JPH0335287Y2 - - Google Patents

Description

[Detailed description of the invention] (Industrial application field) The present invention is designed to display the biological signal waveforms of multiple channels in different colors on a color cathode ray tube screen with the associated baseline and scale as the background screen. The present invention relates to a biological signal color display device.

(Prior art) The so-called polygraph (biological multi-phenomenon monitoring device) is well known as this type of device, and it can monitor electrocardiograms, respiratory waves,
Waveforms of heartbeat signals, etc. are displayed in different colors on multiple channels.

(Problems to be Solved by the Invention) However, such simple color coding is not sufficient to distinguish waveforms between channels, especially from a distant position. In addition, the scale etc. naturally become difficult to read, which also poses a problem when performing surgery while monitoring whether the waveform level is within the normal range.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a biological signal color display device of the type mentioned at the beginning, which allows waveforms between channels to be more easily distinguished and monitored.

(Means for Solving the Problem) In order to achieve this purpose, the present invention displays, on the external operation panel 10, an arbitrary scale range between the baseline of the channel to which it belongs and the maximum scale on a color background for multiple channels. , color background range setting means 11 and 12 are provided to set the channel and the upper and lower scale ranges for which the color background is to be displayed, and the background image data creation means 3 responds to the settings of the color background range setting means 11 and 12. and a band-shaped image data creation means 3a for creating band-shaped image data that fills a scale range set in a band-like manner along the time axis with a color different from the waveform of the channel to which it belongs and the color background color of other channels. There is.

Note that the symbols in parentheses refer to those in the embodiment described later.

(Function) When the setting of a specific channel and the upper and lower color background ranges are set by the setting operations of the color background range setting means 11 and 12 on the external operation panel 10, the strip image data creation means 3a corresponds to the setting contents. The signal is taken in, and background image data is created that completely colors the range at a position similarly set externally on the screen of the color cathode ray tube 9. As a result, the desired scale range of the desired channel is filled in a strip in one color along the time axis on the screen, and the biological signal waveform in the range to be monitored is displayed in different colors against this background.

(Embodiment of the invention) FIG. 1 shows the circuit configuration of the main part of a polygraph according to an embodiment of the invention.

In the same figure, reference numeral 1 denotes a waveform image data creation means configured using a CPU, and the input biosignal of 8 channels, which has been preprocessed such as amplification in a preprocessing device, is similarly processed by the preprocessing device. It is converted into color display waveform image data that is similarly displayed at a position corresponding to the setting on the external operation panel 10 using the sensitivity signal supplied from the external operation panel 10 and the amplitude according to the sensitivity setting on the external operation panel 10 (described later). 1ch is a venous blood pressure signal, 2nd and 3rd channels are arterial blood pressure signals from different parts, 4ch is a respiratory wave signal, 5th and 6th channels are
are electrocardiogram signals from different regions, and channels 7 and 8 are electroencephalogram signals from similarly different regions. 2 _R , 2 _G and 2
Reference numeral _B denotes an image memory, which has addresses corresponding to the screen of the color cathode ray tube 9. For example, red, green, and blue are supplied from the waveform image data creation means 1 so that 1ch is green, 2nd is red, and 3rd is yellow. waveform image data are stored respectively.

Reference numeral 3 denotes a background image data creation means that similarly utilizes the CPU, and creates background image data for each channel in response to a setting signal outputted from the external operation panel 10 by external operation. This background image data creation means similarly generates a band-like range along the time axis in a scale range set in a color different from the waveform of the channel to which it belongs and the background color of other channels according to the present invention according to the settings on the external operation panel 10. Band-shaped image data creation means 3a that creates band-shaped image data to be filled in
Contains. 4 _R , 4 _G , and 4 _B are image memories having addresses corresponding to the screen of the color cathode ray tube 9 and storing the aforementioned red, green, and blue background image data, respectively. 5 is an image signal synthesis circuit, which includes red image memories 2 _R ,
4 Outputs the image signals sequentially read out from _R in synchronization with screen scanning as an analog color signal with an amplitude corresponding to the image data, and if both image signals exist, give priority to the one in waveform image memory 2 _R. and output. Similarly, regarding the green image memories 2 _G and 4 _G and the blue image memories 2 _B and 4 _B , the waveform image memories 2 _G and 2 _B are given priority and output.

The external operation panel 10 has eight keys 11 ₁ to 1.
Function keys 11, which are composed of 1 _{and 8} , perform various functions, and position keys ₁₂ for 1 to 4 channels and 5 to 8 channels, which set the display position in the vertical direction.
₂ , a color background key 13 for setting a color background range, a sensitivity key 14, a baseline deletion key 15, etc. are provided. That is, when position key 12 ₁ is operated,
Function keys 11 ₁ to 11 ₈ are channels 1 to 4 in order.
When the position key ₁₂₂ is operated, these keys ₁₁₁ to ₁₁₈ perform the function of setting the up and down directions for channels 5 to 8.
By setting the color background key 13 and operating the function key 11 ₁ , the color background range of 1ch can be set.
1 ₂ , 11 ₃ can set the upper cursor position upward or downward, then set function key 11 ₁ and similarly press function key 11 ₂ , 11 ₃
You can set the vertical position of the lower cursor with . Next, when the function key ₁₁₁ is operated, the setting is made and the space between the upper and lower cursors is filled in red. By setting the color background key 13 again, the blue color background range can be set for 2ch using the function keys 11 ₁ to 11 ₃ in the same manner. When sensitivity key 14 is set, function key 11
Channels ₁ to ₁₁₈ are assigned in order, and each time the function key of the channel to which it belongs is pressed, the sensitivity of that channel is cyclically switched from x1 to x2, x4, and x1. When the baseline deletion key 15 is set, each channel is assigned to the function keys 11 ₁ to 11 ₈ in order, and when the function key of the channel to which it belongs is pressed, the baseline of that channel is deleted.

The background image data creation means 3 creates white background image data such as a dotted base line for each channel, a dot-like scale extending over the entire tube surface at regular intervals, and a sensitivity value. In addition, the setting signals of the position keys 12 ₁ and 12 ₂ and the function key 11 are taken in, and the baseline is displayed at the position according to the settings. Create background image data to display the character and store it in the image memory 4 _R ,
Store in 4 _G and 4 _B. Furthermore, the band-shaped image data creation means 3a creates background image data for filling the area between the upper and lower cursors with a predetermined color according to the settings of the color background key 13 and function key 11, and similarly stores it. By setting the baseline deletion key 15 and function key 11, the baseline background image data of a specific channel is deleted.
Furthermore, in order to facilitate operations on the external operation panel 10 only during such settings, data is also created to display the settings in characters on half of the screen.

These monitor waveforms are recorded on a recorder (not shown).
The area corresponding to the color background will not be drawn.

The operation of a polygraph configured in this way is
This will be explained with reference to the figures.

In normal operation, the biological signals of each channel are displayed in different colors at the positions and amplitudes set according to the settings on the external operation panel 10, respectively.
The waveform is displayed as shown in FIG. In the figure, from the bottom, waveform 21 is a 4ch respiratory wave, waveforms 22 and 23 are brain waves of 7th and 8th channels, and waveform 24 is a 1ch respiratory wave.
waveforms 25 and 26 are arterial blood pressure waveforms on channels 2 and 3, and waveforms 27 and 28 are electrocardiogram waveforms on channels 5 and 6. For example, if you want to monitor the waveform levels of venous and arterial blood pressure during surgery, first set the color background key 13 and function key 11 to move the upper cursor on the 1ch scale to the safety level for a specific waveform position of the venous blood pressure waveform. Set the upper limit of the range, set the lower cursor to the lower limit, and fill the band between them with red. In the same way, select 2ch and fill in the safe range as a blue band area. and position key 12 ₁ ,
Then, by operating the function key 11, 3
2ch by raising or lowering the baseline of ch.
Align to the baseline.

This makes it easy to see which venous blood pressure waveform 24 is even from a distance, and the predetermined waveform position is marked in red (indicated by hatching in the figure).
It is possible to easily and reliably monitor whether or not the object is within the safe range. Similarly, the 2ch red arterial blood pressure waveform 25 and the 3ch yellow arterial blood pressure waveform 26
It is also easy to determine whether or not a given waveform position is within the safe range of blue (indicated by a cross line in the figure).
Can be monitored reliably.

No need to read the level of the waveform, just 1
If you want to be able to easily distinguish the waveform of channel or channels 2 and 3 from the waveforms of other channels, set the upper and lower cursors to the baseline and maximum scale, respectively, to make the entire channel a color background. By selectively operating the baseline deletion key 15 and function keys 11 ₁ to 11 ₈ to which they belong, it is also possible to delete one of the two channels of electroencephalograms or electrocardiograms and display them on a common baseline. If the scales of multiple channels overlap, the respective sensitivity numerical characters are displayed with a shift.

In addition, in the above-mentioned embodiment, the external operation panel 1
Various configurations can be considered for the 0 key. For example, it is conceivable to provide external setting means for exclusive upper and lower limit scales for setting the color background range without using the function key also.

(Effects of the invention) As described above, according to the invention, by filling in the entire area of a specific channel region or a narrow range corresponding to the normal or safe area of the waveform position in a band shape with a color different from that of the waveform, the waveform of that channel can be The channel waveform can be easily distinguished from the channel waveform for monitoring, and fluctuations in the waveform level etc. can also be easily monitored. In particular, such monitoring becomes easy and reliable even from a remote location during surgery or the like.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the circuit configuration of the essential parts of a polygraph according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating its color display screen. 2 _R , 2 _G , 2 _B , 4 _R , 4 _G , 4 _B ...image memory,
9...Color cathode ray tube, 10...External operation panel.

Claims (1)

[Scope of Claim for Utility Model Registration] Background image data creation means for creating background image data so that the baseline and scale of each channel are displayed in a predetermined color at a predetermined screen position in response to a setting operation on an external operation panel; It is equipped with a waveform image data creation means that creates waveform image data so that the biosignals of multiple input channels are displayed in different colors at predetermined screen positions according to setting operations, and the waveform image data is created from a memory that stores these image data. A biological signal color display device configured to display waveforms in different colors on its screen, with color image signals read out sequentially in synchronization with the sweep of a color cathode ray tube, with the baseline and scale of the channel to which it belongs as a background screen; In order to display an arbitrary scale range from the base line of the affiliated channel to the maximum scale on the operation panel as a color background for a plurality of channels, a color background range setting means is provided for setting the channel to be displayed on the color background and the above-mentioned upper and lower scale ranges. and the background image data creation means, in response to the settings of the color background range setting means, sets the set scale range of the set channel on the time axis using the waveform of the channel to which it belongs and a color different from the color background color of other channels. 1. A biological signal color display device comprising: a band-shaped image data creating means for creating band-shaped image data that is filled in a band-like shape along the .