RU2666252C1 - Method for predicting the formation of disposition of the figure after liposuction - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine, namely to surgery, and can be used to predict the occurrence of disproportions in the figure after liposuction. To do this, a photograph of the lipoaspirate located on the slide is taken using a microscope with zoom of ×10. Measure the diameter of adipocytes in the photographs obtained, calculate the average diameter and, with a value of less than 60 microns, when increase in body fat mass, it is predicted the disproportion of the figure after liposuction.EFFECT: invention provides a reduction in the analysis time with high informativeness.1 cl, 4 ex

Description

The invention relates to medicine, namely surgery, and can be used to predict the results of liposuction, which is important for determining the management tactics of patients after surgery, the appointment of a regimen and diet.

A known method for predicting the results of liposuction, in which assess the nature of the redistribution of subcutaneous fat in the body after 6 weeks, 6 months and 12 months after surgery using dual energy X-ray absorptiometry (Fat Redistribution Following Suction Lipectomy: Defense of Body Fat and Patterns of Restoration / TL Hernandez , JM Kittelson, CK Law et al. // Obesity [published online April 7, 2011]. DOI: 10.1038 / oby. 2011.64).

The disadvantages of this method are the large time interval from the moment of operation to the ability to evaluate the results of the operation, the need to use special x-ray equipment, radiation exposure during the study, as well as the high cost of it.

Effect: simplicity and reduction of time with high efficiency of the method.

The problem is achieved by the fact that they measure the diameter of adipocytes, with a value of less than 60 microns in the case of a set of body fat mass, the appearance of imbalances in the figure after liposuction is predicted. The method is as follows.

0.05-0.1 ml of lipoaspirate taken during liposuction is dried from excess fat, for example, using filter paper, then applied in a thin layer to a glass slide. A glass slide is placed for viewing and photographing in a microscope panel, for example, of the Meopta brand (Czechoslovakia, 1970), and lipoaspirate is viewed and photographed at a magnification of 10 times. Then, the diameter of adipocytes is measured in the photographs obtained, and the average diameter is calculated. If the average adipocyte diameter is less than 60 μm, the patient in the case of a set of body fat mass predict the occurrence of imbalances in the figure.

Case Studies

Example 1. Patient A., 30 years old, underwent liposuction of the abdomen by the water-jet method. After surgery, the lipoaspirate was dried using filter paper, then applied in a thin layer to a glass slide. 10 fields of view were photographed using a Meopta microscope with a magnification of × 10, then manual measurement of the diameter of adipocytes in the photographs was taken. The average diameter of adipocytes was 70.3 microns with a range of 50.1 to 96.9 microns.

It is known that in an adult, an increase in adipose tissue occurs due to adipocyte hypertrophy. The average diameter of adipocytes in patient A. is more than 60 μm, that is large, adipocytes in the abdomen will not hypertrophy, since they were mechanically removed during liposuction. When gaining body fat mass, adipocytes in other zones will hypertrophy. And since patient A. has an adipocyte diameter that is initially large, the limit for increasing its volume will be insignificant. That is, the imbalance of the figure in the case of a set of body fat mass is not predicted.

Example 2. Patient N., 41 years old, underwent liposuction mechanically in two zones: abdomen, outer thighs. After surgery, the lipoaspirate was dried using filter paper, then applied in a thin layer to a glass slide. 10 fields of view were photographed using a Meopta microscope with a magnification of × 10, then manual measurement of the diameter of adipocytes in the photographs was taken. The average diameter of adipocytes in the outer thigh area was 56.1 microns with a range of 36.6 to 76.8 microns; in the abdomen - 58.7 microns with a range of 43.3 to 82.6 microns.

The average diameter of adipocytes in patient N. is less than 60 microns, that is, small, adipocytes in the abdomen and the outer surface of the thighs will not hypertrophy, since they were mechanically removed during liposuction. When gaining body fat mass, adipocytes in other zones will hypertrophy. And since patient N. has an adipocyte diameter that is initially small, the limit for increasing their volume will be significant, and in the case of weight gain and an increase in the amount of fatty tissue, the volumes of the abdomen and external surface will remain the same, and the volumes of other zones will increase significantly, including the inner surface of the thighs, lower back, buttocks, which will lead to a disproportion of the figure. In the case of a decrease in body weight, body contours will remain almost the same, since adipocytes already have a small diameter, therefore, to improve the body contours, the diet cannot be recommended for this patient.

Thus, in the case of a set of body fat mass, a disproportion of the figure is predicted.

Example 3. Patient M., 23 years old, underwent liposuction by a water-jet method in the abdomen. After surgery, the lipoaspirate was dried using filter paper, then applied in a thin layer to a glass slide. 10 fields of view were photographed using a Meopta microscope with a magnification of × 10, then manual measurement of the diameter of adipocytes in the photographs was taken. The average adipocyte diameter was 96.4 μm with a span of 68.1 to 123.7 μm. The average diameter of patient N. is much larger than 60 μm, that is, large, adipocytes in the abdomen will not hypertrophy, since they were mechanically removed during liposuction. When gaining body fat mass, adipocytes in other zones will hypertrophy. Since the diameter of the adipocyte in patient M. is initially large, the limit of increase in its volume will be insignificant, and in the case of weight gain and an increase in the amount of fatty tissue, the volume of subcutaneous tissue of the abdomen will remain the same size, and the remaining zones will increase slightly in volume.

Thus, in the case of a set of body fat mass, the occurrence of imbalances in the figure is not predicted.

Example 4. Patient O., 48 years old, underwent liposuction mechanically in two anatomical zones - abdomen and inner thighs. After surgery, the lipoaspirate was dried using filter paper, then applied in a thin layer to a glass slide. 10 fields of view were photographed using a Meopta microscope with a magnification of × 10, then manual measurement of the diameter of adipocytes in the photographs was taken. The average diameter of adipocytes in the area of the inner thighs was 73.8 μm with a range of 66.1 to 109.5 μm; in the abdomen - 59.7 microns with a range of 43.6 to 80.4 microns.

The average diameter of adipocytes in patient O. in the zone of the inner surface of the buds is more than 60 microns, that is, large, in the abdomen - less than 60 microns, that is, small, the adipocytes in the abdomen and inner surface will not hypertrophy, since they were mechanically removed when liposuction. When gaining body fat mass, adipocytes in other zones will hypertrophy. And since patient O. has an adipocyte diameter that is initially small in the area of the inner thighs and initially large in the abdomen, the limit for increasing their volume will be different for different zones, and in the case of weight gain, the volumes of other zones will increase unevenly, which will lead to a disproportion figures. In the case of a decrease in body weight, the body contours will be unevenly smoothed, since adipocytes have a different diameter, so it is impossible to predict the prognosis of body contours in case of weight loss when dieting.

Thus, in the case of a set of body fat mass, the appearance of a disproportion of the figure is predicted, since adipocytes of one of the zones with a diameter of less than 60 microns.

The method is technically simple and objective. The proposed method is applicable in the field of practical health care, since it can be reproduced repeatedly, does not require complicated equipment and expensive reagents, and helps to predict the occurrence of imbalances in the figure after liposuction, which determines the tactics of managing patients after surgery, prescribing the regimen and diet.

Claims (1)

A method for predicting the occurrence of a figure disproportion after liposuction, which consists in photographing a lipoaspirate located on a glass slide using a microscope with a magnification × 10, measuring the diameter of adipocytes in the photographs, calculating the average diameter and, when it is less than 60 microns, when collecting fat body mass predict the occurrence of body imbalances after liposuction.