RU2691142C1 - Method of choosing the strategy of revision endoprosthesis replacement of large joints - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to traumatology and laboratory diagnostics, and can be used for selection of tactic of revision endoprosthesis replacement of large joints. Method involves conducting a laboratory examination of the synovial fluid samples from the joints subjected to revision endoprosthesis. Additionally, the synovial fluid samples are taken from an intact large joint. Use of local anesthesia and blood ingestion during sampling of the puncture needle is excluded. Method includes determining in all samples an expression level α-defensins HNP-1, HNP-2, HNP-3. If expression ratio is detected α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints 2:1 and higher, the presence of infection of the operated joint is evaluated, and a two-stage revision endoprosthesis replacement with the antibacterial joint spacer installation is prescribed. If expression ratio is detected α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints less than 2:1, the absence of infection of the operated joint is determined, and one-stage revision endoprosthesis is prescribed.EFFECT: invention provides more accurate selection of the proposed surgical management based on a comparative assessment of the level α-defensins HNP-1, HNP-2, HNP-3 in intact and operated joints.1 cl, 6 dwg, 2 ex

Description

The invention relates to medicine, namely to traumatology and laboratory diagnostics, and is intended to select the tactics of revision arthroplasty of large joints.

Endoprosthetics of large joints improves the quality of life for patients One of the most serious complications is periprosthetic infection. This process, in case of late diagnosis and inadequate treatment, can lead to serious consequences - the development of osteomyelitis, the formation of bone defects, removal of the prosthesis, and even death.

The widespread, ubiquitous development of large joint endoprosthetics, along with the obvious advantages associated with improving the quality of life of patients, is accompanied by an increase in the number of infectious complications with the development of deep suppuration in the area of endoprostheses, which range from 1.0 to 12.4% (Hsu CS et al, Two-stage revision of the total knee arthroplasty using an antibiotic-impregnated static cement-spacer, Chang Gung Med J, 2008, 31 (6), p. 583-591). Mortality in suppurations in the area of endoprostheses is up to 2.5%, and in the group of elderly patients it is up to 8% (Parvizi J et al, Periprosthetic infection: 2008, 74, 6, p. 793-800).

At the time of infection, the average patient age is 71 years. For patients, infection in the area of the prosthesis is often associated with a serious deterioration in the quality of life, chronic pain, and as a rule, additional operations with loss of bone tissue, muscles and soft tissues. This is often associated with inpatient treatment lasting from several weeks to months. As a result of this hospital stay, operations, anesthesia, and prolonged immobilization, patients are confronted with multi-resistant pathogens, so there is an increased risk of associated complications that may even lead to death (pulmonary embolism, catheter sepsis).

The orthopedic center engaged in endoprosthetics of large joints and performing at least 100 operations per year in the first year can get the number of infectious complications - 17%, in the second year this number decreases by 5%, in the third by 3% and on average can reach 4% (A. Trampuz et al., Spotlight: periprosthetic joint infection, CeraNews Journal for Orthopedists, 2014, No. 1, p. 3-4).

In the prior art, a method for diagnosing periprosthetic infection (Winkler T. et al., Classification and algorithm for diagnosing and treating periprosthetic infection of the hip joint, Traumatology and Orthopedics of Russia, 2016, No. 1, p. 35) is known, which includes laboratory blood tests the patient. However, the low specificity and sensitivity of routine blood parameters does not allow for the time to diagnose intraarticular infection.

Thus, in the prior art, there is a known method for choosing the tactics of revision arthroplasty of large joints (Artyukh V.A. et al., Two-stage revision arthroplasty in the treatment of periprosthetic infection in the hip joint, Federal Clinical Recommendations, 2015, p. 9), selected us for the prototype. The method includes conducting laboratory studies of samples of synovial fluid from joints undergoing revision arthroplasty. The analysis of synovial fluid includes the counting of cells with leukocyte formula, the determination of leukocyte esterase and bacteriological examination for aerobes and anaerobes. Crystal analysis can also be performed according to indications. However, latent and erased forms of periprosthetic infection after taking antibiotics can be reflected in such a study in a very uncertain way due to the deposition of bacterial biofilms on intra-articular surfaces and preservation of the sterility of the synovial fluid, while in the choice of revision arthroplasty tactics full clarity is needed.

The main problem facing the orthopedic community is the lack of a gold standard for the diagnosis of peri-implant suppuration. Often, inflammation in the joint remains unrecognized until surgical treatment.

Efforts to find simpler and more accurate diagnostic tools for periprosthetic infection (PLI) focused on detecting biomarkers in synovial fluid (SA Oshkukov, Surgical treatment of hip and knee periprosthetic infections, Diss. M., 2017; Bozic KJ et al , Jon Bone Joint Surg Am, 2005, 87 (8), p. 1746-1751).

One of these biomarkers is human α-defensins HNP-1, HNP-2, HNP-3, which take their name from the English "defense" -protection. They belong to the group of antimicrobial peptides (AMP) and are small cationic peptides with a molecular weight of 2-6 kDa. They were first described by Robert Scarnes and Dennis Watson in 1957 as thermostable proteolytic enzymes synthesized by leukocytes, α-defensins HNP-1, HNP-2, HNP-3 are among the first to provide nonspecific protection of the body against bacteria, fungi and some viruses. The mechanism of their action is based on the process of non-oxidative pore formation.

The closest in technical essence is a method for the diagnosis of local inflammation in large joints (patent US 7598080 (Carl Deirmengian), February 23, 2006), which includes determining the level of α-defensins HNP-1, HNP-2, HNP-3 in synovial fluid. The study is carried out using a set of ICA for alpha defensin. The synovial fluid from the joint, which suggests inflammation, is diluted with the reagents included in the kit and is applied to the test strip. When the level of α-defensins HNP-1, HNP-2, HNP-3 reaches the reference value and above, local inflammation in the large joints is diagnosed.

However, this knowledge is not enough for the choice of revision arthroplasty tactics, since there is a certain percentage of error associated with the qualitative determination of α-defensins.

Thus, there is a need for a method for selecting a revision arthroplasty tactic devoid of the above disadvantages.

The technical result of the present invention is to improve the accuracy of the choice of the proposed surgical treatment on the basis of a comparative assessment of a reliable marker - the level of α-defensins HNP-1, HNP-2, HNP-3 in intact and operated joints.

This technical result is achieved by the fact that in the proposed method of selecting the tactics of revision arthroplasty of large joints, including laboratory testing of synovial fluid samples from joints undergoing revision arthroplasty, additionally take samples of synovial fluid from an intact large joint, while eliminating the use of local anesthesia and penetration blood samples during extraction of the puncture needle, determine in all samples the level of expression and α-defensins HNP-1, HNP-2, HNP-3, and when detecting the ratio of expression of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints 2: 1 and above determine the presence of infection of the operated the joint and designate a two-stage revision arthroplasty with the installation of antibacterial spacer joint, and when detecting the ratio of expression of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints less than 2: 1 determine the absence of infection of the operated joint and prescribe a one-step revision endoproot , if needed.

FIG. Figures 1-6 illustrate clinical examples.

The method is as follows.

In aseptic conditions, after treatment of the skin of a large joint (hip, knee), perform puncture of the joint, which is planned to make revision arthroplasty, and puncture the intact joint, preferably the contralateral. Eliminate the use of local anesthesia and blood in the samples during extraction of the puncture needle to prevent distortion of the results. The obtained samples of articular fluid are examined by the method of enzyme immunoassay or immunochromatographic analysis for the presence of α-defensins HNP-1, HNP-2, HNP-3. When identifying the ratio of the expression of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints 2: 1 and above, it is concluded that neutrophil activation is influenced by external infectious factors, since defensins are one of the first to provide non-specific protection of the body from bacteria, determine the presence of infection of the operated joint and appoint a two-stage revision arthroplasty with the installation of an antibacterial spacer joint. When identifying the ratio of the expression of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints less than 2: 1, determine the absence of infection of the operated joint and prescribe a one-stage revision arthroplasty. Such an early definition of infectious inflammation gives the doctor a reason for a quick response and the use of such actions aimed at fighting an infection such as revision with the use of cement with an antibiotic, sanitation, general antibiotic therapy, etc.

Analysis of clinical and laboratory data of 178 patients of different ages, including seeding from the fragments of the synovial membrane of the operated joints and fragments of the synovial membrane obtained by an arthroscopic biopsy of intact joints removed during an arthroplasty, showed that 98% of all patients with suspected periprosthetic infection (n = 121) with the ratio of the expression level of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints 2: 1 and above, sowing the fragments of the synovial membrane of the operated joint gave n Positive results with low concentrations of pathogenic microorganisms. In 100% of patients with suspected periprosthetic infection (n = 57) with the ratio of the expression level of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints less than 2: 1, the cultures remained sterile.

Thus, the ratio of the expression of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints 2: 1 and higher can be used as a criterion for the very high probability of periprosthetic infection, which is an indication for a two-stage revision arthroplasty of large joint with the installation of an antibacterial spacer, rehabilitation, general antibiotic therapy.

The significance of the differences of the proposed method lies in the fact that in the complex of clinical and laboratory studies as a prognostic criterion it is proposed to use a comparative analysis - the ratio of the expression level of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints - to identify or non-detection of latent forms of periprosthetic infection, and prescribing adequate tactics for revision arthroplasty.

Example 1. Patient B., born in 1962. Sluggish inflammatory process (?) Of the right knee joint after total replacement without fistula formation (Fig. 1). Complaints of aching pain in the right knee. Sowing of synovial fluid is negative, inflammatory indicators of the general blood test, either within the normal range or at its upper limit.

The patient conducted a study of samples of synovial fluid using enzyme immunoassay. The expression levels of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact (left knee) joints were 6.4 and 2.1 μg / ml, respectively (the ratio was 3.05: 1). According to the proposed method, a two-stage revision arthroplasty was selected using spacers with ceftriaxone (Fig. 2). According to the result of sowing the fragments of the synovial membrane removed during the first stage of the revision arthroplasty (Fig. 3) - low concentrations of S. heamolyticus and Staplylococcus spp.

On a review radiograph - a picture after stage II - removal of the spacer, the actual revision arthroplasty (Fig. 4).

Re-sampling of the synovial fluid showed expression levels of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints, respectively, 3.3 and 2.1 μg / ml (the ratio was 1.57: 1).

Example 2. Patient G., born in 1961 Instability of the acetabular component of the endoprosthesis of the left hip joint without fistula formation (Fig. 5). Sowing of synovial fluid is negative, inflammatory indicators of the general blood test, either within the normal range or at its upper limit.

The patient conducted a study of samples of synovial fluid using enzyme immunoassay. The expression levels of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact (right hip) joints were 2.4 and 2.0 μg / ml respectively (the ratio was 1.2: 1). According to the proposed method, a single-stage revision arthroplasty was selected (Fig. 6). According to the result of sowing, fragments of the synovial membrane removed during revision arthroplasty - the fragments are sterile.

Thus, the proposed method allows to increase the accuracy and validity of the choice of revision arthroplasty tactics based on an objective comparative assessment of the level of α-defensins HNP-1, HNP-2, HNP-3 in intact and operated joints.

Claims (1)

A method for selecting tactics for revision arthroplasty of large joints, including laboratory testing of synovial fluid samples from joints undergoing revision arthroplasty, characterized in that they additionally take samples of synovial fluid from an intact large joint, while excluding the use of local anesthesia and blood ingress into the samples during extraction of the puncture needle, determine in all samples the level of expression of α-defensins HNP-1, HNP-2, HNP-3, and when detected with The ratios of the expression of α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints 2: 1 and above determine the presence of infection of the operated joint and prescribe a two-stage revision arthroplasty with the installation of an antibacterial spacer joint, and when detecting the ratio of the expression level α-defensins HNP-1, HNP-2, HNP-3 in the operated and intact joints less than 2: 1 determine the absence of infection of the operated joint and prescribe a one-stage revision prosthesis.

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