RU2261130C2 - Method for preparing pregnant women to childbirth - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves administering medicamentous prep and uterine cervix treatment with physical factors. Quasi-monochromatic low intensity radiation of visible and nearest infrared spectrum in narrow bandwidth is applied. The treatment is carried out by means of light-emitting diodes, one of them having wavelength of 628 nm and radiation power of 30 mW, two more having wavelength of 880 nm and radiation power of 60 mW, and two more having wavelength of 950 nm and radiation power of 60 mW with exposure time of 7-12 min daily.

EFFECT: enhanced effectiveness of treatment.

1 dwg

Description

The invention relates to medicine, namely to obstetrics.

In the process of childbirth in women after various treatment methods (cryotherapy, diathermocoagulation (DEK) and diathermoelectroexcision (DEE)) of the cervical pathology, various complications are possible (Khechinashvili G.G. Modern methods of preparing pregnant women for childbirth. - Methodical recommendations. L., 1982, p.10).

A known method of preparing pregnant women for childbirth, in which to reduce complications, carry out complex drug treatment and additionally affect the cervix with physical factors, namely, the cervix is irradiated with light of a low-intensity helium-neon laser with a wavelength of 632.8 nm, a power of 3-5 mW (author's certificate. USSR No. 1377117, class 4 A 61 N 5/06, publ. 02.29.88. Bull. No. 8). However, the use of laser therapy in medicine requires special training of medical personnel, as well as characteristics such as coherence and polarization are lost and are no longer involved in the treatment process when laser radiation is channeled through optical fibers and absorption in thin surface layers of biological tissue.

The objective of the invention is to increase therapeutic efficacy.

The problem is achieved in that in the method of preparing pregnant women for childbirth by means of complex drug treatment and exposure to the cervix with physical factors, according to the invention, they are simultaneously affected by low-intensity quasi-monochromatic radiation of the visible and near infrared ranges with a small spectrum width, while the effect is carried out using LEDs: one with a wavelength of 628 nm and a radiation power of 30 mW, two with a wavelength of 880 nm and a radiation power of 60 mW and two with a wavelength of 950 nm and a radiation power of 60 mW, exposure 7-12 minutes daily.

Since the 80s, semiconductor LEDs are increasingly used in light therapy - radiation sources, which are also characterized by a rather narrow spectral band of radiation, but incoherent radiation. Moreover, in medical practice, positive effects are achieved, often exceeding the effectiveness of laser exposure. The achieved level of development and technical advantages of LEDs, as well as a fairly wide range of light sensitivity of biological objects, have led to the fact that portable LED therapeutic devices have become especially popular in the last 5-6 years. These devices are not inferior to laser ones in therapeutic effectiveness, and due to portability, ease of maintenance and use, they can be used in all medical institutions, as well as for home use (A.A. Vilisov. LED devices for biology and medicine. Electronic industry. 1998, No. 1-2, p. 19-25).

The most important factor in expanding the use of LED devices is the identity of the effects of laser and LED irradiation of the human body. Moreover, the impact identity was established not only by clinical signs, but also by the results of studies at the cellular and molecular levels.

Biological tissues are intensely scattering media, their thickness and structure strongly affect the penetration and absorption of radiation. The maximum transmittance is in the near infrared range with a wavelength of 950-1100 nm. In practice, it has been established that the most biologically active is the radiation of the red and near infrared wavelength ranges - from 630 to 950 nm.

The infrared range of the radiation increases the sensitivity of the biological object to the emission of red radiation. The combination of three factors (emitters of three spectra) causes the appearance of a synergy effect, when the total effect of the influencing factors exceeds the sum of the effects of each factor, as a result, the therapeutic effect is significantly increased.

The use of LEDs does not require specialization of medical personnel and significantly expands the operational capabilities of the method and device.

The drawing shows a structural embodiment of the device for physiotherapy.

The device comprises a dielectric housing 1, made in the form of a cylinder with a diameter of 15 mm and a length of 200 mm A dielectric base 2 is fixed inside the cylinder, on which LEDs are mounted: one red 3 with a wavelength of 628 nm and a radiation power of 30 mW, two infrared 4 and 5 with a wavelength of 880 nm and a radiation power of 60 mW and two infrared 6 and 7 with a wavelength 950 nm and a radiation power of 60 mW. LEDs can be used for the device: 3 - type L 53 SRC-C, 4 and 5 - type L 34-F3 C, 6 and 7 - type L 34-4 FC. All LEDs are connected in series and are connected to a power source using cable 8.

The power supply generates a ripple voltage with a ripple frequency of 100 Hz. The casing of the device is closed by a transparent cover 9 and the sleeve 10. A stop 11 and a stop screw 12 are installed on the housing.

The method is as follows.

The pregnant woman is on a gynecological chair, using the Cuzco mirror expose the vaginal part of the cervix. The distance from the edge of the mirror to the cervix is determined. Set the limiter on the body, between the cervix and the edge of the device, the gap should be 7-10 mm. The case is disinfected with alcohol and a transparent cover (condom) is put on. Turn on the power. The device is inserted into the vagina until it stops.

During the procedure, a labile technique is used, in which the device’s body is moved inside the mirror with a speed of no more than 1 cm / s by translational and reverse motion, as well as by rotating the body around the axis by an angle of 45-60. The session is carried out for 7-12 minutes. The number of sessions of irradiation of the vaginal part of the cervix is individual for each pregnant woman and depends on the severity of the clinical effect.

In parallel, all pregnant women undergo comprehensive medical preparation for childbirth, including the introduction of hormonal drugs, antispasmodic and metabolic agents.

Example

Pregnant B. was admitted to the department of pathology of pregnant women with a diagnosis of pregnancy of 39-40 weeks, dropsy of pregnant women, gestational pyelonephritis. A history of acute respiratory infections, chickenpox, measles, tonsillectomy, chronic adnexitis, DEC regarding pseudo-erosion of the cervix 3 years ago.

When a patient enters with a vaginal examination, the cervix is immature (formed, dense, pharynx closed, deflected posteriorly). Over the course of 7 days, a comprehensive drug preparation for childbirth was carried out: Sinestrol at 40 thousand units / m once a day for 5 days, papaverine 2% - 2.0 v / m once a day, platifillin 0.2% - 1, 0 IM once a day, metabolites, multivitamins. Conducted 5 sessions of irradiation of the cervix with red and infrared light: the first 3 sessions of 7 minutes, the next 2 sessions of 8 minutes.

An urgent birth took place with a male fetus weighing 3300 g, 52 cm long, with an Apgar score of 8 points. The total duration of labor was 7 hours 30 minutes, the first period of labor was 7 hours, the second period was 20 minutes, the third period was 10 minutes. Total blood loss 100 ml. Injury of the birth canal and fetus was not.

Claims (1)

A method of preparing pregnant women for childbirth after various methods of treating cervical pathology, including drug preparation and exposure to the cervix by physical factors, characterized in that they act simultaneously with low-intensity quasi-monochromatic radiation of the visible and near infrared ranges with a small spectrum width, while the effect is carried out using LEDs : one with a wavelength of 628 nm and a radiation power of 30 mW, two with a wavelength of 880 nm and a radiation power of 60 mW and two with a wavelength 950 nm and a radiation power of 60 mW, exposure 7-12 minutes daily.