• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a computer-implemented patient data system (100) and to a method (200) for guiding, providing and updating patient data. The system (100) includes smart cards (112) that are associated with patient data when registering patients and have a unique identification number, which refers to the particular patient. The system (100) stores patient information along with its health data and demographic information and associates it with their corresponding unique identification numbers. The demographic information can be edited / updated by a patient after successful authentication. When a registered patient visits a healthcare facility / lab, a successful physician will be able to access the authenticated patient's data, medical history, and demographic information for better treatment after successful two-factor authentication. Any treatment details after diagnosis and / or prescription by the physician and the test results from the laboratory are then uploaded via the network and maintained by the system.
    公开号:CH709951A2
    申请号:CH01249/15
    申请日:2015-08-31
    公开日:2016-03-15
    发明作者:Nilesh Satish Kanade;Rupa Nilesh Kanade
    申请人:Nilesh Satish Kanade;
    IPC主号:
    专利说明:

    Technical part
    The present invention relates to the field of patient data systems.
    The term "patient" used hereinafter refers to a healthy or ill person or animal visiting a medical center, a doctor, a hospital, a pathology laboratory, veterinary laboratory, etc., who has a patient data system for the medical examination and Diagnosis used.
    The term "user" as used herein refers to a person using a patient data system. These definitions supplement the definitions commonly used in this field.
    General technical background
    [0004] For many years, maintaining patient data has been a well-known practice whereby physicians or naturopaths track the history of their patients. Such patient information typically includes information about patients' allergies, observations, diagnoses and treatments, as well as the success and failure of the proposed treatments. This method builds and strengthens the confidence in a doctor-patient relationship. Since patients tend to change their primary location due to relocation or new work, doctor-patient relationships are less pronounced today. Forming such a relationship with a new healthcare provider can be cumbersome as the patient's entire medical history has to be physically transferred to the new healthcare provider. In addition, all health insurance details and changes thereof must also be communicated to the healthcare provider and the insurance companies. Even after such a transfer process, which takes a significant amount of time and effort, there is a possibility that the records are incomplete, as patients / physicians fail to remember all the necessary medical or biographical information. Sometimes patients may even provide false information that may affect their health due to an inappropriate diagnosis.
    Thus, from the aforementioned drawbacks, it can be concluded that there is a need for a system that stores patient data and provides it anywhere regardless of time and place.
    An object of the system of the present invention is to provide a system that connects healthcare providers worldwide.
    Another object of the present invention is to provide a system which allows quick access to patient data for the purpose of efficient acute treatment.
    Yet another object of the present invention is to provide a system which securely stores uploaded data and provides medical records anytime, anywhere.
    Another object of the present invention is to provide a system associated with various medical centers, physicians, hospitals, pathology laboratories and insurance companies.
    Yet another object of the present invention is to provide a system that enables remote access to medical information.
    An additional object of the present invention is to provide a system which enables multiregional, multilingual and multiplatform support.
    Other objects and advantages of the present invention will become apparent from the following description, taken in conjunction with the accompanying drawings, which are not intended to limit the scope of the present disclosure.
    Disclosure of the invention
    The present invention provides a computer-implemented patient data system as well as a method for maintaining, providing and updating patient data. In one embodiment, the system of the present invention includes smart cards connected to the patient data. These smart cards are associated with unique identification numbers that relate to a patient. Furthermore, the system may include a cloud server that stores the health data of the patients. The cloud server may include demographic storage for storing patient demographic information, data storage for storing patient data, and patient memory for storing a patient's unique identification number and associated password. The system may include a first input module that accepts a password and demographic information of the patient. The system may include at least a first authenticator comprised of a smart card reader to coordinate with the smart cards for the purpose of identifying the unique identification numbers of the associated smart cards. The first authenticators may cooperate with the first input module to receive patient passwords and compare them with the stored patient passwords relating to the unique identification numbers from the patient memory and thus authenticate patients. After successful authentication, the system can have a first crawler and extractor in the system cooperate with the first authenticator to read and extract demographic information from the authenticated patient in the cloud server. The system may include a second input module for accepting credentials and patient records from a physician. These credentials of physicians may be received by a second authenticator present in the system to compare them with already stored credentials and to authenticate the physician in this manner. This second authenticator may also cooperate with the first authenticator to transmit the unique identification number of an authenticated patient. A second crawler and extractor may then receive the unique identification number of the authenticated patient from the second authenticator and read the cloud server to extract health data of the authenticated patient. This health data can then be displayed via a display in the system. The display may also cooperate with the first crawler and extractor, as well as the second crawler and extractor, to display the authenticated patient's demographic and health information to the authenticated patient and / or the authenticated physician. The system may further include an editor for processing the data storage based on accepted patient data and for processing the demographic storage based on assumed demographic patient data.
    This summary is provided to introduce concepts related to the patient data system, which will be described later in the detailed description. This summary is not intended to determine essential features of the present invention, nor is it intended to determine or limit the scope of the present invention.
    Brief description of the attached drawings
    A computer-implemented patient data system and method thereof will now be described with reference to the non-limiting accompanying drawings, in which:<Tb> Fig. 1 <SEP> illustrates a schematic representation of one embodiment of a patient data system.<Tb> Fig. 2 illustrates a flowchart of one embodiment of a computer-implemented patient data method for maintaining, providing and updating patient data.
    Detailed description of the attached drawings
    The system of the present invention will now be described with reference to the embodiment shown in the accompanying drawing. The embodiment is not intended to limit the scope and scope of the invention. The description refers only to the examples and preferred embodiments of the disclosed system and its suggested applications.
    This system and its various features and advantageous details are explained with reference to the non-limiting embodiments of the following description. Descriptions of well-known parameters and processing techniques have been omitted so as not to unnecessarily obscure this embodiment. The examples used herein are merely intended to provide an understanding of the possible uses of the embodiment described herein, as well as to further facilitate the use of the included embodiment to persons skilled in the art. Accordingly, the examples should not be construed as limiting the scope of the embodiment described herein.
    According to the present invention, the system allows individual practitioners, e.g. Doctors, medical professionals, nurses, dentists, pharmacists and other medical emergency services upload and access patient information regardless of time and place. For this purpose, each registered patient will have a personalized smart card with a unique ID number. This smart card is encoded with basic patient information, including patient identification information. If the patient visits a doctor or a pathology laboratory, he / she must present his / her smartcard to the doctor or the person concerned. After a two-step authentication, a physician is then able to access patient information and the patient's history, including the patient's demographic information, to better treat it. Any treatment details as a result of the doctor's diagnosis and / or prescription, as well as laboratory test results, are uploaded to a data store via the network. In one embodiment, a patient's entire medical history is stored in the data store using a unique ID of the patient and stored on a cloud server along with a demographic store in which the patient's demographic information is stored. In one embodiment, the cloud server includes insurance information and details of the patient's insurance coverage. Based on the information, the system automatically integrates the insurance information to provide the patient with relevant coverage based on the current diagnosis. Health, diagnostic and patient test information can be uploaded to the system by authorized healthcare professionals. It is possible for a patient to upload and edit their demographic data, as well as their social history, including the exercise and diet the patient is following, to enable relevant diagnosis and treatment. Because the cloud server keeps track of all medical history and demographic data, only the authorized physician / patient can access and update specific information. In one embodiment, the patient is an animal registered in the system, and the animal keeper / owner of the large or small animal provides the veterinarian with the animal's personalized smart card for authentication, verification and diagnosis.
    With reference to the accompanying drawings, FIG. 1 illustrates a schematic representation of one embodiment of a patient data system 100 that maintains, provides, and updates patient data regardless of time and location. A cloud server 102 which resides in the system 100 stores the complete history of the patient including relevant additional information such as the insurance cover of a particular patient. The cloud server includes demographic storage 104 to store the demographic information relating to the patients using the unique IDs of the patients. The cloud server 102 also includes a data storage 106 which stores patient records of the patients by means of their unique IDs. Other modules in the system 100 cooperate with the cloud server 102 to provide authorized access to and update of patient data.
    In one embodiment, the system 100 is accessed by the patients to update their relevant demographic information that may be helpful in the diagnosis / treatment. Based on the demographic information, the system 100 suggests an appropriate insurance and / or a nearby healthcare provider / center based on the needs of the patient.
    In another embodiment, the system 100 is accessed by end users, including government agencies, institutions, hospitals, and the like. Citizens of a government may independently register to use the system 100 by connecting an existing card system (eg, a country driving license) to a personalized smart card provided by the system 100. This allows the system 100 of the present invention to readily use the relevant, available information to track the medical history of such patients who travel a lot or are temporary immigrants. The system 100 may also be used by hospitals, pharmacies, drugstores, pathology departments, and the like. A registration module 110 in the system 100 allows the patient to access the system 100 and register. During registration, the patient submits the required data and proof of completeness and correctness of the data. If e.g. For the first time a patient accesses the system, he sends his demographic information along with a valid ID card as reference. When the patient has registered, he receives a personal smart card 112 with a unique 16-digit ID and a PIN number / password to log into the system 100.
    In one embodiment, the patient accesses the system 100 via a network using his unique credentials (ID and PIN number), using a device, regardless of location and time, to change his demographic information. If the patient is ill and needs a medical opinion / treatment or has to undergo pathological tests, the patient presents his personalized smart card 112 (which was provided after registration in the system 100) in a medical facility. A smart card reader in the form of a card reader 114 present in the system 100 is installed in recognized medical facilities, including hospitals, clinics, pathology laboratories, and the like.
    In one embodiment, the card reader 114 is a handheld device that does not need to be mounted or installed in the medical facility. When the patient presents the smart card 112, it is read using the card reader 114 to identify the unique ID of the smart card 112. The patient then presents his PIN number so that the physician or the authorized person concerned can see the demographic details of the patient. This serves as a first level of authentication, whereupon, upon successful authentication, the physician is able to see basic information regarding the patient's health on a display in the form of a display 124. A first authenticator 116 in the system cooperates with the display 124 to prompt the user / patient to enter a valid PIN ID / password for the recognized unique ID after the smart card 112 has been successfully read by the card reader 114. A first input module 117 accepts the PIN / password from the user / patient and delivers it to the first authenticator 116 to confirm whether the user / patient is a registered patient.
    The system 100 includes a first crawler and extractor 122, which cooperates with the first authenticator 116 to receive the entered unique ID and PIN number / password, and reads out a patient memory 108 on the cloud server 102 to extract the corresponding stored unique ID and PIN / password based on the received unique ID. If the extracted PIN number / password matches the entered PIN number / password, the first authenticator 116 authenticates the patient, thus providing a successful first level of authentication. The first crawler and extractor 122 then reads the demographic store 104 to extract the demographic information related to the authenticated patient and display it on the display 124. This demographic information contains basic information about the patient and details of the patient, including their blood type, allergies, and the like. This proves to be beneficial in emergencies where physicians need to treat a patient in a critical condition.
    Upon completion of the first level of authentication, the display 124 prompts the physician / affected proxy to enter valid credentials to access the patient data. The valid credentials of the physician / health practitioner / laboratory technician include a registration number from the medical board of the country where the doctor practices. A second input module 118 accepts the valid credentials of the physician and transmits them to a second authenticator 120. The second authenticator 120 then cooperates with a memory of the medical chamber 128 of the respective country to authenticate the person wishing to access patient data. Upon successful second level authentication by the second authenticator 120, a second crawler and extractor 126 reads the data store 106 present in the cloud server 102 to extract the health data of the patient who has deployed the smart card 112 and display the patient's history on display 124. The doctor then uses this information for better diagnosis and treatment of the patient. After successful authentication, the clinician (s) may edit / update the patient records residing in the data store 106 for future use with an editor 140. In addition, the editor 140 allows demographic information to be processed in demographics 104 to authenticated patients.
    In one embodiment, smart card 112 includes a photograph of the patient to prevent fraudulent use, the patient's blood type for emergencies, and one or more emergency contact numbers. In the event of an emergency or a critical situation in which the patient is unable to provide his / her PIN number / password, the physician or the authorized person concerned contacts the emergency number (s) on the smart card 112 and obtains the PIN number / password. Password for the patient to allow for immediate treatment without having to wait for relatives / friends to provide the relevant critical information for the treatment. This saves time in obtaining the required information and the doctor is able to operate / efficiently treat the patient. Considering another case where the patient forgets to bring his smart card 112 to the clinic / hospital / pathology lab, the patient only needs to provide the unique ID number of his smart card 112 and requests an online PIN / one-time password from the system 100 to complete the first-level authentication. The system 100 includes a customer service module 130 that provides the patient with an online PIN / one-time password after the patient satisfactorily responds to predetermined authentication questions. This online PIN / one-time password is then input to the first authenticator 116 to authenticate the patient and display his demographic details on the display 124.
    In one embodiment, a patient using this system 100 requests an appointment from a particular physician or laboratory technician and the physician or laboratory technician accepts or relocates the appointment based on both the patient's availability and the physician / laboratory technician. The information regarding the visit along with the diagnostic information and subsequent information related to the test results / prescribed medication are then stored on the cloud server 102 using the unique ID of the patient for future use. This allows different doctors to treat a common patient conducting mutual conversations during the diagnosis.
    In one embodiment, the patient may view the physician's information / comments after his diagnosis. The system 100 also includes a training module 138 to train physicians and support personnel. Training module 138 provides an understanding of system 100 and how it is to be used for the benefit of patients and physicians. The training module includes training for scheduler management, patient directory management, OPD interface, use of second counseling, data updating and retrieval, and the like. If a user is a pathologist, the training module 138 provides training for sampling, data updating, volume data management, inventory management, and the like. The system 100 is also adapted to deliver medical supplies to physicians or patients who have requested them using the system 100. Upon receipt of the medical supplies, the pharmacists may notify the patients and physicians to make necessary changes to the information in the cloud server 102.
    A disease information management module 136 in the system provides patients with self-administration support and decision support information about various diseases. The patient's self-management support enables patient records and objectives to help them maintain, track, and achieve a health goal. The disease information management module 136 includes a registry of chronic diseases as well as information to physicians / pathologists who specialize in it. The customer service module 130 in the system 100 provides technical assistance when the user of the system 100 encounters a problem in use.
    In one embodiment, the support is multilingual and in the form of an automatic response or human assistance. The system 100 also includes a knowledge processing unit 132 that focuses on personnel optimization, quality monitoring, recording, workforce management, performance management, desktop and process analytics, eLearning, coaching, speech analysis, text analysis, enterprise feedback management, customer surveys, fraud prevention and identity authentication, and the like , The system 100 also includes a supplier management module 134 that facilitates the connection of other medical systems with the system 100 of the present invention. For example, if someone develops an X-ray machine that handles the output in JPEG or PNG format with written description, the step of scanning the X-ray book can be minimized if this system is integrated into the system 100 of the present invention as long as it complies with medical regulations , Therefore, the system 100 can be used on any platform and is designed to be integrated with other medical systems.
    Referring now to the attached drawings, Figure 2 illustrates a flowchart of one embodiment of a computer-implemented patient data method 200 for maintaining, providing and updating patient data. Each patient has a smart card when registering. Each smartcard has a unique identification number and is associated with the health records of a patient 202. It is also available with information about the patient, e.g. Identification information, coded. Procedure 200 continues to store the patient data in a cloud server 204. This information includes patient demographic information, patient information, unique identification number, and corresponding patient password. When a patient visits a health facility / clinic, he gives his smart card to the sufferer / doctor. Procedure 200 requires the unique identification number of the smart card together with the corresponding patient password to authenticate the patient. It includes the steps of accepting the patient password from the patient and the patient data 206 and identifying a unique identification number associated with the smart card in the form of a smart card 208. The procedure 200 then authenticates the patient by comparing the accepted patient password to the stored patient password associated with the unique identification number. The unique identification number of the authenticated patient is then transmitted for later use 210.
    Upon successful authentication, demographics of the authenticated patient are extracted from the cloud server 212. The approach 200 provides two-stage authentication, which includes the authentication of a physician / sufferer. To authenticate the physician, the physician's credentials are accepted 214. The procedure 200 also includes the step of accepting the patient's health records / analysis / diagnosis from the physician. If the credentials have been accepted, the method 200 includes the step of comparing the accepted credentials with pre-stored credentials to have a second level of authentication 216. When both levels of authentications have been completed, unique identification numbers and patient data of the authenticated patient are received 218 and the obtained information displayed along with demographics of the authenticated patient 220 to enable the physician to treat / diagnose the patient.
    The procedure 200 also allows the demographic information and patient data 222 to be processed by an authorized person. The methodology 200 also includes steps of storing insurance information and details of the patient insurance coverage for automatically linking the stored insurance-related information to provide relevant insurance coverage to the patient. In addition, the approach involves 200 steps of providing suggestions to patients, including appropriate insurance and a nearby physician, based on the patient's demographic information and patient demand. The approach 200 includes steps of accepting patient demographic information and health data at the time of initial registration and updating of the stored demographic information and patient data. It also includes steps to provide the patient with customer service, provide training selected from a group consisting of sample collection training, data update, volume data management, inventory management, and the like, thereby providing self-management and decision support for disease, integration with other medical systems, and delivery techniques, including human resource optimization, quality control and recording, workforce management, performance management, desktop and process analytics, eLearning, coaching, voice analytics, text analytics, enterprise feedback management, customer surveys, fraud prevention and identity verification, and the like.
    A computer-implemented patient data system and associated method according to the present invention described above has several technical advances, including, but not limited to, implementation:a system that connects with health care providers worldwide;a system that provides quick access to patient data for efficient acute care;a system that securely stores uploaded information and provides patient information anytime, anywhere;a system that links with various medical centers, doctors, hospitals, pathology laboratories and insurance companies;a system that provides remote access to health information;a system that allows easy access for emergency missions;a system that reduces medical errors due to human error;a system that reduces the occurrence of medical identity theft and fraud;of a system that allows the transferability of patient dataoffers; anda system that allows multiregional, multilingual and multiplatform support.
    The above description of the specific embodiments will thus fully disclose the general nature of the embodiments described herein, which others may easily modify by application of current knowledge and / or adapt such specific embodiments to various applications without departing from the general concept, and therefore should and, such adaptations and modifications are to be understood within the meaning and range of equivalents of the disclosed embodiments. It should be understood that the phraseology or terminology used herein is for the purpose of description and not limitation. Therefore, although the embodiments described herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments described herein may be utilized with modifications within the spirit and scope of the embodiments described herein.
    权利要求:
    Claims (14)
    [1]
    A computer-implemented patient data system (100) for maintaining, providing and updating patient data, the system comprising:Smart cards (112) associated with the patient data, each record having a unique identification number corresponding to a patient;a cloud server (102) adapted to store the patient data, the server comprising:a demographic memory (104) adapted to store patient demographic information;a data memory (106) adapted to store patient data; anda patient memory (108) adapted to store unique identification numbers of the patients and the corresponding patient passwords;a first input module (117) accepting patient passwords and patient data;at least one first authenticator (116) comprising a smart card reader (114) adapted to cooperate with the smart card to identify the unique identification numbers with the smart cards, the first authenticator being adapted to cooperate with the first input module, to receive a patient password and compare it with a stored patient password relating to the unique identification number to authenticate patients;a first crawler and extractor (122) adapted to cooperate with the first authenticator and to read the cloud server to extract demographic information of an authenticated patient;a second input module (118) adapted to accept credentials and health data from a physician;a second authenticator (120) adapted to cooperate with the second input module to receive and compare the accepted credentials with previously stored credentials to authenticate a physician, the second authenticator being further adapted to the first one Authenticating to cooperate to transmit the unique identification number of the authenticated user;a second crawler and extractor (126) adapted to cooperate with the second authenticator to receive the unique identification number of an authenticated patient and to read the cloud server to extract health data of the authenticated patient;a display (124) adapted to cooperate with the first crawler and extractor and the second crawler and extractor to indicate to the authenticated patient or the authenticated physician demographic information and health data of the authenticated patient; andan editor (140) adapted to process the data memory based on recognized patient data and the demographic memory based on recognized patient data.
    [2]
    The system of claim 1, wherein said smart cards (112) are encoded with the data of the respective patients, including the patient identification information.
    [3]
    The system of claim 1, wherein the cloud server (102) is configured to store information regarding insurance and details of the insurance coverage of the patients, and wherein said system (100) is adapted to automatically connect the stored insurance-related information, to provide patients with relevant insurance coverage.
    [4]
    4. The system of claim 1, wherein the first crawler and extractor (122) is configured to cooperate with the at least one first authenticator (116) to receive the unique identification number and the patient password, and the patient memory ( 108) of the cloud server (102) to extract the stored patient password relating to the unique identification number from the patient memory (108).
    [5]
    The system of claim 1, wherein the system (100) is adapted to provide patient suggestions, including appropriate insurance and a nearby physician, based on the patient's demographic information and patient requirements.
    [6]
    The system of claim 1, wherein said pre-stored login information is stored in a memory of a medical chamber (128).
    [7]
    The system of claim 1, wherein the system (100) further comprises:A registration module (110) configured to cooperate with the cloud server (102) to accept patient demographic information and health data at the time of initial registration, and the demographic storage (104), the data storage (10); 106) and update the patient memory (108) in the cloud server;A customer service module (130) configured to provide customer service to the patients;A training module (138) adapted to provide training selected from a group consisting of training for sample collection, data update, volume data management, inventory management, and the like;A disease information management module (136) configured to provide self-management support and disease decision support;A supplier management module (134) configured to facilitate integration with other medical systems; andA knowledge processing unit (132) configured for techniques including personnel optimization, quality monitoring and recording, workforce management, performance management, desktop and process analytics, eLearning, coaching, speech analysis, text analysis, enterprise feedback management, customer surveys, fraud prevention and identity authentication, and to offer such.
    [8]
    A computer-implemented patient data method (200) for maintaining, providing and updating patient data (206), the method comprising the steps of:- connecting (208) smart cards to the patient health data, each card having a unique identification number corresponding to a patient (202);- storing (204) said patient data in a cloud server (212), said step of storing consisting of:Storing demographic information of the patients in a demographic store;Storing patient data in a data store; andStoring unique patient identification numbers and associated patient passwords in a patient memory;- accepting (206) a patient password and demographic patient data;- identifying (208) unique identification numbers associated with the smart cards and receiving the accepted patient password;Comparing the received patient password with a stored patient password associated with the identified unique identification number to authenticate the patient;- transmitting (210) the unique identification number of an authenticated patient;- reading and extracting (212) demographic information of an authenticated patient from the cloud server;- acceptance (214) of credentials and patient data from a physician;Comparing (216) the recognized credentials with already stored credentials to authenticate a physician;- receiving (218) the authenticated patient's unique identification number and extracting the health data of the authenticated patient;Displaying (220) demographics information and health data of the authenticated patient for the authenticated patient or the authenticated physician; and- processing (222) demographic information and patient data based on the accepted demographic information and accepted patient data.
    [9]
    The method of claim 8, wherein the method (200) comprises the step of encoding information of the respective patient, including the patient identification information, on the smart card (208).
    [10]
    The method of claim 8, wherein the method (200) includes the step of storing (204) information regarding insurance policies and details of the patient's insurance coverage, and the step of automatically linking the stored insurance-related information for the purpose of providing relevant insurance coverage to patients includes.
    [11]
    The method of claim 8, wherein said step of comparing the received patient password with a stored patient password comprises the step of identifying (208) the unique identification number and accepting (206) the patient password, and reading ( 212) of the patient memory for the purpose of extracting the stored patient password relating to the unique identification number from the patient memory.
    [12]
    The method of claim 8, wherein said method (200) is adapted to provide patient suggestions, including appropriate insurance and a nearby physician, based on the patient's demographic information and patient requirements.
    [13]
    The method of claim 8, wherein the method (200) comprises the step of obtaining pre-stored credentials from a medical council store.
    [14]
    14. The method according to claim 8, wherein the method (200) further comprises:- acceptance of demographic information and health data of the patient at the time of initial registration and updating of the stored demographic information and health data;- Providing customer service to patients;- providing training units selected from a group consisting of sampling, data update, volume data management, inventory management and the like;- providing self-management support and disease decision support;- facilitate integration with other medical systems; and- Providing techniques, including human resource optimization, quality control and recording, workforce management, performance management, desktop and process analytics, eLearning, coaching, speech analysis, text analytics, enterprise feedback management, customer surveys, fraud prevention and identity authentication, and the like.
    类似技术:
    公开号 | 公开日 | 专利标题
    DE69731884T2|2005-12-15|COMPUTER-ASSISTED MEDICAL DIAGNOSTIC AND CONSULTING SYSTEM WITH ACCESS TO A COMMUNICATION NETWORK
    DE102005056081A1|2007-06-06|Workflow generating method for medical treatment, involves evaluating medical investigation for answering generated diagnostic question, and generating workflows based on initial symptom list of patient and/or answer
    DE112012002514T5|2014-03-27|Procedures and systems to ensure compliance
    DE112010001870T5|2012-09-20|METHOD AND SYSTEM FOR MANAGING AND DISPLAYING MEDICAL DATA
    DE10316298A1|2004-11-04|Process and arrangement for the automatic preparation and evaluation of medical data
    US20070197882A1|2007-08-23|Integrated method and system for diagnosis determination
    DE102007026802A1|2007-12-20|Electronic medical data searching method for patient, involves executing search of medical data based on search criteria to create pool of potential study participants, and outputting pool of potential study participants
    DE112012006037T5|2015-02-26|Biological information distribution server, program and medical support system using it
    EP1349099A2|2003-10-01|Method for automatic gathering of patient actions
    WO2002056234A2|2002-07-18|System for detecting and storing individual-specific data, a corresponding storage element, and a method for rescuing and/or medically caring for living beings in an emergency
    DE102006046319B4|2008-07-03|A method for finding and displaying information in a medical device information system
    DE112013000511T5|2014-11-27|Access to confidential information through a social networking site
    CH709951A2|2016-03-15|A computer implemented patient data system and a method which makes use of it.
    CN111210917A|2020-05-29|Medication guiding method and system based on offline code scanning
    DE202019102730U1|2019-07-12|Learning machine for intelligent communication and analysis
    EP1102193A1|2001-05-23|Medical system for patient data referral/transfer
    KR101156467B1|2012-06-18|Pc-based communication method between electronic medical record system and web-based personal health record account
    DE102016202335A1|2017-08-17|Medical examination system
    DE102018005746A1|2020-01-23|Medical emergency data access arrangement
    DE112019002930T5|2021-05-27|DEVICE, METHOD AND PROGRAM TO ASSIST PATIENT QUESTIONNAIRE CREATION
    EP3410386A1|2018-12-05|Method for data management in health care
    EP3528257A1|2019-08-21|Computer program, system and method for managing medical data related to a patient
    JP2019050017A|2019-03-28|Research information management system
    Hyatt2019|Topics in Next-Generation Medical Ethics
    EP3433778A1|2019-01-30|Software having control logic for secure transmission of personal data via the internet from computers to the server, with secure storage of the data on servers
    同族专利:
    公开号 | 公开日
    CH709951B1|2018-01-15|
    US20160063190A1|2016-03-03|
    WO2016035017A1|2016-03-10|
    DE112015004028T5|2017-06-01|
    AU2014101286A4|2014-11-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20040260577A1|1999-11-15|2004-12-23|Recare, Inc.|Electronic healthcare information and delivery management system with an integrated medical search architecture and capability|
    JP4161028B2|2002-03-06|2008-10-08|株式会社日立国際電気|Multi-service wireless communication system|
    WO2004102329A2|2003-05-08|2004-11-25|Good Health Network, Inc.|Secure healthcare database system and method|
    US20060015369A1|2004-07-15|2006-01-19|Bachus Sonja C|Healthcare provider recommendation system|
    US20070005396A1|2005-06-29|2007-01-04|Lee Keat J|Method and device for maintaining and providing access to electronic clinical records|
    US11049597B2|2010-08-04|2021-06-29|NextGen Management LLC|Electronic prescription delivery system and method|
    US20130226608A1|2012-02-28|2013-08-29|Christopher Di Lascia|System for identifying, monitoring, influencing and rewarding healthcare behavior|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    IN2809MU2014|2014-09-03|
    [返回顶部]