JP4593083B2 - Inspection data management method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a test data management method (which allows a medical institution to obtain patient test information obtained outside the medical institution easily through a processing institution and without leaking information to a third party). About.
[0002]
[Prior art]
  As is well known, methods by which various examinations such as a human dock and an endoscopic examination are known as a method for a subject (patient) to check his / her health condition. For example, if a subject wants to undergo an endoscopic examination, he / she visits a medical institution such as a hospital or clinic to undergo an examination, and then waits for a predetermined time on the examination day to receive an explanation of the examination result from a doctor, etc. The current situation is that they receive explanations or visit a medical institution at a later date.
  In addition, radio capsules have been provided as those capable of easily examining the health condition (see, for example, Patent Document 1). This radio capsule is in a capsule such as a capsule tablet, a sensor for detecting and photographing biological information, a transmitter for transmitting biological information detected by the sensor, a battery for supplying power to the sensor and the transmitter, and a transmission It is equipped with an antenna, and when the subject swallows it, it automatically detects biological information in the body of the subject and transmits data to an external unit worn by the subject to obtain examination information. .
[0003]
  When the subject wants to check his / her health using the above-described radio capsule, he / she visits a medical institution like the endoscopy, swallows the radio capsule given by the doctor, and wears an extracorporeal unit. After that, it is inside the medical institution until the biological information is transmitted from the radio capsule to the extracorporeal unit, or after going out, when the biological information is transmitted from the radio capsule, the medical institution is visited again and the extracorporeal unit is returned. Or a memory that is detachably attached to the extracorporeal unit and stores biological information is returned. When the test result is obtained from the biological information, the subject needs to visit the medical institution again and receive an explanation of the test result.
[0004]
[Patent Document 1]
        Japanese Patent Laid-Open No. 2001-46357 (paragraph numbers 0010-0015, FIG. 1-6)
[0005]
[Problems to be solved by the invention]
  By the way, in the radio capsule described in Patent Document 1, it is necessary for the subject to visit the medical institution many times at the start of the examination, when returning the extracorporeal unit, at the time of the examination result, etc. There is a disadvantage that it takes time and effort. Further, the radio capsule intermittently and randomly measures and photographs the biological information of the subject at regular time intervals, and transmits the measured biological information to the extracorporeal unit as a large amount of biological information. Since a medical institution needs to take out biological information and process only necessary information from a large amount of biological information after collecting an external unit or memory from a subject, it takes time and effort, and processing of biological information It was difficult. In particular, since such radio capsules are easily inspected, an increase in demand in the future is expected, and it is expected that the burden of processing work of the medical institution as described above will increase.
  Furthermore, the examination information of the subject needs to be handled carefully from the viewpoint of privacy so that personal information is not leaked to third parties other than medical institutions.
[0006]
  The present invention has been made in view of such circumstances, and its purpose is to save only the necessary information from the examination information of the subject obtained outside the medical institution, and save the subject's trouble. It is an object of the present invention to provide an examination data management method that can be obtained by a medical institution without fail and without fail to leak information to a third party.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention provides the following means.
  According to the first aspect of the present invention, in a medical institution, the body of a patientWas put intoA portable detection device storing the detected object ID of the detected object is attached to the patient, and the patient detection information emitted from the detected object outside the medical institution is received and stored by the portable detection device, A test data management method used in a system for processing the test information obtained after the test is completed in a management server provided in a processing organization outside the medical institution, wherein the portable detection device is a data stored in the management server. When the portable detection device enters the operating range of at least one of the plurality of wireless communication devices connected to the collection web server, the detected object ID and the inspection information are transmitted through the wireless communication device as the data. Transmitted to the collection web server, and the detected object ID or the inspection information is transmitted to the wireless communication device out of the operating range of the wireless communication device. When it is disconnected, the data until it is shut down is stored, and when transmission is started again, the subsequent data is transmitted to the data collection web server through the wireless communication device, and the management server transmits the patient The portable detection obtained from the patient by storing the detected object ID of the detected object that has been input into the body of the patient and the medical institution ID of the medical institution that has input the detected object in association with each other Reading the detected object ID and the inspection information from the apparatus, generating processed data obtained by performing a predetermined process on the inspection information, associating the processed data with a medical institution using the detected object ID as a key, Provided is an inspection data management method characterized in that a detected object ID and the processed data are associated and output to the medical institution.
[0008]
  In the inspection data management method according to the present invention, the processing engineManagement serverHowever, after the examination information is read from the portable detection device obtained from the patient, the medical institution generates processing data necessary for the diagnosis by performing predetermined processing, and outputs this to the medical institution. Thereby, since the medical institution easily obtains the processing data necessary for the diagnosis of the patient from the processing institution, it is possible to reduce the burden of conventional processing of the examination information.
  Also processing agencyManagement serverStores the detected object ID and the medical institution ID in association with each other, and obtains the detected object ID and the examination information from the patient. Thereby, since the medical institution which supplied the to-be-detected object to the patient can be specified by using the to-be-detected object ID as a key, it is possible to reliably send the processing data which is the examination information of the patient to the medical institution.
Furthermore, since the examination information of the patient is exchanged between the medical institution, the processing institution and the patient using the detected object ID as a key, there is no possibility that personal information such as the patient's name leaks to the processing institution. Therefore, the patient's personal information is not leaked to a third party other than the medical institution receiving the medical examination, and the patient can receive the examination with peace of mind.
[0009]
  The invention according to claim 2 is the inspection data management method according to claim 1, wherein the processing organizationManagement serverHowever, the present invention provides a test data management method for outputting unprocessed data in association with the processed data to the medical institution.
  Since the inspection data management method according to the present invention outputs unprocessed data to the medical institution in addition to the processing data associated with the detected object ID, the medical institution obtains the processing data necessary for the patient inspection. In addition to other patient information. As a result, the medical institution can accumulate patient examination information, so that even if the patient has other illnesses in the future, the medical institution can quickly respond and the examination information up to that point has been accumulated. The condition etc. can be easily confirmed. In addition, patients can visit hospitals with peace of mind.
[0010]
According to a third aspect of the present invention, in the inspection data management method according to the first or second aspect, the management server of the processing organization associates the detected object ID and the processing data via the first network. A test data management method for outputting to the medical institution is provided.
In the inspection data management method according to the present invention, data including the patient's detected object ID and the processed data is transferred between the management server of the processing institution and the medical institution via the first network. Therefore, the medical institution can promptly diagnose the patient. In addition, since the management server of the processing institution directly transfers data with the medical institution, it is possible to prevent data loss and the like, thereby improving safety and further preventing leakage of patient personal information.
[0011]
According to a fourth aspect of the present invention, in the examination data management method according to the third aspect, the management server of the processing organization obtains the detected object ID and the examination information from the patient via a second network. Provide inspection data management method.
In the examination data management method according to the present invention, the management server of the processing organization obtains the examination information associated with the detected object ID from the patient via the second network. In addition, data can be obtained from patients without information leakage.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, a first embodiment of an inspection data management method according to the present invention will be described with reference to FIGS. 1 and 2.
  As shown in FIG. 1, the inspection data management method of the present embodiment, in a hospital (medical institution) 20, puts a capsule endoscope (detected body) A into the body of a patient (subject) 30, and An extracorporeal device (portable detection device) B storing the capsule ID (detected body ID) of the inserted capsule endoscope A is attached to the patient 30, and the patient 30 emitted from the capsule endoscope A outside the hospital 20. This is a management method used in the management system 10 in which the examination information C is received and stored by the extracorporeal apparatus B and the examination information C obtained after the examination is completed is processed in the processing organization 40 outside the hospital 20.
[0013]
  The capsule endoscope A includes a small camera that internally and randomly captures the body of the patient 30 at regular time intervals, a memory that stores captured images as examination information C, and an antenna that transmits to the extracorporeal device B. And a battery as a power source. The capsule endoscope A has a unique capsule ID, such as a manufacturing serial number. Furthermore, the capsule endoscope A is collected in a dedicated collection box (not shown), and is set so that the capsule endoscope A is automatically turned on when it is taken out from the collection box. It is also possible to set the power to be turned on by irradiating infrared rays with an infrared remote controller or the like after taking out from the storage box, or bringing a dedicated magnet or the like closer.
[0014]
  The extracorporeal device B includes a receiving circuit for receiving information including a capsule ID sent from the capsule endoscope A, a memory for storing the information, and the like. The extracorporeal device B is set to capture the capsule ID of the capsule endoscope A and store it in the memory when it first communicates with the capsule endoscope A, and the inspection from the capsule endoscope A. The information C is set to be taken in at any time and stored in the memory. Thereby, the extracorporeal device B collates the capsule ID, takes only the examination information C from the capsule ID stored first, and stores it in association with the capsule ID. The extracorporeal device B has, for example, a timer, measures the time from when the test information C is first received, and notifies the test information to the outside after a predetermined test time.
  The extracorporeal device B has a configuration including an input unit (not shown), for example, and inputs the capsule ID described in the collection box of the capsule endoscope A, thereby corresponding to the input capsule ID. It is also possible to receive the examination information C only from the capsule endoscope A.
[0015]
  Further, in the examination data management method of the present embodiment, as shown in FIG. 2, in the processing organization 40, the capsule ID of the capsule endoscope A that has been inserted into the body of the patient 30 and the capsule endoscope A are inserted. A storage step (S101) for storing the hospital ID of the hospital 20 in association with each other, a reading step (S103) for reading the capsule ID and the examination information C from the extracorporeal device B obtained from the patient 30, and the examination information C A generation step (S104) for generating processed data D subjected to predetermined processing, the processed data D is associated with the hospital 20 using the capsule ID as a key, and the capsule ID and the processed data D are output to the hospital 20 in association with each other. Output step (S105).
[0016]
  First, when a patient 30 who wishes to examine the capsule endoscope A visits the hospital 20, the doctor attaches the extracorporeal device B to the patient A, and takes out the capsule endoscope A from the collection box. And drink it into the body (S100). At this time, the doctor confirms that the capsule ID of the capsule endoscope A is input to the extracorporeal device B. Next, after the capsule endoscope A is inserted into the patient 30, the doctor adds the capsule ID (for example, C-1234) and the hospital ID (for example, H-1234) to be used, as well as a special note that matches the symptoms of the patient 30. Items, for example, only the information around the small intestine, and the like are sent to the processing organization 40 contracting the associated capsule usage data 50 by mail or the like.
[0017]
  In the storage step (S101), the processing organization 40 manages the capsule usage data 50 sent from the hospital 20 by storing it in a database, for example. At this time, when the processing organization 40 is the same as the delivery organization of the capsule endoscope A, the processing organization 40 compares the capsule ID data when the capsule endoscope A is provided to the hospital 20 to send the data. It is also possible to confirm that the capsule use data 50 that has been sent is properly sent from the hospital 20 that provided the capsule endoscope A.
[0018]
  On the other hand, a patient 30 who has taken the capsule endoscope A at the hospital 20 can leave the hospital 20 and live a normal life. Also during this normal life, examination information C is sent from the capsule endoscope A to the extracorporeal device B at any time and stored in the memory. At this time, since the extracorporeal device B worn by the patient 30 corresponds to the capsule ID thrown into the body, for example, in daily life, another patient who has thrown the capsule endoscope A similarly Even if the two approaches, the examination information C emitted by the capsule endoscopes A does not interfere with each other. Then, after the predetermined examination time has elapsed, the extracorporeal apparatus B notifies the end of the examination, so that the patient 30 removes the extracorporeal apparatus B and sends it to the processing engine 40 by mail or the like (S102).
  In addition, when mailing the extracorporeal device B, for example, when the hospital 20 attaches the extracorporeal device B to the patient 30, by providing a dedicated return box etc. to the processing organization 40 at the same time, the name and address of the patient 30 Etc. can be sent confidentially, and the privacy of the patient 30 at the time of return can be further maintained.
[0019]
  In the reading step (S103), the processing organization 40 reads the capsule ID and the examination information C from the extracorporeal device B sent from the patient 30. Next, in the generation step (S104), the processing data D obtained by performing a predetermined process on the read inspection information C is generated. That is, the examination information C is a large amount of data obtained by intermittently and randomly photographing the patient's body at regular time intervals as described above. The data is confused with invalid data in a bad shooting state. The processing engine 40 generates processed data D by processing only the data effective for the inspection from the confused inspection information C. In particular, if the capsule usage data 50 sent from the hospital 20 includes special remarks such as hope only for the information around the small intestine, so that information based on this special remark can be provided to the hospital 20, The inspection information C can be further processed.
  Further, in addition to the processed data D, for example, unprocessed data may be sent at the same time as identified by marking or the like.
[0020]
  After the generation of the processed data D is completed, in the output step (S105), the processing organization 40 identifies the hospital 20 that is the destination of the processed data D by the hospital ID associated with the capsule ID, and the hospital 20 The capsule ID and the processed data D are associated with each other and sent by mail or the like. This processed data does not process D and the examination information C itself sent from the patient 30, but generates and processes the processed data D after recording and managing the examination information C once. That is, the processing engine 40 can manage the inspection information C and the processing data D in association with the capsule ID.
[0021]
  The hospital 20 receives the capsule ID and the processing data D that have been sent, and identifies the patient 30 who has inserted the capsule endoscope A. Thus, the doctor can reliably and easily obtain the processed data D that effectively displays the examination state of the patient 30 obtained outside the hospital 20. As a result, the hospital obtains the processing data D necessary for the examination simply by inserting the capsule endoscope A into the patient 30, so that the conventional processing work is eliminated and the burden on the hospital can be reduced. Moreover, since it is not necessary for the patient to visit the hospital as many times as in the past, time can be used effectively and the burden can be reduced.
  Further, since the processed data D is data effective for the examination and includes the special notes requested by the doctor, for example, data only around the small intestine, the symptoms of the patient 30 are diagnosed as soon as the processed data D is received. (S106). Also, since the capsule ID is managed as a key from the time when the capsule endoscope A is administered to the patient 30 at the hospital 20 until the processing data D is obtained, the examination information which is personal information of the patient 30 is processed. There is no leakage to third parties such as the institution 40, the privacy of the patient 30 can be maintained, and the patient 30 can receive the examination with peace of mind.
[0022]
  According to this examination data management method, after the processing organization 40 reads the examination information C obtained from the patient 30, the examination information C is processed to become data necessary for the examination of the hospital 20 to generate the processed data D. This is sent to the hospital 20. Thereby, since the hospital 20 easily obtains only the processing data D necessary for the diagnosis of the patient 30 from the processing organization 40, the conventional processing work is eliminated, and the burden on the processing work on the hospital side can be reduced. The hospital 20 can concentrate on the diagnosis of the patient 30 and can quickly respond to the patient 30.
  Further, since the processing institution 40 stores the capsule ID and the medical institution ID in association with each other, the hospital 20 that has put the capsule endoscope A into the patient 30 can be identified using the capsule ID as a key, and the processing data D can be obtained. It can be reliably sent to the hospital 20.
  Furthermore, since the examination information C and processing data D of the patient 30 are delivered using the capsule ID as a key, personal information such as the name of the patient 30 is not leaked to a third party other than the hospital 20 receiving the examination. The patient 30 can be examined with peace of mind.
[0023]
  Further, when unprocessed data is simultaneously transmitted from the processing organization 40 in addition to the processed data D, the hospital 20 can accumulate all examination information of the patient 30, so that the patient 30 suffers from other diseases in the future. However, since the examination information up to that point is accumulated, it is possible to easily check the progress of the disease. Also, the patient 30 can go to the hospital 20 with peace of mind.
[0024]
  Next, a second embodiment of the inspection data management method according to the present invention will be described with reference to FIG. Note that in the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
  The difference between the second embodiment and the first embodiment is that the first embodiment is a management method in which the processing data D and the capsule ID of the patient 30 are delivered between the hospital 20 and the processing organization 40 by mail or the like. On the other hand, in the examination data management method of the second embodiment, the delivery of examination data between the hospital 20 and the processing institution 40 is performed by communication via the network N using a digital dedicated line or the Internet.
[0025]
  That is, as shown in FIG. 3, the management system 60 includes a processing server 40 having a management server 41 and a hospital 20 having a capsule management server 21 linked with the management server 41 via a network N. . The processing organization 40 manages the capsule ID provided to the hospital 20 and the capsule usage data 50 transmitted from the hospital 20 by the management server 41. In addition, the hospital manages the capsule ID and the processed data D by the capsule management server 21. Note that the capsule management server 21 can also perform an electronic medical chart function of the patient 30.
[0026]
  In the inspection data management method by the management system 60, the capsule usage data 50, the processing data D, etc. can be delivered between the hospital 20 and the processing organization 40 more reliably and with reduced time. An earlier diagnosis of the patient 30 can be performed. Further, since the data is directly transferred between the hospital 20 and the processing organization 40, data loss or the like can be prevented, safety can be maintained, and leakage of personal information can be further prevented.
[0027]
  Furthermore, the transmission mechanism E is provided in the extracorporeal apparatus B worn by the patient 30, and the reception mechanism 42 corresponding to the extracorporeal apparatus B is provided in the management server 41 of the processing engine 40. , It is possible to realize a configuration capable of communicating with each other. For example, after confirming that the extracorporeal device B has received the examination information C from the capsule endoscope A inserted in the patient 30, the patient 30 examines the capsule ID together with the capsule ID from the transmission mechanism E via radio waves or the Internet. Information C is transmitted to the processing organization 40. The processing engine 40 receives the examination information C transmitted from the patient 30 by the receiving mechanism 42. As a result, it is possible to realize the delivery of the inspection information C and the processed data D associated with the capsule ID between the hospital 20, the processing institution 40, and the patient 30, and the leakage of personal information is prevented more quickly and reliably. Inspection data management can be performed.
[0028]
  Further, the above-described inspection data may be exchanged between the patient 30 and the processing engine 40 periodically and automatically.
  For example, as shown in FIG. 4, the management system 70 allows the processing organization 40 to access the transmission mechanism E of the extracorporeal device B at any location indoors such as a hospital 20, a station, a convenience store, or outdoors such as a utility pole. A wireless communication device 43 capable of reading the capsule ID and the inspection information C is provided. The wireless communication device 43 is connected to the data collection web server 44 in the management server 41. For example, when the patient 30 approaches a predetermined distance of several tens of meters, It has a function of receiving the ID and the inspection information C and transmitting it to the data collection web server 44.
[0029]
  The data collection web server 44 stores the capsule ID and examination information C of the patient 30 sent from the wireless communication device 43, and stores data until the transmission is interrupted even if the transmission is interrupted midway. When the transmission is started again, the subsequent data is stored. That is, when the patient 30 enters the operating range of the wireless communication device 43 using the station, the capsule ID and the examination information C are sent to the data collection web server 44 as initial data. Then, when the patient 30 leaves the station, it is out of the operating range of the wireless communication device 43 installed at the station, so that data transmission to the data collection web server 44 is blocked. After that, when the patient 30 passes by the side of the utility pole to return home, it enters the operating range of the wireless communication device 43 installed on the utility pole, so that the second data is sent to the data collection web server 44 again. . At this time, the data collection web server 44 can store data from the continuation of the initial data. The data collection web server 44 is set to first check the position of the capsule endoscope A and the presence or absence of an error signal of the capsule endoscope A when data is transmitted from the wireless communication device 43. Has been.
[0030]
  On the other hand, the transmission mechanism E of the extracorporeal device B is a transmission mechanism having a wireless LAN function, for example, and transmits capsule ID and test information C data to the wireless communication device 43 within the range of the wireless communication device 43. In addition, similar to the data collection web server 44, even if transmission is interrupted midway, it has a function of storing data until it is blocked and transmitting subsequent data when transmission is started again. ing.
[0031]
  In this examination data management method by the management system 70, the patient 30 who swallows the capsule endoscope A in the hospital 20 automatically returns to the hospital 20 and is living a normal life, automatically in-vivo examination information C. Is collected by the processing organization 40 as data associated with the capsule ID. That is, when the patient 30 passes through a station or convenience store used in daily life or a utility pole in the city, data is collected by the wireless communication device 43 installed in each. Even if the patient 30 is out of the operating range and the communication is interrupted during this data transmission, the operation of the wireless communicator 43 installed again in the same radio communicator 43 or in another location is performed. When entering the range, the continuation of the previously transmitted data is sent, so that the patient 30 can live a normal life without being particularly conscious.
[0032]
  Moreover, since the medical institution 40 can obtain the examination information C of the patient 30 not at the end in a final form but at any time, for example, when the extracorporeal device B breaks down or is lost. Even in this case, it is possible to prevent the examination information C accumulated in the extracorporeal device B from being wasted.
  Further, when data is sent from the wireless communication device 43, the data collection web server 44 first checks for the presence or absence of an error signal. For example, if an error is detected, this is indicated along with the capsule ID. The hospital 20 can be notified. Thereby, the hospital 20 can notify the patient 30 promptly, can take an early response, and can reduce wasted time due to an error.
  Furthermore, since the processing organization can grasp the progress of the examination of the patient 30, and can generate the processing data D when the examination information C is collected to some extent, further efficiency can be achieved.
  Of course, the processing organization 40 does not receive all the data sent from the wireless communication device 43, and the examination information C is sent from the patient 30 via the Internet after the examination is completed.
[0033]
  The technical field of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
[0034]
  For example, in each of the above embodiments, a case where one hospital corresponds to a processing institution has been shown, but the processing institution can also correspond to a plurality of medical institutions such as hospitals and clinics. Even in this case, since the examination information of the patient is handled by the capsule ID and the hospital ID, the patient processing data can be surely provided to the medical institution visited by the patient.
  Moreover, although capsule ID was memorize | stored in the extracorporeal apparatus by the doctor's input, it is not restricted to this, What is necessary is just the method of memorizing capsule ID in an extracorporeal apparatus. For example, a method in which a capsule ID is automatically transmitted from the capsule endoscope to the extracorporeal device when the capsule endoscope is taken out of the collection box and is in an activated state may be used.
  Furthermore, although the case where one capsule endoscope is swallowed is applied, a plurality of capsule endoscopes may be swallowed with a time difference, and examination information may be taken from each capsule endoscope with one external device. . In this case, since more examination information can be obtained from a plurality of capsule endoscopes, the accuracy and accuracy of diagnosis can be improved.
[0035]
  Furthermore, although a capsule endoscope is used that intermittently and randomly captures a patient's body at regular time intervals, the present invention is not limited to this, and for example, continuously captures the body such as a video. It doesn't matter what you do. In this case, a video signal is sent from the capsule endoscope to the extracorporeal device.
  Further, the capsule endoscope is not limited to the one incorporating a small camera and photographing the inside of the body, and any capsule endoscope may be used as long as it can detect in-vivo information of the patient and transmit data to the external device. For example, a capsule-type medical device for hemorrhage testing with a built-in hemoglobin sensor, or a capsule-type medical device for in-vivo information testing that acquires in-vivo information such as PH value, microbial content, and gene abnormality intermittently for a long time and transmits it It is also applicable to an ultrasonic capsule medical device that intermittently acquires an ultrasonic image or the like and transmits it to an extracorporeal device.
[0036]
  The present invention includes the following.
[Appendix]
  (Appendix 1) In the inspection data management method according to claim 1 or 2,
  The test data management method, wherein the processing organization associates the detected object ID and the processing data via the first network and outputs the associated data to the medical institution.
  In the inspection data management method according to the present invention, since the data including the patient's detected object ID and the processed data is transferred between the processing institution and the medical institution via the first network, it is more reliable. In addition, the medical institution can promptly diagnose the patient. Further, since the processing institution directly exchanges data with the medical institution, it is possible to prevent data loss and the like, thereby improving safety and further preventing leakage of personal information of the patient.
[0037]
  (Additional Item 2) In the inspection data management method according to Additional Item 1,
  The examination data management method, wherein the processing organization obtains the detected object ID and the examination information from the patient via a second network.
  In the examination data management method according to the present invention, the processing organization obtains the examination information associated with the detected object ID from the patient via the second network. Data can be obtained from patients without leakage.
[0038]
  (Additional Item 3) In the inspection data management method according to Additional Item 2,
  Examination data, wherein when the patient accesses a terminal of the network, the processing organization automatically obtains the examination information obtained up to the access in association with the detected object ID Management method.
  In the examination data management method according to the present invention, since the processing organization can obtain the examination information from the patient in a final form instead of obtaining the examination information at any time, for example, when some trouble occurs in the portable detection device Even if it is lost, it is possible to prevent the inspection information accumulated in the portable detection device from being wasted so far, and the safety of data can be improved. Further, since the processing organization automatically obtains examination information when the patient accesses the terminal, the burden on the patient in outputting examination information can be reduced.
[0039]
【The invention's effect】
  The inspection data management method of the present invention has the following effects.
  That is, processing organizationManagement serverHowever, a predetermined process is performed on the examination information of the patient, the medical institution generates processing data necessary for diagnosis, and sends this to the medical institution. Thereby, since the medical institution easily obtains the processing data necessary for the diagnosis of the patient from the processing institution, it is possible to reduce the burden of conventional processing of the examination information.
  Moreover, since it is not necessary for a patient to visit a medical institution as many times as in the past, time can be used effectively and the burden can be reduced.
  In addition, the processing agencyManagement serverStores the detected object ID and the medical institution ID in association with each other, and obtains the detected object ID and the examination information from the patient. Thereby, since the medical institution which supplied the to-be-detected object to the patient can be specified by using the to-be-detected object ID as a key, it is possible to reliably send the processing data which is the examination information of the patient to the medical institution.
  Furthermore, since the examination information of the patient is exchanged between the medical institution, the processing institution and the patient using the detected object ID as a key, there is no possibility that personal information such as the patient's name leaks to the processing institution. Therefore, the patient's personal information is not leaked to a third party other than the medical institution receiving the medical examination, and the patient can receive the examination with peace of mind.
[Brief description of the drawings]
FIG. 1 is a system diagram of a data management system used in an inspection data management method according to a first embodiment of the present invention.
FIG. 2 is a flowchart in the inspection data management method according to the first embodiment of the present invention.
FIG. 3 is a system diagram of a data management system used in an inspection data management method according to a second embodiment of the present invention.
FIG. 4 is another example of the second embodiment according to the present invention, and is a system diagram of a data management system used in an inspection data management method.
[Explanation of symbols]
  A Capsule endoscope (detected body)
  B Extracorporeal device (portable detection device)
  20 Hospital (medical institution)
  30 patients
  40 processor

Claims (4)

In a medical institution, a portable detection device storing a detection object ID of a detection object input into the patient's body is attached to the patient, and the examination information of the patient emitted from the detection object outside the medical institution is A test data management method used in a system for receiving and storing by a portable detection device and processing the test information obtained after the test is completed in a management server provided in a processing engine outside the medical institution,
The portable detection device passes through the wireless communication device when the portable detection device enters an operating range of at least one of a plurality of wireless communication devices connected to the data collection web server in the management server. The detected object ID and the inspection information are transmitted to the data collection web server, and the transmission of the detected object ID or the inspection information to the wireless communication device is cut off from the operating range of the wireless communication device. When the transmission is started again after storing the data until it is shut off, the subsequent data is transmitted to the web server for data collection through the wireless communication device,
The management server stores the detected object ID of the detected object that has been input into the patient's body and the medical institution ID of the medical institution that has input the detected object in association with each other, The detected object ID and the examination information are read from the portable detection device obtained from the patient, processing data obtained by performing a predetermined process on the examination information is generated, and the processed data is obtained using the detected object ID as a key. A test data management method characterized by associating with a medical institution, associating the detected object ID with the processing data, and outputting to the medical institution. In the inspection data management method according to claim 1,
The examination data management method, wherein the management server of the processing organization associates unprocessed data with the processed data and outputs the processed data to the medical facility. In the inspection data management method according to claim 1 or 2,
  A test data management method, wherein the management server of the processing organization associates the detected object ID and the processing data via the first network and outputs the associated data to the medical institution. In the inspection data management method according to claim 3,
  A test data management method, wherein the management server of the processing organization obtains the detected object ID and the test information from the patient via a second network.

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