RU2681118C1 - Method for estimating activity of regeneration of full-layer rat skin wound in experiment - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine, in particular to the field of experimental surgery, and can be used to assess the activity of regeneration of a full-thickness rat skin wound in an experiment. Rat is given a full-thickness skin wound. Blood flow velocity (ml/s) and the area of the wound (mm) is measured. All measurements are carried out on the 7and 14day from the time of causing injury. Average systolic volumetric flow rate is measured as the blood flow velocity. Ratio of the area of the wound to the average systolic volume velocity is calculated. Improvement of the wound regeneration process is evidenced by the value of this ratio less than 9.6 for the 7day and less than 4.45 for the 14day. Retrogression of the wound regeneration process is indicated by the value of this ratio of more than 10 for 7day and more than 4.88 for 14day.EFFECT: method provides a reliable estimate of the regeneration activity by measuring the blood flow velocity.1 cl, 3 dwg

Description

FIELD OF THE INVENTION

The invention relates to medicine, namely to the field of experimental surgery.

State of the art

When conducting studies on the effectiveness of using parenteral or topical wound healing preparations, an animal experiment is carried out, most often rats are used for this purpose.

Currently, the only publicly available and common method for assessing skin regeneration in an experiment on laboratory animals is a histological examination of sections of a skin wound performed 3, 5, 7, and 14 days after the experiment. In this case, the animal is killed, given that paired experiments are used and to confirm the reliability of the results obtained, the material is taken at several animals simultaneously, the number of individuals participating in the experiment exceeds several tens, which creates not only economic, but also ethical problems.

There are several methods for assessing the progress of the regeneration process in a skin wound, but they are designed for clinical use in medicine, costly and difficult to perform.

So known (analogue) "A method for predicting reparative regeneration during healing of the wound by secondary intention" (RF patent for the invention No. 2225982 of 03/11/2002). The authors propose to determine the synthesis of DNA of fibroblasts and adventitious cells on the third day after diluting the edges of the surgical wound, and with their indices less than 0.14 ± 0.015 ^% and adventitious cells less than 0.13 ± 0.011 ^%, respectively, they predict a slowdown in reparative regeneration and a complicated course of the wound process.

Known (analogue) "A method for assessing the course of the wound healing process and the effectiveness of treatment of skin wounds of various origins" (RF patent for the invention No. 2478963 from 11/21/2011). This method involves the collection of biological material from the wound during the wound process and its study, while scraping is taken from the surface of the wound, DNA is isolated from them using DNA EXPRESS reagent with a dye for electrophoretic detection, the obtained supernatant containing DNA is introduced into a hole with a length of 4 mm 2% ethidium bromide agarose gel and subjected to horizontal electrophoresis for 15 minutes, the length of the obtained tracks is measured on the obtained electrophoregrams, which are correlated with the length of the hole between each other and with a track length exceeding the length of the hole 4.7-5.6 times or more is diagnosed with phase I of the wound process, with a track length exceeding the length of the hole 3.8-4.6 times, phase II of the wound process is diagnosed with the length of the track exceeding the length of the hole in 2.6-3.7 times or less, diagnose the III phase of the wound process; shortening the length of the track in the dynamics of the wound healing process is evaluated as a positive course of wound healing, treatment is considered effective, lengthening the track or the absence of changes in its length in the dynamics of the wound healing process is assessed as a negative course of wound healing, treatment is considered ineffective and treatment tactics are changed.

Known (prototype) "A method for diagnosing the degree of proliferative activity of the wound process" (Bazhitov A.P., Martel I.I., Dolganova T.I., RU 2455941, publ. 20.07.2012). This method consists in examining the state of capillary blood flow of the skin using an ultrasonic doppler with high-frequency sensors (Minimax-Doppler K, St. Petersburg), installed in the wound surface area and at its border. According to the data calculated, the index of the difference in blood flow (cm / sec). When its value is less than 1.0, a slowdown in the proliferative activity of the course of the wound process is diagnosed, with values from 1.0 to 3.0, moderate proliferative activity of the course of the wound process is determined, and above 3.0, pronounced proliferative activity of the course of the wound process is determined.

These methods have the following disadvantages:

- not applicable on most laboratory animals due to the small size of the animal itself;

- it is impossible to position and fix the sensor in the right place on the skin of the animal without the use of soothing or immobilizing drugs, which will negatively affect the parameters of blood flow.

In the claimed method, the listed disadvantages are eliminated.

Disclosure of invention

The objective of the invention is to evaluate the activity of regeneration of a full-layer skin wound of a rat in an experiment.

The technical result of the method is to provide reliable identification of laboratory animals (rats) with unchanged regeneration activity, animals with an improvement in the process of regeneration of a wound, and animals with a deterioration in the process of regeneration of a wound.

The implementation of the invention

The claimed technical result can be achieved as follows:

- The animal is introduced into short-term inhalation anesthesia by inhalation of ether vapors (moistened cotton wool).

- On a site exceeding the size of the future wound, using a shaving machine removes hair.

- The surgical field is treated with alcohol, then a square stencil with an area of 225 mm ² moistened with iodine solution is applied. A flap of skin with subcutaneous tissue is removed along the border of the print with pointed scissors.

- Dopplerographic research is carried out (for example, the ultrasonic computerized instrument Minimax-Doppler-K is used)

- On days 7 and 14, the value of volumetric blood flow velocities is determined and the area of the wound is determined.

- The ratio of the area of the wound to the average systolic volumetric velocity is calculated and compared with the proposed threshold values (an improvement in the process of regeneration of the wound is indicated by a decrease in this ratio of less than 9.6 on day 7 and less than 4.45 on day 14, an increase in this ratios of more than 10 on the 7th day and more than 4.88 on the 14th day; in all steel cases, unchanged regeneration activity is detected).

In a series of experiments, we were able to justify the use of 7 and 14 days for research

The method is illustrated as follows: the experiment was performed on 40 rats, which were kept in a vivarium on a standard diet with natural light and an average air temperature of 20 ° ± 2 ° C, water is not limited. Experimental manipulations were performed in accordance with international recommendations on the use of animals in biological and medical research (from 1986), international recommendations on biomedical research using animals (from 1989), and methodological recommendations “Medical and biological experiment deontology” (from 1987). The conditions for keeping and feeding experimental animals were carried out in accordance with the Sanitary Rules for the Design, Equipment and Maintenance of Experimental Biological Clinics, approved by orders of the Ministry of Health of the USSR No. 1045 of April 6, 73, No. 1179 of 10/10/83. All animals were kept in standard conditions. Vivarium, taking into account the requirements for working with experimental animals (Loskutova Z.F., 1980). The animals were removed from the experiment on days 7 and 14 in accordance with Order No. 742 of 11/13/84 “On the Approval of the Rules for Work Using Experimental Animals”. The work received permission from the Ethics Committee of TSMU.

Experimental wounds were inflicted on all animals of the same type in the area of the dorsal surface of the body, under ether anesthesia. On a site exceeding the size of a future wound, hair was removed using a shaving machine. A square stencil with an area of 225 mm ^{2 was} applied to the surgical field treated with alcohol. A flap of skin with subcutaneous tissue was removed along the border of the print with pointed scissors. The wound surface averaged 14.5% of the body area. Healing of an inseminated full-layer surgical wound occurred in an open way, without applying a bandage.

Dopplerographic studies of microcirculation in the regenerate area were carried out on a Minimax-Doppler-K ultrasonic computerized device from SP Minimax. This device has a set of sensors and computer software. The traditional frequencies of ultrasound used in angiology (2-15 MHz) make it impossible to determine the speed of blood flow in the vessels of the microvasculature. When measuring the low-speed blood flow characteristic of the vessels of the microvasculature, ultrasonic sensors operating at a frequency of 20-25 MHz are used. This increases the sensitivity of the sensor and the resolution of the measurement of linear blood flow velocity. In this technology, high-frequency dopplerography is considered as a method of monitoring microcirculation. The proposed diagnostic medical technology allows us to evaluate the state of vascular reactivity of the microvasculature and vasomotor function of the endothelium in a screening mode.

The main action of the device is as follows: the reflected blood flow signal arriving at the sensor receiving element in the microvasculature of the granulation tissue contains different Doppler frequencies. In the computer part of the device, this signal is automatically amplified, filtered and processed according to a special computer program. The results are displayed on the display of a personal computer in the form of dopplerograms with a color spectrum obtained through the "fast Fourier transform". The higher the speed of the reflector (red blood cells - red blood cells), the farther from the isoline is the corresponding point. Which corresponds to the dark part of the spectrum. The fastest particles are in the center of the stream, slow in the parietal regions of the vessels.

In real blood flow, particles move at different speeds and in different directions; in this regard, as a result of processing dopplerograms, we obtained data on linear systolic, linear average, linear diastolic and volumetric blood flow velocities in the examined area of skin regenerate. To solve the stated problems of microcirculation research in the regeneration zone, a sensor with a signal frequency of 20 MHz was used, which makes it possible to evaluate hemodynamics at a depth of 0 to 0.8 cm.The microcirculation state was determined automatically by spectral analysis of the Doppler signal using the instrument software. The point on the boundary with the damage, with a setting angle that makes it possible to obtain data from the largest number of microvessels — 60 degrees to the surface — was chosen as the location of the specific location of the sensor.

To study the hemodynamic characteristics of a tissue site with microvessels, a continuous ultrasonic transducer with a frequency of 25 MHz is used.

Acoustic contact was provided through a gel applied to the studied area; in this regard, the readings of an ultrasonic Dopplerograph did not depend on the degree of pressure of the sensor.

To control the correct installation of the sensor at the location point, we used the device output to the auditory control device - sound stereo speakers that record the noise of blood flow. We also carried out visual monitoring of the presence of the Doppler spectrum characteristic of the microvasculature on the device screen. This allowed us to more accurately position the sensor and get a clear spectral picture. An ultrasonic signal from a group of granulation tissue vessels of different nature was expressed by sound in the form of pulsations weak in amplitude against the background of the “sea surf” noise — that is, mixed sound. As a result of processing Dopplerograms, the average linear and volumetric blood flow velocities were obtained.

As criteria for assessing wound healing, macroscopic dynamic observation and planimetry methods were used (determining the area of a skin defect) (Kuzin M.I., Kostyuchenok B.M., 1990), as well as microscopic and immunohistochemical techniques.

When intergroup comparisons of the wound area at the stages of the experiment in the control group revealed statistically significant differences criterion (p = 0.0001). The regression model for changing the wound area in the experiment shows a linear relationship Y = 3.108 - 0.136xX (p = 0.0001), that is, with an increase in the healing time by 1 day, the wound area decreases by 0.136 cm. R ² = 0.656, i.e. 65, 6% of changes in the area of the wound due to the regeneration time.

Based on the data of mathematical modeling, the following criteria were identified: an improvement in the wound regeneration process is indicated by a decrease in this ratio of less than 9.6 on the 7th day and less than 4.45 on the 14th day, an improvement in the wound regeneration process is indicated by an increase in this ratio by more than 10 on the 7th day and more than 4.88 on day 14, otherwise the regeneration activity is considered unchanged

The novelty of the proposed method is that:

- for the first time, a non-invasive method of obtaining information about the progress of the regeneration process in the wound is used;

- for the first time, slaughtering of an experimental animal is not required (a conclusion from the experiment is not carried out);

- for the first time, there is no violation of the ratios of the skin structures involved in the regeneration of the skin wound by mechanical intervention during sampling;

- for the first time, it becomes possible to repeatedly evaluate the regeneration process in the same animal;

- the cost of the research is lower than conducting a biochemical or histological study;

- the study can be carried out on any experimental or clinical basis, regardless of the model and type of Doppler equipment

Distinctive features of the method:

- all measurements are carried out on the 7th and 14th day from the moment of damage,

- the ratio of the area of the wound to the average systolic volumetric velocity is calculated,

- an improvement in the wound regeneration process is indicated by a decrease in this ratio of less than 9.6 on day 7 and less than 4.45 on day 14,

- the deterioration of the wound regeneration process is evidenced by an increase in this ratio of more than 10 on day 7 and more than 4.88 on day 14,

- in all steel cases, unchanged regeneration activity is detected.

Claims (1)

A method for evaluating the activity of regeneration of a full-layer skin wound of a rat in an experiment, which consists in applying a full-layer skin wound, in measuring blood flow velocity (ml / s), and also in measuring the area of a wound (mm ² ), characterized in that all measurements are carried out at 7 and 14 day from the moment of damage, the average systolic volumetric blood flow velocity is measured as the blood flow velocity, the ratio of the wound area to the average systolic volumetric velocity is calculated, and the improvement of the wound regeneration process is indicated the value of this ratio is less than 9.6 on the 7th day and less than 4.45 on the 14th day; the worsening of the regeneration process of the wound is evidenced by the value of this ratio of more than 10 on the 7th day and more than 4.88 on the 14th day.