CN109147942A - Monitor method, processor, monitoring device and the storage device of patients surgery risk - Google Patents

Abstract

This application discloses a kind of method, processor, monitoring device and storage devices for monitoring patients surgery risk, this method comprises: obtaining the data of multiple vital signs of the patient with operation of monitoring device acquisition at interval of the first predetermined time, wherein, multiple vital signs include: breathing, body temperature, heart rate, blood pressure, blood oxygen；The operation risk index of the patient with operation is calculated by the data of multiple vital signs and predetermined policy associated with multiple vital signs, the case where operation risk index is used to monitor in real time the overall vital sign of the patient with operation；The operation risk index is sent.By the above-mentioned means, the case where the application can be using the overall vital sign of an operation risk index real time monitoring patient with operation.

Description

Monitor method, processor, monitoring device and the storage device of patients surgery risk

Technical field

This application involves field of medical technology, more particularly to a kind of method for monitoring patients surgery risk, processor, prison Control equipment and storage device.

Background technique

Currently, can generally be monitored by monitoring device in the course of surgery or in a period of time after certain operations Multiple vital signs of patient, for example, body temperature, breathing, heart rate, blood pressure, blood oxygen, when some or multiple vital signs therein When occurring abnormal, medical staff can take treatment measures immediately.

Present inventor has found in chronic study procedure, can show multiple life entities in monitoring device respectively at present Levy corresponding curve graph, on the one hand, medical staff is unable to the case where intuitive judgment patient with operation current overall vital sign；Separately On the one hand, a monitoring device may show that the corresponding curve graph of multiple vital signs of multiple patients, the situation can be led simultaneously The screen of monitoring device is caused to show more in disorder, the case where medical staff cannot quickly understand the vital sign of some patient.

Summary of the invention

The application is mainly solving the technical problems that provide a kind of method of monitoring patients surgery risk, processor, monitoring Equipment and storage device, can be using the overall vital sign of operation risk index real time monitoring patient with operation the case where.

In order to solve the above technical problems, the technical solution that the application uses is: providing a kind of monitoring patients surgery wind The method of danger, the method includes multiple life entities of the patient with operation of monitoring device acquisition are obtained at interval of the first predetermined time The data of sign, wherein multiple vital signs include: breathing, body temperature, heart rate, blood pressure, blood oxygen；Pass through multiple life The data of sign and predetermined policy associated with multiple vital signs calculate the operation risk index of the patient with operation, The operation risk index is used to monitor in real time the case where overall vital sign of the patient with operation；The operation risk is referred to Number is sent.

In order to solve the above technical problems, another technical solution that the application uses is: providing a kind of monitoring patients surgery The method of risk, which comprises it acquires the data of multiple vital signs of patient with operation and sends it to processor, In, multiple vital signs include: breathing, body temperature, heart rate, blood pressure, blood oxygen；Receive and show the hand that the processor is sent Art risk index, wherein the operation risk index by the processor by the data of multiple vital signs and with it is more The associated predetermined policy of the data of a vital sign, which calculates, to be obtained.

In order to solve the above technical problems, another technical solution that the application uses is: providing a kind of processor, the place Managing device includes: processing circuit, transmission circuit, storage circuit, and the processing circuit is respectively coupled to the transmission circuit, the storage Circuit, the processing circuit, the transmission circuit, the storage circuit are can be realized at work described in any of the above-described embodiment Method.

In order to solve the above technical problems, another technical solution that the application uses is: a kind of monitoring device is provided, it is described Monitoring device includes: processor, transceiver, memory and display, and the processor is respectively coupled to the transceiver, described deposits Reservoir, the display, the processor, the transceiver, the memory and the display can be realized at work Method described in any of the above-described embodiment.

In order to solve the above technical problems, another technical solution that the application uses, which is to provide one kind, has store function Device, be stored thereon with program data, described program data are realized when being executed by processor described in any of the above-described embodiment Step in method.

The beneficial effect of the application is: it is in contrast to the prior art, monitoring patient with operation provided herein The method of operation risk includes: multiple vital signs that the patient with operation of monitoring device acquisition is obtained at interval of the first predetermined time The data of (for example, breathing, body temperature, heart rate, blood pressure, blood oxygen etc.), by the data of multiple vital signs and with multiple life entities The operation risk index that associated predetermined policy calculates patient with operation is levied, operation is monitored in real time using the operation risk index and suffers from The case where overall vital signs of person；By the above-mentioned means, patient with operation can be monitored in real time by an operation risk index Overall vital sign situation, and can be the operation risk situation and fluctuation of analyzing the corresponding operation case of the patient with operation Situation provides data supporting, has other patients to carry out providing operation risk early warning and suggestion before same operation for the later period.

In addition, the method for the operation risk of monitoring patient with operation provided herein further include: according to the second pre- timing Between operation risk exponential average, the operation risk standard of index in range be poor, abnormal total degree occurs in vital sign data, There is the abnormal processing time in vital sign and corresponding policy calculation obtains surgery anesthesia index, the height of the surgery anesthesia index The height of low reaction surgery anesthesia quality can make department of anesthesia doctor is objective to recognize that this performs the operation by the surgery anesthesia index The surgery anesthesia quality of middle patient with operation is able to ascend the control of surgery anesthesia quality, and it is objective to provide for later period improvement quality of anesthesia Data supporting.

Detailed description of the invention

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.Wherein:

Fig. 1 is the flow diagram for one embodiment of method that the application monitors patients surgery risk；

Fig. 2 is the flow diagram of mono- embodiment of step S102 in Fig. 1；

Fig. 3 is the flow diagram of mono- embodiment of step S201 in Fig. 2；

Fig. 4 is the flow diagram for another embodiment of method that the application monitors patients surgery risk；

Fig. 5 is the flow diagram for the another embodiment of method that the application monitors patients surgery risk；

Fig. 6 is the structural schematic diagram of one embodiment of the application processor；

Fig. 7 is the structural schematic diagram of one embodiment of the application monitoring device；

Fig. 8 is the structural schematic diagram for one embodiment of device that the application has store function.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, rather than whole embodiments.Based on this Embodiment in application, those of ordinary skill in the art are obtained every other under the premise of not making creative labor Embodiment shall fall in the protection scope of this application.

Referring to Fig. 1, Fig. 1 is the process signal of one embodiment of method for the operation risk that the application monitors patient with operation Scheme, the executing subject of the method gone out given in Fig. 1 is processor, and this method can be used in surgical procedure, it can also be used to perform the operation After, this method comprises:

S101: the number of multiple vital signs of the patient with operation of monitoring device acquisition is obtained at interval of the first predetermined time According to, wherein multiple vital signs include: breathing, body temperature, heart rate, blood pressure, blood oxygen；

Specifically, monitoring device can by built-in multiple sensors at interval of the predetermined sampling period (for example, 30ms, 1s etc.) acquisition patient with operation multiple vital signs data, in the present embodiment, multiple vital signs include breathing, body temperature, Heart rate, blood pressure, blood oxygen can also acquire the data of other vital signs in other embodiments, and the application is not construed as limiting this.

In an application scenarios, monitoring device can will be right at interval of the first predetermined time (for example, 3s, 5s, 10s etc.) Should time point collected multiple vital sign datas be transmitted to processor so that processor gets multiple vital signs Data.Certainly, above-mentioned first predetermined time can also be predetermined identical using the period with monitoring device.

In another application scenarios, multiple vital signs that monitoring device can also will be acquired at interval of the predetermined sampling period Data be transmitted to processor, data of the processor at interval of the reception monitoring device transmission of the first predetermined time selectivity.

In another application scenarios, above-mentioned first predetermined time can remain unchanged during entire method carries out, It can also be changed according to the actual situation, for example, when a vital sign is abnormal wherein, it can be by the first predetermined time Become smaller, in another example, in multiple vital sign no exceptions and the duration is more than first threshold (for example, 20min, 40min Deng) when, the first predetermined time can be extended.

In another application scenarios, the executing subject of the above method is processor, which can be monitoring device Itself, the mode that processor obtains data at this time can be to be transmitted by the transceiver in monitoring device；Certainly, the processor It is also possible to except monitoring device, the mode that processor obtains data at this time, which can be, waits transmission side by wired or wireless Formula, the application are not construed as limiting this.

S102: operation is calculated by the data of multiple vital signs and predetermined policy associated with multiple vital signs and is suffered from The operation risk index of person, operation risk index are used to monitor in real time the operation risk of patient with operation.

Specifically, in one embodiment, above-mentioned steps S102 is specifically included:

S201: it according to the data of each vital sign and corresponding first weighted value of each vital sign, obtains each Corresponding first score value of vital sign, wherein the sum of corresponding first weighted value of each vital sign is 100；

Specifically, in an application scenarios, breathing, body temperature, heart rate, blood pressure, corresponding first weighted value of blood oxygen can be with It is equal, can also be unequal, need to only meet the sum of breathing, body temperature, heart rate, blood pressure, corresponding first weighted value of blood oxygen is 100.

In another application scenarios, above-mentioned steps S201 is specifically included:

S301: the corresponding critical field of the data of vital sign is compared.

Specifically, in an application scenarios, due to the critical field of above-mentioned vital sign be not it is fixed, and it is a variety of Influence factor is related, therefore, before step S301 further include: according to the influence factor for the critical field for influencing vital sign Default critical field corresponding thereto, wherein influence factor includes patient age.

By taking body temperature as an example, adult and children critical fields are 36-37 DEG C (oxter).

By taking blood oxygen as an example, the critical field of adult and children arterial blood oxygens (that is, oxygen in blood) is 95-97%.

By taking heart rate as an example, heart rate refers to the number of heartbeat per minute under normal person's rest state, also cries quiet heart rate, age Smaller, heart rate is faster, and adult and children critical fields are 60-100 beats/min.

By taking breathing as an example, the breathing of children is reduced with the growth at age, gradually arrives adult level later, adult exhales Inhaling critical field is 16-20 beats/min, and the breathing critical field of children is 30-40 beats/min.

By taking blood pressure as an example, the critical field of adult systolic pressure is 12-18.7kPa (being equivalent to 90-140mmH), diastolic pressure Critical field is 8-12kPa (being equivalent to 60-90mmHg)；Newborn's systolic pressure critical field is 6.7-8.0kPa (50- 60mmHg), the critical field of diastolic pressure is 4-5.3kPa (30-40mmHg.After 40 years old, systolic pressure can with the age increase and It increases, the maximum value of the critical field of 39 years old or less systolic pressure is 18.7kPa (140mmHg), the standard model of 40-49 years old systolic pressure The maximum value enclosed is 20kPa (150mmHg), and the maximum value of the critical field of 50-59 year old systolic pressure is 21kPa (160mmHg), 60 Year old or more the critical field of systolic pressure maximum value be 22.6kPa (170mmHg).

In another application scenarios, the influence factor of the critical field of above-mentioned vital sign further includes other, such as, Gender, occupation etc., for example, the heart rate of sportsman is slow compared with average adult, generally 50 beats/min or so；In another example women heart rate Male's heart rate more of the same age is fast, and the application can also comprehensively consider the critical field that other influences factor presets each vital sign.

S302: if the data of vital sign in critical field, the corresponding score value of vital sign be its corresponding first Weighted value；

S303: if the data of vital sign outside critical field, further judge whether the data of vital sign are greater than The maximum value of critical field；

S304: if so, the difference for obtaining the maximum value of critical field and the data of vital sign is the first numerical value, life The corresponding score value of sign is inversely proportional with the first numerical value；

Specifically, in an application scenarios, the corresponding maximum value P of the first numerical value default first_maxAnd the life entity Levy corresponding first weighted value M；Assuming that current calculate obtains the first numerical value as P₁, then currently the corresponding score value of the vital sign is M*[(P_max-P₁)/P_max]；If there is P₁Greater than P_maxThe case where, above-mentioned formula is equally applicable, at this point, the vital sign is corresponding Score value is negative point, it is of course also possible in addition set, if there is P₁Greater than P_maxThe case where, then the corresponding score value of the vital sign is straight It is connected in 0 point.

It should be noted that the method for obtaining above-mentioned score value can also be other, and the application is to this in other application scenarios It is not construed as limiting, for example, can be in advance several sections by corresponding first numerical division of the vital sign, each section is corresponding Different score values, the upper limit of score value are weighted value, and the lower limit of score value can be 0, or negative, the application do not limit this It is fixed.

S305: otherwise, the difference for obtaining the data of vital sign and the minimum value of critical field is second value, life entity Corresponding score value is levied to be inversely proportional with second value.

Specifically, in an application scenarios, the corresponding maximum value P' of second value default first_maxAnd the life entity Levy corresponding first weighted value M；Assuming that current calculate obtains second value as P'₁, then the current corresponding score value of the vital sign For M* [(P'_max-P'₁)/P'_max]；If there is P'₁Greater than P'_maxThe case where, above-mentioned formula is equally applicable, at this point, the vital sign Corresponding score value is negative point, it is of course also possible in addition set, if there is P'₁Greater than P'_maxThe case where, then the vital sign is corresponding Score value be directly 0 point.

It should be noted that the method for obtaining score value can also be other, and the application does not make this in other application scenarios It limits, for example, several sections can be divided into the corresponding second value of the vital sign in advance, the corresponding difference in each section Score value, the upper limit of score value is weighted value, and the lower limit of score value can be 0, or negative, the application are not construed as limiting this.

S202: the sum of corresponding first score value of each vital sign is operation risk index.

S103: operation risk index is sent.

Specifically, if the executing subject of the above method is processor, which can be monitoring device itself, at this time Processor directly transmits back the transceiver in monitoring device for the operation risk index obtained is calculated；Certainly, which can also To be except monitoring device, processor is sent out the operation risk index obtained is calculated by modes such as wired or wireless transmissions Send monitoring device back to.

To sum up, method provided herein can monitor patient with operation in real time by an operation risk index Overall vital sign situation, and can be the operation risk situation and fluctuation feelings for analyzing the corresponding operation case of the patient with operation Condition provides data supporting, has other patients to carry out providing operation risk early warning and suggestion before same operation for the later period.

In another embodiment, if in the course of surgery or the case where vital sign abnormalities occur in postoperative patients, being Medical staff is facilitated to know, before or after step S103 in the above-described embodiments, monitoring patient provided herein The method of operation risk further include: judge whether operation risk index is lower than threshold value (for example, 80,90 etc.), if so, sending report Alert signal.

Specifically, the executing subject of the above method is processor, and alarm signal can be sent to monitoring device by processor, Monitoring device issues alarm sound, and alarm signal at this time is electric signal；Alternatively, processor can voluntarily issue alarm sound, Alarm signal at this time is voice signal.

In yet another embodiment, referring to Fig. 4, Fig. 4 is another implementation of method that the application monitors patients surgery risk The flow diagram of mode, the method for monitoring patients surgery risk provided herein further include:

S401: the number of multiple vital signs of the patient with operation of monitoring device acquisition is obtained at interval of the first predetermined time According to, wherein multiple vital signs include: breathing, body temperature, heart rate, blood pressure, blood oxygen.

Specifically, the step is identical as step S101 in above-described embodiment, and details are not described herein.

S402: operation is calculated by the data of multiple vital signs and predetermined policy associated with multiple vital signs and is suffered from The operation risk index of person, operation risk index are used to monitor in real time the operation risk of patient with operation.

Specifically, the step is identical as step S102 in above-described embodiment, and details are not described herein.

S403: operation risk index is sent.

Specifically, the step is identical as step S103 in above-described embodiment, and details are not described herein.

S404: all operation risk indexes within the scope of the second predetermined time are obtained；

Specifically, which can be the time used in an operation whole process or partial routine, Can be an operation terminates the entire time or part-time that future trouble person needs to be monitored using monitoring device, the application couple This is not construed as limiting.

S405: operation risk exponential average is obtained according to all operation risk indexes and the operation risk standard of index is poor.

Specifically, the calculation method of operation risk exponential average and operation risk standard of index difference is calculated in the present embodiment For the existing method for calculating average and standard deviation, details are not described herein by the application.Risk provided in the present embodiment refers to Number average value can represent the average risk of this operation, and risk index standard deviation can represent the risk fluctuation feelings of this operation Condition, so as to so that medical staff gets information about the risk situation and fluctuation situation of this operation.

S406: there is abnormal total degree and the second pre- timing in multiple vital signs within the scope of the second predetermined time of statistics Between in range vital sign there is the abnormal processing time.

Specifically, vital sign occur it is abnormal be vital sign data be more than its corresponding critical field maximum value or The minimum value of critical field corresponding lower than its；There is the abnormal processing time in vital sign when being that vital sign occurs abnormal Between restore time difference of normal time again with vital sign；

S407: poor, vital sign data appearance exception according to operation risk exponential average, the operation risk standard of index There is abnormal processing time and its corresponding second weighted value in total degree, vital sign, and it is corresponding to obtain its Second score value, wherein the sum of its corresponding second weighted value is 100.

Specifically, in an application scenarios, operation risk exponential average, the operation risk standard of index be poor, life entity Processing time corresponding second weighted value of the total degree, vital sign appearance exception of levying data appearance exception can phase Deng, it can also be unequal, need to only meet the sum of its corresponding second weighted value is 100.

In another application scene, the total degree of above-mentioned vital sign abnormalities, the operation risk standard of index be poor, vital sign The score value that the processing time of appearance exception is corresponding is inversely proportional.For example, total degree/operation of vital sign abnormalities can be preset There is abnormal processing time corresponding maximum value L in risk index standard deviation/vital sign_max, minimum value L_minAnd its correspondence The second weighted value K, it is assumed that the total degree of the vital sign abnormalities/operation risk standard of index difference/vital sign occurs abnormal Processing time corresponding numerical value be L₀, work as L₀≤L_minWhen, corresponding score value is the second weighted value K；Work as L₀≥L_maxWhen, Corresponding score value is 0；Work as L_min< L₀< L_maxWhen, corresponding score value is K* [(L_max-L₀)/(L_max-L_min)]。

In yet another embodiment, the corresponding score value of above-mentioned operation risk exponential average is directly proportional.For example, can To preset the corresponding maximum value L' of operation risk exponential average_max, minimum value L'_minAnd its corresponding second weighted value K', Assuming that the corresponding numerical value of operation risk exponential average is L'₀, work as L'₀≤L'_minWhen, corresponding score value is 0；Work as L₀≥L_max When, corresponding score value is the second weighted value K'；Work as L'_min< L'₀< L'_maxWhen, corresponding score value is K'* [1- (L'_max- L'₀)/(L'_max-L'_min)]。

Certainly, in other application scenarios, total degree/operation risk standard of index of above-mentioned vital sign abnormalities is obtained The method that abnormal corresponding second score value of processing time/operation risk exponential average occurs in difference/vital sign can also be it He, the application is not construed as limiting this.

S408: the sum of all second score values are surgery anesthesia index, wherein the high low reaction of surgery anesthesia index is performed the operation numb The height of liquor-saturated quality.

In general, surgery anesthesia quality is higher, vital sign fluctuation is smaller, and it is fewer abnormal situation occur, therefore, leads to The objective operation for recognizing patient with operation in this operation of department of anesthesia doctor can be made by crossing aforesaid way acquisition surgery anesthesia index Quality of anesthesia is able to ascend the control of surgery anesthesia quality, improves quality of anesthesia for the later period and provides objective data supporting.

Referring to Fig. 5, Fig. 5 is the flow diagram for monitoring one embodiment of method of operation risk of patient with operation, Fig. 5 The executing subject of given method is monitoring device, this method comprises:

S501: the data of multiple vital signs of patient with operation are acquired and send it to processor, wherein multiple life Sign includes: breathing, body temperature, heart rate, blood pressure, blood oxygen；

The operation risk index that S502: receiving and video-stream processor is sent, wherein operation risk index is passed through by processor The data of multiple vital signs and predetermined policy associated with the data of multiple vital signs, which calculate, to be obtained.Specifically, the step The acquisition of operation risk index can be found in above-described embodiment in rapid S502, and details are not described herein.

Referring to Fig. 6, Fig. 6 is the structural schematic diagram of one embodiment of the application processor, which includes: processing Circuit 10, storage circuit 12, transmission circuit 14, processing circuit 10 are respectively coupled to storage circuit 12, transmission circuit 14, processing circuit 10, transmission circuit 14, storage circuit 12 can be realized Fig. 1-method shown in Fig. 4 in attached drawing at work.

Referring to Fig. 7, Fig. 7 is the structural schematic diagram of one embodiment of the application monitoring device, which includes: Processor 20, memory 22, transceiver 24 and display 26, processor 20 be respectively coupled to memory 22, transceiver 24 and Display 26, processor 20, memory 22, transceiver 24 and display 26 are can be realized in attached drawing at work shown in Fig. 5 Method.

It should be noted that the processor 1 in Fig. 6 can be the processor 20 in Fig. 7 in monitoring device 2, it is also possible to The processor 1 of other equipment in Fig. 7 other than monitoring device 2, the application is not construed as limiting this.

Referring to Fig. 8, Fig. 8 is the structural schematic diagram for one embodiment of device that the application has store function, this has The device 30 of store function is stored thereon with program data 300, and program data 300 realizes any of the above-described reality when being executed by processor Apply the step monitored in patients surgery risk method in example.In an application scenarios, this has the device 30 of store function can To be USB flash disk, hard disk etc..

The foregoing is merely presently filed embodiments, are not intended to limit the scope of the patents of the application, all to utilize this Equivalent structure or equivalent flow shift made by application specification and accompanying drawing content, it is relevant to be applied directly or indirectly in other Technical field similarly includes in the scope of patent protection of the application.

Claims (12)

1. a kind of method for the operation risk for monitoring patient with operation, which is characterized in that the described method includes:

The data of multiple vital signs of the patient with operation of monitoring device acquisition are obtained at interval of the first predetermined time, wherein more A vital sign includes: breathing, body temperature, heart rate, blood pressure, blood oxygen；

The hand is calculated by the data of multiple vital signs and predetermined policy associated with multiple vital signs The operation risk index of art patient, the operation risk index are used to monitor in real time the overall vital sign of the patient with operation Situation；

The operation risk index is sent.

2. the method according to claim 1, wherein the data by multiple vital signs and with it is more The associated predetermined policy of the data of a vital sign calculates operation risk index, comprising:

According to the data of each vital sign and corresponding first weighted value of each vital sign, each institute is obtained State corresponding first score value of vital sign, wherein the sum of corresponding first weighted value of each vital sign is 100；

The sum of corresponding first score value of each vital sign is the operation risk index.

3. according to the method described in claim 2, it is characterized in that, data according to each vital sign and each Corresponding first weighted value of a vital sign, obtains the score value of each vital sign, comprising:

The corresponding critical field of the data of the vital sign is compared；

If the data of the vital sign in the critical field, the corresponding score value of the vital sign be its corresponding the One weighted value；

If the data of the vital sign outside the critical field, further judge whether the data of the vital sign are big In the maximum value of the critical field, if so, obtaining the maximum value of the critical field and the data of the vital sign Difference is the first numerical value, and the corresponding score value of the vital sign is inversely proportional with first numerical value；Otherwise, the life entity is obtained The difference of the minimum value of the data of sign and the critical field is second value, the corresponding score value of the vital sign and described the Two numerical value are inversely proportional.

4. according to the method described in claim 3, it is characterized in that, the method also includes:

The critical field corresponding thereto is preset according to the influence factor for the critical field for influencing the vital sign, Wherein, the influence factor includes patient age.

5. the method according to claim 1, wherein the method also includes:

Obtain all operation risk indexes within the scope of the second predetermined time；

Operation risk exponential average is obtained according to all operation risk indexes and the operation risk standard of index is poor.

6. according to the method described in claim 5, it is characterized in that, the method also includes:

It counts multiple vital signs within the scope of second predetermined time and abnormal total degree and described second occurs in advance There is the abnormal processing time in the vital sign in range of fixing time, wherein the vital sign occurs abnormal being the life The data for ordering sign are more than the maximum value of its corresponding critical field or the minimum value of critical field corresponding lower than its；The life The processing time that exception occurs in life sign is that the abnormal time occurs in the vital sign and the vital sign restores just again The time difference of normal time；

According to the operation risk exponential average, the operation risk standard of index is poor, the vital sign data appearance is different The processing time of normal total degree, vital sign appearance exception and its corresponding second weighted value, it is each to obtain it Self-corresponding second score value, wherein the sum of its corresponding second weighted value is 100；

The sum of all described second score values are surgery anesthesia index, wherein the high low reaction of the surgery anesthesia index is performed the operation numb The height of liquor-saturated quality.

7. according to the method described in claim 6, it is characterized in that,

The total degree of the vital sign abnormalities, the operation risk standard of index are poor, the place of exception occurs in the vital sign The reason time, corresponding score value was inversely proportional；The corresponding score value of the operation risk exponential average is directly proportional.

8. the method according to claim 1, wherein the method further includes:

Judge whether the operation risk index is lower than threshold value, if so, sending alarm signal.

9. a kind of method for monitoring patients surgery risk, which is characterized in that the described method includes:

It acquires the data of multiple vital signs of patient with operation and sends it to processor, wherein multiple vital signs It include: breathing, body temperature, heart rate, blood pressure, blood oxygen；

It receives and shows operation risk index, wherein the operation risk index passes through multiple life by the processor The data of sign and predetermined policy associated with the data of multiple vital signs, which calculate, to be obtained.

10. a kind of processor, which is characterized in that the processor includes: processing circuit, transmission circuit, storage circuit, the place Reason circuit is respectively coupled to the transmission circuit, the storage circuit, the processing circuit, the transmission circuit, storage electricity Road can be realized the described in any item methods of claim 1-8 at work.

11. a kind of monitoring device, which is characterized in that the monitoring device includes: processor, transceiver, memory and display, The processor is respectively coupled to the transceiver, the memory, the display, the processor, the transceiver, described Memory and the display can be realized method as claimed in claim 9 at work.

12. a kind of device with store function, is stored thereon with program data, which is characterized in that described program data are located Manage the step realized in any one of claim 1-8 or 9 the method when device executes.