RU2465931C2 - Method of preventing purulent-septic complications in puerperants with high infectious risk - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to gynecology. Simultaneously with intravenous introduction of antibacterial preparations performed is ultrasound low-frequency impact dynamically distributed on external surface of uterus area. Impact is performed with the following parameters: frequency 34-46 kHz and amplitude 4-12 mcm. Rate of dynamic distribution of impact is directly proportional to its amplitude.

EFFECT: method contributes to normal course of puerperium, prevention of local infectious complications.

2 cl, 1 dwg

Description

The invention relates to medicine, namely to the prevention of generalized purulent-septic inflammatory complications in puerperas from the group of high infectious risk in the obstetric and gynecological clinic.

Postpartum purulent-septic diseases have always been a very scientifically and practically important section of obstetrics. They develop in 4-6% of cases, this indicator is higher after cesarean section (11.8-89.5%) [Akhmatova Z.M., Voropaeva S.D. Ways to reduce complications after cesarean section. Q. Ohr mat. - 1988 - No. 12, p. 35-39]. Endometritis after spontaneous birth is currently, according to various authors, found in about 3% of cases, while after abdominal delivery - in 19-30% and even 95% of puerperas. The frequency of wound infection of the anterior abdominal wall after surgical delivery reaches 5.5-20.4% [Akhmatova Z.M., Voropaeva SD Ways to reduce complications after cesarean section. Q. Ohr mat. - 1988 - No. 12, p. 35-39].

The use of standard preventive measures is not always justified, since in patients not included in the high-risk group, this leads to an excessive drug load on the puerperal organism and indirectly affects the newborn child [Davydov A.I. Purulent-septic complications of caesarean section. Prevention, diagnosis, treatment. New technologies in obstetrics. and gin. 1997, p.13-18].

One of the most common operations performed in an obstetric clinic is cesarean section. In Russia, the frequency of this operation in 2000 was 14.3%, in Moscow 16%. Due to the increase in the frequency of operations, the frequency of various postoperative complications also increases, reaching an average of 20-30%, among which endometritis and wound infection are most common. At the same time, endometritis accounts for up to 30-60% of all infectious complications [Gurtova B.L., Voropaeva S.D., Emelyanova A.I., Sokolova I.E. Etiology and antibacterial therapy of postpartum endometritis in modern conditions. Akush. and gin., 1988, No. 4, p. 47].

A known method for the prevention of purulent-inflammatory complications after abdominal delivery, including the appointment of intravenous administration of antibacterial drugs and taken as a prototype [Gurtova BL, Kulakov VI, Voropaeva SD The use of antibiotics in obstetrics and gynecology. Practical library a doctor. Actual issues Akush and gin. 1996, p. 140].

The disadvantage of this method of preventing inflammatory complications after abdominal delivery is not always the sufficient effectiveness of the prescribed drugs, as well as their toxic effect on the liver, kidneys (up to 14%), gastrointestinal tract, individual intolerance (10%), the appearance of resistant strains of microorganisms [Davydov A.I. . Purulent-septic complications of caesarean section. Prevention, diagnosis, treatment. New technologies in obstetrics. and gin. 1997, p.13-18].

The objective of the invention is a method for the prevention of inflammatory complications in puerperas of high infectious risk, which is more effective and less side effects (complications from the internal organs: liver, kidneys, gastrointestinal tract, etc.).

The problem is solved by the method consisting in the fact that with the intravenous administration of antibacterial drugs, they simultaneously carry out ultrasonic low-frequency exposure (scoring) dynamically distributed over the external surface of the uterine region with parameters: frequency 34-46 kHz and amplitude 4-12 μm, and the speed of the dynamic distribution of exposure directly proportional to the amplitude. In addition, ultrasonic low-frequency exposure can be carried out through a woven pad impregnated with a solution of an antibiotic or antiseptic, and the amplitude of the exposure is directly proportional to the thickness of the pad used. To increase the efficiency, the dynamics of the spatial distribution of ultrasonic exposure is formed (carried out) in the direction of vascular blood flow.

To assess the capabilities of the proposed method, a specially developed ultrasonic high-amplitude apparatus with a piezoceramic emitter and a specially made waveguide-tool made of high-strength titanium alloy and a unit for moving the emitter with a waveguide-tool on the outer surface of the uterine region were used. The apparatus consists of an ultrasonic generator 1, the output of which is connected to the emitter 2 with an ultrasonic waveguide tool 3 connected to it. To ensure the necessary dynamics of the spatial distribution of ultrasonic exposure, a movement unit 4 of the emitter 2 and the waveguide tool 3 is designed. Ultrasonic generator 1, movement unit 4 and the solenoid valve 5, allowing the flow of the drug solution from the intravenous administration system 6, is controlled from the timer 7 (see Fig. 1).

Consider the implementation of the proposed method for the prevention of purulent-inflammatory complications.

Before carrying out the procedure, the system of intravenous administration of the drug and the emitter moving unit with the waveguide tool attached to it are installed. The emitter 4 moving unit provides a change in the position of the waveguide-tool 3 with a developed working end (ball segment) on the outer surface of the uterine region with a slight effort to press it against the patient’s body surface, allowing a woven pad impregnated with a healing solution between the working end of the waveguide and the body surface. The ultrasonic generator is connected to the network and, upon the doctor’s command, the timer 7 is started. At the same time, the ultrasonic generator 1, the reciprocating movement of the waveguide-tool along the external surface of the uterine region and the electromagnetic valve 5 for supplying the drug from the intravenous administration system 6 are turned on by the output of the timer.

Ultrasonic exposure is carried out for 10-20 minutes with the following parameters: the amplitude of the working end of the tool waveguide A = 4-12 μm, the oscillation frequency 34-48 kHz, with a constant reciprocating movement of the waveguide at a speed of 0.5-5 cm / s depending on the amplitude of the oscillations of the working end of the waveguide, since the energy impact of ultrasonic vibrations is equally related to both the amplitude of the impact and its duration. The choice of the indicated ranges of changes in the amplitude and frequency is determined by the fact that, at lower amplitudes, the effectiveness of the impact decreases sharply, and at large amplitudes, the velocity of the waveguide is such that the inertial properties of the displacement node begin to affect; the frequency limits are related to the fact that at lower frequencies the cavitation effect begins to prevail, while at higher frequencies the working amplitude decreases and the heating of the waveguide increases.

The basis of the biological effect of ultrasound is its ability to transfer its energy to body fluids and tissues. In this case, mechanical and physico-chemical transformations occur, stimulating a number of biological processes. The kinetics of ultrasonic treatment of biological tissues is considered on the basis of the idea that the medium (conductor of ultrasonic waves), the waveguide and biological tissue are a holistic system that is conventionally considered heterogeneous.

Acceleration of ongoing biological processes makes it possible to intensify diffusion. When voicing, there are a number of secondary effects, such as the formation of acoustic hydroflows, radiation pressure, etc. The resulting mass transfer and mass transfer both directly into the biological tissue and at the interface between the liquid drug medium and biological tissue generate turbulent motion of the liquid phase, which leads to intensive mixing fluid, changes the concentration gradient of the diffusing substance and the hydrodynamics of the investigated processes.

The effectiveness of this effect is determined by the following factors:

- intensification of blood circulation due to the thermal effect on the end of the waveguide in the area of impact;

- conformal rearrangement of cell membranes, a change in their permeability and, as a result, an increase in the permeability of hematogenous barriers;

- improved blood circulation due to vibrational massage of tissues occurring due to hydroflows and radiation pressure;

- synergism of ultrasonic vibrations and antiseptics. It is known that when using furacilin and chlorhexidine as an acoustic medium, ultrasound promotes the penetration of an antiseptic into the tissue, bringing it closer to the pathogen and increasing the sensitivity of microorganisms to antibiotics.

With ultrasonic exposure to the external surface of the uterine region with simultaneous intravenous administration of drugs due to the abnormal ultrasonic capillary effect, more efficient delivery of the drug to the uterine region through the blood is provided due to an increase in the permeability of hematogenous barriers. In fact, in the zone of ultrasonic exposure, an abnormal capillary circulation regime is formed, which ensures the achievement of a therapeutic effect.

Thus, the proposed method contributes to the normal course of puerperia due to physiological effects on the contractile function of the endometrium. It prevents the development of local infectious complications due to the elimination of the microbial flora in the lochial discharge, stimulating the processes of tissue regeneration and local immunity.

The proposed method has the following advantages over the known:

- in comparison with the traditional method for the prevention of postpartum endometritis (antibiotic prophylaxis), this method allows for a shorter time extracorporeal elimination of the microbial flora from the lochial contents of the uterine cavity due to artificial controlled hemodilution by introducing targeted drug infusion drugs;

- ultrasonic treatment allows for additional hemostasis in the wound surface, which contributes to faster tissue repair and, consequently, a decrease in the wound surface in the uterus;

- In addition, tissue is saturated with an antiseptic solution, which reduces the number of infectious complications.

In accordance with the proposed method, 30 women of high infectious risk groups were experimentally treated. As a result, it was noted that the ultrasound effect on the myometrium with simultaneous intravenous infusion of antibacterial drugs contributes to better contractility of the myometrium, improves laboratory parameters and the ultrasound picture, which is reflected in the reduction of hospital stay. When using this method, 93% of all observed on the 5th day was prescribed, while when compared with puerperas who used antibiotic prophylaxis according to standard regimens, 40% of puerperas were prescribed on the 5th day (out of 30 observed puerperas). On the 6th day, the remaining 7% of women were discharged from the control group, while 40% were discharged from the main group on the 6th day, and the remaining 20% of women were discharged only by the 8th day. Thus, the use of this technique can reduce the number of bed days by 1.6 times.

Claims (2)

1. A method for the prevention of purulent-septic complications in women of high infectious risk by intravenous administration of antibacterial drugs, characterized in that they simultaneously carry out ultrasonic low-frequency exposure dynamically distributed on the external surface of the uterine region with parameters: frequency 34-46 kHz and amplitude 4-12 microns, moreover, the speed of the dynamic distribution of the impact is directly proportional to the amplitude. 2. The method according to claim 1, characterized in that the dynamics of the spatial distribution of ultrasonic exposure is formed in the direction of vascular blood flow.

Images