KR100600863B1 - Method for providing electronic medical records - Google Patents

Abstract

The purpose of the present invention is to stably transmit desired prescription and medical duty records to hospitals and pharmacies designated by the patient as desired by using the medical law's duty to issue medical duty records including prescriptions upon patient's request. It is to implement stable security and authentication system environment using security algorithm of public key infrastructure (PKI) of 128bit or more. In this way, the patient can alleviate the inconvenience of having to submit all his / her past medical records at each visit to the medical institution, and when the prescription is administered, the doctor directly designates and transmits the prescription to the specific pharmacy. It can also prevent the fixing of the back. In addition, the medical institution and medication institution designated by the patient can easily obtain accurate information related to the patient's personal information, medical history, and prescription information. The present invention for achieving the above object comprises the steps of reading the patient history record using the patient authentication key and the doctor authentication key in order; Treating a patient by a doctor; In the step of inputting the disease code, drug code, symptom code, the number of days of drug administration, etc. in the database of the patient in the hospital to create an electronic medical record and encrypting using the patient's public key after the electronic signature; After the treatment, the patient checks his or her electronic medical record through the authentication and decryption process using the patient's private key in the unmanned terminal system; Transmitting a digital signature using a personal authentication key of a patient after selecting a desired transmission court or a pharmacy, and then transmitting it through an encryption process using a public key of a doctor or a pharmacist to be designated and transmitted; The designated doctor or pharmacist includes verifying through the authentication and duplication process using his or her personal authentication key. Accordingly, an object of the present invention is to provide a method and system for establishing an electronic medical medical record database using a public key infrastructure (PKI) encryption algorithm of 128 bits or more that can facilitate the rapid accuracy and efficiency of medical and medication services. have.

Description

Method for providing electronic medical records

1 is a block diagram of a data flow viewed in the order of doctor (a), patient (b), doctor or pharmacist (c) designated by the patient of the present invention.

2 is a process for creating an electronic medical record according to the present invention so that only the patient can see and encrypting the process based on the PKI to allow the patient to allow the doctor or pharmacist to designate his or her records. And a flow chart for explaining a process of implementing through decryption.

3 is a block diagram of a system for constructing an internet-based medical care record database according to the present invention.

<Description of the code | symbol about the principal part of drawing>

3-10: Server 3-11: Hospital Terminal 1

3-12: Hospital terminal 2 3-13: Pharmacy terminal

3-14: cooperating server 3-15: Pharmacopoeia server

3-16: Patient DB 3-17: Doctor DB

3-18: Pharmacist DB 3-19: Patient

3-20,21: Doctor 3-22: Pharmacist

The purpose of the present invention is to introduce a stable security authentication system that currently recognizes the patient-centered medical information sharing environment by sharing the medical information of the patient on the network, including the Internet to other doctors or pharmacists designated by the patient upon request of the patient To build. In particular, in the case of medical division of labor, each electronic prescription delivery system and unmanned terminal system can be established in order to electronically document the prescriptions received by the patient and safely transmit them to the desired pharmacy. By operating in this way, doctors can prevent medical accidents due to misreading of their medical records and prescriptions, and can avoid the problems of collusion between doctors and pharmacists. The purpose is to provide a quick and secure way to send the patient to the desired pharmacy using the accredited public key infrastructure (PKI) certification and security system.

In addition, the system first selects a doctor who wants to receive new medical treatment or a pharmacist who wishes to be freely prepared in accordance with the patient's own doctor in a third place including a hospital, and then the prescription is made by the doctor or pharmacist's public PKI public key. After encrypting the code, the designated doctor or pharmacist must decrypt the next step in order to read the prescription. This is different from a mutual authentication scheme that requires simultaneous entry of the qualifications of qualified people to see whether they are authenticating a simple mutual allowance, in which the patient decrypts the encrypted doctor's prescription again and, as a next step, the designated physician or pharmacist. It is a cryptographic method of a sequential dual public key infrastructure (PKI), which takes the public key so that the public can see it.

In addition, the validity period of prescriptions can be determined by introducing a point-in-time verification system, and can be used as evidence for evidence of medical accident disputes and facts for medical insurance claims. This ensures that patients receive accurate medical care and medication by checking their medical records.

Recently, in conjunction with the medical division of labor, doctors only issue prescriptions for medicines, and pharmacists prepare and administer medicines according to doctors' prescriptions.

The practice of medical division of labor is urgently needed to solve the problem of standardization of prescription documents, data retention problems, geographic and temporal restrictions due to prescription delivery, and accurate delivery and management of prescription contents.

In particular, when a patient visits a medical institution and sees a doctor, he or she can ask the doctor for the details. Physicians should prepare and issue medical records according to the needs of these patients.

Such a problem may occur even when medication is administered by a pharmacist, and may be an inhibitor of accurate administration of medications due to the absence of past medication records.

Thus, despite the fact that past medical and medication records for a patient are very important data for doctors and pharmacists who are going to treat and prescribe a patient, there are no systematic management agents, so there are loopholes in patient management. . The Internet enables real-time business processes, providing rapid accuracy of the prescription delivery process, which is a major problem in the division of medicine. Therefore, if it is necessary to establish a medical division of labor system based on the Internet, electronic documentation of medical prescriptions is required accordingly, and the doctor issues a certificate by confirming the patient's own identity. This can be done through authentication.

A public key infrastructure (PKI) signed by a doctor is a communication infrastructure using public key-based technology, and the basic principle is that the only other pair is an individual when encrypted using the public key of the party receiving the message. People who do not have a key are systems that encrypt on the principle that they cannot be decrypted. When sending an individual message to a large number of recipients, encrypting with the sender's encryption key has the disadvantage of knowing its own password. This ensures that only people with the private key paired with the public key used to encrypt the message can decrypt it. In addition, it is possible to improve the reliability of the transaction by digital signature using the private key. This is because no one but the sender can encrypt. If the certificate of a specific person is justified, the digital signature of the certification authority included in the certificate is verified with the public key in the certification authority's certificate. This reliability problem can be solved by using a highly credible certificate, such as a national accredited certification body. Using the patient authentication key and the doctor authentication key in order to apply this system to the outpatient electronic prescription process; Database a medical record of the patient of the doctor; In the step of inputting a disease code, drug code, symptom code, the number of days of drug administration, etc. in the database of the patient in the hospital to create an electronic medical record and encrypting using the patient's public key after the electronic signature; After the treatment, the patient checks his or her electronic medical record through the authentication and decryption process using the patient's private key in the unmanned terminal system; Transmitting a digital signature using a patient's personal authentication key after selecting a desired hospital or pharmacy, and then transmitting the data through an encryption process using a public key of a doctor or a pharmacist to be designated and transmitted; Designated doctor or pharmacist designed by dividing into verification and decryption process using his personal authentication key. From the point of view of certificate issuance and verification, the patient applies for certificate issuance to the certification authority, and the certification authority generates a generation key / validation key and transmits the application form and verification key. Digital signature generation and transmission will be performed. Among them, certificate registration and identity verification can be done by the hospital instead of a separate place.

The recipient pharmacist requires the certification body to request a certificate and a certificate revocation list, and it is designed to verify each of them after receiving it from the certification body. To apply this system, it is a server toolkit for server certificate management (server toolkit), which can be made in the form of Unix shared library or Java servlet, and as a user toolkit (client toolkit), dll, plug-in, active X , java API, etc. In addition, HDD / FDD / Smart card reader is used for both the server side and the user side as a digital signature generation key storage medium. To this end, complete information protection using public key-based encryption technology is required.

The purpose of the present invention is to establish and operate a patient medical records database for each patient by using the medical doctor's obligation to issue a medical record on request of the patient, so that the patient can manage all the past medical records of each medical institution. The inconvenience of submitting each visit can be eliminated, and the medical institution and medication institution can easily obtain accurate information related to the patient's personal information, medical history, and prescription information, so that the medical service and the medication business can be promptly accurate and efficient. The present invention provides a medical care record database construction method and system therefor.

In addition, the request and management of such data is performed on a server on the Internet. In the authentication part for granting access, it is difficult to verify the identity or the nature of the medical practice. Act as a Registration Authority (RA) to verify patient identity and to authorize the appointment of a new primary care physician or pharmacist who will allow access to his or her medical records (including prescriptions) on the Internet. Will have                         

In addition, another object of the present invention is that a doctor performs only a patient's treatment and issues only a prescription, and a pharmacist performs a medical division of medicine that performs only a medication according to a doctor's prescription. The present invention provides an internet-based electronic prescription system that can be delivered to pharmacists and a method of implementing the same.

The present invention for achieving the above object is a step of using the patient authentication key and the doctor authentication key in order to view the patient history record; Database a medical record of the patient of the doctor; In this step, by inputting the disease code, drug coat, symptom code, the number of days of drug administration, etc. in the database of the patient in the hospital to create an electronic medical record and encrypting using the patient's public key after the electronic signature; After the treatment, the patient checks his or her electronic medical record through the authentication and decryption process using the patient's private key in the unmanned terminal system; Transmitting a digital signature using a patient's personal authentication key after selecting a desired hospital or pharmacy, and then transmitting the data through an encryption process using a public key of a doctor or a pharmacist to be designated and transmitted; The designated doctor or pharmacist establishes a medical records database including the steps of verifying through the authentication and decryption process using his or her personal authentication key, and for establishing the medical records database, hospitals and pharmacy terminals, Server for providing registration authority authentication information to the hospital and pharmacy terminal and receiving and processing the medical record or updated medical record information of the patient's first medical care input from the terminal of each certified hospital and pharmacy, for each patient processed by the server A medical care record database construction system including a patient DB for storing and updating medical records, a pharmacist DB for connecting to the server, and a pharmacist DB for verifying the qualification of a doctor and a pharmacist is provided.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

Figure 1 is a block diagram of the data flow viewed in the order of the doctor (a), the patient (b), the doctor or pharmacist (c) designated by the patient of the present invention.

First, the doctor and the patient to read the patient history record using the patient authentication key and the doctor authentication key in order as in (a); Database a medical record of the patient of the doctor; In this step, enter the disease code, the drug coat, the symptom code, the number of days of drug administration, etc. in the database of the patient in the hospital, and create an electronic medical record (A-1) after the electronic signature (A-2). Through the process of encrypting using the electronic medical record is transmitted to the patient account (A-3). Thereafter, the patient confirms his / her electronic medical record through the authentication and decryption process using the patient's private key in the unmanned terminal system as shown in (b) (b-1); After selecting the hospital or pharmacy, the patient sends his / her own signature through the encryption process using the public key of the doctor or pharmacist who wants to send it after the digital signature (B-2). B. After selecting a doctor or pharmacist who wishes to dispense, the medical records and prescriptions will be transmitted (B-3). Subsequently, the doctor or pharmacist designated as in (C) performs the authentication and decryption process (C-1) using his or her personal authentication key, and then re-decrypts the electronic signature (A ') of the first doctor. Decrypting (C-2) to confirm the first recorded contents (C-3).

Figure 2 is based on the PKI process of making the electronic medical records in accordance with the present invention so that only the patient can see and the patient to allow the doctor or pharmacist to designate their own records This is a flowchart for explaining a process of implementing through encryption and decryption.

First viewing the patient history record using the authentication key of the patient and the authentication key of the doctor; Database a medical record of the patient of the doctor; In step (2-1) to create an electronic medical record (A) by inputting the disease code, drug code, symptom code, the number of days of drug administration, etc. using the database of the patient in the hospital; Encrypting with a hash function for A (2-2); (2-3) the doctor making a digital signature on the electronic medical record with his private key; Generating and encrypting any symmetric key for this (2-4); Encrypting the electronically signed electronic medical record A 'with the public key of the patient (2-5); After the treatment, the patient decrypts the symmetric key through the patient's own private key with the electronic medical record (A ') signed by the doctor in the unmanned terminal system (2-6); Decrypting (2-7) the data encrypted with the symmetric key; Decrypting the electronic medical record with the doctor's public key (2-8); Generating an electronic document B by binding A 'and A after confirming the electronic obligation record A (2 to 9); Encrypting B with a hash function (2-10); Digitally signing B with the patient's private key (2-11); Generating and encrypting any symmetric key for this (2-12); If the patient wants to transmit a designated medical practitioner or pharmacist in the hospital, transmitting the document after the symmetric key is encrypted with the public key of the desired transmitting medical practitioner or pharmacist (2-13); If the patient designates and transmits a doctor or a pharmacist, decoding the symmetric key using the private key of the doctor or pharmacist designated at the designated place (2-14); Decrypting data encrypted with the symmetric key (2-15); Decrypting the electronic medical record with the patient's public key (2-16); Identifying A and A 'in the electronic document B (2-17); Verifying the original electronic medical record A by decrypting A 'with the doctor's public key (2-18); At this time, if the patient visits the pharmacy directly without specifying the pharmacy on the unmanned terminal in the hospital, the pharmacist authentication key of the pharmacy is sequentially decrypted with the patient's private key at the pharmacy.

3 is a block diagram of a system for constructing an internet-based medical care record database according to the present invention.

As referred to herein, the present invention system includes a server 3-10 for constructing and operating a homepage site for electronic prescription on the Internet.

The Internet site operated by this server 3-10 is connected to terminals 3-11 and 12 and pharmacy terminals 3-13 of all hospitals in the country and registered from the server 3-10 as needed. The patient's medical information can be obtained, and the patient registration and update information of the medical record can be updated.

The server (3-10) is a patient DB that stores the first medical record or the new medical record of the specific patient transmitted from all the above pharmacy terminal (3-13) or hospital terminal (3-11, 12) Configure by connecting (3-16).

In addition, the server 10 is connected to the doctor association server (3-14) and the pharmacist association server (3-15) is configured to download the information of registered doctors and pharmacists provided from these associations from time to time, The new pharmacist registration number and the doctor registration number are configured to be stored in the pharmacist DB (3-18) and the doctor DB (3-17), respectively.

The present invention configured as described above will be described in detail.

When the patient 3-19 visits the hospital and requests the doctor 3-20, the doctor treats the patient and gives a prescription accordingly.

Prescription medications will be administered from the pharmacy according to the division of medicine.

At this time, the doctor is obliged to provide the medical records to the patient, so the medical medical records must be prepared and provided at the request of the patient. The medical record for the patient may be transmitted to the server 3-10 through the hospital terminal 3-11.

Prior to the transfer of medical records by such physicians, the certification of the patient is to serve as a registrar by the physician.

The creation and registration of direct and indirect certificates for patients is an important step in maintaining the authenticity and reliability of the patient database.

The server 3-10 is connected to the doctor's agreement server 3-14 and the pharmacist's cooperation server 3-15, and downloads the registered doctor's information and the registered pharmacist's information from the respective associations, and the doctor's own DB ( 3-17) and the pharmacist DB (3-18), and the doctor (3-20,21) of the hospital terminal (3-11,12) or the pharmacist (3-22) of the pharmacy terminal (3-13). Whenever there is a request for certification as a registrar from the two organizations, it is queried and authenticated.

Therefore, if the relevant medical doctor requests the certification of the registration authority to register the medical record for a specific patient from the hospital terminal (3-11), the doctor checks and approves it. Based on this, the doctor records the medical duty record of the patient. Will be sent to (3-10).

The server 3-10 stores the medical duty record of the patient from the hospital terminal 3-11 in the patient DB 3-16.

The patient DB (3-16) is managed and stored according to the patient's identification code directly or indirectly if desired by the patient. After the initial patient DB is created, all subsequent medical records or medication records will be stored according to the patient's member's direct or indirect identification code. It can be accumulated in your account.

Therefore, even if a patient visits another hospital, changes in the attending physician, or transmits a prescription to a pharmacist, the patient (3-12) or the pharmacy is given to the new doctor or pharmacist. By using a terminal, new medical doctors or pharmacists can view the past medical records recorded in the patient's database, thus avoiding duplicate medical examinations and duplicate examinations, and providing advance medical services for patients.

Likewise, the patient's medical result is transmitted to the server side so that the patient's medical history can be continuously and systematically managed.

In addition, the pharmacy may allow the patient to visit the medical history and the medical history of the visited patients using the pharmacy terminal (3-13), and the medication information is created and uploaded by the pharmacist as a registrar.

In addition, such certification system and medical records will be used as the basis for authentic medical treatment and medication records recorded in accordance with patient certification to be effective upon claim.

 As described above, the present invention uploads the patient's medical information through the Internet, and thus provides a basis for quickly and accurately delivering the patient's medical prescription by the doctor to the pharmacist at the pharmacy. All individual medical information related to medication will be made into a database and the unique effects that can be used as the basis of national health statistics data will be shown.

As a result, copying and adding computerized data related to the current medical insurance claim is provided to the patient again, which has the effect of reducing the cost of benefit for medical personnel and providing integrated medical information to the patient.

In addition, the present invention can alleviate the inconvenience that the patient has to submit all his or her past medical records at each visit to the medical institution, the medical institution and the medication institution can easily obtain accurate information related to the patient's personal information, medical history, and prescription information. As a result, the medical work and the medication work can be promptly and efficiently improved. As described above, the present invention can quickly and safely deliver a patient medical prescription by a doctor to the pharmacist of a pharmacy when the medical division of labor is conducted, and also make a database of all medical information related to medical administration and use it as a basis for national health statistics. It can bring a distinctive effect.

Claims (2)

Terminals (3-11 to 13) installed in hospitals and pharmacies, and providing the authentication information as a registrar to the terminals of the hospital and pharmacy, the patient's initial medical record or update input from the terminal of each certified hospital and pharmacy Treatment according to the server (3-10) receiving and processing the medical record information, and indirect patient-specific identification code generated by the third party to protect the patient medical record processed by the server directly or arbitrarily generated A system comprising a patient database (3-16) for storing and updating records, and a pharmacist database (3-18) and a doctor database (3-17) for accessing the server to authenticate doctor and pharmacist qualifications. Using Using the authentication key of the patient and the authentication key of the doctor to view the patient history record; Database a medical record of the patient of the doctor; Creating an electronic medical record (A) by inputting a disease code, drug code, symptom code, days of drug administration, etc. using the database of in-hospital care patients in the step; Encrypting with a hash function the electronic obligation record (A); Signing, by the doctor, the electronic medical record with his private key; Generating and encrypting any symmetric key for it; Encrypting the electronically signed electronic medical record A 'with the public key of the patient; After the treatment, the patient decrypts the symmetric key through the patient's own private key, the electronic medical record (A ') signed by the doctor in the unmanned terminal system; Decrypting data encrypted with a symmetric key; Decrypting the electronic medical record with the doctor's public key; Generating an electronic document B by binding A 'and A after checking the electronic obligation record A; Encrypting B with a hash function; Digitally signing B with the patient's private key; And generating and encrypting any symmetric key for it; In the electronic medical record providing method comprising: Encrypting a symmetric key with a public key of a desired transmitting medical practitioner or pharmacist if the patient wants to transmit a designated medical practitioner or a pharmacist in the hospital; When the patient designates and transmits a doctor or a pharmacist, decrypting the symmetric key using the private key of the doctor or pharmacist designated at the designated place; Decrypting data encrypted with the symmetric key; Decrypting the electronic medical record with the patient's public key; Identifying A and A 'in the electronic document B; Verifying the original electronic medical record A by decrypting A 'with the doctor's public key; At this time, if the patient visited the pharmacy directly without specifying the pharmacy on the unmanned terminal in the hospital, the pharmacist authentication key of the pharmacy sequentially after decrypting the patient's private key in the pharmacy; Transmitting a past medical record recorded in the patient's database to a hospital terminal or a pharmacy terminal for viewing by a new doctor or pharmacist; And Receiving a new medical result or dosage information of the patient from the hospital terminal or a pharmacy terminal and storing it in a database of the patient; Electronic medical records providing method comprising a. delete

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