JP6589074B2 - Ophthalmic examination support system and ophthalmic examination support server - Google Patents

Description

  The present invention relates to a system and a server for supporting an ophthalmic examination.

  Various inspection devices are used in ophthalmology. As examples thereof, there are an apparatus for acquiring an image of an eye to be examined (ophthalmologic photographing apparatus) and an apparatus for measuring characteristics of an eye to be examined (ophthalmic measuring apparatus). Examples of the ophthalmologic photographing apparatus include an optical coherence tomography apparatus (OCT apparatus), a fundus camera, a slit lamp, and a scanning laser ophthalmoscope (SLO). Examples of the ophthalmologic measurement apparatus include a refractometer, a keratometer, a tonometer, and a perimeter. In addition, a multifunction machine configured to perform two or more types of inspection (imaging and / or measurement) is also used. Further, there are ophthalmic examination apparatuses (an ophthalmologic imaging apparatus, an ophthalmic examination apparatus, a computer, etc.) having a function of analyzing data acquired by photographing or measurement.

  In recent years, attention has been focused on early detection / early treatment of diseases and preventive medicine. Improvement of test accuracy to detect subtle symptoms and research on screening tests to investigate the possibility of onset when no symptoms appear.・ Development is in progress. Currently, such advanced medical care is rarely provided except for advanced medical institutions such as university hospitals and basic hospitals.

  On the other hand, patients often visit a nearby clinic or the like instead of such an advanced medical institution when they become aware of symptoms. In addition, performing a test before recognizing a symptom is substantially limited to general medical examinations and screenings. Thus, although screening tests and the like are ideal, effective and efficient operation is currently difficult.

  There may be cases where a doctor visits a medical institution after receiving an introduction from a clinic or the like, but the time, cost, and physical burden on the patient are large, such as having to perform the same examination again. One reason is that a system for sharing medical chart information and medical images among a plurality of medical institutions has not been established.

  As described above, a variety of examinations are performed in ophthalmology. In addition to tests specific to ophthalmology, tests common to other clinical departments (for example, clinical tests such as blood tests and biological tests) are also performed. The types and number of tests that can be performed differ between advanced medical institutions and others. Therefore, the above problem is considered relatively serious in ophthalmology.

JP 2009-104278 A JP 2002-83058 A JP-A-9-135816 JP 2013-126422 A JP 2013-529292 A JP 2010-193903 A JP 2007-20563 A

  An object of the system and the server according to the present invention is to widely provide a method for early detection of ophthalmic diseases and preventive medicine.

  The ophthalmic examination support system of the embodiment includes a server and a plurality of clients. The server includes a medical information storage device that stores medical information of each patient, and a management device that manages the medical information stored in the medical information storage device. The client can communicate with the management apparatus. The ophthalmic examination support system according to the embodiment includes a related information storage unit and an examination condition acquisition unit. The related information storage unit stores in advance related information in which medical information of a predetermined item and an examination condition for an ophthalmic examination are associated with each other. The examination condition acquisition unit receives medical information retrieved from the medical information storage device by the management device based on patient information transmitted from any one of the plurality of clients, and sets examination conditions corresponding to at least a part of the medical information. Obtain from related information. The client performs control based on the inspection condition acquired by the inspection condition acquisition unit. The medical information stored in the medical information storage device includes an image of a patient's eye. In the related information, characteristic information indicating the functional characteristics of an eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated. The examination condition acquisition unit analyzes the image retrieved based on the patient information to determine whether the image includes the functional feature included in the related information, and the functional determined to be included in the image. A process for acquiring the inspection condition corresponding to the feature information indicating the feature from the related information is executed.

  According to the present invention, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases.

It is a schematic diagram showing an example of composition of an ophthalmic examination support system concerning an embodiment. It is a schematic diagram showing an example of composition of an ophthalmic examination support system concerning an embodiment. It is a sequence diagram showing an example of a usage pattern of the ophthalmic examination support system according to the embodiment. It is a sequence diagram showing an example of a usage pattern of the ophthalmic examination support system according to the embodiment. It is a sequence diagram showing an example of a usage pattern of the ophthalmic examination support system according to the embodiment. It is a sequence diagram showing an example of a usage pattern of the ophthalmic examination support system according to the embodiment. It is a sequence diagram showing an example of a usage pattern of the ophthalmic examination support system according to the embodiment. It is a sequence diagram showing an example of a usage pattern of the ophthalmic examination support system according to the embodiment.

  An example of an ophthalmic examination support system, an ophthalmic examination support server, and an ophthalmic examination support apparatus according to an embodiment will be described. The ophthalmic examination support system includes an ophthalmic examination support server and an ophthalmic examination support apparatus. In addition, the content of the literature referred in this specification can be arbitrarily used for embodiment of this invention.

<System configuration>
A configuration example of the ophthalmic examination support system according to the embodiment is shown in FIGS. 1 and 2. The ophthalmic examination system of the embodiment includes a part or all of the system shown in FIG. FIG. 2 shows a configuration example of the system server 10 and the client 1000 included in the system shown in FIG. The client 1000 includes a device installed in a clinic or a basic hospital. That is, the client 1000 may include the information processing apparatus 110 and / or the ophthalmic examination apparatus 120 installed in the clinic, and may include the information processing apparatus 210 and / or the ophthalmic examination apparatus 220 installed in the basic hospital. .

  The ophthalmic examination support system provides a service centered on the system server 10. Service providers include, for example, a plurality of clinics and a plurality of core hospitals. The system server 10 can communicate with the information processing apparatus 110 and / or the ophthalmic examination apparatus 120 installed in each clinic. In addition, the system server 10 can communicate with the information processing apparatus 210 and / or the ophthalmic examination apparatus 220 installed in each basic hospital.

Furthermore, the system server 10 can communicate with, for example, at least one of the following:
An information processing device installed in a facility for analyzing ophthalmic examination results (eg, a server 300 installed in an ophthalmic image analysis center for analyzing eye images);
An information processing device installed in a facility for analyzing genetic information (eg, server 400 installed in the genome analysis center);
Information processing equipment installed in a facility for integrated analysis of multiple ophthalmic examination results, doctor's diagnosis results, etc. (eg, obtained from medical information and ophthalmic image analysis centers in clinics and core hospitals) The server 500 installed in the integrated analysis center for integrated analysis of the analysis results and the analysis results obtained in the genome analysis center);
An information processing apparatus installed in a manufacturer that provides products to medical institutions (eg, a server 600 installed in a pharmaceutical manufacturer, a server installed in a medical device manufacturer, etc.).

  Here, the clinic is a medical institution that a patient first visits like a clinic, for example, a general clinician (generalist) provides primary care. On the other hand, a basic hospital is a medical institution that is the center of medical care in the region, for example, a large hospital or a university hospital that can provide advanced medical care. The service providing destination according to the embodiment is not limited to such a medical institution, and may include any medical institution. Further, the service providing destination may be not only a hospital but also a health checkup center or a checkup center. In particular, the service according to the embodiment may be an information processing apparatus and / or an ophthalmic examination apparatus installed in an arbitrary facility. For example, even when an ophthalmic examination device is installed at a patient's home or a welfare facility for the elderly for home medical care, or when an ophthalmic examination device is installed at a pharmacy or eyeglass store in a wide-area ophthalmic examination service It is possible to apply the structure which concerns on a form. In this embodiment, a system including a clinic and a basic hospital will be described as a typical case.

  In addition, the information processing apparatus and the ophthalmic examination apparatus included in the ophthalmic examination support system are connected to at least the system server 10 via an arbitrary form of communication line. The communication line of the embodiment includes a wide area network (WAN) such as the Internet or a dedicated line. Furthermore, the communication line of the embodiment may include an arbitrary communication network such as a local area network such as a hospital LAN constructed in a medical institution, a cable connecting a plurality of devices, and a satellite communication network. At least a part of the communication line in the embodiment may be wired, and at least a part of the communication line in the embodiment may be wireless.

[clinic]
An information processing terminal 110 and an ophthalmic examination apparatus 120 are installed in the clinic. The information processing terminal 110 is an arbitrary computer used in the clinic. The information processing terminal 110 includes hardware such as a processor and a storage device, and software for executing various types of information processing (for example, information processing described later). The information processing terminal 110 is, for example, a terminal used by a doctor (doctor terminal) or a hospital LAN server. The information processing terminal 110 is a computer connected to the ophthalmic examination apparatus 120 via a hospital LAN or a cable. Alternatively, the information processing terminal 110 may include a processor mounted on the ophthalmic examination apparatus 120. The information processing terminal 110 may be a portable computer (tablet, notebook computer, etc.) that can be used outside the clinic, or a computer installed in a vehicle.

  The ophthalmic examination apparatus 120 is used inside or outside the clinic. The ophthalmic examination apparatus 120 is an ophthalmologic imaging apparatus and / or an ophthalmic measurement apparatus. Examples of the ophthalmologic photographing apparatus include an OCT apparatus, a fundus camera, a slit lamp, and an SLO. Examples of the ophthalmologic measurement apparatus include a refractometer, a keratometer, a tonometer, and a perimeter. The ophthalmic examination apparatus 120 may be a multifunction machine. Further, the ophthalmic examination apparatus 120 may have a function of analyzing data acquired by photographing or measurement. In the clinic, one or more ophthalmic examination apparatuses 120 are installed.

[Main hospital]
An information processing terminal 210 and an ophthalmic examination apparatus 220 are installed in the basic hospital. The information processing terminal 210 and the ophthalmic examination apparatus 220 may be the same as the information processing terminal 110 and the ophthalmic examination apparatus 120 of the clinic, respectively. Details of the devices installed in clinics and basic hospitals will be described later.

[System Server 10]
The system server 10 is managed by, for example, a provider of an ophthalmic examination support system. The system server 10 includes hardware such as a processor and a storage device, and software for executing various types of information processing (for example, information processing described later). Details of the system server 10 will be described later.

[Ophthalmological image analysis center server 300]
The ophthalmological image analysis center is a facility for analyzing images acquired by photographing patient's eyes at a clinic or a basic hospital. This analysis may include analysis using a computer (application) and analysis by a specialist or the like. The ophthalmic image analysis center has a database created based on medical information such as ophthalmic image analysis results.

  The ophthalmic image analysis center server 300 may include one or more computers (processors) for analyzing images of patient eyes (or may be connected to one or more such computers). The ophthalmic image analysis center server 300 includes, for example, the latest application for various types of analysis methods, and provides high-precision and high-accuracy analysis. Further, the ophthalmic image analysis center server 300 can provide comprehensive analysis by combining a plurality of analysis applications.

  The ophthalmologic image analysis center server 300 has a function of analyzing an image (OCT image) acquired by an OCT apparatus, for example. Examples of OCT image analysis include segmentation for obtaining a specific tissue and tissue boundary of the eye, and size analysis for obtaining the size (layer thickness, area, volume, etc.) of the specific tissue. Other examples of analysis types that can be executed by the ophthalmic image analysis center server 300 include the following: papillary analysis for determining papillary parameters such as the size and shape (tilt, etc.) of the optic nerve head; the shape and layer thickness of the macula Macular analysis for obtaining macular parameters such as distribution; Sieve plate analysis for obtaining sieving plate parameters such as thickness, shape and pore distribution of sieving plate; Blood vessels such as fundus blood vessel distribution and hemodynamics・ Vessel and blood flow analysis to determine blood flow parameters; Corneal analysis to determine corneal parameters such as corneal shape (curvature etc.) and layer thickness distribution; Angle of the corner at the intersection of cornea and iris, etc. Angle analysis to determine the angle parameter of the patient; transplantation analysis to determine the evaluation parameters for the intraocular lens and cell sheet implanted in the patient's eye. Details of processing executed by the ophthalmic image analysis center server 300 will be described later.

[Genome Analysis Center Server 400]
The genome analysis center is a facility that performs genetic testing of specimens (blood, extracted tissue, saliva, urine, hair, sperm, eggs, etc.) collected from patients. The genome analysis center also has a database created based on medical information such as genetic test results.

  The genome analysis center may be capable of performing a full genome analysis that obtains all genetic information of a patient. In addition, the genome analysis center may be capable of performing a pseudo full genome analysis for obtaining pseudo total genetic information of a patient by referring to statistical data of a large number of full genome information. Furthermore, the genome analysis center may be able to obtain a risk of a specific disease from the genetic information of the patient.

  The genome analysis center server 400 may include one or more computers (processors) for analyzing patient genetic information (or may be connected to one or more such computers). The genome analysis center server 400 includes, for example, the latest application for various types of analysis methods, and provides high-accuracy and high-accuracy analysis. In addition, the genome analysis center server 400 can provide comprehensive analysis combining a plurality of analysis applications.

[Integrated Analysis Center Server 500]
The integrated analysis center is a facility that analyzes various examination and diagnosis results in an integrated manner. This analysis may include analysis using a computer (application) and analysis by a specialist or the like. The integrated analysis center has a database created based on medical information such as various examination results and diagnosis results. In the present embodiment, an integrated analysis including at least the analysis result of the ophthalmic image obtained at the ophthalmic image analysis center and the result of the genetic test obtained at the genome analysis center is performed. Furthermore, diagnostic results obtained at clinics or core hospitals may also be included.

  The integrated analysis center server 500 may include one or more computers (processors) for performing an integrated analysis of patient eyes (or may be connected to such one or more computers). The integrated analysis center server 500 includes, for example, the latest application for various types of analysis methods, and provides high-accuracy and high-accuracy analysis.

[Pharmaceutical manufacturer server 600]
A pharmaceutical manufacturer uses data accumulated by an ophthalmic examination support system (or an information processing device connected thereto) for drug discovery research. The pharmaceutical manufacturer server 600 receives such accumulated data from the system server 10 or another information processing apparatus (an ophthalmic image analysis center server 300, a genome analysis center server 400, an integrated analysis center server 500, etc.).

<Configuration of System Server 10 and Client 1000>
The system server 10 and the client 1000 will be described with reference to FIG.

[Client 1000]
As described above, the client 1000 includes one or more devices installed in a clinic or core hospital. For example, the client 1000 installed in the clinic includes the information processing apparatus 110 and / or the ophthalmic examination apparatus 120. In addition, the client 1000 installed in the basic hospital includes an information processing apparatus 210 and / or an ophthalmic examination apparatus 220.

  The client 1000 includes a control unit 1100, an inspection unit 1200, a user interface unit (UI unit) 1300, and a communication unit 1400.

(Control unit 1100)
The control unit 1100 includes a processor and controls each unit of the client 1000. For example, the control unit 1100 controls the examination unit 1200 to perform examination of the patient's eye. The control of the inspection unit 1200 includes control for setting inspection conditions.

(Inspection unit 1200)
The examination unit 1200 performs examination of the patient's eye under the control of the control unit 1100. The inspection unit 1200 includes an ophthalmic inspection apparatus 120 or 220, for example.

  When the inspection unit 1200 has an imaging function, the inspection unit 1200 includes, for example, an optical system for irradiating light to the patient's eye and an optical system for detecting return light of the light irradiated to the patient's eye. . Further, the examination unit 1200 may include other optical systems such as an optical system for projecting a fixation target onto the patient's eye. In addition, the inspection unit 1200 may include a processor for processing the return light detection result (image signal, video signal, etc.).

  An example of the imaging function is OCT. The OCT optical system is configured to divide the light from the light source into measurement light and reference light, and superimpose the return light of the measurement light from the patient's eye and the reference light to generate interference light and detect it. The Furthermore, a processor or the like is provided that performs signal processing such as fast Fourier transform (FFT) on the detection result of the interference light to form image data. The optical path of the measurement light (measurement arm) includes an optical scanner for scanning the patient's eye with the measurement light, a focusing lens for changing the focus position of the measurement light, and an optical path for changing the length of the measurement arm. Various members such as a length changing mechanism (corner cube or the like) are provided. Various members such as a polarization controller, an optical attenuator, an optical path length changing mechanism (a reference mirror, a mechanism for moving the reference mirror, etc.) are provided in the optical path (reference arm) of the reference light. As inspection conditions for OCT, fixation positions (control conditions for fixation target projection optical system), light quantity / wavelength (control conditions for light source), scanning pattern of measurement light (control conditions for optical scanner), focus position (focusing) Lens control condition), optical path length of measurement arm and / or reference arm (control condition of optical path length changing mechanism), polarization adjustment state (control condition of polarization controller), light attenuation state (control condition of optical attenuator), etc. . When the inspection unit 1200 has a function of analyzing the OCT image, the inspection condition may include a parameter in the analysis process.

  Inspection conditions such as the fixation position, the light amount / wavelength, the scanning pattern, and the focus position are similarly applied to the SLO. In addition, inspection conditions such as a fixation position, a light amount / wavelength, and a focus position are similarly applied to a fundus camera. When the inspection unit 1200 includes an OCT, an SLO, a fundus camera, and the like, alignment that is alignment of the optical system with respect to the patient's eye and focusing of the optical system with respect to the fundus are performed. These are performed by projecting an index onto the patient's eye. Such parameters relating to alignment and focusing can be applied as inspection conditions. When the inspection unit 1200 includes a slit lamp, the position (angle) of the illumination optical system and the photographing optical system, the slit width, and the like can be applied to the inspection conditions in addition to the light amount / wavelength.

  When the inspection unit 1200 has a measurement function, the inspection unit 1200 includes, for example, an optical system for irradiating light to the patient's eye and an optical system for detecting return light of the light irradiated to the patient's eye. . Further, the examination unit 1200 may include other optical systems such as an optical system for projecting a fixation target onto the patient's eye. In addition, the inspection unit 1200 may include a processor for processing the return light detection result (image signal, video signal, etc.). Examples of the measurement function include an eye refractive power measurement function (refractometer), a corneal shape measurement function (keratometer), an intraocular pressure measurement function (tonometer), and a visual field inspection function (perimeter). The inspection unit 1200 includes a configuration according to the mounted measurement function, and inspection conditions according to this configuration are applied.

(User interface unit 1300)
The user interface unit 1300 includes a display unit 1310 and an operation unit 1320. The display unit 1310 includes a display device provided in the information processing apparatus 110 (210) and a display device provided in the ophthalmic examination apparatus 120 (220). The operation unit 1320 includes a keyboard and a mouse provided in the information processing apparatus 110 (210), a button, a joystick and a knob provided in the ophthalmic examination apparatus 120 (220), and an operation attachment connected to the ophthalmic examination apparatus 120 (220). Etc. The display unit 1310 and the operation unit 1320 do not need to be configured as individual devices. For example, a device in which a display function and an operation function are integrated, such as a touch panel, may be used.

(Communication unit 1400)
The communication unit 1400 includes a communication interface for performing communication with an external device such as the system server 10. The communication interface has a configuration conforming to a network standard used by the ophthalmic examination support system.

[System Server 10]
The system server 10 includes a management device 11 and a medical information storage device 12. Note that the system server 10 may be constructed as a server (for example, a cloud server) on a network, or may be installed in a basic hospital or the like. Or you may provide the same structure as the system server 10 (for example, cloud server) arrange | positioned on a network also in a basic hospital. Further, a combination of a first server (for example, a cloud server) arranged on a network and a second server provided in a basic hospital may be configured to provide a function as the system server 10.

(Medical information storage device 12)
The medical information storage device 12 includes one or more large-capacity storage devices such as hard disk drives, and stores medical information of each patient. Identification information is given to each patient. For example, an account for each patient is provided in the medical information storage device 12. Alternatively, the medical information storage device 12 is provided with a storage area (folder) for each patient. Medical information includes images (OCT images, SLO images, fundus front images, slit cross-sectional images, etc.), characteristic values (refractive power, corneal curvature, intraocular pressure, etc.), image analysis data, characteristic analysis data, gene information (analysis thereof) Data), diagnosis results (diagnostic report), interpretation results (interpretation reports), specimen test results (specimen test reports), and other data relating to the patient's eye or patient.

(Management device 11)
The management device 11 manages medical information stored in the medical information storage device 12. The management device 11 includes a control unit 111, a related information storage unit 112, a related information management unit 113, a search unit 114, an inspection condition acquisition unit 115, and a communication unit 116.

(Control unit 111)
The control unit 111 includes a processor and controls each unit of the management apparatus 11 (system server 10).

(Related information storage unit 112)
The related information storage unit 112 stores in advance related information in which medical information of a predetermined item and an examination condition for an ophthalmic examination are associated with each other.

  The items of medical information included in the related information are selected according to the type and condition of the ophthalmic examination. Examples of medical information items include items included in image analysis data, items included in characteristic analysis data, items included in gene information (its analysis data), items included in diagnosis results, items included in interpretation results, There are items included in the specimen test results. Specific examples of items of medical information include a parameter indicating the thickness (distribution) of a predetermined layer of the retina, a parameter indicating the shape of the optic nerve head, a parameter indicating the defect state of the retinal nerve fiber layer (RNFL), and bleeding near the optic nerve head There are parameters indicating the state, parameters indicating the atrophy state of the choroid around the optic disc, and the like. These items are related to glaucoma. Further, as items related to age-related macular degeneration, parameters indicating the state of new blood vessels extending from the choroid to the retinal surface, parameters indicating drusen distribution, parameters indicating the detachment state of the retinal pigment epithelium (RPE), macular There are parameters that indicate the status of lower bleeding. These parameters are acquired by analysis processing using a computer, interpretation or diagnosis by a specialist. In addition, character information (such as disease names, findings, administered drug names, numerical values, etc.) and image information (schema etc.) included in interpretation reports, diagnostic reports, and specimen test reports, and characteristic items obtained from medical information items Can also be used.

  The inspection conditions included in the related information include not only the various parameters as described above, but also the inspection type (and / or analysis type), a combination of a plurality of inspection types (and / or analysis types) (inspection menu / analysis menu), The type of computer program for executing one or more tests (and / or analysis types) may be included. For example, one or more examination types relating to a specific disease (glaucoma, age-related macular degeneration, diabetic retinopathy, etc.), one or more analysis types relating to a specific disease, and the type of computer program for performing such examination and / or analysis and so on.

  Some examples of related information will be described. The related information storage unit 112 may store at least one of first related information and second related information described below.

  In the first related information, related gene information of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated. For example, the first related information includes information indicating a gene related to the risk of glaucoma onset, and examination conditions for glaucoma ophthalmic examination (three-dimensional OCT scan, peripapillary OCT scan, fundus photography, RNFL analysis, nipple shape analysis, sieve Association with plate analysis etc.). In addition, the first related information includes information indicating genes related to the onset risk of age-related macular degeneration, and examination conditions for ophthalmic examination regarding age-related macular degeneration (macular three-dimensional OCT scan, fundus photography, drusen analysis, RPE Analysis) and the like.

  In the second related information, characteristic information indicating the morphological and / or functional characteristics of the eye of the predetermined disease is associated with the examination conditions of the ophthalmic examination related to the disease. The morphological features are features that can be visually identified, such as the shape, size, arrangement, and color of the part of the eye (fundus, anterior eye portion, etc.). The morphological feature is identified from the image, for example. As specific examples, from the front image acquired by OCT, fundus camera or SLO, optic nerve head (C / D ratio, R / D ratio, size, etc.), lesion (drusen, bleeding, new blood vessels, etc.), bleeding, new blood vessels Etc. are identified. In addition, from the cross-sectional images (B-scan image, three-dimensional image, etc.) acquired by OCT, the optic nerve head (cross-sectional shape, inclination, size, etc.), macular (cross-sectional shape, etc.), lesion (drusen, edema, etc.), layer thickness , Features related to layer defects, etc. are identified. The functional characteristics are characteristics related to the function as a living tissue, and examples thereof include characteristics of blood flow dynamics (blood flow rate, blood flow velocity, etc.) of the fundus blood vessel, and characteristics of fluid circulation in the eye.

  For example, the second related information includes information indicating morphological characteristics of glaucomatous eyes (peripheral RNFL thickness threshold, nipple rim thickness threshold, etc.) and examination conditions for glaucoma ophthalmic examination (three-dimensional OCT scan, peripapillary OCT) Scan, fundus imaging, RNFL analysis, nipple shape analysis, sieve plate analysis, etc.). The second related information includes information indicating the morphological characteristics of age-related macular degeneration (Drusen distribution, RPE peeling, etc.) and examination conditions for ophthalmic examination regarding age-related macular degeneration (macular three-dimensional OCT scan, fundus photography) , Drusen analysis, RPE analysis, etc.).

(Related Information Management Unit 113)
The related information management unit 113 manages related information. For example, the related information management unit 113 updates the related information. An example of the update process will be described below. Note that the update process is executed at an arbitrary timing. For example, the update process can be executed periodically. Alternatively, the update process can be executed in response to an instruction from a doctor or administrator. Moreover, the update process can be executed according to the accumulation degree of medical information.

  When the first example of the update process is applied, the client 1000 converts the medical information (image, test result, diagnosis result, etc.) including the patient eye test data acquired by the test unit 1200 into patient information (patient identification information). Etc.) and transmitted to the management apparatus 11. The control unit 111 stores the medical information input from the client 1000 in the medical information storage device 12. The related information management unit 113 updates the related information by statistically processing the medical information of a plurality of patients stored in the medical information storage device 12.

  This update process is executed as follows, for example. First, the related information management unit 113 selectively acquires medical information related to updated related information from the medical information storage device 12. This selection process includes, for example, a process of searching for items of medical information and examination conditions included in related information as a query. Thereby, medical information including the item and the examination condition is acquired. Next, the related information management unit 113 extracts information on the item and information on the examination condition from the acquired medical information. Subsequently, the related information management unit 113 obtains a statistical relationship between the extracted information about the item and the information about the inspection condition. This processing includes, for example, processing for obtaining statistical values such as average, variation (standard deviation, variance), median, mode, maximum value, minimum value, and the like. Moreover, the process which calculates | requires the correlation between both parameters may be included. Moreover, you may perform this statistical process including the information contained in the present relevant information, or the information used for preparation of the present relevant information. In this way, new related information about the item and the inspection condition is created, thereby replacing the current related information. Such a series of processing is executed for each related information.

  Even when the second example of the update process is applied, the client 1000 uses the patient information (image, examination result, diagnosis result, etc.) including patient eye examination data acquired by the examination unit 1200 as patient information (patient Identification information etc.) and transmitted to the management apparatus 11. The control unit 111 transfers the inputted examination data (images and the like) to a computer (such as the ophthalmic image analysis center server 300) installed in the examination data analysis organization. The analysis result of the test data is input to the management device 11 and stored in the medical information storage device 12. The related information management unit 113 updates the related information by statistically processing the medical information (including the analysis result of the examination data) of a plurality of patients stored in the medical information storage device 12. This statistical processing may be executed in the same manner as in the first example.

(Search unit 114)
The search unit 114 searches the medical information storage device 12 for medical information based on the patient information input from the client 1000. As described above, the medical information storage device 12 stores medical information for each patient. Patient information input from the client 1000 includes identification information of the patient. The search unit 114 searches for medical information using patient identification information as a query.

(Inspection condition acquisition unit 115)
The examination condition acquisition unit 115 receives the medical information searched by the search unit 114, and acquires the examination condition corresponding to at least a part of the medical information from the related information.

  The related information associates medical information of predetermined items with examination conditions. The examination condition acquisition unit 115 first determines, for each medical information input from the search unit 114, whether the medical information corresponds to a predetermined item. This process is performed, for example, by determining whether the item indicated by the medical information is included in the related information. That is, this process is performed by determining whether or not the item indicated by the medical information corresponds to one of the predetermined items. Thereby, the medical information corresponding to the predetermined item is extracted from the medical information searched by the search unit 114.

  Subsequently, the examination condition acquisition unit 115 acquires the examination condition associated with the extracted medical information from the related information. Several examples of processing executed by the inspection condition acquisition unit 115 will be described below.

  A first example will be described. In this example, the first related information described above is referred to. The first related information associates the related gene information of the predetermined disease with the examination conditions of the ophthalmic examination related to the disease. The examination condition acquisition unit 115 first extracts gene information from the medical information searched by the search unit 114. When gene information is not included, the process according to this example is not executed.

  When the genetic information is included in the medical information, the test condition acquisition unit 115 determines whether the genetic information includes any of the related gene information included in the first related information. This determination process is performed, for example, by searching for gene information (gene sequence or the like) of the patient whether a gene related to the risk of developing a specific disease (for example, glaucoma) is included. Alternatively, this determination process is performed by searching the test report included in the genetic information of the patient whether information (character string or the like) indicating a specific disease is included.

  When it is determined that the gene information of the patient does not include any related gene information, the processing according to this example ends here. On the other hand, when it is determined that the gene information of the patient includes any of the related gene information included in the first related information, the test condition acquisition unit 115 sets the test condition corresponding to the related gene information to the first related information. Obtain from information. Thereby, the test condition corresponding to the related gene of a specific disease is selected.

  The selected test conditions include one or more test types (and / or one or more analysis types) for diagnosing this disease, test parameters, the type of computer program for testing, and the like. When the type of computer program is acquired, the inspection condition acquisition unit 115 can acquire the computer program of the type (inspection application, analysis application, etc.) from a program storage unit (not shown). The acquired computer program is transmitted to the client 1000 and installed. When various applications are installed in the client 1000 in advance, it is not necessary to acquire and transmit the computer program. If information indicating the type of the computer program acquired from the first related information is transmitted to the client 1000, It is enough.

  A second example will be described. In this example, the second related information described above is referred to. The second related information associates the feature information indicating the morphological and / or functional characteristics of the eye of the predetermined disease with the examination conditions of the ophthalmic examination related to the disease. The examination condition acquisition unit 115 first extracts a patient eye image from the medical information searched by the search unit 114. When no image is included, the process according to this example is not executed.

  When an image is included in the medical information, the examination condition acquisition unit 115 analyzes the image to determine whether the image includes any of the morphological feature and / or functional feature indicated in the second related information. Judge whether or not. This determination processing includes, for example, image analysis (for example, segmentation) for specifying an image region corresponding to a specific part of a patient's eye, and an image for obtaining the form (shape, size, arrangement, etc.) of the specified image region. Processing. The determination process may include image processing for obtaining functional information such as fundus blood flow.

  Subsequently, the inspection condition acquisition unit 115 acquires, from the second related information, inspection conditions corresponding to feature information indicating morphological features and / or functional features determined to be included in the image. Thereby, the examination condition corresponding to the disease specified from the morphological characteristics and functional characteristics of the patient's eyes is selected. The selected inspection conditions are the same as in the first example.

  In some cases, a part depicted in an image included in medical information can be identified without analyzing the image. For example, there are cases where information indicating the imaging region (fixation position information or the like) is attached to the image. The same applies to the case where the imaging region can be specified from other information included in the medical information (for example, the region name, disease name, schema, etc. described in the diagnosis report or interpretation report). In such a case, the examination condition acquisition unit 115 can select one or more images from a plurality of images included in the medical information and execute the above process. In addition, it is possible to select an image that has received particular attention in an interpretation report or the like and execute the above processing.

  A third example will be described. In the second example, the examination condition acquisition unit 115 executes image analysis. In this example, image analysis data received from the ophthalmic image analysis center server 300 or the like is referred to. In this example, the second related information is referred to as in the second example.

  The examination condition acquisition unit 115 first extracts image analysis data of the patient's eye from the medical information searched by the search unit 114. When image analysis data is not included, the processing according to this example is not executed.

  When the image analysis data is included in the medical information, the examination condition acquisition unit 115 determines whether the image analysis data corresponds to one of the morphological feature and / or the functional feature indicated in the second related information. . This determination process is executed, for example, by searching information (character string, numerical value, etc.) corresponding to the morphological feature and / or functional feature indicated in the second related information in the image analysis data.

  Subsequently, the inspection condition acquisition unit 115 acquires, from the second related information, inspection conditions corresponding to feature information indicating morphological features and / or functional features determined to correspond to the image analysis data.

  In the second and third examples, the patient eye image may be an OCT image. Since the OCT image is high-definition and can depict not only the surface of the tissue but also its deep part, it is effective for early detection of a disease.

(Communication unit 116)
The communication unit 116 includes a communication interface for communicating with external devices such as the client 1000, the ophthalmic image analysis center server 300, the genome analysis center server 400, the integrated analysis center server 500, and the pharmaceutical manufacturer server 600. The communication interface has a configuration conforming to a network standard used by the ophthalmic examination support system.

  In this specification, the “processor” is, for example, a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), an ASIC (Application Specific Integrated Circuit), a programmable logic device (for example, SPLD (Simple LD). It means a circuit such as (Complex Programmable Logic Device) or FPGA (Field Programmable Gate Array). For example, the processor implements the functions according to the embodiment by reading and executing a program stored in a storage circuit or a storage device. At least a part of the memory circuit or the memory device may be included in the processor.

<Usage pattern>
Several examples of usage patterns of the ophthalmic examination support system according to the embodiment will be described.

[Usage form 1]
A first usage pattern is shown in FIG.

(S1: Transmission of patient information)
A user (a doctor, a medical, etc.) of the client 1000 inputs patient information of one patient into the client 1000. The patient information includes, for example, a patient ID in the clinic and / or patient identification information in the system. When only the patient ID is included, the client 1000 or the system server 10 stores in advance information (table information or the like) indicating the correspondence between the patient ID and the patient identification information, and corresponds to the patient ID at an arbitrary stage. Identify patient identification information.

  The input of patient information is performed by an arbitrary method. For example, patient information is manually input via a keyboard or a graphical user interface (GUI). Alternatively, patient information can be read from a patient card (IC card, magnetic card, etc.). It is also possible to input patient information using biometric authentication information (fingerprint, iris pattern, etc.).

  The communication unit 1400 receives control of the control unit 1100 and transmits at least patient identification information (or patient ID) among the input patient information to the management apparatus 11. At this time, identification information of the client 1000 (or its installation facility or user) is also transmitted together with the patient information.

(S2: Search for medical information)
The communication unit 116 of the management apparatus 11 receives the patient information transmitted from the client 1000 in step S1 and sends it to the control unit 111. The control unit 111 sends patient identification information included in the patient information to the search unit 114. The search unit 114 acquires medical information corresponding to the patient identification information input from the control unit 111 from the medical information storage device 12. The search unit 114 sends the acquired medical information to the examination condition acquisition unit 115.

(S3: Acquisition of inspection conditions)
The examination condition acquisition unit 115 acquires the examination conditions corresponding to at least a part of the medical information input from the search unit 114 in step S2 from the related information stored in the related information storage unit 112. The inspection condition acquisition unit 115 sends the acquired inspection conditions to the control unit 111.

(S4: Transmission of inspection conditions)
The control unit 111 controls the communication unit 116 to transmit the examination condition input from the examination condition acquisition unit 115 in step S3 to the client 1000 that is the transmission source of the patient information.

  In addition, the transmission source of patient information may differ from the transmission destination of examination conditions. In this case, the transmission destination of the inspection condition is set in advance or is set each time using the client 1000 or the like.

(S5: Display of inspection conditions)
The communication unit 1400 of the client 1000 receives the inspection condition transmitted from the management apparatus 11 in step S4 and sends it to the control unit 1100. The control unit 1100 displays this inspection condition on the display unit 1310. At this time, a predetermined screen (GUI) is displayed on the display unit 1310, and inspection conditions are presented on this screen.

(S6: Change of inspection conditions)
The user of the client 1000 confirms the inspection condition displayed in step S5. When it is desired to change the inspection conditions (correction, addition, deletion, etc.), the user uses the operation unit 1320 to perform an operation for that purpose. The control unit 1100 saves the contents changed by the user together with the inspection condition input to the client 1000 in step S4. Alternatively, the control unit 1100 replaces with the changed inspection condition. Alternatively, the control unit 1100 replaces the inspection condition input to the client 1000 in step S4 with the changed inspection condition.

(S7: Inspection condition setting)
The control unit 1100 sets the inspection condition input in step S4 or the inspection condition changed in step S6 in the inspection unit 1200. That is, the control unit 1100 changes the setting of the inspection unit 1200 based on the inspection condition.

(S8: Implementation of inspection)
The inspecting unit 1200 inspects the patient's eye upon receiving an instruction from the user, for example. The acquired examination data is stored in a database (such as an electronic medical record system) in the medical institution. The examination data is sent to the management device 11 together with the patient information and stored in the medical information storage device 12.

[Usage form 2]
A second usage pattern is shown in FIG.

(S11-S14)
Steps S11 (transmission of patient information), S12 (search for medical information), S13 (acquisition of examination conditions) and S14 (transmission of examination conditions) are steps S1, S2, S3 and S4 of the first usage pattern, respectively. It is the same.

(S15: Inspection condition setting)
In this usage pattern, the display of inspection conditions by the client 1000 (S5) and the change of inspection conditions by the user (S6) are not performed, and the following processing is executed.

  The communication unit 1400 of the client 1000 receives the inspection condition transmitted from the management apparatus 11 in step S14 and sends it to the control unit 1100. The control unit 1100 changes the setting of the inspection unit 1200 based on this inspection condition.

(S16: Implementation of inspection)
And an inspection is implemented like step S8 of the 1st usage pattern.

[Usage form 3]
A third usage pattern is shown in FIG. In this usage pattern, the client 1000 is the information processing apparatus 110 (or 210). An ophthalmic examination apparatus 120 (or 220) is connected to the client 1000.

(S21-S24)
Steps S21 (transmission of patient information), S22 (search for medical information), S23 (acquisition of examination conditions) and S24 (transmission of examination conditions) are steps S1, S2, S3 and S4 of the first usage pattern, respectively. It is the same.

(S25: Transfer of inspection conditions)
The communication unit 1400 of the client 1000 receives the inspection condition transmitted from the management apparatus 11 in step S24 and sends it to the control unit 1100. The control unit 1100 controls the communication unit 116 to send this examination condition to the ophthalmic examination apparatus 120 (or 220).

  The inspection condition may be changed before transferring. The inspection condition is changed, for example, through the display of the inspection condition as in the first usage pattern.

(S26: Setting of inspection conditions)
The processor included in the ophthalmic examination apparatus 120 (or 220) changes the setting of the examination unit 1200 based on the examination condition input from the client 1000 (information processing apparatus 110 (or 210)) in step S25.

(S27: Implementation of inspection)
The ophthalmic examination apparatus 120 (or 220) carries out the examination in the same manner as Step S8 in the first usage pattern.

[Usage form 4]
In the first to third usage modes, the management device 11 includes the related information storage unit 112, the inspection condition acquisition unit 115, and the like, but the storage device having the same function as the related information storage unit and the inspection condition acquisition unit It is possible to provide the client 1000 with a processor having the same function. When such a configuration is applied, the fourth to sixth usage modes can be implemented. A fourth usage pattern is shown in FIG.

(S31, S32)
Steps S31 (transmission of patient information) and S32 (search for medical information) are the same as steps S1 and S2 of the first usage pattern, respectively.

(S33: Transmission of medical information)
The control unit 111 of the management device 11 of the system server 10 controls the communication unit 116 to transmit the medical information searched by the search unit 114 in step S32 to the client 1000 that is the transmission source of the patient information.

  In addition, the transmission source of patient information may differ from the transmission destination of medical information. In this case, the transmission destination of medical information is set in advance or is set each time using the client 1000 or the like.

(S34: Extraction of specific information)
The communication unit 1400 of the client 1000 receives the medical information transmitted from the management apparatus 11 in step S33 and sends it to the control unit 1100. A processor functioning as an examination condition acquisition unit extracts specific information from this medical information. The specific information is information corresponding to medical information of a predetermined item included in the related information. The process of extracting specific information from the medical information of the patient is, for example, a process executed by the examination condition acquisition unit 115 to extract medical information corresponding to a predetermined item from the medical information searched by the search unit 114. It is executed in the same way.

(S35: Acquisition of inspection conditions)
The processor that functions as the inspection condition acquisition unit acquires the inspection condition corresponding to the specific information extracted in step S34 from the related information stored in the storage device that functions as the related information storage unit. The acquired inspection conditions are sent to the control unit 1100.

(S36: Display of inspection conditions)
The control unit 1100 displays the inspection condition input in step S35 on the display unit 1310. This process is executed in the same manner as step S5 of the first usage pattern.

(S37-S39)
Steps S37 (change of inspection conditions), S38 (setting of inspection conditions) and S39 (execution of inspection) are the same as steps S6, S7 and S8 of the first usage pattern, respectively.

[Usage form 5]
A fifth usage pattern is shown in FIG.

(S41-S45)
Steps S41 (transmission of patient information), S42 (search for medical information), S43 (transmission of medical information), S44 (extraction of specific information) and S45 (acquisition of examination information) are respectively in the fourth usage pattern. This is the same as steps S31, S32, S33, S34 and S35.

(S46: Inspection condition setting)
In this usage pattern, the display of the inspection condition by the client 1000 (S36) and the change of the inspection condition by the user (S37) are not performed, and the control unit 1100 performs the inspection of the inspection unit 1200 based on the inspection condition acquired in step S45. Change the setting.

(S47: Implementation of inspection)
And an inspection is implemented like step S39 of the 4th usage pattern.

[Usage form 6]
A sixth usage pattern is shown in FIG. In this usage pattern, as in the third usage pattern, the client 1000 is the information processing apparatus 110 (or 210), and the ophthalmic examination apparatus 120 (or 220) is connected to the client 1000.

(S51-S55)
Steps S51 (transmission of patient information), S52 (search for medical information), S53 (transmission of medical information), S54 (extraction of specific information), and S55 (acquisition of examination information) are respectively in the fourth usage pattern. This is the same as steps S31, S32, S33, S34 and S35.

(S56: Transfer of inspection conditions)
The control unit 1100 of the client 1000 controls the communication unit 116 to send the examination condition acquired in step S55 to the ophthalmic examination apparatus 120 (or 220).

  The inspection condition may be changed before transferring. The inspection condition is changed, for example, through the display of the inspection condition as in the first usage pattern.

(S57: Setting of inspection conditions)
The processor included in the ophthalmic examination apparatus 120 (or 220) changes the setting of the examination unit 1200 based on the examination condition input from the client 1000 (information processing apparatus 110 (or 210)) in step S56.

(S58: Implementation of inspection)
The ophthalmic examination apparatus 120 (or 220) performs the examination in the same manner as in step S39 of the fourth usage pattern.

  The above are typical examples of usage patterns that can be implemented using the ophthalmic examination support system according to the present embodiment, and usage patterns other than these can also be applied.

[Action / Effect]
The operation and effect of the ophthalmic examination support system according to the embodiment will be described.

  The ophthalmic examination support system according to the embodiment includes a server (system server 10) and a plurality of clients (1000). The server includes a medical information storage device (12) that stores medical information of each patient, and a management device (11) that manages the medical information stored in the medical information storage device. Each client can communicate with the management apparatus.

  The ophthalmic examination support system according to the embodiment includes a related information storage unit and an examination condition acquisition unit. The related information storage unit and the inspection condition acquisition unit are each arranged at an arbitrary position. For example, the related information storage unit is arranged in at least one of a server, one or more clients, and other positions. Alternatively, the related information storage unit may be distributed and arranged in at least two of the server, the one or more clients, and other positions. Similarly, the inspection condition acquisition unit may be arranged in at least one of the server, one or more clients, and other positions. Alternatively, the inspection condition acquisition units may be distributed in at least two of the server, one or more clients, and other positions.

  The related information storage unit stores in advance related information in which medical information of a predetermined item and an examination condition for an ophthalmic examination are associated with each other. The examination condition acquisition unit receives medical information retrieved from the medical information storage device by the management device based on patient information transmitted from any one of the plurality of clients, and sets examination conditions corresponding to at least a part of the medical information. Obtain from related information.

  The client includes a control unit (1100) that performs control based on the inspection condition acquired by the inspection condition acquisition unit. The control executed by the control unit may include arbitrary processing.

  As a first example of control, the control unit can cause the display device (display unit 1310) to display the inspection conditions acquired by the inspection condition acquisition unit.

  In the second example of control, the client includes an examination unit (1200) for examining a patient's eye. The control unit can control the inspection unit based on the inspection condition acquired by the inspection condition acquisition unit. That is, the control unit can set the inspection condition acquired by the inspection condition acquisition unit in the inspection unit.

  In the third example of control, the client (information processing device 110, 210) can communicate with an ophthalmic examination device (120, 220) for examining a patient's eye. The control unit can transfer the examination condition acquired by the examination condition acquisition unit to the ophthalmic examination apparatus. The ophthalmic examination apparatus can perform an examination based on an examination condition input from a client.

  As described above, the ophthalmic examination support system according to the embodiment is configured to acquire an appropriate examination condition according to the medical information of the patient from the related information and provide it to the client installed in the clinic or the like. Therefore, an appropriate ophthalmic examination can be performed under appropriate conditions even in a clinic or the like. Thereby, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases.

  In the embodiment, the medical information stored in the medical information storage device may include genetic information of the patient. Further, the related information may include first related information in which related gene information of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated. Furthermore, the inspection condition acquisition unit may include a first acquisition unit capable of executing the following two processes. The first acquisition unit determines whether the gene information searched based on the patient information includes any of the related gene information included in the first related information. Furthermore, a 1st acquisition part acquires the test conditions corresponding to the relevant gene information determined to be contained in the said gene information from 1st relevant information.

  According to this configuration, it is possible to specify the test condition from the risk of developing a predetermined disease obtained from the genetic information of the patient and provide it to the client. Therefore, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases that can be identified from genes.

  In the embodiment, the medical information stored in the medical information storage device may include an image of a patient's eye. The related information may include second related information in which characteristic information indicating the morphological characteristics and / or functional characteristics of an eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated with each other. Furthermore, the inspection condition acquisition unit may include a second acquisition unit that can execute the following two processes. The second acquisition unit determines whether the image includes any of the morphological feature and / or the functional feature included in the second related information by analyzing the searched image based on the patient information. Furthermore, the second acquisition unit acquires from the second related information inspection conditions corresponding to feature information indicating morphological features and / or functional features determined to be included in the image. Note that the image in this example may include an OCT image.

  According to this configuration, it is possible to specify the morphological characteristics and functional characteristics of the eye of the predetermined disease from the image of the patient's eye, and to provide the client with the examination conditions according to the specified. Therefore, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases that can be identified from images of patient eyes.

  In the embodiment, the medical information stored in the medical information storage device may include image analysis data acquired by analyzing an image of a patient's eye. The related information may include second related information in which characteristic information indicating the morphological characteristics and / or functional characteristics of an eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated with each other. Furthermore, the inspection condition acquisition unit may include a third acquisition unit capable of executing the following two processes. The third acquisition unit determines whether the image analysis data searched based on the patient information corresponds to any of the feature information included in the second related information. Further, the third acquisition unit acquires the inspection condition corresponding to the feature information determined that the image analysis data corresponds from the second related information. Note that the image in this example may include an OCT image.

  According to this configuration, it is possible to specify the morphological characteristics and functional characteristics of the eye of the predetermined disease from the image analysis data of the patient's eye, and to provide the client with the examination conditions according to the specified data. Therefore, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases that can be identified from images of patient eyes.

  The ophthalmic examination support server (system server 10) according to the embodiment will be described. The ophthalmic examination support server includes a medical information storage unit (medical information storage device 12), a related information storage unit (112), a communication unit (116), a search unit (114), and an examination condition acquisition unit (115). Is provided. The medical information storage unit stores medical information of each patient. The related information storage unit stores in advance related information in which medical information of a predetermined item and an examination condition for an ophthalmic examination are associated with each other. The communication unit receives patient information transmitted from any one of a plurality of clients. The retrieval unit retrieves medical information from the medical information storage device based on the received patient information. The examination condition acquisition unit acquires an examination condition corresponding to at least a part of the searched medical information from the related information. The communication unit transmits the acquired examination condition to the client that has transmitted the patient information.

  As described above, the ophthalmic examination support server according to the embodiment is configured to acquire appropriate examination conditions according to the medical information of the patient from the related information and provide it to the client installed in the clinic or the like. Therefore, an appropriate ophthalmic examination can be performed under appropriate conditions even in a clinic or the like. Thereby, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases.

  An ophthalmic examination support apparatus (client 1000) according to an embodiment will be described. The ophthalmic examination support apparatus includes a communication unit (1400) and a control unit (1100). The communication unit transmits patient information to a server that manages medical information of each patient and stores in advance related information in which medical information of a predetermined item and an examination condition of an ophthalmic examination are associated with each other. Further, the communication unit receives the examination condition acquired from the related information based on the patient information from the server. The control unit performs control based on the received inspection conditions.

  As described above, the ophthalmic examination support apparatus according to the embodiment is installed in a clinic or the like, receives an appropriate examination condition acquired from related information according to medical information of a patient from a server, and executes control based on the examination condition. be able to. Therefore, an appropriate ophthalmic examination can be performed under appropriate conditions even in a clinic or the like. Thereby, it is possible to widely provide early detection methods and preventive medicine for ophthalmic diseases.

  A computer program for realizing at least a part of the processing included in the embodiment can be stored in a computer-readable recording medium. Examples of this recording medium include a semiconductor memory, an optical disk, a magneto-optical disk, and a magnetic storage medium. It is also possible to transmit and / or receive this computer program through a network such as the Internet or a LAN.

  The configuration described above is merely an example of an embodiment. The present invention can be arbitrarily modified (omitted, substituted, added, etc.) within the scope of the gist of the present invention.

DESCRIPTION OF SYMBOLS 10 System server 11 Management apparatus 111 Control part 112 Related information storage part 113 Related information management part 114 Search part 115 Examination condition acquisition part 116 Communication part 12 Medical information storage apparatus 110,210 Information processing apparatus 120,220 Ophthalmic examination apparatus 1000 Client 1100 Control unit 1200 Inspection unit 1300 User interface unit 1310 Display unit 1320 Operation unit 1400 Communication unit

Claims (8)

A server comprising: a medical information storage device that stores medical information of each patient; and a management device that manages the medical information stored in the medical information storage device;
An ophthalmic examination support system including a plurality of clients capable of communicating with the management device,
A related information storage unit that stores in advance related information in which medical information of a predetermined item and an examination condition of an ophthalmic examination are associated;
Based on patient information transmitted from any one of the plurality of clients, the management device receives medical information retrieved from the medical information storage device, and sets the examination conditions corresponding to at least a part of the medical information as the related information And an inspection condition acquisition unit acquired from
The client includes a control unit that performs control based on the inspection condition acquired by the inspection condition acquisition unit,
The medical information stored in the medical information storage device includes an image of a patient's eye,
In the related information, characteristic information indicating the functional characteristics of the eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated with each other,
The examination condition acquisition unit analyzes an image searched based on the patient information, and determines whether the image includes a functional feature included in the related information, and is determined to be included in the image. An ophthalmic examination support system characterized by executing a process for obtaining an examination condition corresponding to feature information indicating a functional feature from the related information. A server comprising: a medical information storage device that stores medical information of each patient; and a management device that manages the medical information stored in the medical information storage device;
An ophthalmic examination support system including a plurality of clients capable of communicating with the management device,
A related information storage unit that stores in advance related information in which medical information of a predetermined item and an examination condition of an ophthalmic examination are associated;
Based on patient information transmitted from any one of the plurality of clients, the management device receives medical information retrieved from the medical information storage device, and sets the examination conditions corresponding to at least a part of the medical information as the related information And an inspection condition acquisition unit acquired from
The client includes a control unit that performs control based on the inspection condition acquired by the inspection condition acquisition unit,
The medical information stored in the medical information storage device includes image analysis data acquired by analyzing an image of a patient's eye,
In the related information, characteristic information indicating the functional characteristics of the eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated with each other,
The examination condition acquisition unit determines whether the image analysis data searched based on the patient information corresponds to any of the feature information included in the related information, and determines that the image analysis data corresponds An ophthalmic examination support system characterized by executing a process for obtaining an examination condition corresponding to feature information from the related information. The ophthalmic examination support system according to claim 1, wherein the feature information indicating the functional feature includes a parameter related to either a blood vessel or a blood flow. The ophthalmic examination support system according to claim 3, wherein the blood vessel parameter includes a fundus blood vessel distribution parameter. The ophthalmic examination support system according to claim 3, wherein the parameter relating to the blood flow includes a parameter relating to either a blood flow volume or a blood flow velocity. The ophthalmic examination support system according to any one of claims 1 to 5, wherein the image includes an OCT image acquired by optical coherence tomography. A medical information storage unit for storing medical information of each patient;
A related information storage unit that stores in advance related information in which medical information of a predetermined item and an examination condition of an ophthalmic examination are associated;
A communication unit that receives patient information transmitted from any one of a plurality of clients;
A search unit for searching medical information from the medical information storage unit based on the received patient information;
An examination condition acquisition unit that obtains an examination condition corresponding to at least a part of the searched medical information from the related information, and
The communication unit transmits the inspection condition acquired by the inspection condition acquisition unit to the client,
The medical information stored in the medical information storage unit includes an image of a patient's eye,
In the related information, characteristic information indicating the functional characteristics of the eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated with each other,
The examination condition acquisition unit analyzes an image searched based on the patient information, and determines whether the image includes a functional feature included in the related information, and is determined to be included in the image. An ophthalmic examination support server characterized by executing a process for obtaining an examination condition corresponding to feature information indicating a functional feature from the related information. A medical information storage unit for storing medical information of each patient;
A related information storage unit that stores in advance related information in which medical information of a predetermined item and an examination condition of an ophthalmic examination are associated;
A communication unit that receives patient information transmitted from any one of a plurality of clients;
A search unit for searching medical information from the medical information storage unit based on the received patient information;
An examination condition acquisition unit that obtains an examination condition corresponding to at least a part of the searched medical information from the related information, and
The communication unit transmits the inspection condition acquired by the inspection condition acquisition unit to the client,
The medical information stored in the medical information storage unit includes image analysis data acquired by analyzing an image of a patient's eye,
In the related information, characteristic information indicating the functional characteristics of the eye of a predetermined disease and an examination condition of an ophthalmic examination related to the disease are associated with each other,
The examination condition acquisition unit determines whether the image analysis data searched based on the patient information corresponds to any of the feature information included in the related information, and determines that the image analysis data corresponds An ophthalmic examination support server characterized by executing a process for obtaining an examination condition corresponding to feature information from the related information.

Images