RU2178265C1 - Method for determining biological maturity of uterus neck for birth - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves measuring uterus neck resistance to alternating current. The active component of specific uterus neck impedance is measured according to four-electrodes technique. Probing current intensity being equal to 10^-4A at 1000 Hz frequency and specific resistance belonging to an interval of 1,5-2,1 Om•m, biological maturity of uterus neck for birth is determined. EFFECT: high accuracy of method. 1 dwg

Description

 The invention relates to medicine, namely to obstetrics and gynecology.

 Known methods for determining the biological maturity of the cervix, based on its palpation and visual examination before childbirth (1).

 The disadvantages of these methods is the low accuracy of determining the state of the cervix before childbirth, due to subjective factors in assessing the physical (dense, soft, softened) and geometric characteristics of the cervix. In addition, the known methods for determining the biological maturity of the cervix before childbirth are based on the assessment of 4-5 different physical characteristics of the cervix, which complicates the research procedure and requires time.

 A known method for determining the biological maturity of the cervix before childbirth, based on measuring the resistance of the cervix to alternating electric current (2). In the known method, the measurement of the electrical resistance of the cervix is carried out on alternating current with a frequency of 2 kHz by the two-electrode method (a bipolar clamp electrode is used, which is located on the posterior lip of the cervix). The resistance value of 100-240 Ohms corresponds to a mature neck, 240-270 Ohms - not mature enough and more than 270 Ohms - immature.

 According to the authors, the instrumental (instrumental) method for assessing the readiness of a pregnant woman for childbirth by the electrical characteristics of the cervix is more informative than the clinical assessment of the biological maturity of the cervix.

 The disadvantage of this method is the low accuracy of measuring the resistance of the cervix, associated with the use of the two-electrode method and the use of alternating current of a sufficiently high frequency of 2 kHz. The low accuracy of the two-electrode, bipolar method for measuring the electrical resistance of human tissues and organs is due to polarization phenomena on the electrodes. As a result of polarization phenomena, an area of increased resistance arises at the electrode-tissue interface in a very thin boundary layer. Since in the two-electrode measurement method, the probing current is generated and the voltage drop across the test tissue is measured using one pair of electrodes, inevitably the measured voltage drop includes the voltage drop directly on the tissue and the voltage drop at the electrode-test tissue interface. With increasing frequency of the probing current, the effect of polarization phenomena decreases and the measurement accuracy increases. However, it is known that low-frequency measurements of electrical conductivity provide more reliable information about the physiological state of tissues. Thus, when determining the biological maturity of the cervix before birth, according to its electrophysical characteristics, a contradiction arises. On the one hand, to obtain more complete reliable information, measurements must be carried out at low frequencies, on the other hand, with low-frequency measurements, errors due to polarization of the electrodes increase significantly.

 In addition, a known method for determining biological maturity is based on measuring the resistance of a piece of tissue of the cervix between two electrodes. Therefore, the measured indicator - the value of the cervical resistance depends on many factors: the distance between the electrodes, the area of the electrodes, the density of their pressure against the tissue, the material of the electrodes and the degree of their polarization, distribution of current density and equipotential lines, the impedance of the electrode-test tissue interface and, finally, directly from the specific resistance of the cervical tissue. Thus, the amount of cervical resistance depends on many factors, the precise control of which is difficult to implement.

 The aim of the invention is to improve the accuracy of determining the biological maturity of the cervix before childbirth.

 This goal is achieved by the fact that, according to the method for determining the biological maturity of the cervix before delivery, the electrical characteristics of the cervix uteri are measured by measuring the active component of the specific impedance of the cervical tissues at a probe current frequency of 1 kHz by a four-electrode method by touching a four-electrode probe on the surface of the cervix and using the measured specific the resistance of the active component of the impedance in the range of 1.5-2.1 Ohm • m determine the biological maturity of the cervix before childbirth .

 This indicator is an objective electrophysical characteristic of the cervix and is closely related to its physiological state. Changes in the physiological state of the cervical tissue observed before childbirth are manifested most strongly in changes in its resistivity.

 The proposed method for determining the biological maturity of the cervix is based on measuring the value of its specific resistance (active component of impedance). Since the measurements are carried out according to the four-electrode circuit, the developed method eliminates the above listed disadvantages of the prototype.

 The method is as follows. The active component of the specific impedance (active resistance) of the cervix is measured using a device for measuring the active and reactive components of the impedance of biological tissues (A.S. USSR No. 1759402, class A 61 B 5/05, 1990) and a four-electrode probe.

 The drawing shows a four-electrode probe for measuring the specific resistance of the cervix. The four-electrode probe is a polished stainless steel tube 2, at one end of which a fluoroplastic tip 1 with four hemispherical electrodes is fixed, and at the other end there is a pen and an electrical connector for connecting to a measuring instrument.

 The probe can be detached for sterilization. The design of the measuring probe allows for non-traumatic rapid studies of the specific impedance of the cervix. The use of a four-electrode circuit eliminates the effect of polarization phenomena on the electrodes on the measurement accuracy.

где ρ- удельное сопротивление шейки матки в [Ом•м] ;
R - измеренная величина активного сопротивления шейки матки в [Ом] ;
L₁ - расстояние между центрами токового и потенциального электрода в [м] ; l₁ = 5,5 мм;
L₂ - расстояние между центрами потенциальных электродов; l₂ = 7,5 мм.Measurements of the active component of the specific impedance of the cervix are as follows. Spoon-shaped mirrors or a Cuzco mirror are inserted into the vagina. Vaginal mirrors expose the cervix and examine it. The four-electrode probe, under visual control, is brought into contact with the anterior lip of the cervix, so that the line of electrodes is horizontal. Controlling the touch of the electrode to the cervix, measure the active component of the impedance. In this case, the measuring device (a device for measuring the active and reactive components of the impedance) creates a probing current through the two extreme current electrodes through the tissues of the cervix, and the voltage drop in the studied area of the body of the cervix is measured on two middle potential electrodes. From the measured value of the voltage drop, you can calculate the resistance of the cervix R = U / I. Since the voltage drop on the cervix and its resistance are directly related to each other, and the current is stabilized and amounts to I = 0.0001 A, the measuring device is calibrated directly to Ohm. For a given four-electrode probe, the specific resistance of the cervix can be calculated by the formula

where ρ is the specific resistance of the cervix in [Ohm • m];
R is the measured value of the active resistance of the cervix in [Ohm];
L ₁ is the distance between the centers of the current and potential electrode in [m]; l ₁ = 5.5 mm;
L ₂ is the distance between the centers of the potential electrodes; l ₂ = 7.5 mm.

ρ = R•0,03; или ρ = R•k; k = 0,03.Calculation of the specific resistance of the cervix:

ρ = R • 0.03; or ρ = R • k; k = 0.03.

 Thus, to calculate the specific resistance of the cervix, it is enough to multiply the measured resistance value by a coefficient k = 0.03 for the used four-electrode probe.

 The "Method for determining the biological maturity of the cervix before childbirth" was tested in maternity hospital No. 7 of Novosibirsk. Studies were conducted on 26 pregnant women in the last stages of pregnancy 38-40 weeks. The results of electrophysical and clinical studies of the biological maturity of the cervix are presented in the table.

 Analysis of the data given in the table shows the following.

 1. At low values of the specific resistance of the cervix 1.5-2.1 Ohm • m, labor begins 1 day after the study, that is, in the range of the set values, the cervix should be considered biologically mature. In this case, the spread of resistivity from the average is 1.8 ± 0.3 Ohm • m or ± 16%.

 2. An assessment of the biological maturity of the cervix by the value of resistivity is more accurate than by the clinical parameters (according to Burnchill) see, for example (N 2 Semenova) and (N 23 Cherepanova).

 3. In the known method for determining the readiness of a pregnant woman for childbirth, the cervix is considered biologically mature in the resistance range of 100-240 Ohms, ie 170 ± 70 Ohms. In this case, the spread from the average resistance is ± 41%.

 The method allows to determine with high accuracy the biological maturity of the cervix and, according to objective indications, determine the need for labor stimulation or the creation of a hormonal background.

 The developed method has significant novelty, allows you to determine the biological maturity of the cervix with high accuracy and can be used in obstetrics for non-traumatic express studies in assessing the readiness of a pregnant woman to give birth.

 Example 1 of the method.

 Pregnant P., the first pregnancy, was received on 10.02, childbirth on 14.02, was discharged on 02.20.

 10.02. Vaginal examination.

 The cervix is located slightly anteriorly, its length along the cervical canal is up to 2 cm, the cervix is of medium density during palpation along the cervical canal. The cervical canal passes 1 finger (2 cm) beyond the region of the internal uterine pharynx. The fetal bladder is intact. The fetal head is pressed to the entrance to the small pelvis.

Resistivity measurements: R = 90 Ohm;
ρ = 2.7 Ohm • m. The cervix is immature.

 Maturity score: Burnchill 5 points.

 02/13. Vaginal examination.

 The cervix is located along the axis of the pelvis, its length along the cervical canal is up to 1.5 cm. The cervix is soft along the entire length. The cervical canal passes 2 fingers (3 cm) beyond the region of the internal uterine pharynx. The fetal head is pressed to the entrance to the small pelvis.

Resistance measurements: R = 60 Ohm;
ρ = 1.8 Ohm • m. The cervix is mature.

 Maturity score: Burnchill 7 points.

 02/14. Spontaneous labor activity developed. During childbirth, analgesia was performed with promedol, diphenhydramine, and baralgin.

 02/14. in the 19-10th birth, a girl is 3350 g, 51 cm.

The duration of labor by periods was:
1 period - 12 h 20 min
2 period - 50 minutes
3 period - 10 minutes
In total - 13 h 20 min.

 Example 2 of the method.

 Pregnant M., the first pregnancy, was admitted 12.02, childbirth 15.02, was discharged 23.02.

 13.02 vaginal examination.

 The cervix is located along the axis of the pelvis, soft along the entire length. The length of the cervical canal is up to 1.5 cm. In the region of the internal uterine pharynx, the cervix is slightly tightened. The fetal bladder is intact. The fetal head is pressed to the entrance to the small pelvis. The cervical canal passes 2 fingers (3-4 cm) beyond the region of the internal uterine pharynx.

Resistance measurements: R = 50 Ohm;
ρ = 1.5 Ohm • m. The cervix is mature.

Maturity score: MS Burnhill 7 points
02/14. at 22-00 spontaneous labor activity developed, childbirth proceeded without complications, childbirth was anesthetized - neuroleptanalgesia.

 02/15. in 10-25 births, a boy of 2300 g, 47 cm.

 in 10-35 births, a boy of 2800 g, 48 cm.

 When examining the birth canal: the cervix is whole.

The duration of labor by periods was:
1 period - 12 hours
2 period - 35 minutes
3 period - 5 minutes
In total - 12 h 40 min.

Literature
1. Chernukha E. A. The birth block. Medicine, M.: 1991.S. 57-65.

 2. A method for determining the readiness of a pregnant woman to deliver. A. s. N 820805, USSR, MKI A 61 B 10/00 // I.P. Ivanov, A.Z. Khasin, E.D. Boychuk. Declared 06/08/79. N 2778061 / 28-13. Publ. 04/15/81. Bull. N 14.

Claims (1)

A method for determining the biological maturity of the cervix before childbirth by measuring its resistance to alternating current, characterized in that the active component of the specific impedance of the cervix is measured by a four-electrode circuit with a probe current of 10 ^-4 A at a frequency of 1000 Hz and with a resistivity in the range of 1 , 5-2.1 Ohm • m determine the biological maturity of the cervix to childbirth.

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