and the front surface of the lumbar spine in accordance with the claimed method.

Improving the quality of research is provided by the ability to diagnose retroperitoneal visceral obesity.

Ensuring the possibility of establishing control of treatment results in the presence of retroperitoneal visceral obesity is achieved by conducting multiple determinations of the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine, while reducing the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine compared to previous results for a particular the patient indicates a decrease in visceral obesity, or improvement.

The value of 4.3 ± 0.6 mm, above which retroperitoneal visceral obesity is diagnosed, is optimal based on experimental data on multiple size measurements between the posterior wall of the aorta and the anterior surface of the lumbar spine in healthy patients and in patients with various degrees of visceral obesity manifestations.

The method is demonstrated by the figures.

The figure 1 shows a General diagram for the diagnosis of retroperitoneal visceral obesity, which implements a method for the diagnosis of retroperitoneal visceral obesity.

The figure 2 is an ultrasound image obtained by transverse scanning of the retroperitoneal space in a healthy patient.

The figure 3 is an ultrasound image obtained by transverse scanning of the retroperitoneal space in a patient with retroperitoneal visceral obesity.

The figure 4 presents a table that shows the measurement results of the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine in healthy and patients with visceral obesity.

The figure 1 is additionally indicated: 1 - retroperitoneal space; 2 - electronic convex sensor of an ultrasonic scanner; 3 - aorta; 4 - lumbar vertebra; 5 - the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine.

The figure 4 is additionally indicated: L is the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine; BMI - body mass index; M - arithmetic mean; m is the standard error; n is the number of patients in the study group; asterisk (*) —differences of indicators in healthy and patients are significant (P <0.01; P — significance of differences with a group of healthy individuals and in patients of various groups); 2 asterisks (**) - differences in indicators in groups of patients are significant (P <0.01; P - significance of differences in indicators in patients of different groups).

The method is as follows.

An ultrasound scan is performed in real time, determining the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine in healthy and visceral obese patients using an ultrasound scanner, for example, Aloka 4000 from Aloka, Japan, with an electronic convex sensor 2, for example, variable operating frequency of 2-6 MHz. Electronic convex sensor 2 is connected to an ultrasound scanner, which allows you to get an image of the retroperitoneal space 1, aorta 3, lumbar spine 4.

During the study, the patient should be supine. An ultrasonic gel is applied to the scanning surface of the electronic convex sensor 2, and then it is placed on the patient’s skin along the midline of the body at a level of 5 cm down from the xiphoid process. In this case, the scanning plane is transverse, located perpendicular to the longitudinal axis of the spinal column. The vertebral aorta 3, the lumbar spine are visualized 4. The image is fixed. Measure the distance between the posterior wall of the aorta 3 and the front surface of the lumbar spine 4. Analyze the obtained measurement results. At the same time, retroperitoneal visceral obesity is diagnosed by increasing the distance between the posterior aortic wall and the anterior surface of the lumbar spine to 4.3 ± 0.6 mm or more.

Clinical examples.

1. A study of healthy patients to determine the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine. In accordance with the inventive method, a group of practically healthy patients (16 people) was examined, average aged 18 to 56 years. The simplest indicator used to assess overweight and obesity is body mass index (BMI), calculated as weight (kg), divided by height (m), squared (m). A body mass index is commonly used to classify underweight, overweight and obesity in adults (James WPT et al. Overweight and obesity (high body mass index). In: Ezzati M et al., Eds. Comparative quantification of health risks: global and regional burden of disease attribution to selected major risk factors, Vol. 1, Geneva, World Health Organization, 2004: 497-596 (http://www.who.int/publications/cra/en, accessed November 27, 2017 ). The normal range of BMI is 18.5-24.9 (Burkov S.G., Ivleva A.Ya. Overweight and obesity - a medical problem, not cosmetic // Obesity and metabolism, 2010. - No. 3. - C. 15-19.). In patients of this group, a normal BMI was established (Fig. 4). Typical of imaging of the retroperitoneal space to determine the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine in a healthy patient is shown in Fig. 2.

Measurement results: the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine is 2.1 mm. In the study of a group of healthy patients, this indicator was 2.1 ± 0.4 mm (Fig. 4).

2. A study of patients with visceral obesity. In accordance with the claimed method, a group of patients with obesity was studied - 34 people aged 20 to 62 years. BMI in patients was 35.6 ± 0.4. Thus, a BMI corresponding to II degree of obesity (Pa degree, BMI - 30.0-34.9; IIb degree, BMI 35.0-39.9) was established in patients of this group (Burkov S.G., Ivleva A . I. Overweight and obesity is a medical problem, not cosmetic // Obesity and metabolism, 2010. - No. 3. - S. 15-19.). When determining the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine in obese patients, results were obtained that allow us to divide the studied group of patients into 2 subgroups. The criterion is the presence of diabetes mellitus in patients (type 2). Therefore, 1 group of patients - patients with obesity IIa-IIb degree without diabetes mellitus (15 patients), 2 group - patients with obesity IIa-IIb degree with diabetes mellitus (19 patients). The results of measuring the distance between the posterior aortic wall and the anterior surface of the lumbar spine in patients of two groups are presented in the table in FIG. 4. It turned out that the signs of retroperitoneal visceral obesity are most pronounced in patients with diabetes mellitus, while the BMI in patients of the two groups did not differ significantly. A typical image of the retroperitoneal space for determining the distance between the posterior aortic wall and the anterior surface of the lumbar spine in an obese patient is shown in FIG. 3. Measurement results: the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine is 15.7 mm.

Thus, the use of the present invention allows the possibility of establishing control of treatment results in the presence of retroperitoneal visceral obesity is achieved by conducting multiple determinations of the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine, while reducing the distance between the posterior wall of the aorta and the anterior surface of the lumbar spine compared with previous results in a particular patient indicates a decrease severity of visceral obesity, or improvement.

The inventive method can be applied in departments of ultrasound diagnostics, specialized cabinets of ultrasound diagnostics, for the diagnosis of retroperitoneal visceral obesity.

Claims (1)

A method for ultrasonic diagnosis of retroperitoneal visceral obesity, including ultrasound examination with a transverse scan along the midline of the body at a level of 5 cm down from the xiphoid process with subsequent measurement of distance, characterized in that the distance between the posterior wall of the aorta and the front surface of the lumbar spine is determined, when the distance between the posterior aortic wall and the anterior surface of the lumbar spine is 4.3 ± 0.6 mm or more, diagnosed with retroperitoneal Goes visceral obesity.

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