Scale-variable subwindow for central control device

FIELD: information technologies.

SUBSTANCE: under clinical conditions, when at any time there are several patients, there are central stations (10) of patient control, for instance, nursing units, for combination of the collected information relative to physiological parameters of patients. Data is displayed in several subwindows (22) of the display (18) of the control station (10). Due to certain limitations for dimensions of the display (18), it is often difficult to distinguish data displayed in subwindows (22), or even display all collected data. The user may expand any such subwindow (22) into a scale-variable subwindow (32), which provides for more functions than any other subwindow (22), without full coverage or adjustment of size of any other subwindow (22).

EFFECT: improved access to information.

12 cl, 6 dwg

 

The present application relates to medical devices. In particular, this application is used to improve access to patient information in the Central control device and will be described with particular reference to this application. It should be understood, however, that this application can be used for any display of multiple data sets and parameters simultaneously, and not necessarily limited to the aforementioned application.

The Central control device, the display is divided into multiple Windows view or Subcon, where each subarno presents several options one patient, which are controlled at the present time. Currently, the Central control device allow for enhanced visual display of subarna one patient while viewing Subcon other patients. Usually, the above mentioned display placed at the bottom of the screen, while other subarna view compressed on the remaining space at the top of the screen, as shown in figure 1. Compressed panels become poorly legible. In the example shown, the display for the bed 5 is clearly visible at the bottom of the screen, but all other displays are compressed to about half their original zone.

The present application provides new and improved display control panel the CSO control device which overcomes the above and other problems.

In accordance with one aspect, a control station of the patient. The control station receives and displays the data of the patient. The display displays a variety of Subcon. The controller controls the display so that each subarno displays the selected patient data so that each subarno could be selected by a user for turning in advanced, large-scale increased subarno, without affecting the size of any other of the many Subcon.

In accordance with another aspect, features a method of display control parameters. At least one controllable parameter corresponding to the patient is displayed in one of the many Subcon on the display. One of the many Subcon choose to become advanced, large-scale enlarged SUBCOM. Scale increased subarno expanded without affecting the size of any other of the many Subcon.

In accordance with another aspect, a device control patient, which assembles the data pertaining to many patients, on the display containing many Subcon, with each subarno corresponds to one patient. The control device contains an enhanced, large-scale increased subarno that is fixed in the selected position downstream of subarna, and partly, but not entirely for orazepam neighboring subarna without adjustment of the size of any other of the many Subcon.

One of the advantages is that the user can view the currently selected subarno without compression other Subcon.

Another advantage lies in the useful functions of the dashboard icon that appears in the advanced suboxne.

Additional advantages of the present invention will be obvious to experts in the art after reading and studying the following detailed description.

The invention may take form in various components and arrangement of components, and the various steps and arrangement of steps. The drawings are intended only to illustrate preferred embodiments and are not subject to interpretation in the sense of limiting the invention.

Figure 1 - image of the prior art for the existing Central control devices;

Figure 2 - schematic representation of the Central control device in accordance with the present application;

Figure 3 - display of the twelve Subcon, where none of Subcon not changed in scale;

4 is a display of twelve Subcon, where one corner subarno increased;

5 is a display of twelve Subcon, where the second subarno in the left column increased;

6 is a display with multiple enabled alarms.

As shown in figure 2, the Central control hundred of the tion 10 controls several beds 12 patients. It is assumed that, relative to controlled beds 12, the Central control station 10 is preferably, for example, at the nursing station or in a similar place. Every patient on one of the beds 12 contains multiple sensors that monitor various parameters of the physiology of the patient. The above-mentioned sensors can be sensors, ECG, pumps fluid for intravenous (IV) infusion, sensors, blood pressure sensors, SpO2 (oxygen saturation of the blood), heart rate sensors, thermometers, sensors breath and exhaled gas sensors. Of course, other sensors can be connected to the patient, and not all of these sensors must be connected to the patient at any given time.

The sensors transmit data to a local buffer 14. The buffer 14 serves as a gathering place for all the data collected by the sensors, and provides a temporary storage device for data. Local buffer 14 may be, for example, bedside monitor, which moves together with the patient. Local buffer 14 can also be more stationary device, for example, a wall-mounted monitor that is constantly associated with a single bed, a fenced off part of the room or bathroom. Lines of communication between the sensors and the local buffer 14 may be wireless, wired or a combination of those and on the natives. Similarly, sensors can be powered by batteries, an external source of AC power or a combination of both.

Then the local buffers 14 communicate with the Central control unit 10. The controller 16 receives input data from the buffers 14 of such number of beds 12 patients, for which the responsible Central control station 10. Then, the controller 16 instructs the display 18 of the Central control station 10 to display information received from the buffers 14. The Central control station 10 also includes a user interface 20, which allows the user to monitor and/or control data displayed on the display 18. User interface 20 may be a separate component or integrated into the display 18, for example, as in the case of a touch screen monitor. Lines of communication between the buffers 14 and the Central control station 10 may be wireless. If the buffer 14 has been built, for example, in the local monitor mounted on a tripod for intravenous infusion, the patient may withdraw from the nearby area, but to bring the buffer 14. Wireless communication between the buffer 14 and the Central control station 10 allows for greater mobility for the patient, while maintaining the possibility of control over the selected patient. If the buffer 14 is embedded in a more stationen the e device lines of communication between the buffer 14 and the Central control station can be wired, for example, the standard cables Ethernet network.

As mentioned above, the controller 16 instructs the display 18 to display information received from the various buffers 14. Next, as shown in figure 3, the display 18 of the control station 10 is divided into subarna 22, with each subarno 22 represents the information obtained from one of the buffer device 14 from one patient. Figure 3 shows twelve Subcon 22, but it is also possible to provide more or less Subcon. The number of Subcon one Central control station may be determined by the size of the display 18 and the ratio of the number of patients number of Central control stations 10, and other factors.

As shown, the top left subarno 22 (as well as other subarna 22) of the display 18 includes various subdisplay (the displayed image, each of which is part of subarna)corresponding to information received from the buffer 14. For example, subarno 22 contains subdisplay 24 to the patient ID, which displays the patient name, bed number or room and other identifying information, for example, the unique identifier of the hospital. Subdisplay ECG 26 displays the last ECG readings obtained from the buffer 14 about the patient. Subdisplay 28 pulse displays the last data pulse of the patient. Subtitle SpO2 30 displays the last data of blood oxygenation of the patient. In suboxne can also be displayed invasive measured blood pressure (IBP), CO2 in the free end of exhalation (etCO2) and the transfer of breathing. Usually, due to spatial restrictions, suboxne 22 can be reflected only three or four values. Each additional subarno displays similar information, except that a separate subarno represents information about an individual patient. In addition, the configuration of each subarna can be configured independently.

As shown in figure 4, using the interface 20, the user can select one of Subcon 22 and extend it to view enlarged scale subarna 32. In the variant with a touch screen, the user can touch subarna to expand. Figure 4 shows that the user has selected the upper left subarno and expanded it. Scale increased subarno 32 is extended, and therefore it is much more than the rest of subarna 22, but still is so not completely obscures no other subarno. Extended subarno 32 is blocking some, but not all of any adjacent Subcon. Figure 5 shows that the user has selected the second from the top left subarno 22 to expand. As the angular extended subarno 32, shown in figure 4, extended obecno, shown in figure 5, is blocking some, but not all of any adjacent Subcon 22.

Usually, if one or more monitored parameters of patients will fall to a critical level, the controller 16 includes an alarm signal, for example, blinking subarna 22 different colors, or sound an alarm signal, or any signal, or a combination of both. As shown in Fig.6, berths 3, 5, 6, 7, 8, and 12 give an alarm signal, while berths 1, 4 and 11 show normal values. Large-scale enlarged subarna 32, shown in figure 4 and 5, allow the user to continue to see the alarm on suboxne 22, which is not extended at the present time, because the mentioned subarno not obstructed whole scale increased subarna 32. In a preferred embodiment, the scale increased subarno 32 extends on the spot and recorded, otherwise, it could be moved to a position in which fully zagoraios another subarno 22. Optionally, subarno may be moving, but limited so that it cannot be installed in position complete coverage of another subarna.

As also shown in figure 4 and 5, additional space is enlarged scale subarna 32 allows not only increase subdisplay parameters that were displayed on suboxne 22 normal size, but also provides about transto for subdisplay additional parameters. For example, can be placed subdisplay ECG 26 are larger in size. In one embodiment, scale enlarged subarno 32 provides at least 30 mm space vertically, which is supposed to reflect the shape of the ECG signal. Subdisplay 34 blood pressure displays the patient's blood pressure. Temperature subdisplay 36 displays the current or the last temperature of the patient. Subdisplay 38 natural breathing will display the last or average per minute the number of breaths of the patient. Subdisplay 40 CO2 concentration at the end of the free exhalation displays the CO2 concentration in the exhalation of the patient. And again, the size of the selected subdisplays and what subdisplay actually displayed in enlarged scale as may be specifically assigned by the user.

It should be understood that it is possible to display additional or other parameters, the above parameters are for example. In one embodiment, controls all the parameters that can be monitored at any given time, such control is carried out, including, at a time when the option is not displayed, because subarno 22 is not changed in scope or it is blocked scale increased subarna 32. The fact that at the moment the option is not displayed, does not mean that the parameter is not monitored. SL is therefore including hidden parameter may include an alarm signal, if the processor 16 determines that the setting has come to a critical state.

In addition, when subarno 22 choose and change in scale, the user accesses the dashboard icons 42, which displays selectable icons that give the user more control and the possibility of additional settings in relation to large-scale enlarged currently subarno 32. For example, toolbar icons can contain an icon acoustic alarm. The user can toggle this icon to turn on and off the audio alarm. In one embodiment, display the alarm is always enabled. Another icon opens a dialog that allows the user to print the current scale increased subarno 32. Another icon allows the user to additionally scale to increase any area enlarged scale of the display. In one embodiment, further enlarged scale, the section does not continue beyond the boundaries of large-scale enlarged subarna 32, so that other subarna 22 does not become completely obstructed. Another icon allows the user to customize in accordance with special requirements the mi controllable parameter of the patient. For example, if the system currently measures the patient's blood pressure every thirty minutes, and you want more frequent updates, the user can set the blood pressure measurement every twenty minutes or with such frequency that corresponds to the circumstances. In addition, there is an icon which the user can choose to reduce the scale increased subarno 32 to its original size. In one embodiment, scale enlarged subarno 32 will be automatically reduced after a period of inactivity. In a particular embodiment, the scale increased subarno 32 is automatically reduced after two minutes of inactivity.

Above the invention is described with references to preferred options for its implementation. Experts, after reading and studying the above detailed description can be created modifications and changes. It is assumed that the invention should be interpreted as containing all these modifications and changes in the extent to which they fall within the scope of the claims appended claims or their equivalents.

1. Station (10) of the control patients, which retrieves and displays data of patients from each of many patients and cobrajet data physiology of each patient, the station (10) of the control patients contains:
display (18), which displays many Subcon (22), and each subarno corresponds to one of the patient and displays the data on the physiology of the respective patient;
the controller (16)programmed to control the display so that each subarno displays the selected patient data corresponding to a patient so that each subarna (22) could be selected by the user to transform into an extended, large-scale increased subarna (32) without affecting the size of any other of the mentioned multiple Subcon (22),
at this scale increased subarna (32) overlaps and obscures the area adjacent Subcon (22) and not completely obscures any neighboring subarna,
moreover, large-scale increased subarna (32) contains more information than other subarna (22).

2. Station (10) of the control patients according to claim 1, in which the scale increased subarna (32) fixed in position subarna (22), which is selected by the user for the extension.

3. Station (10) of the control patients according to claim 1 or 2, which referred more information includes at least one of the longer forms of the signal than is displayed in the remaining subarno long waveform than is displayed in the remaining subotnik (22), the larger the number of displayed parameters, than in other subotnik (22).

4. Station (10) of the control patients according to claim 1 or 2, in which large-scale increased subarna (32) consists of toolbar icons (42), from which the user can select commands that affect the display of large-scale enlarged subarna (32).

5. Network for monitoring patients, containing:
at least one device control parameter for controlling at least one parameter of the physiology of the patient;
at least one buffer (14) data for temporarily storing the data from this at least one device control parameters and transmission of these data; and
station control patients according to any one of claims 1 to 4 to display the data passed to this at least one buffer.

6. How to display monitored parameters of each of the many patients containing phases in which:
display at least one controlled variable associated with each patient in the respective one of the many Subcon (22) display (18), and each subarno displays physiology data corresponding to a patient;
choose one of the many Subcon (22) for conversion to an enlarged scale increased subarna (32);
expand large-scale increase subarna (32) without affecting the size of any other of the above-mentioned m is Oresta of Subcon (22);
partially overlapping areas of Subcon (22)adjacent to enlarged scale subarna (32) on the display (18), without complete overlap any other subarna and
display additional information in large-scale enlarged suboxne (32), which is not shown in any of the mentioned multiple Subcon (22).

7. The method according to claim 6, further containing a stage, on which is fixed scale increased subarna (32) in position subarna (22)selected by the user for the extension.

8. The method according to claim 6 or 7, optionally containing phase in which display at least one of:
toolbar the toolbar icons (42) scale enlarged suboxne (32), which contains user-selectable icons (42) for interacting with the current scale increased subarna (32),
additional parameters and
information waveform.

9. The method according to claim 6 or 7, optionally containing a stage at which change the visibility of subarna (32) in response to the state of the alarm signal initiated by the controller (16).

10. Control station (10)containing a display (18) and a controller (16)programmed to control the display (18) so as to perform the method according to any of PP-9.

11. Network control patients, containing:
many devices control patients to control at least one parameter is RA physiology of the patient;
at least one buffer (14) for temporarily storing the data from this at least one device control parameters and transfer this data
and control station (10) of claim 10.

12. Machine-readable medium carrying software which, when loaded into a processor, controls the connected display to perform the method according to any of PP-9.



 

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