CN204889968U - A wearable equipment for epileptics is monitored in early days - Google Patents

Abstract

The utility model discloses a wearable equipment for epileptics is monitored in early days, including wearable body to and the sign collection module of collection including the information of brain wave, blood pressure and rhythm of the heart, gather the acceleration module with speed information including head, body and four limbs, receive and send to the control module of communication module and/or display module with the sign with speed information, send to the server with sign information with speed information to the receipt server is according to the sign and add the speed information disease that the matched pair was answered in disease information database and expert's information, and with disease and the communication module of expert message routing to control module, sign, acceleration, disease and expert's information that display control unit sent supply the display module that the user looked over. The utility model discloses make the user in time know the health to take appropriate treatment, thereby improved the promptness of the early monitoring of epileptics, slowed down the development of the latent course of disease, alleviateed the injury in patient's health and the spirit.

Description

For the wearable device of epileptics early monitoring

Technical field

This utility model relates to field of medical technology, particularly relates to a kind of wearable device for epileptics early monitoring.

Background technology

Epileptics is commonly called as " epilepsy " or " epilepsy ", and epileptics is because the cerebral neuron paroxysmal abnormality of patient discharges, and the chronic disease of the of short duration cerebral disorder caused.The initial position of epileptics due to paradoxical discharge and the difference of transfer mode, performance during patient episode also can be: the symptoms such as paroxysmal movement, sensation, autonomic nerve, consciousness and mental disorder.According to the sick data display of Chinese cri dernier cri, about there is the epileptic of 9,000,000 in China, has become in Chinese epilepsy the second largest common disease that department of neurology is only second to headache.A wearable device can not carry out early monitoring to epileptic in the market, causes the disease of the epileptic hidden very fast, have impact on the healthy of people greatly, bring dual injury on the body & mind of patient.

Based on this, be necessary to provide a kind of wearable device for epileptics early monitoring, to improve the promptness of epileptics early monitoring, slow down the disease of the epileptic hidden, alleviate on epileptics patient body & mind and injure.

Utility model content

Main purpose of the present utility model is to provide a kind of wearable device for epileptics early monitoring, be intended to reach the promptness improving epileptics early monitoring, slow down the disease of the epileptic hidden, alleviate the effect that epileptics patient body & mind injures.

For achieving the above object, this utility model provides a kind of wearable device for epileptics early monitoring.

The described wearable device for epileptics early monitoring comprises:

Wearable body, and be arranged on sign acquisition module, acceleration module, control module, communication module and the display module on wearable body:

Described sign acquisition module, is connected with described control module, and for gathering the sign information of patient, and described sign information is sent to described control module, described sign information at least comprises brain wave information, blood pressure information and heart rate information;

Described acceleration module, be connected with described control module, for gathering the acceleration information of patient, and described acceleration information is sent to described control module, described acceleration information at least comprises patients head's acceleration information, body acceleration information and extremity acceleration information; Described control module, receives the sign information of described sign acquisition module transmission and the acceleration information of described acceleration module transmission, and described sign information and acceleration information is sent to described communication module and/or described display module;

Described communication module, is connected with described control module, for receiving the described sign information of described control module transmission and described acceleration information, and described sign information and described acceleration information is sent to server; And receive disease information and the expert info of the correspondence that described server mates in disease information data base according to described sign information and described acceleration information, and described disease information and expert info are sent to control module;

Described display module, is connected with described control module, for showing sign information and acceleration information, disease information and the expert info of the transmission of described control module, checks for user.

Preferably, described sign acquisition module comprises acquiring brain waves submodule, blood pressure gathers submodule and heart rate gathers submodule, wherein:

Described acquiring brain waves submodule, gathers described brain wave information for the brain wave sensor by being arranged at human body head;

Described blood pressure gathers submodule, gathers described human blood-pressure information for the pressure transducer by being arranged at human body wrist;

Described heart rate gathers submodule, gathers described heart rate information for the heart rate sensor by being arranged at human chest.

Preferably, described acceleration module comprises head acceleration and gathers submodule, body acceleration collection submodule and extremity acceleration collection submodule, wherein:

Described head acceleration gathers submodule, gathers described human body head acceleration information for the acceleration transducer by being arranged at human body head;

Described body acceleration gathers submodule, gathers described human body body acceleration information for the acceleration transducer by being arranged at human body body body surface;

Described extremity acceleration gathers submodule, gathers described human limb acceleration information for the acceleration transducer by being arranged at human limb.

Preferably, the described wearable device for epileptics early monitoring also comprises locating module:

Described locating module, is connected with described control module, for obtaining the positional information at patient place.

Preferably, the described wearable device for epileptics early monitoring also comprises reminding module:

Reminding module, is connected with described control module, and the control according to described control module exports information.

Compared to prior art, this utility model at least comprises the sign information of brain wave information, blood pressure information and heart rate information by the collection of sign acquisition module, is gathered the acceleration information at least comprising head acceleration information, body acceleration information and extremity acceleration information by acceleration module; By control module, described sign information and acceleration information are sent to communication module and/or described display module; Communication module, described sign information and acceleration information are sent to server, and the disease information of correspondence that mates in disease information data base according to described sign information and acceleration information of reception server and expert info, and described disease information and expert info are sent to control module; Display module shows sign information that described control module sends in time, acceleration information, disease information and expert info are checked for user.This utility model makes user can understand health in time, and take suitable treatment, thus improve the promptness of epileptics early monitoring, slow down the disease of the epileptic hidden, alleviate the injury on epileptics patient body & mind.

Accompanying drawing explanation

Fig. 1 is the high-level schematic functional block diagram of this utility model for wearable device first embodiment of epileptics early monitoring;

Fig. 2 is the sub-function module schematic diagram of sign acquisition module in Fig. 1;

Fig. 3 is the sub-function module schematic diagram of acceleration module in Fig. 1;

Fig. 4 is the high-level schematic functional block diagram of this utility model for wearable device second embodiment of epileptics early monitoring;

Fig. 5 is the high-level schematic functional block diagram of this utility model for wearable device the 3rd embodiment of epileptics early monitoring.

The realization of this utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain this utility model, and be not used in restriction this utility model.

The wearable device for epileptics early monitoring that this utility model provides, is intended to realize reaching the promptness improving epileptics early monitoring, slows down the disease of the epileptic hidden, alleviate the effect that epileptics patient body & mind injures.

Reference Fig. 1, Fig. 1 are the high-level schematic functional block diagram of this utility model for wearable device first embodiment of epileptics early monitoring.

In this utility model first embodiment, the wearable device for epileptics early monitoring comprises:

Wearable body 10, and be arranged on sign acquisition module 20, acceleration module 30, control module 40, communication module 50 and the display module 60 on wearable body 10:

Described sign acquisition module 20, is connected with described control module 40, and for gathering the sign information of patient, and described sign information is sent to described control module 40, described sign information at least comprises brain wave information, blood pressure information and heart rate information;

Described acceleration module 30, be connected with described control module 40, for gathering the acceleration information of patient, and described acceleration information is sent to described control module 40, described acceleration information at least comprises patients head's acceleration information, body acceleration information and extremity acceleration information;

Described control module 40, the acceleration information that sign information and described acceleration module 30 for receiving the transmission of described sign acquisition module 20 send, and described sign information and acceleration information are sent to described communication module 50 and/or described display module 60;

Described communication module 50, is connected with described control module 40, for receiving the described sign information of described control module 40 transmission and described acceleration information, and described sign information and described acceleration information is sent to server; And receive disease information and the expert info of the correspondence that described server mates in disease information data base according to described sign information and described acceleration information, and described disease information and expert info are sent to control module 40;

Described display module 60, is connected with described control module 40, for showing sign information and acceleration information, disease information and the expert info of the transmission of described control module 40, checks for user.

In the present embodiment, gathered the sign information of patient by sign acquisition module 20, and the sign information of patient is sent to control module 40, described sign information at least comprises brain wave information, blood pressure information and heart rate information; When epileptic shows effect, because the cerebral neuron paroxysmal abnormality of patient discharges, and cause brain wave that violent change occurs, the blood pressure of patient also can raise simultaneously, heart rate is also accelerated, and after collecting the brain wave information of these exceptions, blood pressure information and heart rate information, described sign information is sent to control module 40 by sign acquisition module 20.

Acceleration module 30 is for gathering the acceleration information of patient, and when trickle shake occurs the body of patient, acceleration module 30 all can detect.Because the performance of patient when showing effect can be make clicks, chew and swallow symptoms such as trembling with hands, may be even also that whole body is twitched, fallen.Once patient cashes out the change of body acceleration, the acceleration information collected is sent to control module 40 by acceleration module 30.

Control module 40 receives the sign information of described sign acquisition module 20 transmission and the acceleration information of described acceleration module 30 transmission, when described sign information does not exceed default threshold value, described sign information is sent to described communication module 50 by control module 40, and is not sent to display module 60; When described sign information all exceedes default threshold value respectively, described sign information is sent to described communication module 50 by control module 40, and is sent to display module 60 simultaneously, consults for kith and kin, understands the most basic sign information of patient in time; When described acceleration information does not exceed default threshold value, described acceleration information is sent to described communication module 50 by control module 40, and is not sent to display module 60; When described acceleration information all exceedes default threshold value respectively, described acceleration information is sent to described communication module 50 by control module 40, and is sent to display module 60 simultaneously, consults for kith and kin, understands the most basic sign information of patient in time.

Communication module 50 receives sign information and the acceleration information of control module 40 transmission, first communication module 50 is set up communication with server and is connected, then just sign information is sent to server, server receives after user terminal sends sign information value in one day of patient and acceleration information value, first the sign information in the epileptics information bank prestored with server mates, and compares respectively with the brain wave information of the sick early symptom of the epileptics preset, human blood-pressure and heart rate; Acceleration information in the epileptics information bank again prestored with server mates, and compares respectively with the head acceleration of the sick early symptom of the epileptics preset, body acceleration and extremity acceleration.Because epileptics can be divided into according to clinical episodes with Types Below: (1) general tonic-clonic seizure: sudden loss of consciousness, then whole body first tetanic rear clonic spasm, normal companion screams, purplish complexion etc., after continuing tens of second or several minutes, convulsion stops naturally, falls into a comatose state; (2) petit mal: sudden ergasia is interrupted, loss of consciousness, may along with limb muscle clonic spasm or automatism, and brain wave paradoxical discharge; (3) simple partial seizure: a certain local of body or side limbs tetanic, Myoclonic seizures, or paraesthesia outbreak, last of short duration, Clear consciousness, if can with loss of consciousness outbreak scope extends to extremity, head or whole body during along motor region; (4) autonomic seizures (diencephalon): headache type, abdominal pain type, extremity pain type or cardiovascular can be had to show effect (as dysarteriotony, increased heart rate).The threshold value of the acceleration information of brain wave information, blood pressure information and the heart rate information corresponding with the symptom of above-mentioned epileptics Four types and head, body and extremity is pre-set: exceed default threshold value when only having the information of body acceleration in server database, and other physical sign parameters are not when all exceeding default threshold value, belong to the type of epileptics symptom general tonic-clonic seizure; When only having extremity acceleration information and brain wave information to exceed default threshold value, and when other physical sign parameters all do not exceed default threshold value, belong to the type of epileptics symptom petit mal; When only having body acceleration information, extremity acceleration information and head acceleration information to exceed default threshold value, and when other physical sign parameters all do not exceed default threshold value, belong to the type of epileptics symptom simple partial seizure; When only having the information of blood pressure, heart rate and brain wave to exceed default threshold value, and when other physical sign parameters all do not exceed default threshold value, belong to the type of epileptics symptom autonomic seizures (diencephalon).

Only have body acceleration information to exceed default threshold value when comparison result meets, and when other physical sign parameters all do not exceed the situation of default threshold value, the type belonging to epileptics symptom general tonic-clonic seizure can be inferred; Only have extremity acceleration information and brain wave information to exceed default threshold value when comparison result meets, and when other physical sign parameters all do not exceed the situation of default threshold value, the type belonging to epileptics symptom petit mal can be inferred; Body acceleration information, extremity acceleration information and head acceleration information is only had to exceed default threshold value when comparison result meets, and other physical sign parameters are not when all exceeding the situation of default threshold value, the type belonging to epileptics symptom simple partial seizure can be inferred; Only have the information of blood pressure, heart rate and brain wave to exceed default threshold value when comparison result meets, and when other physical sign parameters all do not exceed the situation of default threshold value, the type belonging to epileptics symptom autonomic seizures (diencephalon) can be inferred.

The disease information of the correspondence after communication module 50 reception server coupling, and described disease information is sent to control module 40.The method of the coupling disease in above-mentioned server adopts existing disease matching algorithm to realize.Namely judge which kind of disease type patient belongs to according to the symptom of patient and the threshold value of each symptom, thus match disease information.

In addition, when server is comprehensively analyzed after coupling obtains disease information collection, corresponding expert info is mated in specialist list, if during disease information corresponding to the disease information the determined sick early symptom that is epileptics, server will directly mate the expert of screening epileptics disease in the specialist list preset, and carry out online connection with the expert of epileptics disease, the sign information of the patient collected and acceleration information are directly sent to the expert of epileptics disease, the expert of epileptics disease is played to the effect of assisting in diagnosis and treatment, server also can by the medication guide of the expert of epileptics disease to patient simultaneously, daily points for attention, dietetic contraindications etc. are sent to intelligent terminal corresponding to patient kith and kin in real time.If when the disease information determined is not the disease information of the correspondence of epileptics disease early symptom, server can select the expert of the directly corresponding disease information of coupling screening in the specialist list preset, and carry out online connection with the expert of corresponding disease, the sign information of the patient collected and acceleration information are directly sent to the expert of corresponding disease, the expert of corresponding disease are played to the effect of assisting in diagnosis and treatment.The expert info of the correspondence after communication module 50 reception server coupling, and described expert info is sent to control module 40.The method of the coupling expert in above-mentioned server adopts existing expert's matching algorithm to realize.Namely from the expert info storehouse prestored, corresponding expert info is mated according to the disease information of patient.

Display module 60 receives sign information and the acceleration information of control module 40 transmission, shows, consults for kith and kin, understands the most basic sign information of patient and acceleration information in time; In addition, display module 60 receives the disease information of control module 40 transmission and shows; Last display module 60 can also receive the expert info of control module 40 transmission and show.Due to the existence of display module 60, make patient kith and kin can understand health in time, and corresponding expert guidance can be obtained, be conducive to patient and obtain suitable treatment, thus the auxiliary efficiency that improve epileptic's early monitoring, the body & mind alleviating patient brings dual injury.

The present embodiment at least comprises the sign information of brain wave information, blood pressure information and heart rate information by the collection of sign acquisition module, is gathered the acceleration information at least comprising head acceleration information, body acceleration information and extremity acceleration information by acceleration module; By control module, described sign information and acceleration information are sent to communication module and/or described display module; Communication module, described sign information and acceleration information are sent to server, and the disease information of correspondence that mates in disease information data base according to described sign information and acceleration information of reception server and expert info, and described disease information and expert info are sent to control module; Display module shows sign information that described control module sends in time, acceleration information, disease information and expert info are checked for user, make user can understand health in time, and take suitable treatment, thus improve the promptness of epileptics early monitoring, slow down the disease of the epileptic hidden, alleviate the injury on epileptics patient body & mind.

In the above-described embodiments, Fig. 2 is the sub-function module schematic diagram of sign acquisition module 20 in Fig. 1.

With reference to Fig. 2, described sign acquisition module 20 comprises acquiring brain waves submodule 201, blood pressure gathers submodule 202 and heart rate gathers submodule 203, wherein:

Described acquiring brain waves submodule 201, gathers described brain wave information for the brain wave sensor by being arranged at human body head;

Described blood pressure gathers submodule 202, gathers described human blood-pressure information for the pressure transducer by being arranged at human body wrist;

Described heart rate gathers submodule 203, gathers described heart rate information for the heart rate sensor by being arranged at human chest.

Particularly, acquiring brain waves submodule 201, being arranged at the head of patient, can be scalp sites, also can be Cerebral cortex position, the brain wave information of patient is gathered by brain wave sensor, acquiring brain waves submodule also has the function that synchronized video recording detects simultaneously, and acquiring brain waves submodule comprises memory element and broadcast unit, and memory element is for storing the above-mentioned brain wave collected, broadcast unit, for playing the above-mentioned brain wave collected, checks the brain wave change of patient so that follow-up; Because epileptic blood pressure and heart rate when showing effect also can change, blood pressure gathers submodule 202 by being arranged at the pressure transducer of human body wrist, gathers described human blood-pressure information; Heart rate gathers submodule 203, for the heart rate information of the heart rate sensor collection patient by being arranged at human chest; Collected brain wave information, blood pressure information and heart rate information are also sent to control module 40 by sign acquisition module 20.By arranging brain wave sensor, pressure transducer and heart rate sensor at the head of patient, extremity and body, can the sign information of acquisition patient promptly and accurately, make user can understand health in time, and take suitable treatment, thus improve the promptness of epileptics early monitoring, slow down the disease of the epileptic hidden, alleviate the injury on epileptics patient body & mind.

In the above-described embodiments, Fig. 3 is the sub-function module schematic diagram of acceleration module 30 in Fig. 1.

With reference to Fig. 3, described acceleration module 30 comprises head acceleration and gathers submodule 301, body acceleration collection submodule 302 and extremity acceleration collection submodule 303, wherein:

Described head acceleration gathers submodule 301, gathers described human body head acceleration information for the acceleration transducer by being arranged at human body head;

Described body acceleration gathers submodule 302, gathers described human body body acceleration information for the acceleration transducer by being arranged at human body body body surface;

Described extremity acceleration gathers submodule 303, gathers described human limb acceleration information for the acceleration transducer by being arranged at human limb.

Particularly, the difference of symptom during morbidity according to patient, acceleration module 30 is divided into head acceleration to gather submodule 301, body acceleration collection submodule 302 gathers the different submodule of submodule 303 3 with extremity acceleration, be separately positioned on head, extremity and body, the wearable body being arranged at head can be medicated cap shape, also can be hair band shape; The wearable body being arranged at body can be vest shape or tubular; The wearable body being arranged at extremity can be bracelet shape, also can be foot ring-type.Wearable body is used for the acceleration information of joint-monitoring patient.When the symptom of patient is made clicks, chews and swallow, can detect with the head acceleration sensor being arranged at human body head, when the symptom of patient is when hands is trembled or foot such as to tremble at the symptom, can detect with the extremity acceleration transducer being arranged at human limb, when when the symptom of patient, whole body is twitched, jointly can detect with the body sensor and extremity sensor being arranged at human body body body surface.

Reference Fig. 4, Fig. 4 are the high-level schematic functional block diagram of this utility model for wearable device second embodiment of epileptics early monitoring.

Be used for wearable device first embodiment of epileptics early monitoring based on above-mentioned this utility model, in the second embodiment, the described wearable device for epileptics early monitoring also comprises locating module 70:

Described locating module 70, is connected with described control module 40, for obtaining the positional information at patient place.

In the present embodiment, locating module 70, for obtaining the positional information at the current place of patient, due to the existence of wearable device, even if when patient is in alone, also can obtains the positional information at patient place in time, be convenient to first aid.

Reference Fig. 5, Fig. 5 are the high-level schematic functional block diagram of this utility model for wearable device the 3rd embodiment of epileptics early monitoring.

Be used for wearable device first embodiment of epileptics early monitoring based on above-mentioned this utility model, in the 3rd embodiment, the described wearable device for epileptics early monitoring also comprises reminding module 80:

Reminding module 80, is connected with control module 40, and the control according to control module 40 exports information.

In the present embodiment, when the brain wave of the section sometime that sign acquisition module 20 collects or blood pressure, heart rate value exceed certain threshold value, control module 40 controls reminding module 80 alarm; When the head acceleration of the section sometime that acceleration module 30 collects, body acceleration or extremity accekeration exceed certain threshold value, control module 40 also can control reminding module 80 alarm; The mode of prompting can be voice or vibration, pays close attention to the up-to-date basic sign information of patient and acceleration information in time for reminding patient and household; When control module 40 receives the disease information after the up-to-date coupling of communication module 50 transmission or expert info, control module 40 controls reminding module 80 alarm, the mode of prompting can be voice or vibration, reads disease information or expert info in time for reminding patient and household.

Sign acquisition module 20 described in the utility model, acceleration module 30 can be arranged on wearable body 10 as required, described wearable body 10 can for the multiple wearing bodies be separated, described control module 40 can be arranged on multiple wearing bodies of separation respectively, also can only one disposed therein dress on body, other are dressed bodies and realize the mutual of signal by Near Field Communication technology and control module 40.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize this utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (5)

1. the wearable device for epileptics early monitoring, it is characterized in that, the described wearable device for epileptics early monitoring comprises wearable body, and is arranged on sign acquisition module, acceleration module, control module, communication module and the processing module on wearable body:

Described sign acquisition module, is connected with described control module, and for gathering the sign information of patient, and described sign information is sent to described control module, described sign information at least comprises brain wave information, blood pressure information and heart rate information;

Described acceleration module, be connected with described control module, for gathering the acceleration information of patient, and described acceleration information is sent to described control module, described acceleration information at least comprises patients head's acceleration information, body acceleration information and extremity acceleration information;

Described control module, the acceleration information that sign information and described acceleration module for receiving the transmission of described sign acquisition module send, and described sign information and acceleration information are sent to described communication module and/or described display module;

Described communication module, is connected with described control module, for receiving the described sign information of described control module transmission and described acceleration information, and described sign information and described acceleration information is sent to server; And receive disease information and the expert info of the correspondence that described server mates in disease information data base according to described sign information and described acceleration information, and described disease information and expert info are sent to control module;

Described display module, is connected with described control module, for showing sign information and acceleration information, disease information and the expert info of the transmission of described control module, checks for user.

2. as claimed in claim 1 for the wearable device of epileptics early monitoring, it is characterized in that, described sign acquisition module comprises acquiring brain waves submodule, blood pressure gathers submodule and heart rate gathers submodule, wherein:

Described acquiring brain waves submodule, gathers described brain wave information for the brain wave sensor by being arranged at human body head;

Described blood pressure gathers submodule, gathers described human blood-pressure information for the pressure transducer by being arranged at human body wrist;

Described heart rate gathers submodule, gathers described heart rate information for the heart rate sensor by being arranged at human chest.

3. as claimed in claim 1 for the wearable device of epileptics early monitoring, it is characterized in that, described acceleration module comprises head acceleration and gathers submodule, body acceleration collection submodule and extremity acceleration collection submodule, wherein:

Described head acceleration gathers submodule, gathers described human body head acceleration information for the acceleration transducer by being arranged at human body head;

Described body acceleration gathers submodule, gathers described human body body acceleration information for the acceleration transducer by being arranged at human body body body surface;

Described extremity acceleration gathers submodule, gathers described human limb acceleration information for the acceleration transducer by being arranged at human limb.

4. the wearable device for epileptics early monitoring as described in any one of claims 1 to 3, is characterized in that, the described wearable device for epileptics early monitoring also comprises locating module:

Described locating module, is connected with described control module, for obtaining the positional information of user.

5. the wearable device for epileptics early monitoring as described in any one of claims 1 to 3, is characterized in that, the described wearable device for epileptics early monitoring also comprises reminding module:

Reminding module, is connected with described control module, and the control according to described control module exports information.