CN112842263A

CN112842263A - Remote rehabilitation examination method

Info

Publication number: CN112842263A
Application number: CN202011627828.1A
Authority: CN
Inventors: 彭晓玉; 徐鹏; 张娥; 邹雨栖; 谭慧; 张晶; 牟博世
Original assignee: Chinese Peoples Liberation Army Army Specialized Medical Center
Current assignee: Chinese Peoples Liberation Army Army Specialized Medical Center
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28
Anticipated expiration: 2040-12-31
Also published as: CN112842263B

Abstract

The invention belongs to the technical field of rehabilitation detection, and particularly relates to a remote rehabilitation examination method. A remote rehabilitation examination method, the method comprising: establishing a self-help rehabilitation detection device; the rehabilitation examination resources are integrated through the remote rehabilitation examination system, and the resources are distributed to the patients needing rehabilitation examination through the remote rehabilitation examination system. This application is through increasing self-service recovered detection device to integrate recovered inspection resource, carry out planning nature distribution to the patient that needs carry out the recovered inspection, and then alleviateed some high pressure region's pressure, and reached make full use of to idle resource, also saved a large amount of times of patient simultaneously, and it is more convenient that the patient carries out the recovered inspection.

Description

Remote rehabilitation examination method

Technical Field

The invention belongs to the technical field of rehabilitation detection, and particularly relates to a remote rehabilitation examination method.

Background

With the increase of population, medical resources become gradually in short supply, and in regions, the utilization rate of the medical resources in different regions is different, some regions have larger resource margins, and the medical resources in some regions are seriously in short supply.

Because patients suffering from ICU acquired asthenia need long-term rehabilitation training and rehabilitation examination after being discharged, but because the patients have inconvenient actions and are in shortage of medical resources, the patients need to go through actions such as appointment, queuing and the like which waste a lot of time when needing rehabilitation examination, and the patients are more inconvenient for patients far away from hospitals.

Disclosure of Invention

Aiming at the technical problems, the invention provides a remote rehabilitation examination method.

In order to achieve the purpose, the technical scheme adopted by the invention is that the remote rehabilitation examination method comprises the following steps: establishing a self-help rehabilitation detection device; the rehabilitation examination resources are integrated through the remote rehabilitation examination system, and the resources are distributed to the patients needing rehabilitation examination through the remote rehabilitation examination system.

Preferably, the remote rehabilitation examination system comprises: the central server is used for counting the rehabilitation examination resources and distributing the rehabilitation examination resources; the processing terminal is in communication connection with the central server and is used for processing the data of the central server and giving a rehabilitation examination evaluation result; the application terminal is in communication connection with the central server and is used for applying for rehabilitation examination; the rehabilitation detection end is used for acquiring rehabilitation detection data of a patient and an in-vitro sample of the patient and uploading the data to the central server and the assay end; the test end is used for testing the in-vitro sample collected by the rehabilitation detection end and uploading test data to the central server; and the logistics end receives the task sent by the central server and transports the laboratory test substance collected by the rehabilitation detection end to the laboratory test end.

Preferably, the processing end is a rehabilitation examination center, can evaluate the rehabilitation condition of the patient by combining rehabilitation detection data acquired by the rehabilitation detection end and test data of the test end, and uploads the evaluation result to the central server; the application terminal is a networked terminal of a patient, and rehabilitation examination can be performed by reserving the central server on the internet; the rehabilitation detection end is a mechanism with rehabilitation detection capability or a self-help rehabilitation detection device; the testing end is a hospital or a laboratory with testing capability.

Preferably, the resource allocation comprises the following steps: s1: receiving application information of an application end; s2: comparing the current rehabilitation checking resource margins, and performing rehabilitation detection site allocation on the patients at the application end; s3: acquiring rehabilitation detection data of a patient and sending the rehabilitation detection data to a processing end which can evaluate relatively fastest; s4: and obtaining the evaluation result of the processing end on the patient rehabilitation examination, and feeding the evaluation result back to the application end.

Preferably, the amount of the resource spare for rehabilitation test in S2 includes: the rehabilitation assessment resource idle quantity from the processing end, the rehabilitation testing resource idle quantity from the testing end and the data or in-vitro sample collection resource idle quantity from the rehabilitation detecting end.

Preferably, the resource idle amount is calculated in the following manner: acquiring the maximum total resource amount of each place, and dividing the maximum resource amount into a resource capable of being reserved, a standby resource and a redundant resource; the resource idle amount is the sum of the reserved resource and the redundant resource, the reserved resource is preferentially met during allocation, the redundant resource can be started only after the reserved resource in all places is completely consumed, and the spare resource of the self-help rehabilitation detection device is zero.

Preferably, the assigning of the rehabilitation test site to the patient at the application end in S2 includes the following steps: a1: acquiring a rehabilitation detection item applied by a patient and a position of the patient; a2: judging whether the applied rehabilitation detection items can be detected through a self-service rehabilitation detection device or not; a3: screening self-help rehabilitation detection devices near the position of a patient for application for detection through the self-help rehabilitation detection devices, and distributing and arranging the self-help rehabilitation detection devices; a4: for applications that cannot be detected by the self-service rehabilitation detection device, mechanisms with rehabilitation detection capability near the position where the patient is located are screened, distributed and arranged.

Preferably, the self-help rehabilitation detection device comprises: the control module is in communication connection with the data processing center; the self-help rehabilitation detection module is electrically connected with the control module; the energy module is electrically connected with the control module; the self-help rehabilitation detection module comprises: the self-service in-vitro sample acquisition device is electrically connected with the control module; and the self-service data acquisition device is electrically connected with the control module.

Preferably, the self-service in vitro sample collection device comprises: the self-service blood collection device is electrically connected with the control module and is used for collecting blood of a patient; and the self-help metabolite collection device is electrically connected with the control module and is used for collecting excrement and discharged objects of the patient.

The beneficial effects created by the invention are as follows: this application is through increasing self-service recovered detection device to integrate recovered inspection resource, carry out planning nature distribution to the patient that needs carry out the recovered inspection, and then alleviateed some high pressure region's pressure, and reached make full use of to idle resource, also saved a large amount of times of patient simultaneously, and it is more convenient that the patient carries out the recovered inspection.

Drawings

In order to more clearly illustrate the invention in its embodiments, reference will now be made briefly to the accompanying drawings, which are to be used in the embodiments. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

FIG. 1 is a schematic diagram of resource allocation procedure

FIG. 2 is a schematic diagram of a remote rehabilitation examination system

FIG. 3 is a schematic view of the structure of the automatic detection device

FIG. 4 is a schematic view of a coverall and muscle strength collecting air bag

FIG. 5 is a schematic view of a chest muscle information acquisition buckle

FIG. 6 is a schematic view of a pectoral muscle information collecting disc

Reference numerals:

1-a central server, 2-a control module, 3-a rehabilitation detection end, 30-a self-help rehabilitation detection module, 31-a self-help sample collection device, 311-a self-help blood collection device, 312-a self-help metabolite collection device, 32-a self-help data collection device, 321-a muscle strength information collection bag, 3211-a lower arm muscle air bag, 3212-a large arm muscle air bag, 3213-a deltoid muscle air bag, 3214-a chest muscle information collection buckle, 32141-a chest muscle information collection disc, 32142-a connecting belt, 32143-a rear fixed disc, 32144-a uncovered cavity, 3215-a lumbar muscle strength air bag, 3216-a thigh muscle air bag, 3217-a calf muscle air bag, 322-a pressure sensor, 323-an inflation device, a 4-energy module and 5-a zipper, 6-application end, 7-transportation end, 8-processing end and 9-assay end.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only used as examples, and the protection scope of the present invention is not limited thereby.

A remote rehabilitation examination method, the method comprising: and establishing a self-help rehabilitation detection device. The rehabilitation examination resources are integrated through the remote rehabilitation examination system, and the resources are distributed to the patients needing rehabilitation examination through the remote rehabilitation examination system.

As shown in fig. 2, the remote rehabilitation examination system includes: the system comprises a central server 1, a processing terminal 8, an application terminal 6, an assay terminal 9 and a logistics terminal. The central server 1 is used for counting rehabilitation examination resources and distributing the rehabilitation examination resources. The processing terminal 8 is in communication connection with the central server 1, and is used for processing the data of the central server 1 and giving the rehabilitation examination evaluation result. The processing end 8 is a rehabilitation examination center, can evaluate the rehabilitation condition of the patient by combining the rehabilitation detection data acquired by the rehabilitation detection end 3 and the test data of the test end 9, and uploads the evaluation to the central server 1.

The application terminal 6 is in communication connection with the central server 1 and is used for applying for rehabilitation examination. The application terminal 6 is a networked terminal of a patient, and can perform rehabilitation examination by reserving the central server 1 on the internet. The rehabilitation detection end 3 is used for collecting rehabilitation detection data of a patient and an in-vitro sample of the patient and uploading the data to the central server 1 and the assay end 9. The rehabilitation detection end 3 is a mechanism with rehabilitation detection capability or a self-help rehabilitation detection device. The testing end 9 is a hospital or laboratory with testing capabilities. The testing end 9 is used for testing the in-vitro sample collected by the rehabilitation detection end 3 and uploading the testing data to the central server 1. The logistics end receives the task sent by the central server 1 and transports the test object collected by the rehabilitation detection end 3 to the test end 9.

As shown in fig. 1. The resource allocation comprises the following steps: s1: and receiving application information of the application terminal 6. S2: and comparing the current rehabilitation examination resource margin, and performing rehabilitation detection site allocation on the patient at the application end 6. S3: rehabilitation test data of the patient is acquired and sent to the processing end 8 where evaluation can be made relatively fastest. S4: the evaluation result of the patient rehabilitation examination by the processing terminal 8 is obtained and fed back to the application terminal 6.

The resource spare amount of the rehabilitation examination in the S2 comprises: the rehabilitation assessment resource vacancy amount from the processing end 8, the rehabilitation testing resource vacancy amount from the testing end 9 and the data or in-vitro sample collection resource vacancy amount from the rehabilitation detecting end 3.

The calculation mode of the resource idle quantity is as follows: and acquiring the maximum total resource amount of each place, and dividing the maximum resource amount into a reservable resource, a standby resource and a redundant resource. The resource idle amount is the sum of the reserved resource and the redundant resource, the reserved resource is preferentially met during allocation, the redundant resource can be started only after the reserved resource in all places is completely consumed, and the spare resource of the self-help rehabilitation detection device is zero.

The rehabilitation detection site assignment for the patient at the application end 6 in the S2 comprises the following steps: a1: and acquiring the rehabilitation detection item applied by the patient and the position of the patient. A2: and whether the applied rehabilitation detection items can be detected through the self-service rehabilitation detection device is judged. A3: for applications that can be detected by the self-service rehabilitation detection device, the self-service rehabilitation detection device near the position where the patient is located is screened, distributed and arranged. A4: for applications that cannot be detected by the self-service rehabilitation detection device, mechanisms with rehabilitation detection capability near the position where the patient is located are screened, distributed and arranged.

As shown in fig. 3, the self-help rehabilitation detection device includes: a control module 2, a self-help rehabilitation detection module 30 and an energy module 4. The control module 2 is in communication connection with the central server 1. The self-help rehabilitation detection module 30 is electrically connected with the control module 2. The energy module 4 is electrically connected with the control module 2. The self-service rehabilitation detection module 30 includes: a self-service metabolite collection device 31 and a self-service data acquisition device 32.

The self-service in-vitro sample acquisition device 31 is electrically connected with the control module 2. Self-service separation sample collection system 31 includes: an automated blood collection device 311 and a self-service metabolite collection device 312. Automatic blood collection device 311 is electrically connected to control module 2 for collecting blood from a patient. Self-service metabolite collection device 312 is electrically connected to control module 2 for collecting excreta and faecal matter of the patient. Wherein automatic blood collection device 311 and self-service metabolite collection device 312 are both prior art.

As shown in fig. 4, the self-service data acquisition device is a one-piece garment for acquiring muscle strength data of a patient, and a zipper 5 is arranged on the one-piece garment. Different types of muscle strength information acquisition capsules 321 are arranged at different positions in the one-piece garment, and comprise: a leg muscle strength collection air bag group, an arm muscle strength collection air bag group and a trunk muscle strength collection air bag group. The leg muscle force acquisition air bag group is used for acquiring the contraction force of muscles when the lower leg and the thigh move. The arm muscle force collection air bag group is used for collecting the contraction force of the muscle when the small arm and the large arm move. The trunk muscle strength collection air bag group is used for collecting the contraction force of muscles during waist movement and the contraction force of muscles during shoulder movement.

The leg muscle force acquisition air bag group at least comprises a calf muscle air bag 3217 and a thigh muscle air bag 3216. The calf muscle air cell 3217 and the thigh muscle air cell 3216 are annular air cells fixedly connected with the inner surface of the fixing structure and used for being sleeved on the calf and the thigh of the patient.

The arm muscle strength collection air bag group at least comprises a small arm muscle air bag 3211, a large arm muscle air bag 3212 and a deltoid muscle air bag 3213. The small arm muscle air bag 3211 and the large arm muscle air bag 3212 are fixedly connected with the inner surface of the fixing structure and are used for being sleeved on the small arm and the large arm of the patient. The deltoid muscle air bag 3213 is of a crescent structure, and two ends of the crescent are communicated through a catheter and sleeved on the deltoid muscle of a patient. The deltoid muscle balloon 3213 is covered by the crescent-shaped portion of the deltoid muscle and the catheter is passed under the armpit to secure the deltoid muscle balloon 3213 to the body.

The trunk muscle strength collection air bag group comprises: a lumbar muscle force air bag 3215 and a chest muscle information acquisition buckle 3214. The waist muscle strength air bag 3215 is a strip-shaped air bag, is fixedly connected with the one-piece garment, and surrounds the one-piece garment for a circle to collect contraction force during waist muscle movement. The chest muscle information collecting buckle 3214 is used to collect contraction force of the back and chest muscles during movement.

As shown in fig. 5, the chest muscle information collecting buckle 3214 includes: a pectoral muscle information acquisition disc 32141, a rear fixed disc 32143 and a connecting band 32142. The pectoral muscle information acquisition disc 32141 is installed inside the coverall for acquiring contraction force of pectoral muscles during activity. The rear fixed disk 32143 is fixedly arranged in the one-piece clothes and corresponds to the pectoral muscle information acquisition disk 32141. One end of the connecting band 32142 is fixedly connected with the pectoral muscle information acquisition disc 32141, and the other end is fixedly connected with the rear fixing plate disc. The connecting belt 32142 has elasticity for limiting the distance between the rear fixing tray 32143 and the pectoral muscle information acquisition tray 32141. In order to better fix the pectoral muscle information acquisition buckle, the connecting belt 32142 may be a U-shaped structure, the pectoral muscle information acquisition disc 32141 and the rear fixing disc 32143 are respectively fixed at two ends of the U-shaped structure, and the elasticity of the connecting belt 32142 may enable the pectoral muscle information acquisition disc 32141 to better contact with the skin of the chest.

As shown in fig. 6. The pectoral muscle information acquisition disk 32141 includes: a capless cavity 32144 and an elastic membrane. The uncovered cavity 32144 is fixedly connected with one end of the connecting belt 32142 and is communicated with the inflating device 323. The elastic membrane is arranged on the cover cloth of the uncovered cavity 32144 and is used for contacting the muscle force change of the skin collection pectoral muscle during the activity. When the chest muscle information acquisition buckle 3214 is installed on the shoulder, and after the elastic membrane contacts the chest muscle, the elastic membrane can form a depression under the action of the chest muscle, and at the moment, the uncovered cavity 32144 is inflated, so that the elastic membrane is tightly attached to the skin, and the muscle strength of the chest muscle during movement is detected.

Self-service data acquisition device 32 is when using, and the patient wears the disjunctor clothing on one's body earlier, then according to the muscle demand that needs detected, aerifys in the collection gasbag group that corresponds, realizes the collection to muscle strength information. Because most muscle strength collection air bags are fixed on the inner wall of the jumpsuit, the various muscle strength collection air bags can not cause difficulty in wearing the jumpsuit by a patient.

This application is through increasing self-service recovered detection device to integrate recovered inspection resource, carry out planning nature distribution to the patient that needs carry out the recovered inspection, and then alleviateed some high pressure region's pressure, and reached make full use of to idle resource, also saved a large amount of times of patient simultaneously, and it is more convenient that the patient carries out the recovered inspection.

Specifically, when the rehabilitation examination device is used, a patient makes an appointment for rehabilitation examination through the application terminal 6, and the data server distributes the rehabilitation examination places of the patient according to the position of the patient, the project to be examined and the working pressure of the rehabilitation center around the patient.

Some of the patients will be assigned to the rehabilitation test site 3 near the patient for the performance of rehabilitation test items. The patient carries out the project that health detected as required, carries out muscle strength detection or carries out the collection of separation assay separation sample, and wherein the relevant detection data of muscle strength uploads data server through control module. The blood, excrement and excrement are transported to a hospital or a laboratory with idle testing capability through the transportation end 7 for testing, and the testing end 9 uploads the testing result to the data server. The data server arranges the data and sends the data to a rehabilitation center with idle resources for rehabilitation evaluation.

And after the rehabilitation center finishes evaluation, the evaluation price result is transmitted to the data server, and the data server feeds the evaluation result of the rehabilitation center back to the hand of the patient.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same. While the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: it is also possible to modify the solutions described in the previous embodiments or to substitute some or all of them with equivalents. The modifications or the substitutions do not make the essence of the corresponding technical solution depart from the scope of the technical solution of the embodiments of the present invention, and the technical solution is covered by the claims and the specification of the present invention.

Claims

1. A remote rehabilitation examination method, comprising:

establishing a self-help rehabilitation detection device; the rehabilitation examination resources are integrated through the remote rehabilitation examination system, and the resources are distributed to the patients needing rehabilitation examination through the remote rehabilitation examination system.

2. The remote rehabilitation test method according to claim 1, wherein said remote rehabilitation test system comprises:

the central server is used for counting the rehabilitation examination resources and distributing the rehabilitation examination resources;

the processing terminal is in communication connection with the central server and is used for processing the data of the central server and giving a rehabilitation examination evaluation result;

the application terminal is in communication connection with the central server and is used for applying for rehabilitation examination;

the rehabilitation detection end is used for acquiring rehabilitation detection data of a patient and an in-vitro sample of the patient and uploading the data to the central server and the assay end;

the test end is used for testing the in-vitro sample collected by the rehabilitation detection end and uploading test data to the central server;

and the logistics end receives the task sent by the central server and transports the laboratory test substance collected by the rehabilitation detection end to the laboratory test end.

3. The remote rehabilitation examination method according to claim 2, wherein the processing end is a rehabilitation examination center, and can evaluate the rehabilitation condition of the patient by combining the rehabilitation detection data acquired by the rehabilitation detection end and the test data of the test end and upload the data to the central server;

the application terminal is a networked terminal of a patient, and rehabilitation examination can be performed by reserving the central server on the internet;

the rehabilitation detection end is a mechanism with rehabilitation detection capability or a self-help rehabilitation detection device;

the testing end is a hospital or a laboratory with testing capability.

4. The remote rehabilitation test method according to claim 3, wherein said resource allocation comprises the steps of:

s1: receiving application information of an application end;

s2: comparing the current rehabilitation checking resource margins, and performing rehabilitation detection site allocation on the patients at the application end;

s3: acquiring rehabilitation detection data of a patient and sending the rehabilitation detection data to a processing end which can evaluate relatively fastest;

s4: and obtaining the evaluation result of the processing end on the patient rehabilitation examination, and feeding the evaluation result back to the application end.

5. The remote rehabilitation test method according to claim 4, wherein said S2 testing resource vacancy includes: the rehabilitation assessment resource idle quantity from the processing end, the rehabilitation testing resource idle quantity from the testing end and the data or in-vitro sample collection resource idle quantity from the rehabilitation detecting end.

6. The remote rehabilitation test method according to claim 5, wherein the resource idle amount is calculated by: acquiring the maximum total resource amount of each place, and dividing the maximum resource amount into a resource capable of being reserved, a standby resource and a redundant resource; the resource idle amount is the sum of the reserved resource and the redundant resource, the reserved resource is preferentially met during allocation, the redundant resource can be started only after the reserved resource in all places is completely consumed, and the spare resource of the self-help rehabilitation detection device is zero.

7. The remote rehabilitation test method according to claim 4, wherein said assigning of rehabilitation test sites to the patient at the application end in S2 comprises the steps of:

a1: acquiring a rehabilitation detection item applied by a patient and a position of the patient;

a2: judging whether the applied rehabilitation detection items can be detected through a self-service rehabilitation detection device or not;

a3: screening self-help rehabilitation detection devices near the position of a patient for application for detection through the self-help rehabilitation detection devices, and distributing and arranging the self-help rehabilitation detection devices;

a4: for applications that cannot be detected by the self-service rehabilitation detection device, mechanisms with rehabilitation detection capability near the position where the patient is located are screened, distributed and arranged.

8. The remote rehabilitation test method according to claim 3, wherein the self-help rehabilitation test device comprises:

the control module is in communication connection with the data processing center;

the self-help rehabilitation detection module is electrically connected with the control module;

the energy module is electrically connected with the control module;

the self-help rehabilitation detection module comprises:

the self-service in-vitro sample acquisition device is electrically connected with the control module;

and the self-service data acquisition device is electrically connected with the control module.

9. The remote rehabilitation examination method according to claim 8, wherein the self-service ex-vivo sample collection device comprises:

the self-service blood collection device is electrically connected with the control module and is used for collecting blood of a patient;

and the self-help metabolite collection device is electrically connected with the control module and is used for collecting excrement and discharged objects of the patient.