KR20090090916A - U-health care system using sensor of tooth - Google Patents

Abstract

The present invention relates to a ubiquitous healthcare system using a dental bacterial sensor, and more particularly, to prevent oral diseases by collecting biometric information in the oral cavity using a dental bacterial sensor and standardizing the collected biometric information. The present invention relates to a ubiquitous healthcare system using a dental bacterial sensor that can grasp disease progression in real time.

Ubiquitous healthcare system using a dental bacterial sensor according to an embodiment of the present invention is a signal of the biological information including bacterial information, acidity information, sugar numerical information, protein information, blood pressure information, dental caries information or pulse information in the oral cavity. Tooth bacterial sensor for collecting biometric information signal, the biometric information server is connected to the tooth bacteria sensor by wireless or wired to receive the biometric information signal, and classified by the biometric information to generate a standardized biometric data and the living body And a standardized database in which data is stored.

Description

Ubiquitous Health Care System Using Dental Bacterial Sensor {U-HEALTH CARE SYSTEM USING SENSOR OF TOOTH}

The present invention relates to a ubiquitous healthcare system using a dental bacterial sensor, and more particularly, to prevent oral diseases by collecting biometric information in the oral cavity using a dental bacterial sensor and standardizing the collected biometric information. The present invention relates to a ubiquitous healthcare system using a dental bacterial sensor that can grasp disease progression in real time.

Ubiquitous is an information and communication environment that allows users to connect anywhere, without consciousness of a network or computer.It is derived from the Latin word meaning 'anywhere, anytime' beyond time and space like water or air.

In other words, ubiquitous is an information technology (IT) environment or information technology paradigm that enables communication by inserting a computer into any device or object, such as a car, a refrigerator, glasses, a clock, or a stereo equipment, rather than adding any function to the computer. It means.

In addition, if ubiquitous, the information technology can be used in homes, cars, and even on the top of the mountain, and the number of computer users connected to the network will increase, thereby increasing the size and scope of the information technology industry.

In line with this, U-Health Care, which combines health care and ubiquitous, is in the spotlight.

In other words, U-Health Care is the biggest feature of being able to receive medical services without limitation of time and space.

However, in the conventional ubiquitous healthcare field, a user stays at a stage of accessing a hospital server to check his / her medical record or informing the user of a medical date or appointment.

Biosensors, on the other hand, are analyzed by combining biological receptors with biochemical information, such as bacteria, DNA or blood sugar, as well as general chemicals with electrical or optical transducers to convert biological interactions and recognition reactions into electrical or optical signals. It is a device that can selectively detect a material to be desired.

In recent years, research on biosensors related to medical care has been more actively conducted. For example, a patient directly extracts blood using a glucose sensor and connects the glucose sensor to a mobile phone to monitor his or her blood sugar level. Analyzes have also developed techniques that allow patients to recognize their own blood sugar levels.

In the conventional dental hospital, in order to obtain bacterial information in the oral cavity, a method of culturing bacteria in the oral cavity is used.

However, the conventional method usually takes 2-3 days for bacterial culture and is cumbersome to visit a hospital.

In addition, due to the nature of the dental disease early detection and early treatment of the disease is important, so dental examination is often necessary. In particular, children have a lot of refusal to dentistry, there is a difficulty in steady dental examination.

The present invention was devised to solve the above problems, and an object of the present invention is to provide a ubiquitous healthcare system using a dental bacterial sensor that can generate standardized biometric data for each biometric information using a dental bacterial sensor. have.

In addition, an object of the present invention is to provide a ubiquitous healthcare system using a dental bacterial sensor that can determine the dental state of the patient by measuring the biological information conveniently in daily life.

In addition, an object of the present invention is to use a dental bacterial sensor that can detect the disease of the tooth early and can effectively manage the disease by informing the user or a doctor of the disease state of the tooth identified in daily life. It is to provide a ubiquitous healthcare system.

Ubiquitous health care system using a dental bacterial sensor according to an embodiment of the present invention for achieving the above object is the bacterial information, acidity information, sugar numerical information, protein information, blood pressure information, dental caries information or pulse information in the oral cavity A dental bacterial sensor that collects biometric information signals, which are signals of biometric information, is connected to the dental bacterial sensor wirelessly or by wire to receive the biometric information signal, and generates standardized biometric data by classifying each biometric information. It comprises a biometric information server, a standardized database in which the biometric data is stored.

In a preferred embodiment, the ubiquitous healthcare system using the dental bacterial sensor further comprises a risk analysis server, the risk analysis server receives the biometric data based on the biologic data changes over time to phase the disease Behavior pattern derivation means for deriving a behavior pattern that is in progress and disease progression stage identification means for identifying a disease progression stage by comparing the newly transmitted biometric data with the behavioral pattern.

In a preferred embodiment, the risk analysis server comprises a disease progression step notification means for informing the user of the identified disease progression step.

In a preferred embodiment, the ubiquitous healthcare system using the dental bacterial sensor further comprises a toothbrush body provided with bristles on one side, the dental bacterial sensor is provided under the bristles to the user when brushing the bio-signal Acquire.

As described above, according to the present invention, there is an effect of providing a ubiquitous healthcare system using a dental bacterial sensor that can generate standardized biometric data for each biometric information using a dental bacterial sensor.

In addition, according to the present invention, because you can easily grasp the disease progression in their oral cavity simply by brushing in everyday life, the ubiquitous healthcare system using a dental bacterial sensor to prevent or treat oral disease early It has the effect to be provided.

In addition, according to the present invention can provide a ubiquitous health care system using a dental bacterial sensor that can effectively manage the disease by notifying the disease progression stage of the user not only to the user but also to the doctor doctor.

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

1 is a view showing the configuration of a ubiquitous health care system using a dental bacterial sensor according to an embodiment of the present invention, Figure 2 is a view showing that the dental bacterial sensor is provided in the toothbrush body according to an embodiment of the present invention. to be.

Referring to the drawings, the ubiquitous healthcare system 100 using the dental bacteria sensor according to an embodiment of the present invention is a dental bacteria sensor 110, biometric information server 120, standardized database 130 and risk analysis server ( 140).

The dental bacterial sensor 110 collects a biological information signal that is a signal of biological information including bacterial information, acidity information, sugar numerical information, protein information, blood pressure information, dental caries information, pulse information or DNA information in the oral cavity. .

In addition, the biometric information is obtained from saliva or blood in the oral cavity.

For example, the dental bacterial sensor 110 is composed of a target material recognition matrix such as an antibody, an enzyme or a receptor targeting the biometric information, and the matrix reacts with the biometric information to generate a signal converter (not shown). It outputs biometric information signals of color, fluorescent, electrical or optical signals.

In addition, the dental bacterial sensor 110 is provided in the lower portion of the bristles 151 formed on one side of the toothbrush body 150, as shown in Figure 2 to the user in contact with saliva or blood in the oral cavity when brushing the living body Collect information signals.

That is, there is an effect that can collect the biological information signal of the patient conveniently in daily life without having to periodically visit the dental hospital.

The biometric information server 120 is connected to the dental bacterial sensor 110 by wireless or wired to receive the biometric information signal, classifies each biometric information, and generates standardized biometric data.

For example, the bioinformation server 120 may be connected to the dental bacterial sensor 110 by RS232 wireless communication or by wired communication such as a USB port or a data communication port of a mobile phone.

That is, the biometric information server 120 classifies the biometric information signal by biometric information and converts the biometric information signal into systematic biometric data that can be recognized by a computer.

The standardization database 130 stores biometric data generated by the biometric information server 120.

In addition, the standardization database 130 may transmit the stored biometric data connected to the user server 20 accessible to the patient or the expert server 30 provided in the doctor or hospital and the Internet 10.

That is, the biometric data generated by the patient or doctor can be monitored in real time through the Internet 10 or can be viewed as needed.

The risk analysis server 140 is connected to the standardization database 130 and continuously receives and processes the biometric data.

In addition, the risk analysis server 140 includes a behavior pattern derivation means 141, a behavior pattern storage means 141a, a disease progression step identifying means 142, and a disease progression step notification means 143.

The behavior pattern derivation means 141 is a means for deriving a behavior pattern that is a staged progression of the disease. The staged progression of the disease is made by changing the biological data transmitted from the standardization database 130 over time. Derive a behavior pattern.

The behavior pattern storage means 141 stores the behavior pattern derived by the behavior pattern derivation means 141.

The disease progression step identifying means 142 checks the disease progression by comparing the newly transmitted biometric data with the stored behavior pattern.

For example, the behavior pattern storage means 141 records the acidity information in the oral cavity at the initial, middle, and later stages of the disease, and transmits biological data about newly transmitted acidity information to the behavior pattern storage means 141. By comparing the stored acidity information to identify the disease progression stage of the newly transmitted biological data.

The disease progression step notifying means 143 informs the user or doctor of the disease progression step identified by the disease progression step determining means 142.

In addition, the disease progression step notification means 143 may transmit a signal regarding the disease progression step to the user server 20 or the expert server 30 through the Internet 10, and transmits a message to the mobile phone or to the user You can also send e-mail.

In other words, in a networked environment, you can know your oral disease progression only by brushing in your daily life, so there is no hassle of going to the dental hospital periodically, and you can grasp the progress of the disease by the systematic behavior pattern. Therefore, there is an effect that can increase the accuracy of the treatment.

In the above, the configuration and operation of the present invention has been shown in accordance with the above description and drawings, but this is merely described, for example, and various changes and modifications are possible without departing from the spirit and scope of the present invention. .

1 is a view showing the configuration of a ubiquitous healthcare system using a dental bacterial sensor according to an embodiment of the present invention,

2 is a view showing that the dental bacterial sensor according to an embodiment of the present invention is provided in the toothbrush body.

In the drawings according to the present invention, the same reference numerals are used for components having substantially the same configuration and function.

<Description of the symbols for the main parts of the drawings>

100: Ubiquitous healthcare system using a tooth bacteria sensor

110: bacterial bacteria sensor 120: biological information server

130: standardized database 140: risk analysis server

141: means for deriving behavior patterns 141a: means for storing behavior patterns

142: disease progression stage detection means 143: disease progression stage notification means

150: toothbrush body

Claims (4)

Dental bacteria sensor for collecting the biological information signal which is a signal of the biological information including bacterial information, acidity information, sugar numerical information, protein information, blood pressure information, dental caries information or pulse information in the oral cavity; A biometric information server connected to the dental bacterial sensor wirelessly or by wire to receive the biometric information signal, and generate standardized biometric data by classifying each biometric information; Ubiquitous healthcare system using a dental bacterial sensor, characterized in that it comprises a standardized database in which the biometric data is stored. The method of claim 1, It further includes a risk analysis server, The risk analysis server is: Behavior pattern derivation means for deriving a behavior pattern which is a progressive state of a disease based on the change of biological data over time by receiving the biological data; And Ubiquitous health care system using a dental bacterial sensor, characterized in that it comprises a disease progression stage detection means for comparing the newly transmitted biometric data with the behavioral pattern to determine the disease progression stage. The method of claim 2, The risk analysis server ubiquitous healthcare system using a dental bacterial sensor, characterized in that it comprises a disease progression step notification means for informing the user of the identified disease progression step. The method according to any one of claims 1 to 3, Further comprising a toothbrush body having bristles on one side, The dental bacterial sensor is provided under the bristles ubiquitous healthcare system using a dental bacterial sensor, characterized in that to obtain the bio-signal when the user brushing teeth.

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