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Non-baseline part of fetal heart rate curve and calculation method of baseline

A calculation method and fetal heart rate technology, applied in the field of biomedical signal processing and electronic fetal monitoring, can solve the problems of low calculation efficiency, reduction, and unclear distinction between non-baseline parts of the fetal heart rate curve, etc., to solve inaccurate estimation, High computational efficiency, solve the effect of algorithmic inefficiency

Active Publication Date: 2018-01-16
GUANGZHOU SUNRAY MEDICAL APP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Each method has its own advantages and disadvantages: 1. The first method has high calculation efficiency, but sometimes there will be large errors in the baseline obtained, such as for the fetal heart rate curve with continuous acceleration or deceleration, the obtained The baseline tends to increase or decrease; 2. The second method can effectively improve the shortcomings of the first method, but its calculation efficiency is low, and it is not suitable for occasions with high real-time requirements
In the current calculation method of FHR baseline, the distinction between the baseline part and the non-baseline part of the FHR curve is not clear, which will affect the calculation of the baseline and reduce the accuracy of the baseline.

Method used

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  • Non-baseline part of fetal heart rate curve and calculation method of baseline
  • Non-baseline part of fetal heart rate curve and calculation method of baseline
  • Non-baseline part of fetal heart rate curve and calculation method of baseline

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0053] The calculation method of the non-baseline part of the fetal heart rate curve mainly includes the following steps:

[0054]Step A1, select several non-overlapping intervals from the fetal heart rate curve, the endpoint fetal heart rate value of each described interval is equal to the reference value of the fetal heart rate curve, and the reference value of the interval is equal to the interval of the interval. The end-point fetal heart rate value, the fetal heart rate value in each of the intervals is greater than or less than the reference value of the interval;

[0055] It should be pointed out that, in this embodiment, the reference value of the fetal heart rate curve can be obtained by using the prior art: find out the stable part of the fetal heart rate curve, and the tire with the largest number in the stable part The heart rate value is the reference value of the fetal heart rate curve, and the specific method can be found in: S.Andersson.Acceleration and deceler...

Embodiment 2

[0088] This embodiment is basically the same as Embodiment 1, the only difference is that the features of the non-baseline interval also include:

[0089] in the non-baseline interval greater than [H 0 +k*(FHR max -H 0 )] the duration of the fetal heart rate value in the proportion of the duration of the non-baseline interval is not less than R; the H 0 is the reference value of the non-baseline interval, the FHR max is the maximum fetal heart rate value in the non-baseline interval, k is a preset coefficient, and R is a preset threshold;

[0090] The suspected non-baseline interval features also include:

[0091] in the suspected non-baseline interval greater than [H 0 +k*(FHR max -H 0 )], the proportion of the duration of the fetal heart rate value in the suspected non-baseline interval duration is less than R.

[0092] like image 3 shown, for each said non-baseline interval or suspected non-baseline interval, calculate the duration t of the interval total and the i...

Embodiment 3

[0100] On the basis of Embodiment 1 or 2, the present invention also provides an embodiment of a fetal heart rate baseline calculation method, comprising the following steps:

[0101] S1, based on the calculation method of the non-baseline part of the fetal heart rate, calculate the non-baseline part of the fetal heart rate curve;

[0102] like Figure 4 As shown, in this embodiment, the non-baseline portion of the fetal heart rate curve includes I 1 , I 2 , I 3 , I 411 , I 412 , I 42 .

[0103] S2, after clearing the non-baseline part in the fetal heart rate curve, perform interpolation and smoothing;

[0104] S3. In the interpolated and smoothed fetal heart rate curve, calculate several fetal heart rate points in the fetal heart rate baseline; perform interpolation on several fetal heart rate points in the fetal heart rate baseline , smooth filtering to obtain the fetal heart rate baseline.

[0105] In this embodiment, the specific implementation is as follows:

[...

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Abstract

The invention discloses a method for calculating a non-baseline part of a fetal heart rate curve. The method is characterized in that a non-baseline section is characterized in that the maximum offset between the fetal heart rate value and a base value of the non-baseline section is not less than Dmin, and the duration time is not shorter than Tmin and not longer than Tmax; a suspected non-baseline section is characterized in that the maximum offset between the fetal heart rate value and a base value of the suspected non-baseline section is not less than Dmin, and the duration time is longer than Tmax; for the suspected non-baseline section, the base value bmp of the suspected non-baseline section is adjusted each time, so that the duration time of the suspected non-baseline section is shortened, and then whether the suspected non-baseline section meets the characteristics of the non-baseline section is judged again. According to the methods for calculating the non-baseline part and a baseline of the fetal heart rate curve, the fetal heart rate curve baseline can be accurately recognized especially for the fetal heart rate curve in which acceleration and deceleration frequently occur, and the problem that the baseline can not be accurately estimated through an algorithm based on a numerical treatment method is solved. Meanwhile, the method is high in calculation efficiency, and solves the problem that an algorithm based on an artificial intelligence method is low in efficiency.

Description

technical field [0001] The invention relates to the fields of biomedical signal processing and electronic fetal monitoring, in particular to a method for calculating a non-baseline part and a baseline of a fetal heart rate curve. Background technique [0002] Fetal electronic monitoring is mainly through continuous observation and recording of changes in fetal heart rate to determine the safety of the fetus in the uterus. Changes in fetal heart rate are the result of fetal central nervous system modulation. The fetal heart rate curve is a record of changes in fetal heart rate over a period of time. It mainly includes four important parameters: baseline, variation, acceleration and deceleration. By reading and identifying these parameters, obstetric medical staff can timely grasp the status of fetal development in utero and make clinical decisions. Among these parameters, the fetal heart rate baseline is the most critical parameter, and all other parameters need to be judge...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B5/024
CPCA61B5/02411
Inventor 李晓东秦如意
Owner GUANGZHOU SUNRAY MEDICAL APP
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