JP6813255B2 - Medical display device - Google Patents

Description

The present invention relates to a medical display device, and particularly to a medical display device suitable for use when administering an anesthetic in an operating room or an ICU (Intensive Care Unit).

During anesthesia in an operating room or ICU, an automatic anesthesia record display device is generally used. As disclosed in Patent Document 1, for example, the automatic anesthesia record display device records biological information measured from a patient during anesthesia period, such as heart rate, body temperature, blood pressure value, oxygen saturation, and the like. That is, the automatic anesthesia record display device has a function as a biological information monitor, and by displaying and recording the biological information of the patient under anesthesia, a medical worker such as a doctor can grasp the state of the living body under anesthesia. , Support safe anesthesia administration.

Japanese Unexamined Patent Publication No. 11-0567885

The evolution of biometric monitors has played a major role in the safety of life during anesthesia in patients undergoing surgery. The current biometric information monitor can measure stable blood pressure not only with an electrocardiogram but also with an automatic blood pressure monitor, and also has monitoring functions such as SpO ₂ and EtCO _2, so it is very effective in monitoring the safety of life during general anesthesia. Is.

However, due to the advent of anesthetics that have an anesthetic effect in a very short time, the spread of total intravenous anesthesia, the diversification of muscle relaxant usage, and the epidemic of nerve block anesthesia, it is complicated like never before. Anesthesia is being performed in combination.

As a result, it is difficult to quickly and comprehensively grasp the patient's condition only by looking at the display image of the existing biological information monitor, and it is becoming difficult to perform safe anesthesia management.

The present invention has been made in consideration of the above points, and medical professionals can quickly and comprehensively grasp the condition of a patient under anesthesia and perform safer anesthesia management. A display device for use is provided.

One aspect of the medical display device of the present invention is
The first information, which is the basic biological information related to the life support of patients,
Second information, which is information on the action of the patient on the nervous system caused by the administration of the anesthetic to the patient, and
Historical information on the administration rate of the anesthetic to the patient and
Are integrated and displayed simultaneously on the same screen with the time axis aligned, and the first information, the second information, and the history information of the dosing rate are displayed in this order from the upper side to the lower side of the screen. Moreover, the second information and the history information of the dosing rate are displayed so as to be adjacent to each other .

According to the present invention, it is possible to realize a medical display device capable of promptly and comprehensively grasping the state of a patient under anesthesia by a medical worker and performing safer anesthesia management.

The figure provided for the explanation of the medical display device of an embodiment. The figure which shows the display image example of embodiment

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a diagram provided for explaining a medical display device (hereinafter, simply referred to as “display device”) according to an embodiment of the present invention. Since the feature of the present invention lies in the display form of the display device 100, the display form thereof will be mainly described in FIG. 1 and the following description. Since the hardware of the display device 100 includes general components such as an information input unit, a display control unit, and a display, the description thereof will be omitted here.

Strictly speaking, in the field of medicine, an anesthetic, an analgesic, and a muscle relaxant may be distinguished. However, in the present specification, when the term anesthetic is used, the analgesic or muscle is used. Relaxants shall also be included in it.

As shown in FIG. 1, the display device 100 divides one display screen 101 and simultaneously displays basic biological information, anesthesia effect information, artificial respiration information, and medication information on one screen. It has become.

In the case of the present embodiment, the display device 100 displays basic biological information in the upper region of the screen, displays anesthesia effect information and artificial respiration information side by side in the middle region, and displays medication information in the lower region. ..

Here, the basic biological information is information related to the life support of the patient 10, and in the present embodiment, this is referred to as the first information. On the other hand, the anesthetic effect information is information including information on the action of the patient 10 on the nervous system caused by the administration of the anesthetic to the patient 10, and in the present embodiment, this is referred to as the second information.

The basic biological information is, for example, information acquired and displayed by a conventional biological information monitor, and is information including information on respiration and circulation of the patient 10. Specifically, the display device 100 inputs basic biological information acquired by an electrocardiograph 201, a blood pressure measurement cuff 202, a cardiac output sensor 203, a SpO ₂ sensor 204, a body temperature sensor 205, and the like, and inputs the basic biological information. indicate.

The anesthetic effect information may be said to be information on the effects of sedation, analgesia, and muscle relaxation. The display device 100 displays the BIS (Bispectral Index) value measured by the electroencephalogram monitor (electroencephalogram spectrum analyzer) 211 and the muscle relaxant degree measured by the muscle relaxant monitor 212 as anesthesia effect information. Further, in the case of the present embodiment, the gas concentration in inspiration / expiration measured by the gas monitor 213 is included in the narcotic effect information and displayed. In addition, this gas concentration may be displayed separately from the narcotic effect information. Further, the display device 100 inputs the operation information of the respirator 221 and displays it as the artificial respiration information.

The medication information is information regarding the amount and type of anesthetic administered to the patient 10. The display device 100 inputs information on the dosing rate and type of the anesthetic administered to the patient 10 from the syringe pump 231 and displays this as dosing information. In addition, the information regarding the type of anesthetic may be directly input to the display device by the user.

In addition to this, the display device 100 has an area for displaying trend information and an area for displaying real-time information. In the case of the example of FIG. 1, the trend information is displayed on the left side of the screen, and the real-time information is displayed on the right side.

A short trend graph is displayed as trend information. The short trend graph is a trend graph for a period of less than one hour. In the trend of 1 hour or more, the sudden change that occurred in a relatively short time is buried in the waveform and often does not appear on the waveform. Therefore, in the present embodiment, a short trend graph in which a sudden change in a short time appears on the trend waveform is displayed in the trend information display area. In this embodiment, a 30-minute short trend graph is displayed. Incidentally, in the case of the present embodiment, the resolution (sampling interval) of the short trend graph is set to 5 seconds. The resolution may be other than this, but it is preferable that the resolution is such that the short trend waveform can be displayed smoothly. In addition, it is preferable that the trend graph can be scaled or viewed retroactively. It is preferable to use the short trend graph because the above-mentioned merits can be obtained, but the trend information is not limited to the short trend graph and may be a trend graph.

FIG. 2 is a diagram showing an example of a display image displayed on one display screen 101 of the display device 100.

Trend information of the first information (basic biological information) includes heart rate (HR), oxygen saturation (SpO ₂ ), carbon dioxide concentration in respiratory air (CO ₂ ), respiratory rate (RR), and open blood pressure (BP). ) Short trend graphs for maximum and diastolic blood pressure are displayed.

As real-time information of the first information (basic biological information), the current heart rate (HR), oxygen saturation (SpO ₂ ), open blood pressure (BP1) maximum and minimum blood pressure, and carbon dioxide concentration in respiratory air (BP1) CO ₂ ) and respiratory rate (RR) are displayed as measured values. To the right of these values are the current waveforms of electrocardiogram (II x 1), oxygen saturation (SpO ₂ ), blood pressure (BP1), carbon dioxide concentration in respiratory air (CO ₂ ), and respiration (RESP). Is displayed. The current waveform is a waveform having a period shorter than that of the trend graph, for example, a period corresponding to a period of several beats. Further, in the case of the example of FIG. 2, the values of the current maximum and minimum blood pressure of non-invasive blood pressure (NIBP), body temperature T1 (skin temperature), and T2 (rectal temperature) are displayed.

The trend graph, measured value, and current graph are color-coded according to each parameter. For example, blood pressure is displayed in red, heart rate is displayed in green, and blood is displayed in yellow. This allows the user to recognize at a glance which graph shows which parameter.

As the trend information of the second information (anesthesia effect information), each short trend graph for the BIS value and the muscle relaxant degree (TOF) is displayed. In the case of this embodiment, the muscle reaction measured at the time of quadruple stimulation (TOF (Train Of Four)) is used as the muscle relaxant degree. Since the BIS value and the muscle reaction using the quadruple stimulation are known techniques, detailed description thereof will be omitted here. The smaller the BIS value, the stronger the suppression of the cerebral cortex, that is, the higher the anesthetic effect on the brain, and the smaller the muscle response during quadruple stimulation, the higher the anesthetic effect on the muscular system. Means. Therefore, by displaying these two trend graphs, the effect of anesthesia can be confirmed from different viewpoints.

Further, as trend information of the second information (anesthesia effect information), in the present embodiment, a short trend of each gas concentration of volatile inhalation anesthetic gas such as O ₂ gas, N ₂ O gas and Sev (sevoflurane) gas. The graph is displayed. This gas concentration may be either an inspiratory gas concentration or an exhaled gas concentration. This gas concentration does not directly represent the anesthetic effect, but can be used as auxiliary information for confirming the anesthetic effect. This will be described. When general anesthesia is performed, generally, inhalation anesthesia using an inhalation anesthetic gas is first performed, and then intravenous anesthesia is performed. When intravenous anesthesia is administered and the anesthesia is effective, an operation of lowering the concentration of inhaled anesthesia gas is performed. In other words, the decrease in the concentration of inhalation anesthetic gas can be one indicator that anesthesia is effective. However, the present invention may be carried out without displaying such a gas concentration as the second information (anesthesia effect information).

As real-time information of the second information (anesthetic effect information), the current measured values of inspiratory gas concentration and exhaled gas concentration for each of volatile inhalation anesthetic gas such as O ₂ gas, N ₂ O gas and Sev (sevoflurane). (Intake gas concentration / Expiratory gas concentration) is displayed. For N ₂ O and volatile inhalation anesthetic gas, the smaller the difference value obtained by subtracting the exhaled gas concentration from the inspiratory gas concentration, the more the effect site concentration and the inhalation concentration are in equilibrium. Therefore, the concentration of the anesthetic agent being administered can be used as an index of the anesthetic effect. In addition, the current BIS value and muscle relaxant degree are displayed as numerical values as real-time information of the second information (anesthesia effect information).

As the artificial respiration information, a spirogram is displayed, and the current operation information of the respirator and the state of external respiration are displayed.

As the trend information of the medication information, the dosing rate of each anesthetic administered to the patient 10 for each anesthetic is displayed in a short trend graph.

As real-time information of the medication information, the drug name of each anesthetic administered to the patient 10 and the medication rate currently actually administered are displayed. In the example of the figure, it is displayed that, for example, an anesthetic whose trade name is "2 mg for intravenous injection of Altiva" is currently administered at 10 (mL / h) by a syringe pump 231. The display device 100 of the present embodiment utilizes the fact that the syringe pump 231 has a function of measuring the actual dose of the anesthetic, inputs the information of the actual dose from the syringe pump 231 and displays it. It has become like. This allows healthcare professionals to know exactly the actual dose and rate of anesthesia.

In the area for displaying trend information, since a plurality of trend graphs having different units are displayed at the same time, a numerical value that shows the fluctuation unit is actually displayed for each trend graph. This is omitted for the sake of simplicity.

As described above, according to the present embodiment, the first information which is the basic biological information regarding the life support of the patient 10 and the action on the nervous system of the patient 10 caused by the administration of the anesthetic to the patient 10 By integrating the second information, which is information, and displaying it at the same time, the medical staff can quickly and comprehensively grasp the condition of the patient 10 under anesthesia, and safer anesthesia management can be performed. It is possible to realize a medical display device that can be performed.

Further, by integrating the anesthetic medication information for the patient 10 with the first information and the second information and displaying the first information and the second information at the same time, the anesthetic dose and the basic The causal relationship between the biological information and the information on the action of the patient 10 on the nervous system can be grasped at a glance, and safer anesthetic management can be supported.

In addition, by displaying real-time information and trend information side by side, it becomes possible to grasp the process through which the current situation is reached.

In addition, by displaying the trend graphs of basic biological information, anesthesia effect information, and medication information side by side along the time axis, the medical staff can grasp the condition of the patient 10 more quickly and comprehensively. Become.

Further, in the above-described embodiment, the actual measurement information of the administration rate of the anesthesia administered to the patient 10 is input from the syringe pump 231 and the history of the administration rate of the anesthesia is displayed, so that the anesthesia actually administered to the patient 10 is displayed. It will be possible to accurately grasp changes in the medication rate of drugs and support safer anesthetic management.

In the above-described embodiment, the BIS value and the muscle reaction are used as the anesthetic effect information included in the second information which is the information on the action on the nervous system of the patient 10 caused by the administration of the anesthetic to the patient 10. Although the case was described, the anesthetic effect information is not limited to these. As the anesthetic effect information, for example, information on the nerve reaction of the patient 10 and information on the brain wave can be widely used.

The function of the medical display device of the present invention can also be embodied by mounting it on a biological information monitor.

The above-described embodiments are merely examples of embodiment of the present invention, and the technical scope of the present invention should not be construed in a limited manner by these. That is, the present invention can be implemented in various forms without departing from its gist or its main features.

The medical display device of the present invention is suitable for use when administering an anesthetic in an operating room or an ICU.

10 Patient 100 Medical display device 101 Display screen 201 Electrocardiograph 202 Blood pressure measurement cuff 203 Cardiac output sensor 204 SpO ₂ sensor 205 Body temperature sensor 211 Brain wave monitor 212 Muscle relaxation monitor 213 Gas monitor 221 Ventilator 231 Syringe pump

Claims (7)

The first information, which is the basic biological information related to the life support of patients,
Second information, which is information on the action of the patient on the nervous system caused by the administration of the anesthetic to the patient, and
Historical information on the administration rate of the anesthetic to the patient and
Are integrated and displayed simultaneously on the same screen with the time axis aligned, and the first information, the second information, and the history information of the dosing rate are displayed in this order from the upper side to the lower side of the screen. And, the second information and the history information of the dosing rate are displayed so as to be adjacent to each other.
Medical display device. Real-time information and trend information for each of the first information, the second information, and the history information of the dosing rate are displayed side by side.
The medical display device according to claim 1. The trend graphs for each of the first information, the second information, and the history information of the dosing rate are displayed side by side with the time axis aligned.
The medical display device according to claim 1. The first information is information including information on the respiration and circulation of the patient.
The medical display device according to any one of claims 1 to 3. The second information includes information obtained by an electroencephalogram monitor and a muscle relaxant monitor.
The medical display device according to any one of claims 1 to 3. The medication rate history information is the medication rate history information for each anesthetic.
The medical display device according to any one of claims 1 to 3. A biological information monitor including the medical display device according to any one of claims 1 to 6.

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