CN104814730A - Disease monitoring and diagnosis system - Google Patents

Abstract

The present application provides a disease monitoring and diagnosis system, comprising: a detection unit that detects a physiological parameter in a living body to generate an electric signal corresponding to the physiological parameter, when placed in the living body; a signal transmitting/receiving unit that transmits the electric signal generated by the detection unit to the outside of the living body when the living body is placed inside the living body; a relay unit that processes and transmits a signal from the signal transmission/reception unit when the relay unit is placed outside the living body; and a control unit that receives and displays a signal from the relay when the control unit is placed outside the living body. According to the application, the physiological parameters in the organism can be detected in real time, and the data can be remotely transmitted to the user, so that the diseases of the organism can be remotely monitored and diagnosed, and the effectiveness and the convenience of treatment are improved.

Description

The monitoring of disease and diagnostic system

Technical field

The application relates to technical field of medical instruments, particularly relates to a kind of disease surveillance and diagnostic system.

Background technology

Intracranial pressure (intracranial pressure, ICP) mainly referring to the pressure that intracranial tolerant (mainly comprising the materials such as cerebral tissue, cerebral blood flow and cerebrospinal fluid) produces cranial cavity wall, is the one reflection of intracranial disease or intracranial secondary arthritis.

The continuing to increase of intracranial pressure can cause that cerebral blood flow reduces, cerebral blood supply insufficiency, causes cerebral ischemia, anoxia, as can not Timeliness coverage increased intracranial pressure take effective remedy measures, then may cause serious consequence, even threat to life.Therefore, the monitoring intracranial pressure of all kinds of craniocerebral disease patient, as: craniocerebral trauma, intracranial mass lesion etc., and the intracranial pressure based on this regulates and controls all very important.At present, the monitoring method of intracranial pressure can be divided into and has wound and noinvasive two greatly class clinically.

Although someone proposes the measuring method of multiple intracranial pressure noninvasive, non-invasive methods also exists the features such as measuring accuracy difference, method be loaded down with trivial details and is not widely used.Therefore, monitoring method the most frequently used clinically is at present still for there being wound method, and wherein most widely used is exactly that Intraventricular ICP monitoring is implanted, and its principle is by lateral cerebral ventricle puncture, and monitoring intracranial pressure probe is put into Intraventricular intracranial pressure.The method can also carry out external drainage to ICV cerebrospinal fluid while measurement intracranial pressure, is acknowledged as the goldstandard of monitoring intracranial pressure.

Above it should be noted that, just conveniently to the technical scheme of the application, clear, complete explanation is carried out to the introduction of technical background, and facilitate the understanding of those skilled in the art to set forth.Only can not think that technique scheme is conventionally known to one of skill in the art because these schemes have carried out setting forth in the background technology part of the application.

Summary of the invention

Present inventor finds, the device that above-mentioned Intraventricular ICP monitoring is implanted and monitoring method also exist certain defect, mainly show as 2 points: on the one hand, ICP monitoring device means after implanting and is directly in communication with the outside by the ventricles of the brain, and existence causes the risk of intracranial infection, ICP monitoring probe indwelling time is longer, the probability infected is higher, and therefore general 7 days after surgery tube drawings, cannot retain for a long time, if needs of patients accepts long-term monitoring intracranial pressure, must be interrupted, repeatedly puncture; On the other hand, ICP monitoring device completes monitoring task jointly by intracranial end and cranium external electronic monitoring device two parts after implanting, in the process of carrying out monitoring intracranial pressure, patient must lie in bed, brake, mobility causes considerable restraint, if particularly patient with severe symptoms need carry out emergency treatment CT scan, then must carry cranium external electronic monitoring device simultaneously, in moving process, easily occur that puncture tube slippage, displacement etc. are unexpected.

In addition, because ICP monitoring is implanted and cannot be carried out long-term and real-time monitoring to patient, for the patient of some Relapse rates, if after rehabilitation, there is some intracranial diseases happened suddenly when no supervision, particularly cause the relevant disease of increased intracranial pressure, as tumor recurrence, communicating hydrocephalus, recidivity cerebral hemorrhage etc., be very easy to the therapeutic time incuring loss through delay its best.Therefore, need carry out the patient of long-term intracranial pressure monitoring for some, timing is carried out remote monitoring and real-time data feedback is just seemed particularly important to medical institutions or medical personnel, like this, and can so that patient obtains the most effectively treatment and helps.

The application provides a kind of disease surveillance and diagnostic system, when the system of the application is used for the monitoring of intracranial pressure, can measure in real time intracranial pressure, simultaneously collected data Real-time Feedback can be carried out remote diagnosis to medical institutions or medical personnel, for patient provide more in time, effectively and easily disease treatment.Further, the disease surveillance of the application and diagnostic system can not only be used for intracranial pressure and detect, and also may be used for the detection of other physiological parameter in organism, such as, may be used for detecting body temperature and other routine biochemistry index etc.

According to an aspect of the embodiment of the present application, provide a kind of disease surveillance and diagnostic system, this system comprises:

Detecting unit, it is when being placed in organism, detects the physiological parameter in organism, to generate the signal of telecommunication corresponding with described physiological parameter;

Signal transmitting and receiving unit, it is when being placed in described organism, sends the described signal of telecommunication that described detecting unit generates to described organism outside;

Repeater, it is when being placed in described organism outside, processes the signal from described signal transmitting and receiving unit and sends; And

Control unit, it is when being placed in described organism outside, receives the signal from described repeater and shows.

According to another aspect of the embodiment of the present application, wherein, the described physiological parameter that described detecting unit detects comprises intracranial pressure, body temperature, routine biochemistry index.

According to another aspect of the embodiment of the present application, wherein, described signal transmitting and receiving unit also receives outside command signal, and controls the detection operation of described detecting unit according to this command signal.

According to another aspect of the embodiment of the present application, wherein, described signal transmitting and receiving unit is sent and Received signal strength by electromagnetic wave.

According to another aspect of the embodiment of the present application, wherein, the described process that described repeater carries out comprises and being encrypted the signal from described signal transmitting and receiving unit.

According to another aspect of the embodiment of the present application, wherein, described control unit is also decrypted from the signal of described repeater according to the codon pair of user's input, and is shown by the signal obtained after deciphering.

According to another aspect of the embodiment of the present application, wherein, signal from described repeater compares with the threshold value preset by described control unit, when the signal from described repeater is in outside the scope set by described default threshold value, sends alarm signal.

According to another aspect of the embodiment of the present application, wherein, described control unit is placed in mobile terminal and/or wearable device.

The beneficial effect of the application is: can detect in real time the physiological parameter in organism, and by data transferring to control unit, thereby, it is possible to carry out remote monitoring and diagnosis to the disease of organism, improves effectiveness and the convenience for the treatment of.

With reference to explanation hereinafter and accompanying drawing, disclose in detail the particular implementation of the application, the principle specifying the application can adopted mode.Should be appreciated that, thus the embodiment of the application is not restricted in scope.In the spirit of claims and the scope of clause, the embodiment of the application comprises many changes, amendment and is equal to.

The feature described for a kind of embodiment and/or illustrate can use in one or more other embodiment in same or similar mode, combined with the feature in other embodiment, or substitutes the feature in other embodiment.

Should emphasize, term " comprises/comprises " existence referring to feature, one integral piece, step or assembly when using herein, but does not get rid of the existence or additional of one or more further feature, one integral piece, step or assembly.

Accompanying drawing explanation

Included accompanying drawing is used to provide the further understanding to the embodiment of the present application, which constitutes a part for description, for illustrating the embodiment of the application, and comes together to explain the principle of the application with text description.Apparently, the accompanying drawing in the following describes is only some embodiments of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.In the accompanying drawings:

Fig. 1 is the disease surveillance of embodiment 1 and a composition schematic diagram of diagnostic system.

Detailed description of the invention

With reference to accompanying drawing, by description below, the aforementioned and further feature of the application will become obvious.In the specification and illustrated in the drawings, specifically disclose the particular implementation of the application, which show the some embodiments of the principle that wherein can adopt the application, will be appreciated that, the application is not limited to described embodiment, on the contrary, the application comprises the whole amendments fallen in the scope of claims, modification and equivalent.

Embodiment 1

The embodiment of the present application 1 provides a kind of disease surveillance and diagnostic system.Fig. 1 is the disease surveillance of embodiment 1 and a composition schematic diagram of diagnostic system, and as shown in Figure 1, this disease surveillance and diagnostic system 100 have detecting unit 101, signal transmitting and receiving unit 102, repeater 103 and control unit 104.

Wherein, detecting unit 101 can be placed in organism, for detecting the physiological parameter in organism, to generate the signal of telecommunication corresponding with described physiological parameter; Signal transmitting and receiving unit 102 can be placed in organism, sends the signal of telecommunication that detecting unit 101 generates to organism outside; Repeater 103 can be placed in organism outside, for processing the signal from signal transmitting and receiving unit 102 and sending; Control unit 104 can be placed in organism outside, shows for the signal that receives from repeater 103.

In the present embodiment, can by Minimally Invasive Surgery by this detecting unit 101 and signal transmitting and receiving unit 102 implantable bioartificial body, or to carry out in process in passing in implanted organism in other operation, when this detecting unit 101 and signal transmitting and receiving unit 102 are placed in organism, can be used in detecting the physiological parameter in organism, and be sent in vitro.

In the present embodiment, the physiological parameter that this detecting unit 101 detects can be the pressure in organism, such as this detecting unit 101 can comprise pressure transducer, this pressure transducer can be such as differential pressure piezoresistive pressure sensor, but the present embodiment is not limited thereto, pressure transducer also can be other type.

In the present embodiment, the physiological parameter that this detecting unit 101 detects also can be other physiological parameter in organism, such as body temperature and/or routine biochemistry index etc., described routine biochemistry index such as can comprise leukocyte, erythrocyte, mononuclear cell, apocyte, sugar, protein, chloride and/or electrolyte content etc., this detecting unit 101 correspondingly includes the device for detecting above-mentioned physiological parameter, such as, temperature sensor and/or biochemistry detection chip etc.

In the present embodiment, the signal of telecommunication that signal transmitting and receiving unit 102 can utilize radio magnetic wave to generate to send detecting unit 101, thereby, it is possible to carry out signal transmission easily.In the present embodiment, this signal transceiver 102 can also utilize radio magnetic wave to receive the command signal from outside, and the detection operation etc. of detecting unit 101 is controlled according to this command signal, such as, this signal transmitting and receiving unit 102 can control automatic by setting-up time interval, the continuous intracranial pressure of detecting unit 101 etc. according to this command signal.In the present embodiment, this radio magnetic wave can be such as Bluetooth signal etc., but the present embodiment is not limited to this, can also be other radio magnetic wave.

In addition, in the present embodiment, signal transmitting and receiving unit 102 can be connected with detecting unit 101 by connecting electric wire, thus receives the signal of telecommunication of detecting unit 101 generation, and transmits control signal to detecting unit 101.Certainly, the present embodiment is not limited to this, also can be communicated by radio magnetic wave signal between signal transmitting and receiving unit 102 and detecting unit 101.

In the present embodiment, the electromagnetic wave signal that this repeater 103 Received signal strength Transmit-Receive Unit 102 sends, and signal is processed, this process can be encrypted signal, such as, and can according to the encryption key corresponding with the device numbering of detecting unit 101 and signal transmitting and receiving unit 102, signal is encrypted, about the concrete mode be encrypted signal, can with reference to prior art, the present embodiment does not do special restriction.In addition, the present embodiment is not limited to this, and other process can also carrying out in addition to encryption to signal, such as, encloses number corresponding label with user and/or the said equipment, so that identify etc. signal to the signal after encryption.

In the present embodiment, the function of this control unit 104 can pass through application program (Application, APP) realize, and, this control unit 104 can be arranged on organism outside, and such as, this control unit 104 can be placed on mobile terminal and/or wearable device, such as, smart mobile phone, panel computer, Intelligent bracelet and/or intelligent glasses etc.But the present embodiment is not limited to this, this control unit 104 can also be realized by hardware such as special integrated circuits.

In the present embodiment, this control unit 104 can receive the input operation of user, such as, can be decrypted, and shown by the signal obtained after deciphering according to the coded signal of the codon pair of user's input from repeater 103.

In the present embodiment, this control unit 104 such as can receive the input operation of user by input equipment such as the touch screen of mobile terminal or keyboards, and by the display screen of this mobile terminal or speaker, the signal obtained after deciphering is shown or play, thus, user can understand the physiological parameter in detected organism by the result shown or play, the disease of result to organism according to detecting is diagnosed, thus realizes the remote diagnosis of disease.Further, only have authorized user to be decrypted by correct password to obtain the physiological parameter in detected organism, thus, the privacy of patient can be protected.

In the present embodiment, according to the physiological parameter that this disease surveillance and diagnostic system 100 detect, the disease that can diagnose comprises: intracranial infection, craniocerebral trauma, intracranial tumor, cerebrovascular disease, congenital hydrocephalus and arachnoid cyst etc.

In the present embodiment, the signal from repeater 103 can also compare with the threshold value preset by control unit 104, when the signal from repeater 103 is in outside the scope set by default threshold value, sends alarm signal.Such as, higher limit and the lower limit of intracranial pressure can be set, when the intracranial pressure of the organism detected higher than this higher limit or lower than this lower limit when, give the alarm signal, shows alarm word and/or the speaker of mobile terminal is sounded the alarm to make the display screen of mobile terminal.

In the present embodiment, control unit 104 can also according to the instruction of user's input, and transmit control signal to repeater 103, this repeater 103 processes this control signal, generate command signal and send to signal transceiver 102, for controlling the detection operation of detecting unit 101.

By disease surveillance and the diagnostic system of the present embodiment, remote real time monitoring can be carried out to the physiological parameter of organism, and medical institutions or medical personnel can be fed back in time, doctor carries out remote diagnosis by collected data to patient, and more quality time are striven in the treatment for patient.

Implant part in native system 100 can comprise detecting unit 101 and signal transmitting and receiving unit 102, only through being no more than Minimally Invasive Surgery once, just can need implant, thus carry out detection and diagnosis, and the implant part life-span is unlimited, compared with existing monitoring method, the risk of patient infection is very little.If after patient's recovery from illness, also can select to retain implant part, without the need to taking out, instruction can be sent by control unit 104 and detecting operation to close, again monitor if need after patient, can by control unit 104 send instruction again activate detection operation just can use.The Monitoring Data obtained is shared with the several users that application program is housed simultaneously by repeater, such as sufferers themselves, family members and the doctor in charge etc., but has to pass through mandate and log in and can obtain data, thus the privacy of protection patient.Meanwhile, if run into the absent but situation of patient's burst disease of the doctor in charge of medical personnel as patient, then absent doctor carries out remote diagnosis by the data collected by present system, for patient provides timely, convenient and effective medical rescue.

Below, the monitoring for intracranial pressure is example, is described the disease surveillance of the application and the using method of diagnostic system 100.

(1) implantation of device: through a Minimally Invasive Surgery by detecting unit 101 and signal transmitting and receiving unit 102 patients with implantation intracranial, also can need complete in passing when doing other craniocerebral operations.

(2) measurement of ICP: during measurement, only need send instruction by the application software of mobile terminal, detecting unit 101 is opened, passes through the ICP of the pressure transducer Automatic continuous in detecting unit 101, repeated measure patient according to the requirement of instruction, until detecting unit 101 is closed.

(3) diagnosis of intracranial disease: the data received are encrypted by repeater 103; pass to client terminal by radio magnetic wave again and be shared with the several users that application program is housed; such as sufferers themselves, family members and the doctor in charge etc.; user inputs code entry can obtain data, thus the privacy of protection patient.Doctor carries out remote diagnosis by the data obtained to patient, thus provides timely, convenient and effective medical rescue.

When the disease surveillance of the embodiment of the present application and diagnostic system being used for the diagnosis of the detection of other physiological parameter in organism and disease, also similar effect can be reached.

More than in conjunction with concrete embodiment to present application has been description, but it will be apparent to those skilled in the art that these descriptions are all exemplary, is not the restriction to the application's protection domain.Those skilled in the art can make various variants and modifications according to the spirit of the application and principle to the application, and these variants and modifications are also in the scope of the application.

Claims (8)

1. the monitoring of disease and a diagnostic system, it is characterized in that, this system comprises:

Detecting unit, it is when being placed in organism, detects the physiological parameter in organism, to generate the signal of telecommunication corresponding with described physiological parameter;

Signal transmitting and receiving unit, it is when being placed in described organism, sends the described signal of telecommunication that described detecting unit generates to described organism outside;

Repeater, it is when being placed in described organism outside, processes the signal from described signal transmitting and receiving unit and sends; And

Control unit, it is when being placed in described organism outside, receives the signal from described repeater and shows.

2. the monitoring of disease as claimed in claim 1 and diagnostic system, is characterized in that,

The described physiological parameter that described detecting unit detects comprises intracranial pressure, body temperature and/or routine biochemistry index.

3. the monitoring of disease as claimed in claim 1 and diagnostic system, is characterized in that,

Described signal transmitting and receiving unit also receives outside command signal, and controls the detection operation of described detecting unit according to this command signal.

4. the monitoring of disease as claimed in claim 3 and diagnostic system, is characterized in that,

Described signal transmitting and receiving unit is sent and Received signal strength by electromagnetic wave.

5. the monitoring of disease as claimed in claim 1 and diagnostic system, is characterized in that,

The described process that described repeater carries out comprises and being encrypted the signal from described signal transmitting and receiving unit.

6. the monitoring of disease as claimed in claim 1 and diagnostic system, is characterized in that,

Described control unit is also decrypted from the signal of described repeater according to the codon pair of user's input, and is shown by the signal obtained after deciphering.

7. the monitoring of disease as claimed in claim 1 and diagnostic system, is characterized in that,

Signal from described repeater compares with the threshold value preset by described control unit, when the signal from described repeater is in outside the scope set by described default threshold value, sends alarm signal.

8. the monitoring of disease as claimed in claim 1 and diagnostic system, is characterized in that,

Described control unit is placed in mobile terminal and/or wearable device.