NL7907487A - METHOD FOR AUTOMATICALLY ANALYZING THE HEART RATE OF A FETUS. - Google Patents

Description

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y ~ / 2? 265-iVHO

3 SL3CTRQIiIC3 HID. CO., LTD. in Yokohama, Japan.

Method for automatically analyzing the fetal heart rate.

The invention relates to a method for automatically analyzing the fetal heart rate, whereby the doctor can variably select and record the algorithms, in particular for analyzing the patterns between the fetal heart rate curve ej and the contractions -curve of the woman in the physiological phenomena during childbirth.

By comparing the specified parameter, which is calculated from the data measured between the fetal heart rate and the woman's uterine contraction, with the IQ parameter value, previously recorded as the normal value for the woman, the doctor can assess the woman's condition, such as the symptoms mentioned.

In the automatic analysis method according to the invention, the physician can enter the evaluation function into physiology based on the empirical order, whereby it can be calculated when the specified parameter value becomes larger than the parameter value normally considered.

In the usual procedure, during the control of the delivery, the related patterns of the heartbeat and the contractions of the woman cannot be recognized, the equipment only emitting an alarm signal when the fetal heartbeat increases and / or decreases.

The object of the invention is to provide a method of the type mentioned in the opening paragraph, wherein the drawbacks of the known T method are obviated.

According to the invention, a data processing unit is provided which is provided with an analog / digital conversion section, a data memory section, a parametar calculation section, a section for the final evaluation by means of a parameter calculation, 3D a section for determining an adjustable parameter, a section 7907487. «2 for calculating the result, a section for determining a variable weighting factor, a section for assessing the total result, a section for determining a variable total result and an alarm signal display section, enabling the doctor to automatically Obtain information about the final assessment, which is directly related to the diagnosis, by varying the value of the evaluation functions of the assessment according to the relationships between the individual differences of each pregnant woman and other possible ailments, these functions being part of the calculation process .

The invention is explained in more detail below with reference to the drawing, in which an exemplary embodiment is shown.

Figure 1 shows a block diagram of an apparatus for carrying out the method according to the invention;

Figures 2 and 3 show interrelated diagrams showing the fetal heart rate signals and the woman's uterine contract signals over time; and Figure 4 shows a principle theme of a conventional delivery monitoring device.

Figure 4 shows the basic principle of the known childbirth monitoring equipment. The delivered device includes a heart rate detector 1, which is placed on the belly of a pregnant woman, and a detector for the uterine contraction 2, which is also placed on the woman's belly. The device further comprises a recording unit whose input ski terminals are connected to the output terminals of detectors 1 and 2.

A data processing unit 4 serves as a detection circuit of the various parameters as the basic data of the diagnosis for the assessment of the doctor, the input terminals 30 of the processing unit 4 being respectively connected to the output terminal 3a. for the heart rate signals and the output terminal 3'o for the uterine contraction signals of the recorder 3 · 3c and 3d denote the recording paper and the transport mechanism for this paper, respectively, while the pins are indicated by 3e and 3f.

The conventional data processing unit 4 receives both the heart rate and uterine contraction signal, so that the 790 7 4 87 # -Λ 3 processing unit 4 can provide an alarm signal by comparing said signals with the previously determined fixed values.

Figure 1 shows a data processing unit 4 according to the invention, which is designed in such a way that the operation of the successive sections takes place in combination and / or interdependent.

The data processing unit 4 includes an analog / digital conversion set 4a, a data memory set 4b, a parameter calculating section 4c, a section 4d for giving a final assessment by means of the calculated parameter, a section 4e for determining of the variable parameter, a section 4f for calculating the result, a section 4g for determining a variable weighting factor, a section 4h for assessing the final result, a section 4i for determining a variable total result and an alarm signal display section 4j.

The analog / digital conversion section 4a determines the waveform value of both the heart rate and uterine contraction signal every 0.5 s and converts these waveform values into digital characters corresponding to the current peak value of the target 20, which digital characters or digital words are passed to the memory section 4b. The memory section 4b records the series of digital characters corresponding to the instantaneous peak value of the waveform during the determined measurement for the woman, while simultaneously reading the digital characters according to the memory order at said rhythm (approximately 0.5 s ), wherein the memory section 4b can combine some of the above sections to transfer these digital characters to the calculation section 4c.

The parameter calculating section 4c mainly comprises a digital calculating circuit, which calculates the current treatment parameter, as described below, and sends the digital characters to the next circuit 4d.

The parameter final evaluation section 4d includes a comparison circuit for comparing the mismatch and the match, which corresponds only to each of the instantaneous treatment parameters described below, selected from certain 790 74 87 • ^ 4 values (weight), which are freely entered by the doctor in the calculation process.

The section 4e for determining a variable parameter, which is provided with a switch for setting the digital characters, and the section 4f for calculating the result, respectively, are provided with a digital calculation circuit.

The final result evaluation section 4h, which is provided with a digital calculation circuit, receives the digital word corresponding to the total result, which will be described further below, and can give an assessment, by comparing the digital word with the variable limit value (in digital form) of said result, wherein section 4i for determining said result sends this result determined by the doctor in digital form to assessment section 4h. The alarm signal display section 4j is provided with an indication lamp and a buzzer for alerting the doctor.

The section 4e for the determination of the variable parameter, the section 4g for the determination of the variable weighting factor by the doctor and the section 4i for the determination of the variable total-20 result of the data processing unit 4 are all designed such that each of the expected values in digital form are determined by operating digital switches. However, since these different expected values are variable, means can be added to the various sections for obtaining analog values by other known unsealed means, for example by means of a potentiometer.

Next, the interrelationship between the examples of Figures 2 and 35, as well as the operation of the above sections, including the known construction, will be described.

The heartbeat signal A (figure 2) and the uterine contraction signal B (figure 3) are respectively supplied from the output terminal for the heartbeat signal and the output terminal for the uterine contraction signal 3t> to the analog / digital converter section 4a. The section 4a supplies the digital characters to the data memory section 4b, wherein the heartbeat signal A and the uterine contraction signal B are converted into digital characters according to the above-mentioned rhythm. The signal B depends on the contraction and of itself varies slowly over time. The signal A is calculated from the heart rate interval associated with the fetal heart rate, and when the signal A is sampled at the above rhythm (about 0.5 s), the information regarding the variation of the waveform of each of the signals A and B can be accurately determined. In the present case, the heartbeat signal A is in the range of O - 250 beats per minute, while the uterine contraction signal B is in the range of 0-100 mmHg, or the analog electrical pressure of about 10 0 - 1.25 V. The series of digital characters corresponding to the different peak values derived from the signals A and 3 are recorded in the memory section 4b, while simultaneously according to the memory order a series of digital characters are read in the same sampling interval of about 0.5 s and is transferred to the parameter-15 calculation section 4c. The digital characters recorded in section 4b are not lost on transmission, but are replaced by the arrival of a new series of digital characters to record the new waveform value. Since the said series of digital characters, which are sent one by one through the section 4b, can always be calculated in the parameter calculating section 4c, various parameters, to be described hereinafter, can be calculated to obtain the variable conditions in the conversion of the heartbeat signal A and the uterine contraction signal B.

For the above various data, the doctor enters the values by operating the switch used in the section 4g for determining a variable weighting factor previously determined using the standard physiological evaluation functions The set digital word for the said predetermined value (hereinafter indicated with periodic treatment parameter) is sent continuously to the section 4f for calculating the result, since various signals for the final assessments after the section 4f are sent. sent by the assessment section 4d during the measurement, the relations and the calculation methods thereof will be described below with reference to the examples according to figures 2 and 3. In figures 2 and 3 the lines a and a 'represent the level, with which the heartbeat signal 790 7 4 87 6 A, respectively the uterine contraction signal B'is most common during these six minutes and. The amplitude b (the signal amplitude of the heartbeat) has been represented as the difference between the lowest point of the waveforms of the signal A and the line a, where the delay time c is the distance between the highest point of the waveform of the signal B and the lowest point of the waveform of the signal A, while d indicates the recovery time, which runs from the lowest point to the intersection of the waveform of the signal A with the line a, and e represents the time (the speed delay period) , between the moment 10 at which the signal A intersects the line a in the downward direction and in the upward direction. In addition, f denotes the region occupied by the waveform of the signal A in the velocity delay period e in the plane of the amplitude b.

In the above measurement patterns, the amplitude t b, the delay time c, the recovery time d and the speed delay period e, respectively, can currently be calculated as data (the current treatment parameter); on the other hand, said line a for six minutes from the start and the surface form the so-called periodic treatment parameter, which the doctor must determine as periodic every six 20 minutes from the start. As a result, the digital word indicating the value of the parameter a-f determined by the doctor is continuously sent to the assessment section 4d. In this section 4d, said corresponding digital word of each parameter b - e, 25 previously determined by the physician, is read and compared to the scale value of each corresponding value. In this case, the position of line a will be determined by the values calculated from said instantaneous calculation over the past six minutes.

In other words, during the measurement periods in 50 the woman, comparing the totals of the line a and the area f in the section 4d with the corresponding values determined by the doctor, the signal regarding the final assessment is transferred to the said section 4f for calculating the result.

The following explains the relationship between the periodic parameter determined by the physician and the combined 790 7487 7 construction of the device according to the invention. In the paranieter calculation section 4c, which searches for the time when the measurement has ended to the woman and calculates the most common level (baseline) a of the fetal heart rate signal A during the measurement, 5 simultaneously becomes the total area of each velocity delay period e (the instantaneous treatment parameter) is calculated, after which the corresponding digital value is sent to the section 4d for the final evaluation of the parameter. Section 4d, after comparing has ended, provides the final assessment signal to section 4f for calculating the result, in which the weight (weighting factor) of the periodic treatment parameter determined by the physician is determined. read, which "weight" is added, which corresponds to the signal sent by the section 4d. The digital marks of the total result obtained by adding this value to the weight of the current treatment parameter, which is otherwise obtained , are provided to the assessment section 4h.

The final information is completed by adding and integrating the corresponding weight in parallel form in section 4f. After the total result assessment section 4h has received the digital characters of the total result sent by the variable result determination section 4i, the said total result sent by the section 4f is compared with the variable limit value for the total result sent by the section 4i, and judged. When a detection circuit determines that the overall result exceeds the limit value, the alarm signal is passed through the section 4h to the alarm signal display section 4j, energizing the lamp and the buzzer so that the doctor obtains the integrated information. The digital word, previously determined by the doctor as a weighting factor, is continuously passed through section 4i to section 4h.

Now consider the already mentioned examples according to Figs. 2 and 5 together with the relationship between said data processing unit 4 and the periodic parameter. If the determined value, which is shown in Figure 2 relative to the amplitude b of the heartbeat 7907487 8 signal A, is less than b, so that b ^ b ^ is obtained, section 4d provides for the final evaluation of the parameter the total evaluation signal calculated in the manner described above to the section 4f for the calculation of the result. If instead of the value b ^ the value bg, which is greater than b, applies, this signal is not provided by section 4d.

For the waveform of the heart rate signal A, the rate delay period e and the delay time c for the waveform of the uterine contraction signal B are greater than the determined values of the parameters b ^, and c ^, respectively, these signals are referred to by the section 4d as output signals supplied. However, if the determined value d ^, associated with the recovery time d, is the greatest value, these signals are not supplied as output signals. With regard to the parameter d, it is noted that if d 15 is greater than d ^ and, in addition, the parameters c and e are greater than the corresponding determined values c ^ and e ^, the section 4d only supplies the final signals when the section 4d performs a calculation for the final assessment of the parameter.

According to the example of Figure 2, the base-20 line a lies within the range between the upper limit a2 and the lower limit a ^, so that the signal for the evaluation of the parameter is not supplied, but the cumulative value Z f of the surface f below the waveform of the heart rate signal A is greater than the determined cumulative value Σ. f-j for the parameter, so that the final evaluation signal is sent through section 4d to section 4f for calculating the result.

The patterns of Figures 2 and 3 illustrate the possibility of determining the parameter for analyzing each curve as a polynomial.

It will now be apparent that the control of only the specified parameter will be possible, by including in section 4g the weight specified by the doctor, in order to obtain the total result, which is above the stated maximum limit value, in the section 4i is obtained only when the final judgment signal, which corresponds only to one particular parameter, is passed to the result calculation section 4f.

790 74 87 9

According to the described automatic analysis method, the doctor may vary the evaluation function of the evaluation based on the individual differences and possible ailments of the pregnant woman, and the doctor can automatically obtain information 5 about the final evaluation with great accuracy, leading to a diagnosis.

This ensures a high quality and reliability of the diagnosis. Significant time savings can also be achieved for making the diagnosis.

The invention is not limited to the embodiment described above, which can be varied in a number of ways within the scope of the invention.

790 7 4 87

Claims (2)

A method for automatically analyzing the fetal heart rate, recording oscillating heart rate and uterine contraction signals from a heart rate and uterine contraction sensing circuit, characterized in that the data generated for the transformation of two waves, which are passed on both said signals, are calculated in a section (4e) of a data processing unit (4), comparing each value of these parameters with the set value for the upper and lower limit of these parameters in the section (4th), when the detection circuit detects that the value is greater than the determined value of the section (4th), each parameter being obtained as the value from the variable evaluation-_, which 15 function (weight), has been entered by the doctor in the section (4f), the result, which is calculated from each parameter, depends on the output signals of a decion (4d), and in the section (4f) is added to the weight entered by the doctor depending on each of the above 20 parameter signals, while the doctor finally evaluates the total result obtained by adding the above value with a certain weighting factor for the current parameter from section (4c). Method according to claim 1, characterized in that the value from each parameter, which comes from the section (4c) of the data processing unit (4), is compared with the determined value for the upper and lower limit in the section (4th), when the detection circuit detects, that the value is greater than the determined value, or where the limit value is compared in dependence of the total result, coming from the section (4i), to the total result, coming of section (4f), when the detection circuit detects that the values of the total result are greater than said limit value, so that an alarm is generated by the section (4h), at this time, relative to each calculated instantaneous parameter in section (4c) and each periodic parameter, which is calculated in each fixed interval, on the sign of the 7907487 -11 doctor the variable weighting factor can be adjusted depending on these different parameters n established. 1 7907487 \