RU2232607C2 - Acoustic device for stimulating fetus development in prenatal period - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has abdominal support embracing the anterior abdominal wall. The abdominal support surface facing abdominal wall is divided into separate cells, each containing system for producing stimulating acoustic signal. The system has transducer for recording fetus movements. The transducer is connected to acoustic signal-producing oscillator via oscillation shaper. Transducer for recording mother heart beat rate and transducer for recording fetus heart beat rate mounted on the abdominal support are connected to external indication unit.

EFFECT: enhanced effectiveness in stimulating high level of fetus activity in daytime; reduced stress action in the course of birth.

3 dwg, 1 tbl

Description

The invention relates to musical physiotherapy and can be used individually and in various health centers designed to work with expectant mothers during pregnancy.

Closest to the proposed invention is a device for monitoring the development of the child in the prenatal period described in the patent of the Russian Federation No. 2043072, class. A 61 B 5/03 of 09/10/1995. The device comprises a bandage covering the front abdominal wall, divided into separate cells, sensors for registering fetal vital signs installed in the cells of the band, a visual indication unit and a control unit to which fetal vital signs and a visual indication are connected. The main task solved by the known device is to identify pathologies during pregnancy in order to timely take preventive measures to ensure further normal development of the fetus. As sensors for registering the vital functions of the fetus, including the registration of fetal movements, multivector acceleration sensors are used, work with which requires professional skills, which excludes the use of the device outside specialized centers. In the normal course of pregnancy, any effects on the fetus are not expected.

The objective of the present invention is to develop an acoustic stimulator of prenatal development of the child mainly during the normal course of pregnancy, using sensory-motor stimulation of his motor activity and ensuring the transmission of information on the main environmental factors determining the rhythm of his life after birth, in particular about the daily rhythm of life. Another objective of the invention is the development of an acoustic stimulator of prenatal development of the child, allowing to stimulate its increased activity in the daytime. Another objective of the invention is the development of an acoustic stimulator of prenatal development of the child, providing a reduction in the stress on the child at birth (during the transition from prenatal to postnatal existence). An additional object of the invention is the prenatal stimulation of the development of auditory receptors of the child.

The objectives are achieved in that in the acoustic stimulator of the development of the child in the prenatal period, containing the bandage covering the front abdominal wall, on which the fetal movement detection sensors are placed, and the external display unit, according to the invention, the bandage surface facing the abdominal wall is divided into separate cells , in each of which there is a sensor for detecting fetal movement, connected through an oscillator to a sound signal generator, which make up the stimulating system its audio signal, and mothers heart beat rate sensor disposed at the shroud and the frequency of registration fetal heartbeat sensor connected to an external display unit.

The basis of the invention is the active behavior of the fetus in the second and third trimesters of pregnancy (spontaneous movement of the fetus) and the ability of the fetus to perceive an external sound background due to the conductivity of acoustic vibration through dense tissue and especially bone tissue. The separation of the surface of the bandage facing the abdominal wall into separate cells, in addition to the fetal motion detection sensor, an additional sensor for detecting the heartbeat frequency of the fetus and an audio signal generator connected through the shaper to the fetal motion registration sensor are additionally provided, which supplies the fetus through the abdominal wall an audio signal with an oscillation frequency of 20-20000 Hz or a musical fragment as a response to its movement and allows the fetus to feel that its movement cause a response with a new “sound sensation” for him. The presence of individual cells provides complete control over the movement of the fetus with the allocation of the zone of contact of the fetus with the anterior abdominal wall, which allows a differentiated response to fetal movement. Equipping the acoustic stimulator with an external display unit provides hardware control of the fetal response to the sound signal and makes it possible to stop the sound signal if the sound signal causes the fetus to feel uncomfortable, able to go into a stress state, which is reflected in an increase in the heart rate of the fetus above a critical value . The presence of the fetal reaction to the sound signal, which is reflected both in the change in the heartbeat frequency and in the manifestation of increased motor activity with an effect on the anterior abdominal wall, makes it possible, by choosing the level and frequency of the sound signal, to stimulate or suppress the fetal motor activity in daytime and nighttime time, “accustoming” him to the regimen of the day in the postnatal period, which reduces the stressful effect at birth. The presence of the fetal reaction to the sound signal makes it possible to test its ability to perceive sound signals and develop this ability even before the birth of the baby. Equipping an acoustic stimulator with a mother’s heartbeat recording sensor connected to an external display unit provides another control parameter when an audible signal is applied to the abdominal cavity and will help to avoid the stress state of the fetus when the fetus and mother perceive the sound signal differently.

As a result of using the invention at birth, the child quickly adapts to new conditions of existence.

Figure 1 shows a diagram of an acoustic stimulator with a bandage; figure 2 shows a block diagram of a system for generating a stimulating sound signal in a separate cell; figure 3 shows an embodiment of an acoustic stimulator with external devices.

The acoustic stimulator contains a band 1, having a central part 2, covering the front abdominal wall in working position, and straps 3 with easily removable textile fasteners 4. The central part of the band is sewn with longitudinal and transverse horizontal seams to form adjacent to each other on the surface of the band of the band of the band individual cells 5. Each cell is equipped with a system 6 for generating a stimulating sound signal, including a sensor 7 for detecting fetal movement, connected through a shaper 8 harmonic and polyharmonic oscillations to the sound generator 9. In the acoustic stimulator, you can use various types of flat sensors for detecting fetal movement: keyboard (contact), resistive, capacitive, induction, etc., as well as various flat sound generators that are widely used in cell phone calls. As a shaper, you can use various small-sized means of recording and reproducing sound, similar to those used in cell phones that use a musical fragment instead of a normal ringtone, which is recorded on a small-sized playback device by the subscriber and can be replaced several times. The shaper is launched upon receipt of a signal from the fetal motion registration sensor at the input of the shaper (similar to turning on the signal of a cell phone). On the bandage there is a pocket 10 in which an autonomous power source 11 is placed, for example, a small-sized battery that provides electricity to all nodes of the stimulator.

The acoustic stimulator is equipped with a sensor 12 located on the bandage for registering the heartbeat frequency of the fetus and a sensor 13 for recording the heartbeat frequency of the mother. Sensors 12 and 13 are connected to an external display unit 14, for example a flat panel liquid crystal display.

Acoustic stimulator works as follows. With active behavior, the fetus acts on the anterior abdominal wall and deforms it. The deformation of the abdominal wall is detected by the fetal motion sensor 7, transmitted to the shaper 8 and puts it into action. The shaper 8 transmits the sound signal or music fragment recorded therein to the sound generator 9 and the sound signal is supplied to the abdominal cavity. The selection of the sound fragment for the sound generator is carried out by specialists in women's consultation centers, depending on the task, for example, if you want to encourage the motor activity of the fetus, a musical fragment of the march type is recorded. The fetal response is recorded by the sensor 12 of the heartbeat frequency of the fetus. The readings of the sensor 12 are displayed on the visual indicator 14. On the indicator 14, the readings of the sensor 13 for recording the heartbeat frequency of the mother’s heart are also displayed.

Sensory-motor stimulation of the prenatal development of the child using an acoustic stimulator is illustrated by the example of one morning session of “dialogue” communication with the fetus at the 32nd week of pregnancy. Dialogue communication refers to the supply of the corresponding sound signal (musical fragment) in response to the movement of the fetus. Communication is carried out in the mode - the movement of the fetus with the deformation of the abdominal wall adjacent to one of the cells of the bandage, and receiving in response to the movement of the sound of the corresponding musical fragment.

Formers 8 record musical fragments of the march type, which are already familiar to the fetus, stimulating the active behavior of the fetus. For each cell, its own musical fragment is recorded. The bandage 1 with the generators of the stimulating sound signal and the sensor 12 for recording the heartbeat frequency of the fetal heartbeat installed in the cells 5 is fixed on the lower abdomen, covering the front abdominal wall with the central part 2. The sensor 13 for recording the frequency of the heartbeat of the mother is fixed on the left wrist. The external display unit 14 is located in any convenient place for observation or is held by the mother.

The fetal movement is detected by one of the sensors 7. The signal from the sensor 7 is fed to the input of the shaper 8, and the recorded musical fragment is voiced by the sound signal generator 9. When using a contact sensor for detecting fetal movement, the signal volume is set by the mother and does not change during the session. When using resistive, capacitive or inductive sensors for detecting fetal movement, the signal volume is determined by the amount of deformation of the anterior abdominal wall in the cell area. The sound fragment sounds while there is contact of the fetus with the anterior abdominal wall. As a rule, after the 28th week of pregnancy, the duration of sounding with one contact is 2-5 minutes. During the session, the fetus can again come into contact with the same sensor or shift the contact zone to another cell. The mother can provoke the movement of the fetus by clicking on one of the cells 5 from the outside with the activation of the sensor 7 in the selected cell. As a rule, the fetus responds by pressing back on the anterior abdominal wall in the area of this cell, which can be used to control the orientation of the fetus in the uterus. The reciprocal movement of the fetus and the sound of the corresponding musical fragment can be triggered by the father of the child by pressing outside the selected bandage cell. The reaction of the fetus is controlled by the frequency of the beating of his heart, displayed on the external display unit 7. By selecting the appropriate musical fragments, they stimulate the prenatal development of the auditory receptors of the child.

For evening dialogue sessions, music units with a slowed-down tempo of music and a low volume are recorded in the control unit 8, which stimulate a decrease in fetal activity.

In the Russian Scientific Center for Reconstructive Medicine and Balneology M3 of the Russian Federation and its health centers with women's consultations from pregnant women at different stages of pregnancy (3-7 months), several experimental health groups were formed in which acoustic stimulation of the development of the child was carried out in prenatal period using a prototype acoustic stimulator. Women's health was monitored by the center’s specialists. Center specialists monitored the development of children after birth. Comparative data on the development of children in the first year of life compared with other children are shown in the table.

As can be seen from the table, children whose mothers used an acoustic stimulator during pregnancy quickly switched to a normal daily rhythm of life and after 2.5 months the children in the experimental group completely switched to a stable daily rhythm of life with a clear separation of sleep and wakefulness during the day and nights. These data confirm that newborns in the prenatal period received "information" about the daily rhythm of life and were "trained" to observe this rhythm. In children in the experimental group, innate transient unconditioned reflexes quickly disappeared, and the upper and lower Landau reflexes began to appear earlier, which indicates their better motor readiness and confirms the possibility of sensory-motor stimulation of the child’s development in the prenatal period according to the claimed method. In general, in the postnatal period, children of the experimental group are at least 2 weeks ahead of the children of the control group in their development.

Children in the experimental group earlier react to sound and 87% of them always react to sound by the end of the first month of life (65% in the control group), which indicates stimulation of their auditory receptors in the prenatal period. Subsequent observations showed that children in the experimental group better distinguish between sound transitions.

Integral indicators characterizing a higher degree of development of children in the experimental group and their higher preparedness for living conditions after birth are high assessments of the condition of newborns in points on the Apgar scale and especially data on the health of children in the experimental group in their first year of life. 80% of the children in the experimental group were assigned to group IIA and no children with chronic diseases were identified (group III). In the control group, only 5% of children were assigned to group IIA. In 25% of children in the control group, chronic diseases were detected (group III).

An indirect indicator confirming high estimates of the health of children in the experimental group can be considered a high percentage of children who are breastfed with breast milk in the first year of life. High health ratings of children in the experimental group should be considered as the highest effect of the application of the proposed invention.

The proposed acoustic stimulator of prenatal development of the child uses equipment (heartbeat sensors of the fetus and mother, keyboard, capacitive, inductive and other deformation sensors, microprocessors, personal computers, speakers and other loudspeakers), mastered by domestic and foreign industry and widely used in diagnostics, computational equipment and means of cellular communication.

Claims (1)

An acoustic stimulator of the development of the child in the prenatal period, comprising a band covering the front abdominal wall, on which the fetal movement sensors are placed, and an external display unit, characterized in that the surface of the band facing the abdominal wall is divided into separate cells, each of which is placed a fetal movement registration sensor connected through an oscillator to an audio signal generator, which make up a system for generating a stimulating audio signal, and a frequency sensor the mother’s heart and the sensor for recording the fetal heartbeat frequency placed on the bandage are connected to an external display unit.

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