RU2400269C1 - Method of treating chronic prostatitis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine and can be used for treatment of chronic prostatitis. For this purpose at the background of intake of medications acoustic therapy of prostate with weak-focused shock-wave acoustic pulses is carried out. Amplitude of pressure is within the range 5-90 bar with pulse duration not longer than 2 mcs. Size of focal area of focusing does not exceed 50 mm, depth of shock wave penetration being 150 mm.

EFFECT: method allows to increase treatment efficiency due to quick and expressed pain-killing effect, improvement of urination parametres and increase of blood flow rate, reduction of expressivity of fibrous-sclerotic changes in prostate tissue.

3 cl, 3 dwg, 1 tbl

Description

The alleged invention relates to the field of medical technology and may find application for the treatment of patients with chronic prostatitis.

Known methods of treating chronic prostatitis, which use various combinations of drug therapy and physiotherapy with various physical fields [1, 2].

Closest to the claimed method is a method of treating patients with chronic prostatitis, which consists in the fact that the patient undergoes combined drug therapy and therapy with acoustic exposure to ultrasonic waves [3].

The invention relates to medical equipment and is intended to increase the efficiency and reduce the time of drug therapy for patients with chronic prostatitis (bacterial and abacterial).

Available to us domestic and foreign literature there is no information on the use of shock wave therapy (UHT) in the treatment of chronic prostatitis.

Chronic prostatitis is a common, socially significant disease that affects 5 to 40% of men (Lopatkin N.A., 1998; Nicel J.C., 1999; Collins M.M., 1998; McNayghton-Collins, 2002). Every fourth patient is a man aged 30 to 49 years, that is, during the period of greatest social activity (Lopatkin N.A., 2004).

Despite the accumulated world experience, a unified approach to the treatment of patients with chronic prostatitis has not yet been formed (N. Lopatkin, 2004). At the X Russian Congress of Urology (2002), devoted to chronic prostatitis, insufficient effectiveness of the currently available methods of treatment for this disease was noted. Even using the most modern physiotherapeutic techniques (for example, the Andro-Gin hardware-software complex), the relapse rate reaches 40% within the first 1-2 years. As for the medical treatment of chronic prostatitis, the list of medicines includes from 13 to 17 groups of drugs (Lopatkin N.A., 2004; Anderson R.U., 2002), which indicates their insufficient effectiveness.

There is an opinion about the insufficient antibacterial effect of drugs on the prostate gland. Antibiotic therapy can be effective only if, in the presence of the pathogen, a sufficient concentration of the drug in the prostate gland is provided. However, antibiotic therapy in these patients is difficult, because the epithelium of the prostate gland is a barrier to diffusion of antimicrobial agents from blood plasma into the focus of inflammation and the secretion of the gland (Tkachuk V.N., 1994.). So, in the instructions for medical use of the antibacterial drug “Cifran OD” (ciprofloxacin) for the treatment of chronic bacterial prostatitis, the recommended dose is 1000 mg every 24 hours for 28 days. At the same time, with other urinary tract infections, the recommended dose is 500 mg for 3-14 days, even in severe and complicated cases of the disease.

The technical (clinical) result from the use of the invention is to increase the effectiveness and quality of treatment.

The technical result is achieved by the fact that in a method of treating chronic prostatitis, based on the combined effect of drug and acoustic therapy of the prostate gland on a patient, it is proposed to conduct acoustic therapy with weakly focused shock-wave acoustic pulses with a pressure amplitude in the range of 5-90 bar 30 minutes after taking the drug with a pulse duration of not more than 2 μs, while the diameter of the focal focusing region does not exceed 50 mm, and the penetration depth of the shock wave is 150 mm .

It is also proposed that the therapeutic effect on the prostate gland with acoustic shock-wave pulses be carried out in the form of five procedures every other day, about 1000 pulses in each.

In addition, according to indications, additionally simultaneously with the shock-wave action, it is possible to carry out the action by a pulsed electric field.

The essence of the invention lies in the fact that after the introduction of the drug, the prostate is exposed to shock wave pulses with a compression amplitude of 5-90 MPa, a duration of increase in the leading edge of pressure from 0.5 to 0.8 μs with a range of negative amplitude from 15 to 30 % of the positive amplitude and pulse repetition rate of 1.5-2.0 Hz.

It has been established that the main effects of physical factors on the tissue of the prostate gland should be: cumulation of drugs in the prostate gland, bacteriostatic effect, stimulation of microcirculation, activation of cellular immunity. For this purpose, physical factors such as electric current, laser radiation, hyperthermia, ultrasound, magnetic field, electromagnetic radiation, therapeutic mud and baths are most often used (Bogolyubov V.M., 1998; Lopatkin N.A., 1998; Molochkov V .A., 1998). The abundance of applied methods and the lack of a single universally accepted view on the problem of treating chronic prostatitis prove the insufficient effectiveness of the currently available methods of treating this disease. This creates the prerequisites for research in order to search for new methods of treatment of chronic prostatitis.

Based on the biological effects of shock waves, we can assume the prospect of their use to solve this problem. The method of shock wave therapy originates in the late 80s - early 90s. A number of studies have shown that the effect of shock waves helps to accelerate bone marrow formation and healing of fractures, faster healing of skin wounds, and leads to increased regenerative and reparative processes and stimulation of metabolism in tissues and cells (B. Garilevich et al., RF patent No. 2076641, 1997; Valchanov V. et al., 1991; Haupt G., 1997).

In 1988, shock wave therapy was first successfully applied in the treatment of fractures (Valchanov V. et al., 1991). Since that time, the method has been widely used in orthopedics and traumatology, sports medicine. With the accumulation of experience, the scope of application of this method gradually expanded. Thus, its effectiveness in the treatment of Peyronie's disease, neuromuscular dysfunction in children with spastic cerebral palsy (Loshe-Busch N. et al., 1997; Siebert W., Bush M., 1997) has been proven. Recent studies have shown the promise of using extracorporeal shock wave therapy in cardiology in patients with coronary heart disease (Takahiro Nishida et al., 2004).

It has been established that the main clinical effects of shock waves are: analgesic effect, activation of microcirculation and neoangiogenesis, stimulation of metabolic processes, resorption of scar connective tissue, anti-inflammatory and antibacterial effects. Given these data, it seems promising and pathogenetically justified to use the method of shock wave therapy in order to increase the effectiveness of drug therapy in the treatment of patients with chronic prostatitis. Given these data, the use of the method of shock wave therapy in the treatment of patients with chronic prostatitis is promising and pathogenically justified.

As shown in figure 1, the ultrasonic waves have a sinusoidal shape with a relatively slow increase in the leading edge and a small pressure amplitude (usually up to 0.5 MPa). The negative phase of the ultrasonic wave has approximately equal amplitude with the positive. The penetration depth of an ultrasonic wave in body tissue is inversely proportional to frequency. At a frequency of 1 MHz (the duration of one oscillation is 1 μs), the penetration depth is about 30 mm, which limits the possibilities of exposure to deeper internal organs. The area of the therapeutic zone depends on the emitter, but, as a rule, does not exceed 4 cm ² .

The shock wave used in lithotripsy (Fig. 2) is characterized by a high positive pressure amplitude (up to 140 MPa), a short pulse duration (<1 μs), a rapid increase in the peak pressure amplitude (<10 ns) with a steep leading edge, and the presence of a gentle trailing edge, followed by a negligible negative amplitude (extension) phase. An important characteristic is the presence of a therapeutic focus - a cigar-shaped zone with a length of up to 90 mm and a diameter of 2.2 to 6.9 mm, where the maximum pressure amplitude of the shock wave is reached. Similar parameters are used for shock wave therapy in orthopedics. The difference in the treatment of prostatitis is a lower pressure amplitude (from 5 to 90 MPa), as well as a larger focal zone diameter (up to 50 mm) and the presence of the so-called therapeutic zone, within the boundaries of which the pressure amplitude decreases to 5 MPa - the minimum level, at which a therapeutic effect is achieved.

The shock-wave pulse in the regime under study had a bell-shaped shape with an angle of inclination of the front of the shock wave to the time axis at a half-microsecond sweep from 15 ° to 60 ° (Fig. 3). It is this form of shock wave that has the optimal stimulating effect on organs and soft tissues. Unlike ultrasound, the shock wave has a much greater penetration depth into the tissue, reaching 150 mm, which allows you to effectively act on the internal organs. Due to the large diameter of the therapeutic zone (50 mm), the entire prostate gland is simultaneously treated. In contrast to focused shock wave therapy, the distribution of pressure in the therapeutic zone occurs evenly over the entire area. The lack of a focal zone with excessive pressure reduces the risk of damage to the tissue of the prostate gland.

The differences between the parameters of ultrasound, focused and defocused shock wave therapy are shown in table 1.

Table 1 Comparative characteristics of ultrasound, focused and defocused shock wave therapy Ultrasound Focused shock wave therapy Defocused Shock Wave Therapy Diameter of the focal zone No 2 to 26 mm No The diameter of the therapeutic zone Depends on the emitter 15 to 45 mm (5 MPa) 50 mm Depth of penetration into body tissues 30 mm (at 1 MHz) Up to 90 mm (focal area) Up to 150 mm Pressure amplitude Up to 0.5 MPa From 7 to 50 MPa 5 to 90 MPa

We conducted a prospective study of the results of treatment of 68 patients with chronic prostatitis. Patients were divided into two groups. The main group consisted of 35 patients who underwent defocused shock wave therapy. The control group was represented by 33 patients, in the treatment of which we used traditional physiotherapeutic treatment on the Andro-Gin hardware-software complex.

Shock wave therapy was performed on the Compact experimental complex with an electromagnetic shock wave generation system and the possibility of ultrasonic positioning. Structurally, defocusing of shock waves was carried out. Impact parameters: the pulse duration was from 1.0 to 2.0 μs, the pulse repetition rate was 1.5 Hz, the pressure amplitude during the session gradually increased from 5 to 90 MPa, the total number of pulses was 1000.

Against the background of complex therapy, all patients of both the main and control groups showed a decrease in the main clinical manifestations of the disease: pain, urination disorders. Moreover, patients of the main group had a faster and more pronounced analgesic effect that occurs after 1-2 procedures, which, in our opinion, is associated with a specific analgesic effect of shock waves.

The antibacterial and anti-inflammatory effect of shock waves led to a decrease in the number of leukocytes in the secretion of the prostate gland during treatment in patients of the main group, and a statistically significant increase in lecithin grains indicates an improvement in the functional state of the prostate.

Under the influence of shock wave therapy, there was a significant improvement in urination parameters: the maximum speed increased by an average of 36%, while in the control group - by 19%.

Important data on the response of the prostate to shock wave therapy were obtained by us with an ultrasound study measuring the parameters of organ blood flow.

Encouraging results were obtained by us in the treatment of patients with fibrotic changes in the prostate against the background of long-term chronic prostatitis. In our study, among patients of the main group, in 10 with ultrasound, more or less pronounced fibro-sclerotic changes in the prostate were detected. After a standard course of shock wave therapy, 7 of them (70%) showed a decrease in the size and echo density of the fibrosis sites.

The analysis of spectral Doppler ultrasonography showed a significant statistically significant increase in both the maximum systolic and minimum diastolic blood flow velocities in the vessels of the prostate gland in patients of both groups. In the main group, the maximum systolic rate 14 days after the start of treatment increased on average by 81%, while in the control group - by 47%. The differences between the groups are statistically significant, p <0.001. The dynamics of changes in the minimum diastolic velocity was of a similar nature, was less pronounced, but statistically significant. 1 month after the start of treatment, the main group of patients had higher rates of both maximum systolic and minimum diastolic speeds.

In conclusion, it can be noted that we have developed a new highly effective method of treating patients with chronic prostatitis has several important advantages. These include: a quick and pronounced analgesic effect, improved urination and increased blood flow, as well as a decrease in the severity of fibro-sclerotic changes in the tissue of the prostate gland. We also note that the proposed method can be used for bacterial and abacterial chronic prostatitis.

Information sources

1. RF patent No. 2199353, A61N 1/32, Republic. 2003.02.27.

2. RF patent No. 2145244 A61N 2/04, Republic. 02/02/10.

3. RF patent No. 95105502 A61H 23/00, Republic. 1997.01.20.

Claims (3)

1. A method for the treatment of chronic prostatitis, based on the combined effect of drug therapy and acoustic therapy of the prostate gland on a patient, characterized in that in order to increase the effectiveness of the treatment of chronic prostatitis while taking drugs, acoustic therapy is carried out, which is carried out by weakly focused shock-wave acoustic pulses with the pressure amplitude in the range of 5-90 bar with a pulse duration of not more than 2 μs, while the diameter of the focal focusing region does not exceed 50 mm, and the penetration depth of the shock wave is 150 mm. 2. The method according to claim 1, characterized in that the therapeutic effect on the prostate gland with acoustic shock-wave pulses is carried out in the form of five procedures every other day, about 1000 pulses in each procedure. 3. The method according to claims 1 and 2, characterized in that, in addition to simultaneously with the shock wave action, the action is performed by a pulsed electric field.

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