RU2814373C1 - Method for prediction of skin and soft tissue wound suppuration - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to a method for prediction of suppuration of clean and contaminated skin and soft tissue wounds. On a clean or contaminated wound in the first phase of the course of the wound process, a dressing pre-stained with a substantial halochromic dye having a given initial colour is applied, and if, upon contact with a medium having a pH in range of 7.2–8.0 units, a change in the colour of the dressing occurs, a risk of skin and soft tissue wound suppuration is predicted.

EFFECT: invention provides prediction of skin and soft tissue wound suppuration, which is ensured by timely detection of an alkaline medium in the wound, thereby signalling the need to correct the treatment.

1 cl, 4 dwg, 1 tbl, 1 ex

Description

The invention relates to medicine, namely to a method for predicting suppuration of clean and contaminated wounds of the skin and soft tissues.

Early detection of bacterial infections in a wound defect of the skin and soft tissues is an important aspect for timely adjustment of treatment tactics and choice of treatment regimen. Common methods for detecting and quantifying bacteria include traditional plate counting and polymerase chain reaction (PCR). Plate counting estimates the number of viable bacteria in a sample, while PCR detects specific DNA or RNA originating from the target bacterial cells. Although these methods can be sensitive and specific, they require extensive sample preparation and can increase total analysis time by up to 18 hours. In medicine, there is a challenge to reduce the time required to obtain results and increase the speed of response.

In terms of detecting a bacterial infection, the unique microenvironment of bacteria (pH, toxins, enzymes, etc.) can be a source of search (Bacterial hyaluronidase self-triggered prodrug release for chemo-photothermal synergistic treatment of bacterial infection / H. Ji, K. Dong , Z. Yan [et al.] // Small. - 2016. - Vol. 12, Iss. 45. - P. 6200-6206.; Combatting antibiotic-resistant bacteria using nanomaterials / A. Gupta, S. Mumtaz, C. H. Li [et al.] // Chemical Society reviews. - 2019. - Vol. 48, Iss. 2. - P. 415-427).

During the normal course of the wound process, in the first phase the value of the pH value shifts to the acidic side (pH - 5.4-6.9). In the second phase of the wound process, the pH value becomes neutral or alkaline (pH - 6.9-9.0). In the third phase, the pH value acquires the values of healthy skin. Bacterial colonization shifts the pH of normal skin and wound environment to the alkaline side (A.A. Andreev, A.A. Glukhov, A.P. Ostroushko, A.R. Karapityan, A.O. Chuyan. The influence of acidity on the dynamics of reparative processes in soft tissues. Bulletin of Experimental and Clinical Surgery 2017; 10: 1: 64-71. DOI: 10.18499/2070-478X-2017-10-1-64-71).

In the case of the multiplication of pathogenic microorganisms in the first phase of the wound process, the pH value in the wound increases (more than 7), which in turn creates favorable conditions for the proliferation of pathogenic microorganisms and leads to suppuration of the wound, an increase in the healing period, as well as the transition of an acute wound to chronic.

The prototype of our invention is a Method for diagnosing a latent inflammatory process in the reproductive organs of sows (RF Patent No. RU 2731474 C1).

The disadvantage of the prototype is the impossibility of its use for predicting suppuration of wounds of the skin and soft tissues due to the lack of a proven relationship between changes in the pH of the environment and the frequency of detection of pathogenic microorganisms and the degree of contamination of the wound.

The technical result of the invention is a method for predicting suppuration of skin and soft tissue wounds, which is ensured by timely detection of an alkaline environment in the wound, thereby signaling the need to adjust treatment.

The technical result in the prediction method is achieved by applying a dressing material pre-colored with a substantial halochrome dye to a clean or contaminated wound in the first phase of the wound process, having a given initial color and, if in contact with a medium having a pH in the range of 7.2-8 ,0 units there is a change in the color of the dressing material, then the risk of suppuration of the skin and soft tissue wound is predicted.

THE INVENTION IS EXPLAINED BY THE FIGURES:

In fig. Figure 1 shows the appearance of an infected wound in an experimental animal (Wistar rat).

In fig. Figure 2 shows an infected wound with a colored dressing placed over it.

In fig. Figure 3 shows the fact that the color of the dressing material changes from light yellow to pink due to contact with a wound that has an alkaline reaction (wound pH 7.82).

In fig. Figure 4 shows a comparison of the wound pH at the time of collection of discharge with the frequency of detection of pathogenic microorganisms during bacteriological culture of discharge from the wound.

THE METHOD IS CARRIED OUT AS THE FOLLOWING WAY:

50 g of medical gauze in accordance with GOST 9412-93 or a bandage made of non-woven material in accordance with TU 9393-009-56334457-2010, soaked in distilled water and wrung out from excess water, are completely immersed in a solution containing the following substances:

Halochromic substantive dye - 0.01-0.04 g

Sodium chloride - 0.05-0.1 g

Sodium sulfate 0.1-0.2 g

Soda ash - 0.1-0.5 g

Water - 2.5 l

The solution with dressing material is heated to a boil and then kept until it cools. The material is washed with distilled water, dried until clean wash water is obtained and sterilized in an oven at a temperature of 200±5 degrees Celsius for 30 minutes.

A halochromic substantive dye can be used as a halochromic substantive dye, which provides a change in color of the treated dressing material in the pH range of 7.2-8.0.

The dressing material made in the manner described above is fixed on the wound surface. In case of contact of the dressing material with wound discharge, which has a pH value of 7.2-8.0, the color of the dressing material changes, which indicates that the wound has an alkaline reaction environment, which provides favorable conditions for the proliferation of pathogenic microorganisms and, as a consequence, , transition from a clean or contaminated wound to an infected (purulent) wound.

EXAMPLE OF EXPERIMENTAL APPLICATION.

As a result of modeling a planar wound of the skin and soft tissues in Wistar rats, an infected wound was obtained (Fig. 1) with a pH of 7.8-7.9. The wound was covered with a colored dressing (Fig. 2); as a result of contact with the wound for 15-30 seconds, the dressing changed color from light yellow to pink (Fig. 3). Subsequently, after removing the experimental animal from the experiment, to prove the high degree of contamination, a fragment of the wound was subjected to microbiological examination to determine the degree of microbial contamination, which was 14.5 (13.7; 15.9) × 10 ⁷ CFU/g, which corresponds to the definition purulent wound.

The relationship between the level of contamination of wounds and the pH of wounds is presented in Table 1.

Table 1. Correlation between the level of wound contamination and wound pH, Me (25;75)

Day Wound contamination (CFU/g), n=6 wound pH 1 14.5 (13.7; 15.9) x10 ^7# 7.68 (7.56; 7.93) ^#
n=36 3 8.8 (8.1; 9.0) x10 ^7# 7.64 (7.48; 7.81) ^#
n=30 5 4.9 (4.8; 5.1) x10 ^7# 7.59 (7.36; 7.81) ^#
n=24 8 4.0 (3.9; 4.2) x10 ⁶ * 7.39 (7.20;7.76)*
n=18 10 3.8 (3.6; 4.1) x10 ⁶ * 7.39 (7.32; 7.51)*
n=12 15 2.2 (2.0; 2.4) x10 ⁶ * 7.12 (6.84; 7.22)*
n=6

Note: * - p>0.05 when comparing the indicator on day 1 with the remaining days.

^# - p>0.05 when comparing the indicator on the 15th day with the remaining days.

From the data presented in Table 1, it is clear that the pH value of wounds decreased over time similar to the level of contamination of wounds, in addition, a positive (direct) correlation was found between contamination of wounds and the pH level (r = 0.388 at p> 0.05) .

In the conditions of the bacteriological laboratory of the emergency hospital in Kursk, 128 cultures of wound discharge from patients with purulent-inflammatory processes of the skin and soft tissues were performed. As a result of comparing the wound pH (at the time of collection of discharge) with the frequency of detection of pathogenic microorganisms during bacteriological culture of discharge from the wound, the following results were obtained (Fig. 4).

From the data presented in Fig. 4 it follows that most often pathogenic microorganisms were sown at wound pH values in the range of 7.6-7.8, and, starting from a pH value of 6.9, there was a progressive increase, and after 7.8 there was the same progressive decrease in the fact of detection of microorganisms in wound discharge. At a pH value in the range of 6.9-7.2, microorganisms were detected in 11 cases (6.1%).

In our proposed method for predicting suppuration of skin and soft tissue wounds, the borderline acidity value was taken to be pH = 7.2, corresponding to the experimentally established contamination level of 2.2 × 10 ⁶ CFU/g. At the same time, 11 cases of detection of microorganisms in wound discharge with a pH in the range of 6.9-7.2 were classified by us as a false negative result; 7 cases of detection of microorganisms in wound discharge with a pH in the range of 8.0-8.6 had signs of a chronic wound and were classified by us as a false positive result.

Indicators of sensitivity and accuracy of the proposed method for predicting suppuration of wounds of the skin and soft tissues are calculated according to the appropriate methodology [Vasiliev A.Yu., Maly A.Yu., Serov N.S.//3 textbook. - 2008. [Electronic resource] - Access mode: htth//vmede.org/sait/?id=Onkologiya_analiz_vasilev_2008&menu=Onkologiya_analiz_vasilev_2008&page=3] according to the formulas:

CH=IP:(IP+LO)⋅100%, where

H - sensitivity,

IP - the number of true positive results,

LO - number of false negative results.

H=162:(162+11)⋅100=93.6%

T=IP:N⋅100%, where

T - accuracy,

IP - the number of true positive results,

N is the number of observations.

T=(162):180⋅100=90.0%

Thus, if a change in the color of the dressing material is detected, a prediction can be made about the risk of suppuration of the skin and soft tissue wound.

Claims (1)

A method for predicting suppuration of wounds of the skin and soft tissues, characterized in that a dressing material pre-stained with a substantial halochrome dye, having a given initial color, is applied to a clean or contaminated wound in the first phase of the wound process, and if upon contact with a medium having a pH in the range of 7 ,2-8.0 units, the color of the dressing material changes, then the risk of suppuration of the skin and soft tissue wound is predicted.