KR102424931B1 - A patient care method using Electroencephalogram - Google Patents

Abstract

The present invention applies a certain stimulus to a patient, matches the patient's brain waves and physical response to the stimulus, and then divides & arranges whether each stimulus is positive or negative for a specific patient by patient It limits patient care methods using brain waves that can be used by caregivers as well as caregivers of patients. The patient care method using the EEG performs a step of collecting specific recommendation information and a step of applying specific recommendation information.

Description

{A patient care method using Electroencephalogram}

The present invention relates to a method of caring for a patient using EEG, and more particularly, after applying a certain stimulus to a patient, matching the EEG and physical response of the patient responding to the stimulus with the corresponding stimulus, It relates to a patient care method using EEG that classifies and organizes whether the patient is positive or negative for each patient, so that the patient's guardian as well as the caregiver can use it when caring for the patient.

Electroencephalogram (EEG) is a bioelectric signal that non-invasively measures the electrical activity of the brain by electrodes attached to the surface of the head. The EEG analyzer detects and analyzes the EEG of a patient at university hospitals and hospitals and evaluates the essential abilities required for learning by objectively measuring the cognitive strength, cognitive speed, concentration, and left/right brain activity detected from EEG, It is used to diagnose behavioral disorders (ADHD), attention deficit disorder (ADD), depression, learning disabilities, anxiety disorders, insomnia, autism and dementia.

Because hospitals have a significant number of patients hospitalized for unconsciousness and reduced consciousness, and not all of these patients can use a special ward, such as an intensive care unit, patients who cannot be admitted to the intensive care unit are treated by multiple nurses, family members, or caregivers. have no choice but to A nurse, family member, or caregiver will be around the patient and protect the patient by monitoring the patient's behavioral changes, such as seizures, or rapid changes in brain waves. Since the analysis and interpretation of EEG belongs to a very specialized field, it is not easy to make EEG changes one-to-one with changes in the patient's condition.

In nonconvulsant epileptic superposition disease, the symptoms of seizures on the EEG along with changes in behavior or consciousness are fatal for patients with reduced consciousness. Even if there is, it is difficult to recognize it.

Republic of Korea Patent Registration: 10-1978905 (2019.05.09.)

The technical problem to be solved by the present invention is that the patient responds to external stimuli generally given to the patient, for example, the voice of the guardian, the contact given when changing the position, discomfort in the current posture, and heat and cold according to the temperature. After matching the EEG and physical response of the patient with the corresponding stimulus, each stimulus is divided and organized by patient whether it is positive or negative for a specific patient, thereby generating EEG that can be utilized by the patient’s guardian as well as the caregiver when caring for the patient. To provide a patient care method using the.

In a patient care method using brain waves according to the present invention for achieving the above technical problem, a specific recommendation information collection step and a specific recommendation information application step are performed. The specific recommendation information collecting step collects specific recommendation information including effective care information for a specific patient. The specific recommendation information application step is performed by the server, and on the one hand, a stimulus beneficial to a specific patient is notified to a guardian, etc. by using the specific recommendation information collected in the specific recommendation information collection step, and on the other hand, the specific recommendation information The EEG sensor with the updated specific recommended information is wrapped around the patient's head like a band. In the step of collecting specific recommendation information, a step of measuring stimulation & EEG of the patient, a step of matching stimulation and EEG, and a step of generating specific recommendation information are performed. In the patient's stimulation & EEG measurement step, the patient's protector, caregiver, and nurse (hereinafter referred to as a caretaker, etc.) applies stimulation to the patient and records the patient's EEG and physical response. In the step of matching the stimulus and the EEG, the server compares the information of the specific patient that has been input in advance, the stimulus information measured in the step of measuring the patient’s stimulus & response, the EEG information and the response information, and the specific patient Assess the effect of a specific stimulus applied to the The specific recommendation information generation step is performed by the server, and a stimulus beneficial to a specific patient and a stimulus uncomfortable to a specific patient are generated as specific recommendation information using the result determined in the step of matching the stimulus with the EEG.

As described above, in the patient care method using EEG according to the present invention, after matching the EEG and physical response of a patient responding to an external stimulus applied to the patient with the corresponding stimulus, whether each stimulus is positive for a specific patient or not It has the advantage that it can be used by the patient's guardian as well as the caregiver when caring for the patient by classifying and organizing the negative opinions by patient.

1 is an embodiment of a patient care method using EEG according to the present invention.
2 is an embodiment of a headband-type EEG to be worn by a patient.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings describing exemplary embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

The present invention applies a certain stimulus to a patient, matches the patient's brain waves and physical response to the stimulus, and then divides & arranges whether each stimulus is positive or negative for a specific patient by patient We propose a patient care method using brain waves that can be used by caregivers as well as guardians of patients when caring for patients.

Here, the patient refers to a patient who is unconscious or whose state of consciousness is very low (hereafter unconscious), such as a patient with head trauma or a stroke, and cannot express his/her intentions in words.

A caregiver or family caring for an unconscious patient can ask an unconscious patient, "My dad, do you know I'm with you?" or "Are you listening to me? Together, we convey our sorrowful feelings to the patient verbally. If the unconscious patient usually likes to touch their face, the caregiver can express their pity by touching the patient's face. In addition, if the patient liked music or liked the sound of flowing streams or birds, it is natural to listen to music or the sound of water to the patient.

In the present invention, a voice, acoustic or physical stimulus is applied to an unconscious patient, and the degree of response of the patient to the stimulus is analyzed in conjunction with brain waves and body movements to determine whether the stimulus is positive or negative for a specific patient. . After processing the positive and negative aspects of a specific stimulus into information, this information (hereinafter, care information) is provided to the patient's guardians, caregivers, and nurses (hereinafter referred to as guardians, etc.) to help care for the patient. .

One of the goals of the present invention is to derive generally effective stimuli for patients with specific tendencies by grouping and reanalyzing care information that is effective only for specific patients.

Hereinafter, a patient care method using EEG according to the present invention will be described.

1 is an embodiment of a patient care method using EEG according to the present invention.

Referring to FIG. 1 , the patient care method 100 using EEG according to the present invention performs a specific recommendation information collection step 110 , a specific recommendation information application step 120 , and a general recommendation information generation step 130 . .

In the specific recommendation information collection step 110, specific recommendation information including effective care information for a specific patient is collected. The information generation step 113 is performed.

In the stimulus & response measurement step 111 of the patient, the patient's guardian or the like applies a stimulus to the patient and records the patient's brain waves and physical response to the stimulus. A patient's EEG will be measured using an EEG, an example of which is a headband-type EEG. The headband type EEG detects the patient's EEG primarily, but secondarily, when EEG corresponding to the built-in specific recommended information is detected, the patient It also performs a function of notifying surrounding guardians that such a situation has occurred. Through this, the guardian or caregiver can check the patient's condition in real time.

Here, the stimulus targets the patient's auditory and tactile sense, and can be divided into an unintentional stimulus and an intentional stimulus. Unintentional stimulation can be exemplified by the caregiver correcting the patient's posture, or when the temperature around the patient is higher or lower than the general room temperature. For example, touching a specific area. In addition, an embodiment in which a stimulus is not only present but also a continuous stimulus, an intermittent stimulus, and the duration of the stimulus is divided is also possible.

In the present invention, in order to collect response information to a specific patient's stimulus, the type and method of stimulus applied to the patient (hereinafter, stimulus information) is recorded. Since the recording method can be selected in various ways, such as an image taken at the moment of application of the stimulus, a recorded text, or a recorded voice, it will not be described in detail here. However, the time for applying the stimulus should be described in the recorded information. This is because the change in the patient's brain waves and physical movement must be matched with the stimulus.

The patient's EEG can be acquired using an EEG meter. The EEG detected by the EEG includes various parameters such as frequency, size, and width, and it is difficult for even an expert to interpret them. In the present invention, the EEG is not classified in detail, but only the degree of similarity of EEG generated in response to a specific stimulus is identified. will be able to achieve For example, it is possible to use a waveform (Envelop waveform) that successively generates a plurality of points where the magnitude of the EEG of a certain time is high. An example of a method for analyzing EEG is disclosed in Korean Patent Registration (10-1978905 (2019.05.09.)).

Of course, the EEG information measured by the EEG meter includes information about the EEG measurement time as well as the EEG type, and this information will be transmitted to a server (not shown) implementing the present invention. Considering that the patient is hospitalized, it would be reasonable to assume that the server implementing the present invention is installed in the hospital. However, if it is said that the EEG meter installed in each hospital is remotely controlled from the hospital, the server may be installed in a place other than the hospital using the EEG meter.

Assuming that a camera (not shown) is installed around the patient who collects the above-mentioned care information, and the camera records the patient's movement in real time, the moment when the stimulus is applied, the type and shape of the stimulus are photographed as well as In addition, the patient's response to this can also be captured in real time and secured as an image (response information). Stimulation information, EEG information, and reaction information are transmitted to the server, respectively.

The stimulation and EEG matching step 112 is performed by the server, and by comparing the previously input specific patient information, the stimulation information measured in the patient stimulation & response measurement step 111, and the EEG information and response information, , to determine the effect of a particular stimulus applied to a particular patient. Here, the specific patient information includes the patient's gender, age, and disease name.

As described above, it is determined from the patient's response to the stimulus whether the family's whispered words to a specific patient, physical contact, or changes in the surrounding environment are positive or negative for the patient. The patient's response may be judged by a change in facial expression or voice. If the result of matching the patient's response to a specific stimulus with the patient's EEG is stored, then it will be possible to predict the patient's current state just by detecting the EEG change of the specific patient.

By monitoring EEG in real time, if EEG is generated when a negative reaction is shown, the server will be able to identify it first. If there is a guardian or caregiver around the patient when this EEG reaction occurs, the server will notify the guardian, caregiver, and nurse of the patient's current state, so that the guardian or the like can take necessary measures.

Nonconvulsant overlapping epilepsy disease is a disease in which seizures occur in the EEG along with a change in behavior or consciousness without external convulsions. The present invention recognizes this situation in advance by the machine (EEG meter & server), not the guardian, etc.

In the specific recommendation information generation step 113, using the result determined in the stimulus and EEG matching step 112, a stimulus beneficial to a specific patient and a stimulus uncomfortable to a specific patient are discovered and generated as specific recommendation information.

In the specific recommendation information application step 120, the specific recommendation information generated suitable for a specific patient collected in the specific recommendation information collection step 110 is used to effectively perform care according to the patient's condition, and on the other hand, A stimulus that is beneficial to a specific patient is notified to the guardian, and on the other hand, an EEG with the updated specific advisory information is wrapped around the patient's head after the generation of specific advisory information is completed.

Here, in addition to using the EEG when collecting specific recommended information, when a specific EEG included in the specific recommended information is detected from the patient, the EEG is installed in the EEG, unlike when the specific recommended information is collected. Make it flash or emit a specific sound through the speaker. That is, if the same EEG generated when the patient feels uncomfortable (included in the specific recommendation information) is emitted from a specific patient, the EEG detects it and blinks or to activate the sound.

In the updated EEG, when the patient's protector, etc. applies a stimulus notified as a beneficial stimulus to the patient, the EEG generated from the stimulated patient responds to the EEG by blinking or sound. Make sure the caregiver and others are convinced that the stimulus is meaningful.

In the general recommendation information generation step 130, the specific recommendation information generated in the specific recommendation information generation step 113 for a plurality of different patients is collected, and by generalizing it, a general that can be used even for a general patient other than a specific patient. Generates recommended information. For example, a stimulus that is beneficial to a general patient, such as a caregiver touching a patient's face or hand or playing a specific sound to the patient's ear, may be obtained by processing specific recommendation information collected from a plurality of different patients.

In hospitals, there are a large number of patients who are hospitalized for unconsciousness and loss of consciousness, and not all of these patients can use special wards such as the intensive care unit. Therefore, by applying the patient care method 100 using EEG according to the present invention to a patient who cannot be admitted to the intensive care unit, it will be possible to maximize the care and treatment effect of a hospital having a limited intensive care unit.

2 is an embodiment of a headband-type EEG to be worn by a patient.

Referring to FIG. 2 , when the patient displays his or her feelings as EEG while wearing the EEG 200, the EEG 200 is on the other hand a system (not shown) or server that manages the patient's EEG. (not shown), on the other hand, activates the LED lights (201 ~ 203) installed in the EEG meter (200).

There are various ways to activate the LED lights (201 to 203) according to the patient's brain waves. Alternatively, the plurality of LED lights 201 to 203 may be implemented in a manner of varying the blinking cycle according to the patient's condition. Either way, it will work if people around the patient can check the patient's condition.

In the above, the technical idea of the present invention has been described together with the accompanying drawings, but this is an exemplary description of a preferred embodiment of the present invention and does not limit the present invention. In addition, it is a clear fact that any person skilled in the art to which the present invention pertains can make various modifications and imitations without departing from the scope of the technical spirit of the present invention.

110: step of collecting specific recommended information
111: Stimulation & EEG measurement stage of the patient
112: Matching stage of stimulation and EEG
113: Specific advisory information generation step
120: step of applying specific recommended information
130: general recommendation information generation step

Claims (4)

a specific recommendation information collection step of collecting specific recommendation information including effective care information for a specific patient;
On the one hand, a stimulus beneficial to a specific patient is notified to a guardian, caregiver or nurse by using the specific recommendation information that is performed in the server and collected in the specific recommendation information collection step, and on the other hand, the specific recommendation information is generated Applying specific recommendation information to the patient's head to wear the updated EEG measuring device like a band; and
By collecting the specific recommendation information generated in the specific recommendation information generation step for a plurality of different specific patients, and grouping and reanalyzing the plurality of collected specific recommendation information, it can be used even for general patients for whom specific recommendation information has not been collected. a general recommendation information generation step of generating general recommendation information; do,
The specific patient and the general patient are patients who cannot express their intentions in words because they are unconscious or their state of consciousness is very low,
The specific recommendation information collection step is
Stimulation & EEG measurement step in which a guardian, caregiver or nurse of a specific patient applies a specific stimulus to a specific patient and records the specific patient's EEG and physical response to this;
Stimulation that is performed in the server and determines the effect of a specific stimulus applied to a specific patient by comparing the previously inputted information of the specific patient, the stimulus information measured and received in the stimulus & response measurement step, the EEG information, and the response information and EEG matching step; and
Performing in the server, using the result determined in the step of matching the stimulus with the EEG, a specific recommendation information generating step of generating a stimulus beneficial to a specific patient and a stimulus that makes a specific patient uncomfortable as specific recommendation information; performing,
A patient care method using brain waves. In claim 1,
The EEG is equipped with a flashing light or a speaker,
When the EEG corresponding to the specific recommendation information is detected, in the step of applying the specific recommendation information, by activating the flashing light or speaker installed in the EEG measuring device, notifying the guardian, caregiver or nurse that this situation has occurred,
A patient care method using brain waves. In claim 1,
In the stimulation & EEG measurement step, the type of stimulation applied to a specific patient, the method of stimulation, and the time to apply the stimulation are recorded,
A patient care method using brain waves. delete

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