METHODS, PLATFORM AND SYSTEM FOR COLLECTING AND MANAGING PATIENT VITAL DATA FOR HEALTH FACILITIES

专利摘要:
The invention relates to a system for collecting and managing vital data (DA) of patients (Pi, Pj) delivered by measuring devices (Ax, Ay, Az) within a health facility. Such a system comprises a platform (10) collecting and managing said data. The platform (10) cooperates with a server (1) of computerized patient records (DPi) and with a plurality of communicating devices (20, 20a, 20b) used by health personnel. The platform includes patient repositories (MIs) and measuring devices (MAs) to control associations or dissociations of devices and patients. The platform (10) generates and transmits to the server (1) queries for the updating of relevant and complete computerized patient records (DPi). The invention further relates to an administration device (6) interacting with the platform (10) for supervising said measuring devices.
公开号:FR3019675A1
申请号:FR1453138
申请日:2014-04-08
公开日:2015-10-09
发明作者:Jean-Baptiste Michon；Mathieu Roullet
申请人:Enovacom SAS；
IPC主号:

专利说明:

[0001] Methods, platform and system for collecting and managing vital patient data for health facilities The invention relates to a collection and management system, mainly vital or physiological data of patients accommodated in a health facility, such as than a hospital or clinic. More specifically, the invention relates to a platform responsible for enriching the electronic or computerized patient files, using said data, by minimizing the human actions necessary for the constitution of said records as well as the risks of erroneous data assignments. Thanks to a particularly innovative design, the invention also allows dynamic and optimal management of the fleet of vital data measuring devices within a health facility and particularly effective monitoring of patients supported by said institution. Consolidating a patient's medical record is not easy. Indeed, it includes a wide variety of information administrative and therapeutic. Upon the admission of a patient to a health facility, during the care of it with possibly a plurality of services and by a plurality of practitioners, such as doctors, nurses or caregivers, until the exit of said patient, the need for any practitioner within the institution to have a current view, relevant and complete information related to the patient remains only partially satisfied. In addition, this need mobilizes a health worker activity that is particularly time-consuming. It is often diverted from therapeutic gestures to try to consolidate patient records. Despite the willingness of these staff, the current tools available to collect, report and record the administrative and medical data of a patient are unfortunately still sources of inconsistencies, redundancies, errors or lack of information within the patient records. Such a patient file, even computerized (known in the English terminology Electronic Medical Record, EMR) encompasses, in a non-exhaustive manner, all the information concerning the health of a patient, that is to say information held by practitioners who have contributed to the development and / or follow-up of a diagnosis, a treatment or a preventive action, and which have been the subject of written exchanges between professionals health, such as examination results, records of consultations, interventions, explorations, therapeutic prescriptions, etc. A medical file is created for each patient hospitalized in a public or private health facility. It is registered and updated by a patient data server, usually dedicated to that institution. Such a server may be, alternatively, remote or even distributed over several sites. The computerized medical file of a patient thus includes information formalized and collected during external consultations dispensed in the establishment, during the reception at the emergency department or at the time of admission and during the hospital stay. We find the doctor's letter that led to a consultation or admission, the reasons for hospitalization, a search for antecedents or risk factors, the type of care provided, prescriptions performed at the admission of the patient, information related to care provided, prescriptions established during consultations, whether these are external or internal. The file also includes information on the patient's management during hospitalization, including the clinical condition, the care provided and the vital data measurements delivered by measuring devices. The computerized medical record may further include information established at the end of the patient's stay. During the care of a patient, even if he or she has an outpatient consultation, that is to say, without consultation leading to hospitalization, different health personnel may provide care. Different devices for measuring vital data are also requested. To log and date the vital data collected, there are different systems implementing hardware and software solutions. A first approach, illustrated briefly in Figure 1, is to have an electronic collection assistant 2n or 2m in each room, precisely at the bedside of each bed provided to accommodate a patient. The function of such an electronic assistant 2n or 2m is to collect vital data of said patient delivered by a measuring device Ax, Ay or Az, for example a blood pressure monitor, a medical ventilator or an infusion pump, suitable or arranged for communicate with said electronic assistant. In connection with Figure 1, a first patient Pi is hospitalized. It occupies a bed Ln in a room Rn, side window. A neighbor of misfortune Pk occupies a second bed Ln 'in the same room Rn, corridor side. This patient Pk and this bed Ln 'are not represented in FIG. 1. A second electronic assistant 2n', also not shown in FIG. 1, is positioned near its bed Ln '. A third patient Pj benefits from a consultation without hospitalization. In a Rm consulting office, a 2m electronic assistant is present to collect vital patient data during the respective consultations. To collect the vital data of said patients, this known technical solution requires providing a gateway between all the vital data measuring devices and said electronic assistants. This gateway, possibly separate from one device to another, makes it possible to establish communication between the Ax, Ay, Az devices and the electronic assistants 2n, 2n 'and 2m. Thus, according to FIG. 1, a tensiometer Az communicates via a wired gateway Cz with the wizard 2m, for example by means of a serial link conforming to the RS-232 standard. The wizard 2n communicates for its part, with an infusion pump Ax by wired Cx communication implementing a USB serial bus (known by the name Universal Serial Bus). An Ay fan is connected via a serial link Cy by means of a cable to the electronic assistant 2n. To implement such wired communication Cx, Cy or Cz, connectors are generally used to ensure on the one hand the physical relationship between a device and an electronic assistant, and on the other hand a possible conversion of communication port. Such a connector may further provide a unique connector identifier value for the wizard to indirectly discern the connected devices. If it is impossible to make communicating a measuring device, an electronic assistant 2n, 2n 'or 2m includes an input interface to allow health personnel to record the data measured by said non-communicating device. Whatever the mode or method of collection, an electronic assistant records the vital data in internal storage means. According to a determined periodicity, an electronic assistant transmits, to a vital data aggregation server 3, the vital data collected possibly from several measuring devices during the monitoring of the patients of which he remains "at the bedside". The routing of said vital data to the aggregation server 3 is done by means of a communication network Np generally wired and proprietary.
[0002] To parameterize the aggregation of data, or even to enrich them or to intervene on them before aggregation, the aggregation server cooperates with a console 4. An operator of said console 4 can thus set or influence the aggregation of data received from an electronic assistant. Data previously collected by a plurality of electronic assistants are thus aggregated and then transmitted to a server computerized patient records 1 according to a standardized communication protocol N, in this case currently the HL7 protocol (corresponding to the abbreviation of the English terminology -Shoots "Health Level 7"). HL7 is an organization that defines an eponymous set of technical specifications that determine the electronic exchange of clinical, financial or administrative data between hospital information systems. The server 1 interprets the various messages from the aggregation server according to the HL7 protocol and triggers the updating of medical records of patients concerned by the server 1.
[0003] Such a solution raises many disadvantages. First, the need to implement one or more electronic assistants in each room, depending on the number of beds in said rooms, makes the solution very expensive. An electronic assistant must indeed be able to collect all vital data from various devices along a plurality of communication channels. Such a wizard is provided with internal storage means and man-machine interfaces for deposit and return rich to respectively enter and view data recorded by health personnel. Such a wizard must also be able to communicate with one or more data aggregation servers. The cost of an electronic assistant is therefore high given its many components. Its maintenance cost is also high. The human-machine interface is generally fragile because it is handled by different actors, sometimes in a clinical emergency. Updates to the resource operating system or application software of a large fleet of electronic assistants are also tedious, complex and therefore economically burdensome. These acquisition and maintenance costs are multiplied by the number of beds or consulting offices which are associated respectively said electronic assistants. In addition, the deployment of a proprietary communication network, to connect each electronic assistant 2n or 2m with one or more aggregation servers 3, is heavy and binding depending on the facilities concerned. Since the electronic assistants are not able to transmit directly to the server 1 comprising the medical files of the patients, it is necessary to aggregate and consolidate the vital data collected by the electronic assistants by one or more aggregation servers.
[0004] This equipment increases the costs of the installation described in FIG. 1. Furthermore, it is necessary to communicate the fleet of measuring devices of a health facility so that said devices can exchange with the different electronic assistants, according to modes of communication supported by said electronic assistants. The acquisition, installation and maintenance of such a system are therefore complex and expensive. In addition, an electronic assistant does not "know" directly the identity of the patient who occupies the bed to which said electronic assistant is associated. Nor does he "know" the identity of a patient who has been the subject of a consultation in an office of transit. The association of vital data collected with the medical file of a patient concerned is therefore not assured. This is obtained indirectly because the administrator of the aggregation server has a view, more or less current, the allocation of a bed, and therefore an electronic assistant to a patient. For consultations, we rely on the consultation agenda to consolidate this indirect assignment "patient electronic assistant". Indeed, the aggregation server 3 knows only the assignment of an electronic assistant to a consulting office. The risk of errors in the assignment of vital data collected to a computerized medical file is therefore important. To limit this risk, it is necessary to compensate for technological limitations by resorting to numerous human actions during the care taken to record the identity of the patient, said identity may be erroneous or even inconsistent between two entries. Sometimes, the server 1, storing the patients' medical records, must be adapted or parameterized, for example by means of a supervision console 5, to consolidate or test the final assignment of the vital data to the patient files. In an attempt to circumvent some of the disadvantages of designing and operating the solution illustrated in Figure 1, a second vital data collection system was designed to be implemented in health facilities. Such a second approach is described in connection with FIG. 2. The link "electronic assistants - aggregation server (s)" previously described is deleted in favor of the use of a fleet of 35 collection stations 2a or 2b comprising respectively personal computers possibly positioned respectively on mobile carriages to confer some mobility. Said collection stations 2a and 2b are, like electronic assistants 2n or 2m described in connection with Figure 1, generally assigned to each room or a bed or consulting office. Thus, as shown in FIG. 2, three patients Pi, Pj and Pk respectively occupy the beds Ln, Lm and Lp in separate chambers, the chambers Rn, Rm, Rp. First and second collection stations 2a and 2b are affected and positioned in close proximity to beds occupied by said patients. A first station 2a is positioned in the chamber Rn. The patient Pi, currently bedridden in the room Rn, is the subject of care requiring a vital data control by two measuring devices Ax and Ay. These two measuring devices are adapted to be able to establish a wired communication with the collection station 2a. The connection and communication modes Cx and Cy, respectively of the devices Ax and Ay with the collection station 2a, are those conventionally used for connecting any communicating device to a personal computer, for example a serial link complying with the RS-232 standards or USB. To provide communication between a measuring device and a collection station, connectors are used to ensure the physical relationship between the two elements and a conversion of ports or communication buses, generally from the RS-232 standard to a USB standard. According to FIG. 2, the other two patients Pj and Pk are bedridden on the beds Lm and Lp respectively positioned in the chambers Rm and Rp. This second collection solution makes it possible to convey the second collection station 2b to position it sometimes in the chamber. Rm, occupied by the patient Pj, then in the room Rp, occupied by the patient Pk. A nurse or doctor may connect a measuring apparatus residing in one or other of the chambers Rm or Rp. This person may, alternatively, convey together with said collection station 2b, a nomadic measuring device Az, such as the This device, for example a blood pressure monitor, enables the nurse or the doctor to test, successively or alternatively, physiological parameters of the patients Pj then Pk. The apparatus Az is connected to the collection station 2b by a serial link Cz.
[0005] Unlike the electronic assistants 2n or 2m described in connection with Figure 1, the collection stations 2a and 2b communicate directly with a server 1 administering computerized medical records of patients hosted in the health facility, for example according to a protocol of HL7 exchange. For this, the station operator connects said collection stations to connection terminals of an N network, said terminals being arranged in the rooms, corridors or even in service offices or nurses. Such a decentralized approach removes some disadvantages previously expressed. Thus, the choice of conventional equipment, that is to say personal computers to constitute collection stations, instead of specific hardware to constitute electronic assistants, reduces acquisition costs. The direct communication between said collection stations 2a or 2b and the server 1 storing the patient's medical records eliminates the need to deploy a proprietary communication network Np and thus decreases and the costs of deploying the solution. Such a solution, however, raises major disadvantages. It is first necessary to provide a network architecture N sufficient to ensure such exchanges between the collection stations 2a, 2b and the server 1. Moreover, the connection problem inherent to the electronic assistants with the measuring devices remains. Thus, measuring devices Ax, Ay and Az must be able to communicate with a collection station. The latter must reciprocally be able to connect to a communicating measuring device. When a device can not be made communicating, health personnel must enter vital measurements or data using a suitable human-machine interface, for example a keyboard or a touch screen. It must also be able to verify the correct input by means of a rendering interface such as a screen. These input and rendition interfaces are expensive and fragile. A collection station must also include material means to ensure communication with a measuring device, but also with the server 1. An application software must be installed and kept up to date on all of the collection stations scattered throughout the area. health institution. This second solution thus has similar disadvantages arising from the acquisition, management and maintenance of a fleet of collection stations. In the same way, the assignment of a collection station to a patient is still not explicitly ensured. A collection station is assigned to a bed or an office. As a result, many seizures by health personnel, which are sometimes inconsistent with each other, are often made when performed by different health personnel. In the end, the solution described in connection with Figure 2 provides little progress.
[0006] The invention makes it possible to meet the great majority of the disadvantages raised by the known solutions. By creating a single repository of patients, coupled with a repository of medical devices, said repositories including descriptors or even additional data characterizing the structures, such as beds, rooms, care units, housing patients or measuring devices, The invention allows health personnel to associate, in a simple and certain way, any patient to any measuring device requested to measure vital data. Among the many advantages provided by the invention, we can mention that it makes it possible: to greatly reduce the costs of acquiring and maintaining a system for collecting and managing vital data, by eliminating all recourse to many devices assigned respectively to the beds, such as electronic assistants or collection stations previously described, and responsible for communicating with measuring devices and deploying said measurements to a data aggregation unit; directly connecting, via wired or wireless means via a conventionally conventional communication network, measurement devices to a platform centralizing the collection and management of vital data; to unambiguously associate or dissociate, in a real-time manner, any device that measures vital data with a patient undergoing care or surveillance; to simplify the actions of health personnel through the use of conventional communicating objects or devices, for example tablets, smartphones or computers, with contextual man-machine interfaces adapted to the operations to be performed; to know at all times the availability of the fleet of medical devices and thus optimize the management and design of the park; - to transmit relevant and complete requests for updating of computerized patient files; to decrease, in the light of the prior art, the costs of acquiring and / or deploying a system for managing and collecting patient data, the maintenance costs of such a system as well as training costs; health personnel using the system, the staff thus privileging their therapeutic or diagnostic actions in their activity to the detriment of the administrative follow-up. To this end, the invention relates to a platform for collecting and managing vital data of a patient, said data being delivered by a medical measuring device. Such a measuring apparatus is associated with a unique identifier and cooperates with said platform by means of one or more data messages. Such a platform cooperates further with a server computerized patient records and includes a processing unit. Said unit cooperates and implements: means for receiving a data message and means for decoding it and deriving from it the identifier of the measuring apparatus and the vital data delivered by the latter; management means, cooperating with said means for decoding a data message, for selecting and aggregating vital data thus determined and producing a request for updating a computerized patient file; means for encoding such a request to update a computerized patient file and to produce an update message sent to the computerized patient file server.
[0007] In order to control associations or dissociations between measuring devices and patients and thus produce relevant and complete queries for updating computerized patient files, such a platform also comprises: means for storing a reference system for patients comprising, for each patient, a record comprising a unique identifier characterizing the identity of said patient and a patient descriptor; means for storing a repository of measuring apparatus comprising, for each measuring apparatus, a record comprising the identifier of said apparatus and an apparatus descriptor; means for receiving a care management message emanating from a device cooperating with the platform, encoding a request in association or dissociation of a measuring device and a patient, and means for decoding such a message and deduce therefrom the respective identifiers of the measuring apparatus and the patient concerned by said request. The management means of such a platform are arranged for: after decoding a care management message by said means for decoding such a message, implementing a care management method for recording, in the means for memorize the device reference, association or dissociation of a measuring device and a patient; after decoding a data message by the means for decoding such a data message, implementing a method of requesting an update of the computerized patient file associated with the patient concerned by the vital data thus collected by the platform. In order to produce a request for updating computerized patient records which is further informed, it may be of interest to designate health personnel having initiated an association between a measuring device and a patient. For this, the invention provides that: the request in association or dissociation of a measuring device and a patient, previously encoded in the form of a care management message, may further include an identifier health personnel initiating the request; the means for decoding a care management message can further deduce from said message, said health personnel identifier; the care management method implemented by the management means can be adapted to record, in the means for storing the device reference system (MA), said identifier of the health personnel. In addition, the process for requesting a computerized patient record update, implemented by the management means 25, can be adapted to integrate the unique identifier of the health personnel in the request for updating the file. Computerized patient. The measuring devices can relay additional measurement information to a platform 30 according to the invention. According to this variant, a data message may comprise complementary measurement data associated with the vital data of a patient. The means for decoding such a data message may advantageously be arranged to deduce said complementary measurement data.
[0008] Such additional measurement data may include a time stamp and / or a measuring device descriptor. In order ultimately to facilitate the supervision of measuring devices, a platform according to the invention may further comprise means for recording a history of vital data collection, said history comprising a plurality of records, and for which the means The management system may implement a traceability method for determining the content of a record of said history in response to the decoding of any data message. The management means can therefore be adapted to implement a method of consulting a historical data collection history. The processing unit may comprise and implement means for encoding a view of the vital data collection history, said view resulting from the implementation of said method, in the form of one or more consultation messages. . Said processing unit may also implement means for transmitting the one or more messages to an administration device cooperating with the platform. In order to facilitate the actions of health personnel, the management means may advantageously be adapted to implement a method of determining a state of association of a measuring apparatus. In this case, the processing unit may comprise and implement: means for encoding said association state in the form of a device association status message; means for sending such a message to a device cooperating with the platform. The invention provides that the repository of measuring devices hosted by a platform according to the invention can be updated. The processing unit of such a platform may, for this purpose, include and implement means for receiving an administration message from an administration device cooperating with the platform, said message encoding a request to implement update of the apparatus repository, said request comprising a unique identifier of a measuring apparatus and a descriptor of said measuring apparatus. It is the same for means for decoding such a message and deduce the identifier and the descriptor of the measuring device concerned by the request. The management means can also be arranged to, after decoding of an administration message by said means for decoding such a message, implement a method of updating the device repository to create a new record associated with the message. measuring device or to update a record previously associated with it. The invention provides that the patient repository 20 hosted by a platform according to the invention can be, in turn, updated. The processing unit may comprise for this purpose and implement: means for receiving a patient monitoring message from the computerized patient file server cooperating with the platform, said message encoding a request for updating the database repository. patients, said request comprising a unique identifier of a patient and a descriptor of said patient; Means for decoding such a message and deducing therefrom the identifier and the descriptor of the patient concerned by the request. To ensure such an updating of the patient's repository, the management means can be arranged so that, after decoding a patient monitoring message by said means for decoding such a message, implementing a method of updating the patient repository to create a new record associated with the patient or to update a record previously associated with the patient.
[0009] To adapt and configure a platform according to the invention, whatever the embodiment variant adopted, said platform may comprise program storage means for recording a computer program comprising a plurality of program instructions which, when execution or interpretation by the processing unit, causes the implementation of a method accessing, in writing and / or reading, means for storing the platform. For example, a care management method, implemented by the management means of the processing unit of a platform according to the invention, may comprise, in response to the decoding of a management message of care encoding a request in association of a measuring device and a patient, steps for: - searching in the device repository, a record including the device identifier previously deduced from said care management message; register in said registration association information with a record of the patient repository, said record including the patient identifier also previously deduced from said care management message.
[0010] As a variant, such a care management method may comprise, in response to the decoding of a care management message encoding a dissociation request from a measurement apparatus and a patient, steps for: device repository, a record including the device identifier previously deduced from said care management message; erasing or deleting in said record the association information with a record of the patient repository, said record including the patient identifier, also previously deduced from said care management message. After collecting vital data, a platform according to the invention can produce a request to update a computerized patient record. A method of requesting an update of a computerized patient file, implemented by the management means of the processing unit of a platform according to the invention, may comprise steps for: searching in the repository of apparatus, a record including the device identifier derived from the data message; reading the association information designating a record of the patient repository; searching for said associated record in the patient repository and reading the patient identifier contained in said associated record; 25 developing a request for updating the computerized patient file comprising the patient's identifier and the vital data deduced from the previously decoded data message; controlling the means for encoding such a request to update a computerized patient record and producing an update message addressed to the computerized patient record server. To authorize a revision of the reference system of 35 measuring devices, the invention provides a method of updating said device reference. Such a method is implemented by the management means of the processing unit of a platform according to the invention, in response to the decoding of an administration message. Such a method may comprise steps for: searching in the device repository, a record comprising the device identifier previously deduced from the administration message; if so, update the descriptor of the measuring apparatus in said record; if not, create a new record in the device repository and enter the device identifier and descriptor of the device, previously deduced from the administration message. If the platform is able to constitute a history of the data collected, the invention provides a traceability process implemented by the management means of the processing unit of such a platform. This includes steps for: creating a record in the means for storing the history; - Write in said record all of the elements deduced from said data message; search in the device repository, the record including the device identifier derived from the data message; read the association information of said record; find the associated record in the patient repository; if it exists, read the identifier of the patient concerned by the data measurement collection; - write in the record of the history, said patient identifier. In order for a platform to allow monitoring of the measuring devices via an administration device cooperating with said platform, the invention provides a method of consulting a history of vital data collection, said method being implemented by the management means of the processing unit of the platform. Such a method therefore comprises steps to: - read access to the means for storing a history of vital data collection; constituting a predetermined view of fields of each record; control the means for encoding such a view and produce a consultation message.
[0011] To authorize a revision of the patient repository, the invention provides a method of updating said patient repository. Such a method comprises steps for: - searching in the device repository, a record comprising the patient identifier previously deduced from the patient monitoring message; if so, update the patient descriptor in said record; - If not, create a new record in the patient repository and enter the patient's identifier and the descriptor of the patient, previously deduced from the patient follow-up message.
[0012] The invention further provides a method of determining a state of association of a measuring apparatus. This method, implemented by the management means of the processing unit of a platform according to the invention, may include steps for: read access to the means for storing the device reference system; constituting a predetermined view of the fields of each record; controlling the means for encoding such a view and producing a device association status message. In order to be able to set up and maintain such a platform, the invention provides a computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit of the platform, causes the implementation one of the above methods, said program being loadable in the program storage means of said platform. According to a second object, the invention relates to a communicating device intended to be used by health personnel to record an association or dissociation of a measuring apparatus and a patient. This comprises: means for cooperating with a platform for collecting and managing vital data of a patient according to the invention; A set human-machine interface for translating a selection action of said health personnel into a determination of an identifier of a measuring apparatus, a patient identifier and an association operation or dissociating said measuring apparatus and said patient; a processing unit cooperating with said means for cooperating with a platform and said setpoint man-machine interface. The processing unit of such a device is adapted to implement a method for preparing and issuing a care management message encoding a request for associating or dissociating a vital data measuring device with a patient. . To help said health personnel in their action, such a communicating device may advantageously further comprise a human-machine interface rendering cooperating with the processing unit of the device. The means for cooperating with the platform can then be arranged to receive a device association status message from the platform and encoding a state of association of a meter. The communicating device processing unit may be arranged to implement an association status lookup method of a measuring apparatus in response to receiving said apparatus association status message. The method for developing a care management message encoding a request for associating or dissociating a vital data measuring device and a patient, said method being implemented by the processing unit of a communicating device according to the invention, includes steps for: - driving the setpoint human-machine interface translating a user selection action to determine the unique identifier of a measuring device, the unique identifier of a patient and an operation of associating or dissociating said measuring apparatus and said patient; according to the determined association or dissociation operation, respectively producing a request for associating or dissociating the measuring apparatus with the patient whose respective identifiers have been determined; encode said request and produce a care management message; control the transmission of said message by the means for cooperating with the platform. The method 10 association state consultation method, said method being implemented by the processing unit of a communicating device according to the invention, comprises steps for: following the reception of a device association status message, decode such a message and deduce therefrom the identifier of said measuring apparatus and a patient identifier associated with said apparatus or a predetermined value indicative of non-association with a patient ; 20 control the restitution of said identifiers and / or predetermined value by the man-machine rendering interface to a user of the communicating device. To adapt such a communicating device, the invention furthermore provides a computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit of a communicating device according to the invention causes the implementation of a method above, said communicating device further comprising storage means in which said program is loadable. According to a third object, the invention relates to an administration device. Such a device can be used to initialize the repository of the measuring apparatus hosted by a platform according to the invention. Such a device comprises: means for cooperating with a platform for collecting and managing vital data according to the invention; a setpoint human-machine interface for translating a selection action of a user of said administration device into a determination of an identifier of a measuring apparatus and a descriptor specific to said measuring apparatus; a processing unit cooperating with said means for cooperating with the platform and said setpoint man-machine interface. The processing unit of such a device is adapted to implement a method for preparing and sending an administration message, said message encoding a request for updating the platform's device repository. Such a device can furthermore make it possible to supervise the fleet of measuring devices. In this case, such an administration device may comprise a restitution man-machine interface cooperating with its processing unit. The means for cooperating with the platform may also be arranged to receive a consultation message from the platform and encoding a view of the vital data collection history of the platform. The processing unit of the administration device is then arranged to implement a method of supervising the operation of measuring devices, in response to the reception of said consultation message.
[0013] A method for developing an administration message, said method being implemented by the processing unit of an administration device comprises steps for: controlling the setpoint human-machine interface, representing a selection action of a user of the administration device for determining an identifier and a descriptor of a measuring apparatus; produce a request to update the repository of the devices of the platform comprising said identifier and descriptor of the measuring apparatus; encode said request in the form of an administration message; control the transmission of said message by the means for cooperating with the platform. A method of supervising the operation of measuring apparatuses, said method being implemented by the processing unit of a delivery device according to the invention comprises steps for: following the reception of a consultation message from the platform, decode such a message and derive a view of the platform's vital data collection history; implementing a processing of said view and producing synthesis data; control the rendering of said summary data by the human-machine rendering interface to a user of said administration device. To adapt an administration device, the invention further relates to a computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit of such a device, administration, causes the implementation of one of the above methods, said administration device further comprising storage means in which said program is loadable.
[0014] The invention finally relates to a system for collecting and managing vital data of a patient, comprising: a server for storing a plurality of computerized patient files; a plurality of measuring devices each delivering vital data of patients; a platform for managing and collecting said vital data, in accordance with the invention, cooperating with said measuring apparatus and said server; one or more communicating devices adapted according to the invention and cooperating with said platform 10.
[0015] Such a system may further comprise an administration device adapted according to the invention and cooperating with the platform. Other characteristics and advantages will appear more clearly on reading the description which follows, referring to an exemplary embodiment given by way of indication and not limitation, and to the examination of the figures which accompany it, among which: FIGS 1 and 2, already described, respectively describe two systems for collecting and managing vital data of known patients; FIG. 3 shows a preferred architecture of a system for collecting and managing vital data of patients according to the invention; FIGS. 4a and 4b illustrate methods implemented by the processing unit of a platform for collecting and managing vital patient data in accordance with the invention; FIG. 5 illustrates two methods implemented by the processing unit of a device communicating with a platform for collecting and managing vital patient data in accordance with the invention; - Figure 6 illustrates two methods implemented by the processing unit of a management device cooperating with a platform for collecting and managing vital patient data according to the invention. Like the systems previously described in connection with FIGS. 1 and 2, the invention relates to a system for collecting and managing vital data of patients accommodated in a health facility. By way of nonlimiting example, such a system is illustrated in FIG. 3. The health facility concerned comprises a plurality of rooms or consulting offices. Thus, a first patient Pi is bedridden on a bed Ln within a chamber Rn. A second patient Pj occupies a bed Lm in a separate room Rm. These two patients are the subject of care. Health workers la and Ib, for example nurses, are responsible for carrying out medical follow-up. Such personnel thus use a plurality of medical measuring devices Ax, Ay, Az. As examples illustrated in Figure 3, such equipment consist of a blood pressure monitor, a medical ventilator, an infusion pump or any other device capable of delivering vital data. Unlike the solutions previously described in connection with FIGS. 1 or 2, said apparatuses do not communicate with an electronic assistant or a collection station dedicated to a bed or a chamber.
[0016] According to the invention, such devices are able, natively or after adaptation, to communicate via a communication network N1, for example of the Ethernet type. To make an apparatus possibly non-communicating or not compatible with such a communication channel, the invention provides that a connector physically connecting the measuring apparatus to the network N1 can be used. Such a connector converts the communication ports, respectively of the measuring apparatus and the network N1, for example, a standard RS-232 output port to an RJ-45 standard input port. The connector can further perform a conversion of communication protocols. Thus, any measuring device can transmit vital data of a patient on the network N1 via a data message Md. Depending on the measuring devices concerned, the respective contents of the data messages can be distinct. Thus, the devices Ax, Ay and Az communicate through the network N1 via network connections Cx, Cy and Cz possibly separate. Like the solutions described in connection with FIGS. 1 and 2, the system for collecting and managing vital patient data in accordance with the invention, illustrated in FIG. 3, comprises a server 1 of computerized patient records DPi. This server 1 communicates with third-party devices via a wired communication network N. As a preferred example, such a server 1 has two half-connectors. A first half-connector is arranged to receive Mpo messages updating computerized patient records. The second half-connector is arranged to transmit Mpi messages conveying information related to patients with a computerized record, for example, during a patient admission or during a transfer of a patient from a first care unit to a second care unit. According to the invention, such messages Mpi and / or Mpo are advantageously in accordance with IHE ("Integrating the Healthcare Enterprise" in English terminology) and HL7 standards. The messages are thus advantageously conveyed by a protocol of the MLLP type ("Minimal Lower Layer Protocol" in English terminology). Such a standard describes the nature of the fields or elements that must comprise a request to update a computerized patient file. In addition to vital data, such a request needs to be unambiguous to specify in particular the identifier of the patient from which said data originates, an identifier of a health personnel responsible for initiating the measurement of vital data and a timestamp of the latter. . As previously explained, the known solutions do not make it possible to inform all of these fields. As a reminder, a collection station 2a or 2b, illustrated in FIG. 2, does not know the identity of the patient from whom it receives vital data from a measuring device. It is the same for the electronic assistant 2n or 2m, illustrated in Figure 1, or the aggregation platform 3 cooperating with said electronic assistants 2n, 2m. According to the prior art, the "patient identity" field, which is nevertheless essential to guarantee the property of the measured vital data, is not indicated or has a default value. The server computerized patient records, including a view of the structures and locations of patients, must consolidate the data by trying to reconcile a patient repository, a repository of structures, such as a unit of care, rooms, beds, with the identifiers of the measuring devices or electronic assistants or collection stations ... The risk of inconsistency or errors of assignment during this consolidation operation is great.
[0017] The invention eliminates this disadvantage. Complete and unambiguous update requests are thus transmitted to the server 1 of the computerized patient records DPi. Indeed, unlike known solutions, a system according to the invention comprises a single platform for collecting and managing all the vital data delivered by the measuring devices. As indicated in FIG. 3, the latter Ax, Ay, Az communicate directly, via communication channels Cx, Cy, Cz, with such a platform 10 via the communication network N1. The platform 10 also cooperates with the server 1 which records and administers the computerized patient records DPi. The platform 10 can also cooperate with one or more communicating devices 20a or 20b, used by health personnel ensuring the care of patients. For this, the platform 10 dialogs with these devices via an N2 communication network. As described below, these devices are advantageously conventional communicating objects, such as, as non-limiting examples, communicating tablets, smartphones or laptops. By using these devices, health workers inform the platform 10 of any association or dissociation of a meter and a patient. Like a conductor, the platform 10 collects the data messages Md transmitted by the measuring devices, associates the vital data collected with the identifier of the patient concerned or even an identifier of the health personnel having initiated the measurement of said vital data. . Said platform selects certain vital data collected, aggregates and produces relevant requests for updating computerized patient records DPi to the server 1.
[0018] Let us now study the hardware and software architecture of such a platform 10 for collecting and managing vital patient data. As indicated by the example illustrated in FIG. 3, the platform 10 for collecting and managing vital data Da of a patient Pi or Pi includes a processing unit 19, such as for example a microprocessor or a microcontroller. This processing unit 19 cooperates, for example via an internal wire bus, and implements means for receiving C1 data messages Md delivered by the medical measuring devices communicating via the network N1. This communication port C1 ensures the connection of the platform to said network Nl. The processing unit 19 cooperates and implements means 13 for decoding such data messages Md. As mentioned previously, the data messages Md generally have respective contents and structures that vary according to the models or types of devices. measured. In addition to a unique identifier IDa characterizing the measuring apparatus having initiated the message, measured vital data Da, a message Md according to the invention advantageously comprises complementary data Dc. Such complementary data includes a device descriptor which specifies the type or the model. This descriptor can be transmitted by the measuring apparatus as such or by the optional connector connecting said apparatus to the network N1, if said apparatus can not directly generate an intelligible Md message by the platform 10. As a variant, an Md message can do not include such a device descriptor. This can be advantageously deduced by the information processing unit 19 included in a repository of measuring apparatus MA, referential hosted by storage means cooperating with said processing unit 19. According to this variant, the identifier of the measuring device contained in a data message is sufficient for the processing unit to interrogate said repository MA, to know the descriptor of the device concerned by the data message and thus to adapt the means 13 for the latter to decode the message Md. According to a preferred embodiment, said means 13 consist of one or more computer libraries that can be used by the processing unit 19. According to the descriptor of a measuring device, that it is conveyed by the data message or stored in the MA device repository, the processing unit 19 implements the appropriate computer library. The means 13 are thus able to decode any received Md message, regardless of the measuring device at the origin of the message. The latter discriminate or deduce the vital data Da, the identifier IDa or even additional data Dc of said message. Such an Md message may also be encoded to authenticate or encrypt the content of the message, according to any known means, by the measuring device or the optional connector connecting the device to the network Nl. In this case, the means 13 are able to implement reciprocal functions necessary for the verification of the authenticity of the message or even the deciphering thereof, prior to the decoding of the message as such. Whether a device descriptor is registered or not in a repository of the MA devices, said device reference system is necessary for the operation of a platform 10 according to the invention. The reference system of measuring devices MA comprises, for each measuring device, such as one of the devices Ax, Ay or Az, a record comprising the identifier of said device IDa or a descriptor. The repository of the apparatus MA may further specify a particular treatment that the processing unit 19 must apply to data collected by the platform and emanating therefrom. The repository of the measuring devices MA can be preset or predefined during the commissioning of the platform 10. It can also be advantageously updated by a manager of a fleet of measuring devices, via a console or device. administration 6 cooperating with the platform 10, as at the option of acquisitions, decommissioning or maintenance in connection with said park. The platform 10 therefore comprises means C3 for receiving Mgi administration messages emanating from such an administration device 6 cooperating with the platform 10, for example via a communication network N3. Such a management message encodes a request to update the repository of the MA devices. We will study further, the possible cooperation between such an administration device 6 and the platform 10.
[0019] To ensure the management and administration of the data decoded by the means 13, the processing unit 19 implements management means 14. Like the means 13, the management means 14 may also advantageously consist of a or several computer libraries determining operations that the processing unit can implement. By way of nonlimiting examples, such operations can lead to filtering certain vital data that one wishes to ignore or to select, aggregate or even consolidate them in order ultimately to produce a request to update a particular computerized patient record DPi of the server 1. The management means 14 can thus implement a plurality of rules or methods for managing the vital data collected and decoded respectively by the means C1 and 13.
[0020] A collection and management platform according to the invention 10 further comprises a patient repository MI. It is stored by storage means cooperating with the processing unit 19 of the platform 10. The patient reference system MI comprises, for each patient, such as the patient Pi or Pj, a record comprising a unique identifier characterizing the patient. identity of said patient. It may further include a patient descriptor. This may include information related to the accommodation of said patient: a room, a bed, a care unit. The descriptor may further include distinctive signs such as first names, names or gender of the patient, etc. Alternatively, the elements related to the host structure, such as the care unit, the bed, the room, etc., can be subject to a structure reference also memorized by the platform. In this case, the descriptor of the patient includes one or more references, or association information, to said structure reference. The presence of MI patient referrals and MA devices is a key difference from known solutions. Indeed, the platform 10 materializes and records any association or dissociation of a measuring device and a patient. Such an association advantageously consists in associating the registration of the repository of patients MI, comprising the identifier of said patient, with the registration of the repository of the apparatus MA, comprising the identifier of said measuring apparatus. Such an association can be done by any means depending on whether the repositories constitute database record tables or ordered record structures or files. According to a preferred embodiment, when a measuring apparatus and a patient are considered to be associated, the recording of the repository of the measuring apparatus MA, which includes the identifier of the associated apparatus, comprises an association information designating the instrument. MI patient repository registration that includes the associated patient identifier. This information may consist of the value of said patient identifier or a reference or pointer to said record including the patient identifier within the MI patient repository. As a variant, storage means, cooperating with the processing unit 19 of the platform 10, can record a data structure or table comprising reference pairs respectively designating records of the associated MA apparatus repositories and MI patients.
[0021] The MI patient repository can be pre-established and / or advantageously updated according to the admissions, discharges or transfers of patient care units. For this, a platform 10 according to the invention can advantageously cooperate with a computerized patient records server 1 DPi and receive messages Mpi emanating therefrom. Such an Mpi message encodes a request to update the MI patient repository. We will detail later this possible interaction between a server computerized patient records and a platform according to the invention. For a platform according to the invention, such as the platform 10 described in connection with FIG. 3, to translate and record an operation initiated by a health care staff or Ib to associate or dissociate a medical measuring device and a medical device. patient, said platform comprises means C2 for receiving a care management message Mli. According to FIG. 3, such a message Mli emanates from a device 20, 20a or 20b cooperating with the platform 10. Such a message makes it possible to encode a request in association or dissociation of a measuring device and a patient . As a preferred example, such a communicating device 20a or 20b, a functional architecture is described in connection with a device 20, dialogue with the platform via a communication network N2. Such a network may be a wired network, of the Ethernet type, for example. As such, the device 20b, for example in the form of a laptop, communicates by a wired connection Cb. On the other hand, the device 20a, for example a smartphone or a tablet, communicates wirelessly Ca, for example according to Wi-Fi or Bluetooth communication protocols, via an HS network access point ensuring the protocol conversion of the channel. 15 wireless Ca in a wired way Ca '. On receiving a message Mli by the means for receiving C2, the processing unit 19 of a platform according to the invention comprises and implements means 11 for decoding such a message. Such hardware and / or software means deduce the respective identifiers of the measuring apparatus and the patient concerned by the association or dissociation request. As well as a data message Md, a care management message Mli may be encoded to be signed and / or encrypted by the communicating device 20, 20a or 20b having issued said message. In this case, the means for decoding 11 comprise reciprocal functions for verifying the signature of the sending device and / or for decrypting the message Mli. After decoding a care management message Mli by said means for decoding 11, the processing unit 19 controls the implementation of a care management method 110 by the management means 14. In connection with the 4a, this method stores, in the means for storing the repository of the apparatus MA, an association or dissociation of a measuring apparatus and a patient. If the request deduced by the means 11, during the decoding of the message in care management Mli, is a request in association (materialized by a sign "+" in FIG. 4a) of a measuring apparatus and a patient, such a method 110 advantageously comprises: a step 111 for searching in the MA apparatus repository, a record comprising the identifier of the measuring apparatus previously deduced from said care management message Mli; a step 112 for registering in said record association information with a record of the patient repository, said record including the patient identifier also previously deduced from said care management message Mli. On the other hand, if the decoding of the care management message Mli reveals a request for dissociation (represented by a sign "-" in FIG. 4a) of a measuring apparatus and a patient, said method 110 for managing management care advantageously comprises: a step 113 for searching in the repository 25 of the MA devices, a record comprising the identifier of the apparatus previously deduced from said care management message Mli; a step 114 for deleting or deleting in said record the association information with a record of the patient repository MI, said record including the patient identifier also previously deduced from said care management message Mli. Such erasure of the association information may consist of a write of a predefined value signifying a "non-association".
[0022] The repositories MI and MA thus inform the platform 10, on the one hand, measuring devices capable of transmitting data messages Md comprising vital data of patients, but also patients from which said vital data received by the platform originate, said data from said measuring apparatus. In this way and contrary to the known solutions and described in connection with FIGS. 1 or 2, the management means 14, implemented by the processing unit 19 of a management and collection platform 10 according to the invention , are able to produce one or more requests for updating computerized patient files whose completeness and coherence "data - patients" are equal in view of the state of the art. To further supplement an update request addressed to the server 1 of computerized patient records DPi, the invention provides that the care management messages Mli developed by communicating devices 20, 20a or 20b, used by health personnel the or Ib having initiated an operation of association or dissociation of a measuring apparatus and a patient, may comprise the respective identifiers of said health personnel Ia, Ib. Such identifier of a health personnel can be deduced by the means for decoding 11. The method 110 implemented by the management means 14 then comprises a complementary step 115 for writing additional information to the association information. This information can be the identifier of the health personnel as such or a reference to a repository of health personnel not shown in Figure 3.35 An example of elaboration of such a request to update a computerized patient file DPi by the management means 14 may result, after decoding a data message Md by the means for decoding, of the implementation of a process 120 for requesting an update of a computerized patient record DPi, said file being that of the patient concerned by vital data thus collected by the platform 10. In connection with FIG. 4a, such a method 120 may advantageously comprise: a step 121 for searching in the MA apparatus repository, a recording comprising the identifier IDa of the apparatus derived from an Md data message; A step 122 for reading the association information designating a record of the MI patient repository; a step 123 for searching for said associated record in the MI patient repository and reading the patient identifier contained in said associated record; a step 124 for preparing a request for updating the computerized patient file Dpi comprising the patient identifier and the vital data deduced from the previously decoded Md data message. In the case where the record associated with the measuring apparatus designates or includes the identifier of a health personnel 1a or 1b, step 124 to develop a request for updating of computerized patient record DP1 integrates into in addition to said identifier in said request. Under the action of the processing unit 19, the management means 14 may, subsequently, control means for encoding such a request for updating a computerized patient record Dpi and produce an update message. Mpo day addressed to the server 1 of computerized patient records Dpi. This action constitutes the step 125 of the method 120. Like the means for decoding 13 Md data messages or for decoding Mgi administration messages or even for decoding Mpi messages carrying information related to the patients. from the server 1, the means for encoding requests for updating computerized patient files and producing Mpo messages may consist of a software library implemented by the processing unit 19. The Mpo messages are advantageously transmitted by means C to the server 1 according to IHE and HL7 standards. The Mpo messages are thus advantageously conveyed by a protocol of the MLLP type. The encoding of requests for updating of computerized patient files may be subject to an encryption or signature procedure of the platform to ensure confidentiality and / or authenticity. The invention further provides for a history of vital data collected and managed by the platform. For this, such a platform 10 further comprises MR means for recording a history of vital data collection. Such a history consists of a plurality of records, and for which the management means 14 implement a traceability method 130 for determining the content of a record of said history in response to the decoding of any data message Md. with FIG. 4a, such a traceability method 130 may advantageously comprise: a step 131 for creating a record in the means for storing the MR history; a step 132 for recording in said record all of the elements deduced from said data message Md, for example the IDa identifier of the apparatus, the vital data Da, additional measurement data Dc; a step 133 for searching in the repository of the apparatus MA, the record comprising the identifier of the apparatus deduced from the data message Md; a step 134 for reading the association information of said record; a step 135 for searching for the associated record in the patient repository MI, that is to say the one designated by said association information; if it exists, i.e., the test response 136 is "y", a step 137 for reading the identifier of the patient concerned by the data measurement collection Da; a step 138 for entering in the recording of the history, said identifier of the patient. As mentioned above, the history may also include in any record, the identifier of the health personnel Ia, Ib having initiated the combination of a measuring device and a patient together with the elements deduced from a message of data. According to a preferred embodiment, the complementary measurement data Dc may include a time stamp of the vital data. Such a time stamp is then recorded in the MR history. Such MR history has different uses and can be the subject of several treatments implemented by the management means 14 of the processing unit 19 of the platform. This can indeed be consulted by a communicating device 20, 20a or 20b of a health personnel for the therapeutic monitoring of the patient. It can also be consulted by a manager of a fleet of measuring devices to know the utilization rate of each device and thus optimize the management and / or maintenance of said fleet. In the latter case, the management means 14 advantageously apply predetermined criteria to offer only a partial view of said history, for example masking any reference to a patient. Let us now study the different interactions between a platform according to the invention and various third-party devices, through the example described in FIG. 3. A platform 10 cooperates via a communication network with a server 1 of computerized patient files DPi . We have already detailed the development of requests for updating computerized patient records DPi, encoded and transmitted to the server 1 in the form of Mpo messages by the means 12 and C. 30 We have mentioned previously that the repository MI patients can advantageously be updated as admissions, discharges or transfers of patients. To ensure such updating of said IM repository, the processing unit 19 comprises and implements means for receiving C a patient monitoring message Mpi emanating from the server 1. Such a message can be produced on purpose by the server 1 to update the MI patient repository. It is usually produced to communicate with the administrative posts of the care units and thus inform the staff of the follow-up of patients within a health facility. The platform 10 is advantageously provided for listening and intercepting such a Mpi patient monitoring message. It can therefore intercept such a message, initialize and / or update the MI patient repository. An Mpi patient monitoring message is therefore considered, "in the eyes" of the platform 10, as encoding a request to update the MI patient repository. Said request comprises a unique identifier of a patient Pi or Pj and a descriptor of said patient.
[0023] The management means 14 cooperate with means 12, hardware and / or software, for decoding a patient monitoring message Mpi and deduce said identifier and said descriptor of the patient concerned by the request. As a reminder, such a descriptor may include information related to the accommodation of said patient: a room, a bed, a care unit. It may also include distinctive signs such as first names, names or sex of the patient. After decoding a patient monitoring message Mpi, the management means 14 implement a method 150 for updating the patient repository MI. This consists of creating a new record associated with the patient or updating a record previously associated with the patient in the MI patient repository. Thus, according to a preferred embodiment and illustrated in connection with FIG. 4a, the method 150 advantageously comprises a step 151 for searching in the repository of the MA apparatuses a record comprising the patient identifier previously deduced from the patient tracking message Mpi. If there is such a record (shown by a "y" in Fig. 4a), said method includes a step 152 for updating the descriptor of the patient in said record. This is indeed the case of a patient being transferred to a new care unit. In the negative (represented by an "n" in FIG. 4a), the method 150 includes a step 153 for creating a new record in the patient repository MI and including the patient's identifier and the descriptor thereof. this. In this case, it is usually a new entrant. In order to inform a platform 10 according to the invention of any association or dissociation of a measuring apparatus and of a patient, said platform cooperates with one or more communicating devices 20a or 20b, the latter sending him management messages. Mli care. The invention further provides that the platform can inform said communicating devices - by device association status messages Mlo - the availability of measuring devices and thus facilitate the actions of health personnel. The functional architecture of such a device 20 is described in connection with Figure 3. Ideally, each health staff has a communicating device. As a variant, communicating devices are pooled for a plurality of health personnel. To reduce the costs of acquisition and maintenance of the fleet of communicating devices, the latter are advantageously selected from conventional communicating objects, such as, laptops, tablets or smartphones. They do not derive from a specific design such as the electronic assistants described in connection with FIG.
[0024] A communicating device 20 comprises means 21 for cooperating with a platform 10 for collecting and managing vital data of a patient 10 according to the invention. For this, it suffices to use the 5 conventional means to communicate through a wired or wireless network. Such equipment can therefore be connected to the network N2 by a wired connection Cb via a cable comprising an RJ-45 port or a wireless connection Ca, Ca 'of the Wi-Fi or Bluetooth type via a network access point 10 HS . A device 20 further comprises a setpoint human-machine interface 22 for translating a selection action of a health personnel into a determination of an identifier of a measuring device, a patient's identifier and an operation of association or dissociation of said measuring apparatus and said patient. Such a setpoint interface 22 consists of a keyboard for a computer or a touch screen for a tablet. Cooperating with the means 21 and 22, a device 20 comprises a processing unit 29. It is the microprocessor or microcontroller of said device. Although conventional, the device 20 is adapted so that said processing unit can implement a method 210 for generating and transmitting a care management message Mli encoding a request to associate or dissociate a measurement apparatus of vital data and a patient. For this, the processing unit 29 cooperates with means of the storage means 24 within which a computer program is loadable. Such a computer program comprises a plurality of program instructions which, when executed or interpreted by the processing unit 29, causes the implementation of a method for generating and transmitting the program. a care management message Mli according to the invention.
[0025] In connection with FIG. 5, a method 210 advantageously comprises a step 211 for controlling the reference human-machine interface 22 and translating a selection action of a user, the or Ib, into a measurement device identifier, an identifier of a patient and an operation of association or dissociation of said measuring apparatus and said patient. Such an action may, for example, consist of going through a menu or lists presenting, on the one hand, the patients staying in the care unit to which the health personnel are assigned and, on the other hand, the measuring devices available at the health unit. within the care unit. The selection of a patient and a device, with a menu or button of association or dissociation, reflects the gestures and the intention of the health personnel. According to the association or dissociation operation thus determined, the method 210 comprises a step 212 for respectively producing a request for associating or dissociating the measuring apparatus with the patient whose parameters are the respective identifiers previously determined. Said method 210 further comprises a step 213 for encoding said request and producing a care management message Mli. Finally, a step 214 controls the transmission of said message Mli by the means for cooperating with the platform 10. In order to help the health personnel who uses the communicating device 20, the invention provides for rendering a view, in particular of the reference frame MA devices, through a man-machine interface 23 of said device 20. Such an interface 23 is preferably a screen that comprises a conventional communicating device 20. It could, alternatively or in addition, be a speaker or any other means of rendering intelligible content to said health personnel. To allow this assistance, the invention provides that the means 21 for cooperating with the platform, more specifically with the network N2, can be further arranged to receive and decode a device association status message Mlo emanating from the platform 10. Such a message encodes a state of association of a measuring apparatus in the form of a view of the repository of the MA apparatus. To enable such decoding and interpretation, the processing unit 29 is arranged to implement a method of association state consultation 220 of a measuring apparatus in response to receiving said association state message. Mlo device. By way of nonlimiting example, the rendering of the view of the repository delivered by the platform 10 can be performed via a web browser or via a graphical interface adapted to this rendering function. Health personnel can thus consult the state of association or non-association of measuring devices. Such a consultation may be a prerequisite for the implementation of the method 210, the latter becoming a "contextual" method if, for example, are presented, in 211, only devices not associated with a patient. In connection with FIG. 5, such a measurement device association status consultation method 220, implemented by the processing unit 29, may advantageously comprise: - following the reception 221 d an association status message from a Mlo apparatus, a step 222 for decoding such a message and deriving therefrom the identifier of said measuring apparatus and a patient identifier associated with said apparatus or a predetermined value reflecting a non-association with a patient; A step 223 for controlling the return of said identifiers and / or predetermined value by the human-machine rendering interface 23 to a user of the communicating device. In the same way as for the method 210, the adaptation of a device 20, especially if it is a conventional communicating object, consists in loading in the storage means 24, a computer program which comprises a plurality of program instructions which, when executed or interpreted by the processing unit 29, cause the measuring device association state consultation method 220 according to the invention to be carried out. For its part, a platform 10 for collecting and managing vital data in accordance with the invention, described by way of nonlimiting example with reference to FIG. 3, is then adapted to transmit such a status message. association of a Mlo device encoding a view of the MA repository. More specifically, the management means 14 of the processing unit 19 are adapted to implement a method 140 for determining a state of association of a measuring apparatus. Via said means 14, the processing unit 19 comprises and implements means for determining and then encoding said association state in the form of a device association status message Mlo. The means C2 are controlled to send such a message to a communicating device 20, 20a or 20b cooperating with the platform 10 by the network N2. In conjunction with FIG. 4a, such a method 140 advantageously comprises: a step 141 for accessing the means for memorizing the repository of the apparatuses MA; a step 142 for constituting a predetermined view of the fields of each record; a step 143 for controlling the means 15 for encoding such a view and producing a device association status message Mlo.
[0026] In connection with FIG. 3, after having studied the interactions between a platform for collecting and managing vital data 10 according to the invention and a server 1 of computerized patient records DPi and then with one or more communicating devices 20, 20a, or 20b used by health personnel or Ib, let us now study the cooperation between said platform 10 and an administration device 6. The latter is generally operated by a manager of a fleet of measuring devices. It corresponds, according to a preferred embodiment, to a microcomputer, possibly portable, adapted to move in a supervision console of said park. This device 6 furthermore makes it possible to parameterize the platform 10 by initializing the repository of the devices. As shown in Figure 3, such a device 6 comprises a processing unit 69. It further comprises means for cooperating 61 with a platform 10 via a communication network N3. For this, the administration device 6 connects to said network N3 by a preferred path C3. The administration device 6 could, however, favor a wireless path. To allow the manager to give instructions or parameters, a device 6 further comprises a man-machine interface setpoint 62, traditionally in the form of a keyboard and / or a pointing device. Such an interface 62 has the function of translating, for example, an input or selection action of the manager into a determination of an identifier of a measuring apparatus and / or a descriptor specific to said measuring apparatus. The processing unit 69 cooperates with said means to cooperate 61 with the platform 10 and said man-machine reference interface 62. An administration device 6 can furthermore comprise a human-machine interface for rendering 63 cooperating with the unit. 69. Such an interface consists of a screen, a printer or any other means making it possible to restore content to the user of the device 6. The processing unit 69 is adapted, according to the invention, to implement a method 610 for developing and issuing a Mgi administration message decodable and interpretable by the platform 10. Such a message can be used to encode a request for updating the repository of the MA devices of the platform 10. Conversely , said processing unit 69 can be adapted to implement a method 620 for monitoring the operation of measuring devices, in response to receiving a Mgo consultation message from the platform 10. Such an Mgo message notably makes it possible to exploit the MR history of the vital data collections constituted by the platform 10, by delivering a view of said history. A first mode of cooperation between the management device 6 and the platform 10 is to initialize or update the repository of the MA devices. In connection with FIG. 6, the method 610 implemented by the processing unit 69 advantageously comprises a first step 611 for controlling the human-machine reference interface 62 translating an action or gesture of a user of the device. 6. This step 611 makes it possible to determine an identifier and a descriptor of a measuring apparatus. Such a descriptor may include a type or a model. It can furthermore specify any information, such as details, units of measure, etc., that the management means 14 of the platform 10 can exploit to implement relevant management rules of the vital data after collection of the latter. . The method 610 may further comprise a step 612 for producing a request for updating the repository of the MA devices of the platform 10, said request comprising, as parameters, said identifier and descriptor of the measuring apparatus. The method 610 finally comprises a step 613 for encoding said request in the form of an administration message Mgi. Such a step may include a signature phase to authenticate the device 6 as a source of said message or encryption. Finally, the method 610 includes a step 614 for controlling the transmission of said Mgi administration message by the means for cooperating 61 to the platform 10. To process such an Mgi administration message, the platform 10 is also adapted. The processing unit 19 implements means C3 for receiving an Mgi administration message from an administration device 6 cooperating with the platform 10 via the network N3. Said processing unit 19 also implements means 15 for decoding such a message and deducing therefrom the identifier and the descriptor of the measuring apparatus concerned by the request for updating the apparatus reference frame. The management means 14 of the platform are arranged to, after decoding an Mgi administration message, implement a method 160 of updating the repository of the MA devices. Such a method is intended to create a new record associated with a new measuring apparatus or to update a record previously associated with a device already registered in said repository of MA devices.
[0027] Thus, in connection with FIG. 4b, such a method 160 advantageously comprises a first step 161 for searching in the MA apparatus repository, a record comprising the identifier of the apparatus previously deduced from the Mgi administration message. If a record comprising the identifier of the apparatus exists in said MA repository (represented by a "y" in FIG. 4b), this means that the latter is known to the platform 10. The method 160 then comprises a step 162 for update the descriptor of the measuring apparatus in said record. If no record includes said identifier (represented by an "n" in FIG. 4b), the method comprises a step 163 for creating a new record in the repository of the apparatus MA and recording therein the identifier of the apparatus as well as the descriptor of it. This step makes it possible to declare a new measuring device available for measuring and delivering vital data. A second mode of interaction between a platform 10 and a delivery device 6 according to the invention consists in supervising the operation of the measuring devices and thus optimizing the maintenance and management of the equipment fleet. In connection with FIG. 6, the method 620 for supervising the operation of measurement apparatuses implemented by the processing unit 69 of a management device thus adapted advantageously comprises, following the reception of a Mgo consultation message from the platform 10, a first step 621 for decoding such a message and derive a view of the MR history of vital data collection platform 10. Such a view essentially exploits the information of timestamp, if they exist, of vital data collection and association unit. The view preferentially masks the identities of the associated patients for obvious reasons of confidentiality. A method 620 further includes a step 622 for performing a processing of said view and producing summary data. Any treatment may be considered within the meaning of the invention. The main purpose of supervision is to dynamically monitor the device association rate and / or any other useful statistics for the manager. Finally, the method 620 comprises a step 623 for controlling the rendering of said synthesis data by the human-machine interface for rendering the user of the administration device 10 to the user 6. In the same way as for a communicating device 20, a device administration 6 is preferably a conventional object. To adapt the latter and make it able to communicate and interact with the platform 10, thanks to the implementation in particular of the methods 610 or 620, the invention provides a computer program comprising a plurality of program instructions which when executed or interpreted by the processing unit 69 of a delivery device 6 causes one of said methods 610 or 620 to be implemented. Such a computer program is loaded into means memory 64 cooperating with said processing unit 69 for the latter to operate. In order to deliver a Mgo consultation message to an administration device 6 via the network N3, the platform 10 is adapted so that the management means 14 can implement a method 170 of consulting a history MR collecting Da vital data. The processing unit 19 of the platform - via the management means 14 - implements means 15 for encoding a view of the vital data collection history, said view resulting from the implementation of said method in the form of one or more Mgo lookup messages. The means C3 for transmitting the one or more messages Mgo to an administration device 6 are controlled by the processing unit 19 to transmit said messages on the network N3. Such a method 170 for viewing a vital data collection history MR advantageously comprises, as indicated in FIG. 4b, a first step 171 for accessing the means for memorizing MR a history of vital data collection. A step 172 constitutes a predetermined view by selecting certain fields or elements of each record. This selection operation aims to mask certain information related to the patient and / or the health personnel having initiated Da vital data measurements. Different selection rules can be pre-established depending on the type of measuring device concerned. Finally, the method 170 includes a step 713 for controlling the means 15 for encoding such a view and producing an Mgo consultation message.
[0028] Like the communicating or administering devices 6, a platform 10 according to the invention comprises means for storing MW programs for recording one or more computer programs comprising a plurality of program instructions which, during their execution or interpretation by the processing unit 19, causes the implementation of a method accessing, in writing and / or reading, means for storing the platform. It is thus possible to load in said storage means MW, any program making it possible to initialize or update the instructions making it possible to implement the methods 110, 120, 130, 140, 150, 160, 170 as well as rules for management of collected data.
[0029] A system for collecting and managing vital data Da of a patient Pi, Pj, illustrated by way of non-limiting example with reference to FIG. 3, generally comprises: a server 1 for storing a plurality of computerized patient records DPi; a plurality of measuring devices Ax, Ay, Az, each delivering vital data Da of patients Pi, Pj; a platform 10 for managing and collecting said vital data Da cooperating with said measuring devices Ax, Ay, Az, and said server 1; one or more communicating devices 20, 20a or 20b for use by health personnel Ia, Ib to record any association or dissociation between said measuring devices and patients; a possible administration device 6 to update in particular the reference system of measurement devices and to ensure management of said devices with respect to their respective holdings in the health facility. In the preferred example described with reference to FIG. 3, a measuring device Ax, Ay or Az, a communicating device 20, 20a or 20b, an administration device 6, a server 1 of computerized patient files, respectively communicate with the platform 10 by means of communication networks N1, N2, N3 and N shown in Figure 3 as separate networks. Such networks may alternatively constitute, in combination, only one and the same physical entity. As such, the means C1, C2, C3 and C allowing the platform 10 to receive or transmit messages on the networks N, N1, N2, N3 may also constitute separate physical entities or alternatively, may constitute in combination, the same physical entity.

权利要求:
Claims (26)
[0001]
REVENDICATIONS1. Platform (10) for collecting and managing vital data (Da) of a patient (Pi, Pj), said data being delivered by a medical measuring device (Ax, Ay, Az) being associated with a unique identifier (IDa ) and cooperating (N1, Cx, Cy, Cz, Cl) with said platform (10) by means of one or more data messages (Md), said platform (10) cooperating (N, C) further with a server (1) computerized patient records (DPi) and comprising a processing unit (19), said unit cooperating and implementing: - means for receiving (C1) a data message (Md) and means for decoding (13) ) and deduce therefrom the identifier (IDa) of the measuring apparatus (Ax, Ay, Az) and the vital data (Da) delivered by the latter; - Management means (14), cooperating with said means for decoding (13) a data message (Md), for selecting and aggregating vital data thus determined and producing a request for updating a computerized patient file ( DPi); means (12) for encoding such a request for updating a computerized patient file (Dpi) and producing an update message (Mpo) addressed to the server (1) of computerized patient files (Dpi); said platform being characterized in that it further comprises: means for storing a patient repository (MI) comprising, for each patient (Pi, Pj), a record comprising a unique identifier characterizing the identity of said patient and a descriptor patient; means for storing a repository of measuring apparatus (MA) comprising, for each measuring apparatus (Ax, Ay, Az), a record comprising the identifier of said apparatus (IDa) and an apparatus descriptor; means for receiving (C2) a care management message (Mli) emanating from a cooperating device (20a, 20b) (N2, Ca, Ca ', Cb, C2) with the platform (10), encoding a request in association or dissociation of a measuring apparatus and a patient, and means (11) for decoding such a message and deriving the respective identifiers of the measuring apparatus and the patient concerned by said request; and in that the management means (14) are arranged for: - after decoding a care management message (Mli) by said means for decoding (11) such a message, implementing a management method of care (110) for recording, in the means for storing the device reference system (MA), an association or dissociation of a measuring device and a patient; after decoding a data message (Md) by the means for decoding (13) such a data message (Md), implementing a method (120) for requesting an update of the computerized patient file associated with the patient concerned by the vital data thus collected by the platform.
[0002]
2. Platform (10) according to the preceding claim, for which: - the request in association or dissociation of a measuring device and a patient, previously encoded in the form of a care management message (Mli) , further comprises a unique identifier of the health personnel (Ia, Ib) initiator of said request; the means (11) for decoding a care management message (Mli) further deduce from said message, said identifier of the health personnel (Ia, Ib); - The care management method (110) implemented by the management means (14) is adapted to record, in the means for storing the device reference (MA), said identifier of the health personnel (Ia, Ib) .
[0003]
3. Platform according to the preceding claim, for which the process (120) for requesting an update of a computerized patient file, implemented by the management means (14), is adapted to integrate the unique identifier of the staff. Health (Ia, Ib) in the request to update the computerized patient record (Dpi).
[0004]
Platform according to any one of the preceding claims, further comprising means (MR) for recording a history of vital data collection, said history comprising a plurality of records, and for which the management means (14) implementing a traceability method (130) for determining the content of a record of said history in response to the decoding of any data message (Md).
[0005]
Platform according to any one of the preceding claims, wherein: a data message (Md) further comprises complementary measurement data (Dc) associated with the vital data of a patient; the means for decoding (13) a data message (Md) deduce said complementary data (Dc) measurement.
[0006]
6. Platform according to any one of the preceding claims, wherein: a care management message (Mli) further encodes complementary care data associated with the request in association or dissociation; the means for decoding (11) a care management message (Mli) derive said complementary care data.
[0007]
7. Platform according to claims 5 or 6, for which the additional measurement or care data comprise a time stamp and / or a descriptor of the measuring apparatus.
[0008]
8. Platform according to any one of the preceding claims, wherein: - the management means (14) are adapted to implement a method of determining a state of association of a measuring apparatus; the processing unit (19) comprises and implements: means for encoding (11) said association state in the form of a device association status message (Mlo); means for transmitting (C2) such a message to a cooperating device (20a, 20b) (N2, Ca, Ca ', Cb, C2) with the platform (10).
[0009]
9. Platform according to claim 4, wherein: - the management means (14) are adapted to implement a method of consulting a history of vital data collection; the processing unit (19) comprises and implements: means for encoding (15) a view of the vital data collection history, said view resulting from the implementation of said method, in the form of one or more consultation messages (Mgo); means for transmitting (C3) said message or messages to a cooperating administration device (6) (N3, C3) with the platform (10).
[0010]
Platform according to any one of the preceding claims, for which: the processing unit (19) comprises and implements: means for receiving (C3) an administration message (Mgi) emanating from a device cooperating manager (N3, C3) with the platform (10), said message encoding a request for update of the apparatus reference (MA), said request comprising a unique identifier of a measuring apparatus and a descriptor of said measuring apparatus; means (15) for decoding such a message and deriving the identifier and descriptor of the measuring apparatus concerned by the request; the management means (14) are arranged for, after decoding an administration message (Mgi) by said means for decoding (15) such a message, implementing a method (160) for updating the repository devices for creating a new record associated with the meter or for updating a record previously associated with the meter.
[0011]
11. Platform according to any one of the preceding claims, wherein: - the processing unit (19) comprises and implements: ^ means for receiving (C) a patient monitoring message (Mpi) from the server ( 1) cooperative computer patient records (N, C) with the platform (10), said message encoding a request for update of the patient repository (Mi), said request comprising a unique identifier of a patient and a descriptor of said the patient; means (12) for decoding such a message and deriving the identifier and descriptor of the patient concerned by the request; the management means (14) are arranged for, after decoding a patient monitoring message (Mpi) by said means for decoding (12) such a message, implementing a method (150) for updating the repository patients to create a new record associated with the patient or to update a record previously associated with the patient.
[0012]
Platform according to any one of the preceding claims, comprising program storage means (MW) for recording a computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit. (19), causes the implementation of a method accessing, in writing and / or read, means for storing (MI, MA, MR, MW) of the platform (10).
[0013]
13. Care management method (110), said method being implemented by the management means (14) of the processing unit of a platform (10) for collecting and managing vital data (Da) d a patient (Pi, Pj) according to any one of claims 1 to 12, in response to the decoding of a care management message (Mli) encoding an association request (+) of a measuring device and a a patient, said care management method comprising the steps of: - searching (111) in the device repository, a record including the device identifier previously deduced from said care management message (Mli); - register (112) in said record association information with a record of the patient repository, said record including the patient identifier also previously deduced from said care management message (Mli).
[0014]
14. Care management method (110), said method being implemented by the management means (14) of the processing unit of a platform (10) for collecting and managing vital data (Da) d a patient (Pi, Pj) according to any one of claims 1 to 12, in response to the decoding of a care management message (Mli) encoding a dissociation (-) investigation of a measuring apparatus and a patient, said care management method comprising the steps of: - searching (113) in the device repository, a record including the device identifier previously deduced from said care management message (Mli); - Delete or delete (114) in said record the association information with a record of the patient repository, said record including the patient identifier also previously deduced from said care management message (Mli).
[0015]
The care management method (110) according to claim 13 or 14, when implemented by the management means (14) of a platform according to claim 3, said method comprising a step (115). to record in the registration of the device repository, the unique identifier of the health personnel (Ia, Ib) initiator of the request in association or dissociation.
[0016]
16. A method (120) for requesting the updating of a computerized patient file (DPi), said method being implemented, by the management means (14) of the processing unit (19) of a platform (10) for collecting and managing vital data (Da) of a patient (Pi, Pj) according to any one of claims 1 to 12, in response to decoding a data message (Md), said method comprising the steps for: - searching (121) in the apparatus repository (MA), a record including the device identifier derived from the data message (Md); reading (122) the association information designating a record of the patient repository (MI); searching for (123) said associated record in the patient repository (MI) and reading (123) the patient identifier contained in said associated record; - developing (124) a request for updating the computerized patient file (Dpi) comprising the patient identifier and the vital data deduced from the previously decoded data message (Md); - command (125) the means (12) for encoding such a request for updating a computerized patient file (Dpi) and producing an update message (Mpo) sent to the server (1) of computerized patient files ( dpi).
[0017]
17. Method (160) for updating the apparatus reference system (MA), said method being implemented by the management means (14) of the processing unit (19) of a platform (10) of The collection and management of vital data (Da) of a patient (Pi, Pj) according to claim 10, in response to the decoding of an administration message (Mgi), said method comprising the steps of: - searching (161) ) in the device repository, a record including the device identifier previously deduced from the administration message (Mgi); if yes (y), update (162) the descriptor of the measuring apparatus in said record; - If not (n), create (163) a new record in the device repository and enter the device identifier and the descriptor of it, previously deduced from the administration message (Mgi).
[0018]
18 traceability process (130) implemented by the management means (14) of the processing unit (19) of a platform (10) for collecting and managing vital data (Da) of a patient ( Pi, Pj) according to claims 4, 7 and 9, in response to the decoding of a data message (Md), said method comprising the steps of: - creating (131) a record in the means for storing the history ( MR); - register (132) in said record all the elements (IDa, DA, Dc) deduced from said data message (Md); searching (133) in the device repository, the record comprising the device identifier derived from the data message (Md), - reading (134) the association information of said record; associated registration in the patient repository; if it exists (146), read (137) the identifier of the patient concerned by the data measurement collection; - write (138) in the record of the history, said patient identifier.
[0019]
19. A method (170) of consulting a history of vital data collection, said method being implemented by the management means (14) of the processing unit (19) of a collection platform (10). and managing vital data (Da) of a patient (Pi, Pj) according to claims 4, 7 and 9, said method comprising the steps of: - accessing read (171) means for storing (MR) a history vital data collection; constituting (172) a predetermined view of fields of each record; command (173) means (15) for encoding such a view and producing a consultation message (Mgo).
[0020]
20. Method (150) for updating the patient repository (MI), said method being implemented by the management means (14) of the processing unit (19) of a platform (10) of The collection and management of vital data (Da) of a patient (Pi, Pj) according to claim 11, in response to the decoding of a patient monitoring message (Mpi), said method comprising the steps of: - searching (151) ) in the device repository (MA), a record including the patient identifier previously deduced from the patient monitoring message (Mpi); - if yes (y), update (152) the descriptor of the patient in said record; - in the negative (n), create (153) a new record in the patient repository and enter there the patient identifier and the descriptor thereof, previously deduced from the patient monitoring message (Mpi).
[0021]
21. A method (140) for determining an association state of a measuring apparatus, said method being implemented by the management means (14) of the processing unit (19) of a platform ( 10) for collecting and managing vital data (Da) of a patient (Pi, Pj) according to claim 8, said method comprising the steps of: - reading access (141) to the means for storing the device reference system ( MY); - constituting (142) a predetermined view of the fields of each record; controlling (143) the means (15) for encoding such a view and producing a device association status message (Mlo).
[0022]
22. A computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit (19) of a platform (10) according to claim 12, causes the implementation of a method (110, 120, 130, 140, 150, 160, 170) according to any one of claims 13 to 21, said program being loadable in the program storage means (MW) of said platform.
[0023]
23. communicating device (20, 20a, 20b), intended for use by a health personnel (Ia, Ib), characterized in that it comprises: - means for cooperating (21, Ca, Cb) with a platform (10) vital data collection and management (Da) of a patient (Pi, Pj) according to any one of claims 1 to 12; a set man-machine interface (22) for translating a selection action of said health personnel (Ia, Ib) into a determination of an identifier of a measuring apparatus, a patient's identifier and a an operation of associating or dissociating said measuring apparatus (Ax, Ay, Az) and said patient (Pi, Pj); - a processing unit (29) cooperating with said means for cooperating with a platform (10) and said setpoint man-machine interface (22); and in that said processing unit (29) is adapted to implement a method for generating and transmitting a care management message (Mli) encoding a request for associating or disassociating a data measuring apparatus vital and a patient.
[0024]
24. communicating device (20, 20a, 20b) according to the preceding claim, further comprising a human-machine interface restitution (23) cooperating with the processing unit (29) of the device (20, 20a, 20b), and for which: - the means for cooperating (21, Ca, Cb) with the platform (10) are further arranged to receive a device association status message (Mlo) emanating from the platform (10) and encoding a state of association of a measuring apparatus; the processing unit (29) is arranged to implement an association state consultation method of a measuring apparatus in response to receiving said device association status message (Mlo).
[0025]
25. A method (210) for developing a care management message (Mli) encoding a request to associate or dissociate a vital data measuring apparatus (Ax, Ay, Az) and a patient (Pi, Pj), said method being implemented by the processing unit (29) of a communicating device (20, 20a, 20b) according to claims 23 or 24, characterized in that it comprises steps for: - controlling (211) the interface setpoint human-machine (22) translating a user selection action (Ia, Ib) to determine the unique identifier of a measuring device, the unique identifier of a patient and an operation of association or dissociating said measuring apparatus and said patient; according to the determined association or dissociation operation, producing (212) respectively a request for associating or dissociating the measuring apparatus with the patient whose respective identifiers have been determined; encoding (213) said request and producing a care management message (Mli); - Command (214) the transmission of said message (Mli) by the means for cooperating (21, Ca, Cb) with the platform (10).
[0026]
26. Method (223) of measuring apparatus association state consultation, said method being implemented by the processing unit (29) of a communicating device (20, 20a, 20b) according to the claim 24, characterized in that it comprises steps for: - following the reception (221) of a device association status message (Mlo), decoding (222) such a message and in deriving the identifier of said measuring apparatus and an identifier of a patient associated with said apparatus or a predetermined value translating a non-association to a patient; - Command (223) the restitution of said identifiers and / or predetermined value by the human-machine rendering interface (23) to a user (Ia, Ib) of the communicating device (20, 20a, 20b) .27. Administration device (6), characterized in that it comprises: - means for cooperating (61, C3) with a platform (10) for collecting and managing given vital data (Da) of a patient (Pi , Pj) according to claim 10; a set man-machine interface (62) for translating a selection action of a user of said administration device (6) into a determination of an identifier of a measuring apparatus and a descriptor specific to said apparatus measuring; - a processing unit (69) cooperating with said means for cooperating (61, C3) with the platform (10) and said setpoint man-machine interface (62); and in that said processing unit (69) is adapted to implement a method for generating and sending an administration message (Mgi), said message encoding a request for updating the repository of the apparatus (MA) of the platform (10). 28. Administration device (6) according to the preceding claim, further comprising a human-machine interface restitution (63) cooperating with the processing unit (69) of said device (6), and for which: - the means for cooperating (61, C3) with the platform (10) are further arranged to receive a consultation message (Mgo) from the platform (10) and encoding a history view (MR) of vital data collection of the platform (10); the processing unit (69) is furthermore arranged to implement a method of supervising the operation of measuring devices, in response to the reception of said consultation message (Mgo). 29. Method (610) for developing an administration message (Mgi), said method being implemented by the processing unit (69) of an administration device (6) according to claims 27 or 28, characterized in that it comprises steps for: - controlling (611) the setpoint human-machine interface (62) translating a selection action of a user of the administration device (6) to determine an identifier and a descriptor a measuring device; generating (612) a request to update the device repository (MA) of the platform (10) comprising said identifier and descriptor of the measuring apparatus; encoding (613) said request in the form of an administration message (Mgi); command (614) the transmission of said message (Mgi) by the means for cooperating (61, C3) with the platform (10). 30. Method (620) for monitoring the operation of measuring apparatus, said method being implemented by the processing unit (69) of a delivery device (6) according to claim 28, characterized in that it comprises steps for: - following receipt of a consultation message (Mgo) from the platform (10), decode (621) such a message and deduce a view of the history (MR ) collecting vital data from the platform (10); implementing (622) a processing of said view and producing synthesis data; controlling (623) the rendering of said synthesis data by the human-machine rendering interface (63) to a user of said administration device (6). A system for collecting and managing vital data (Da) of a patient (Pi, Pj), comprising: - a server (1) for storing a plurality of computerized patient records (DPi); a plurality of measuring devices (Ax, Ay, Az) each delivering vital patient data (Pi, Pj); a platform (10) for managing and collecting said vital data (Da) cooperating with said measuring devices (Ax, Ay, Az) and said server (1); characterized in that said platform (10) is according to any one of claims 1 to 12 and in that said system further comprises one or more communicating devices (20, 20a, 20b) according to one of the claims 23 or 24 and cooperating with said platform (10). 32. System according to the preceding claim, further comprising a delivery device (6) according to claims 27 or 28 cooperating with the platform (10). 33. Computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit (29) of a communicating device (20, 20a, 20b) according to claims 23 or 24 , causes the implementation of a method (210, 220) according to claims 25 or 26, said communicating device further comprising storage means (24) in which said program is loadable. 34. A computer program comprising a plurality of program instructions which, when executed or interpreted by the processing unit (69) of a delivery device (6) according to claims 27 or 28, causes the implementation of a method (610, 620) according to claims 29 or 30, said administration device further comprising storage means (64) in which said program is loadable.

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公开号 | 公开日

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US20170024520A1|2017-01-26|

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FR3019675B1|2017-08-18|

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WO2015155479A1|2015-10-15|

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EP3129925A1|2017-02-15|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US20100169120A1|2008-12-31|2010-07-01|Cerner Innovation, Inc.|Patient to device association|

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US20110077965A1|2009-09-25|2011-03-31|Cerner Innovation, Inc.|Processing event information of various sources|

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US7430608B2|2001-12-04|2008-09-30|Siemens Medical Solutions Usa, Inc.|System for processing data acquired from multiple medical devices|

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AU2004224345B2|2003-03-21|2010-02-18|Welch Allyn, Inc.|Personal status physiologic monitor system and architecture and related monitoring methods|

---

US8171094B2|2010-01-19|2012-05-01|Event Medical, Inc.|System and method for communicating over a network with a medical device|

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US20110264463A1|2010-04-21|2011-10-27|Automated Medical Technologies, Llc|Activity notification system and method|

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US20140180719A1|2012-10-21|2014-06-26|Mymedlink, Llc|Personal healthcare information management system and related methods|

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US20150234984A1|2014-02-14|2015-08-20|Zenon Health LLC|Patient-Centric Portal|US10600512B1|2019-08-18|2020-03-24|Medigate tech Ltd.|Network-based calculation of prevalence of repeated medical imaging|

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US10825566B1|2019-08-18|2020-11-03|Medigate tech Ltd.|Ensuring availability of medical devices to receive maintenance|

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US10658079B1|2019-08-18|2020-05-19|Medigate tech Ltd.|Crowd-based recommendations of a version of firmware for medical devices|

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US11056232B2|2019-08-18|2021-07-06|Medigate tech Ltd.|Medication usage auditing based on analysis of infusion pump network traffic|

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US10923216B1|2020-06-12|2021-02-16|Tensorx, Inc.|Health status system, platform, and method|

法律状态:
2016-04-28| PLFP| Fee payment|Year of fee payment: 3 |

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2017-04-19| PLFP| Fee payment|Year of fee payment: 4 |

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2018-04-20| PLFP| Fee payment|Year of fee payment: 5 |

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2019-04-18| PLFP| Fee payment|Year of fee payment: 6 |

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2020-04-20| PLFP| Fee payment|Year of fee payment: 7 |

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2021-04-29| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1453138A|FR3019675B1|2014-04-08|2014-04-08|METHODS, PLATFORM AND SYSTEM FOR COLLECTING AND MANAGING PATIENT VITAL DATA FOR HEALTH FACILITIES|FR1453138A| FR3019675B1|2014-04-08|2014-04-08|METHODS, PLATFORM AND SYSTEM FOR COLLECTING AND MANAGING PATIENT VITAL DATA FOR HEALTH FACILITIES|

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US15/302,813| US20170024520A1|2014-04-08|2015-04-08|Methods, platform and system for collecting and managing vital data of patients for healthcare establishments|

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PCT/FR2015/050920| WO2015155479A1|2014-04-08|2015-04-08|Methods, platform and system for collecting and managing vital data of patients for healthcare establishments|

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EP15720373.8A| EP3129925A1|2014-04-08|2015-04-08|Methods, platform and system for collecting and managing vital data of patients for healthcare establishments|