CN109036502B

CN109036502B - Physical examination report health management method and system

Info

Publication number: CN109036502B
Application number: CN201810756093.9A
Authority: CN
Inventors: 董云鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-11
Filing date: 2018-07-11
Publication date: 2022-03-08
Anticipated expiration: 2038-07-11
Also published as: CN109036502A

Abstract

The invention relates to a physical examination report health management method and a system, wherein the method comprises the following steps: acquiring a sample blood pressure value and a physical examination report of a user, acquiring blood pressure parameters and meanings, performing sample threshold value evaluation, performing function change analysis, acquiring a function change result of the blood pressure value, and judging whether the user performs structure change analysis for the first time; if so, responding to the physical examination report; if not, judging whether the sample size reaches a threshold value, comparing the several physical examination reports with the group physical examination report, and feeding back the change condition of the physical examination report; fitness evaluation is carried out according to the blood pressure value and the change condition of the physical examination report, and physical examination prediction information, blood pressure report evaluation and fitness information are obtained; the physical examination prediction information and the blood pressure report evaluation are combined to form fitness analysis of the structure and the function, and a health management plan report is generated and is subjected to warning, feedback and verification. The method or the system is adopted to evaluate the health status of the human body according to the physical examination report and by combining the existing index of the human body.

Description

Physical examination report health management method and system

Technical Field

The application belongs to the field of medical health management systems, and particularly relates to a physical examination report health management method and system.

Background

At present, the physical examination results in each physical examination center do not fully exert their values, and people cannot correspondingly manage and guide their lives and physical states through physical examination reports.

At present, the medical community observes and thinks the human body dynamically and statically through quantitative assessment. The physical examination center diagnoses the human body through a conventional physical examination report and carries out corresponding interference treatment on the human body. The existing indexes of human bodies are not fully utilized and utilized for evaluation, guidance, prompting and management, so that most of physical examination persons feel blind after physical examination. There is an urgent need for a method for performing health management on human body with structure and function adaptation according to a physical examination report and human body existing index evaluation.

Disclosure of Invention

In view of the above, the present invention provides a method and a system for health management of physical examination reports to overcome the shortcomings of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a physical examination report health management method and system comprises the following steps:

acquiring a sample blood pressure value of a user and a physical examination report of the user, wherein the blood pressure value is a blood pressure value measured immediately, and the sample blood pressure value is an average value, a variance and a u value obtained by measuring the blood pressure value for multiple times;

obtaining blood pressure parameters and significance expressed by hydromechanics by utilizing energy conservation; the blood pressure parameters comprise blood flow speed, blood vessel length, blood volume, viscosity coefficient and blood vessel radius;

performing sample threshold evaluation on the sample blood pressure value and the physical examination report; the threshold is the minimum sample size required for statistical analysis to be possible;

analyzing the function change of the sample blood pressure value to obtain a function change result of the user;

judging whether the user performs structural change analysis for the first time according to the physical examination report of the user;

if yes, responding to the physical examination report through hyperlink and combining symptoms; the response refers to answering and answering;

if the physical examination report of the user does not carry out structural change analysis for the first time, comparing the physical examination reports of several times with the average value and the variance of the group physical examination report, and feeding back the change condition of the physical examination report;

evaluating fitness according to the blood pressure value and the change condition of the physical examination report of the user to obtain physical examination prediction information, blood pressure report evaluation and fitness information; the fitness information is used for reflecting the adaptation condition of the structure and the function of the human body, simulating warning at a terminal, and carrying out feedback and error correction through a guidance, interference and verification system;

combining the physical examination prediction information and the blood pressure report evaluation through the relationship between structural factors and functional parameters to form structural and functional fitness analysis, finally generating a human body data acquisition and analysis report, and automatically generating a health management plan report;

and performing warning, feedback and verification according to the health management plan report.

Optionally, the u-test may be performed on the blood pressure sample by using a u value, so as to determine the risk assessment of the blood pressure.

Optionally, the obtaining of the parameters and the meanings of the hydrodynamically-expressed blood pressure by using energy conservation specifically includes:

analyzing and concluding human body structure factors corresponding to the blood pressure parameters according to the blood pressure parameters, and forming factors of a linear evaluation equation;

analyzing human body structure factors of the physical examination report, and determining human body structure evaluation factors, wherein the human body structure evaluation factors are the significance of the blood pressure parameters; the human structure evaluation factors include: the liver has a structure of a blood reservoir and functional factors of blood storage corresponding to blood volume Q, the gallbladder has a structure for storing bile and having a certain voltage and functional factors of fat digestion, blood fat corresponds to blood viscosity coefficient, biochemical factors for regulating nutrient absorption and capillary channel interchange between blood circulation and lymphatic circulation influence viscosity coefficient, excretory system factors for cleaning function of blood influence viscosity coefficient, and other factors such as transport and chemical factors influencing energy metabolism, digestive system factors, cardiovascular disease factors, local organ factors and other auxiliary factors can influence blood flow rate, blood vessel length and blood vessel radius.

The selection principle of the parameters is as follows:

according to the law of conservation of energy, combining with the relatively closed system of human blood circulation, obtaining the blood kinetic energy, the blood tension potential energy and the blood internal energy of the heart doing work on the blood;

dividing both sides of the heart-to-blood work formula by the blood volume acted by the heart to obtain a pressure formula

While the internal energy consumption is due to the resistance factor

The implementation is carried out; wherein, P is pressure intensity (namely systolic pressure or diastolic pressure), ρ is blood density, v is blood flow velocity, ρ gh is pressure intensity provided by tension potential energy of blood, Ψ is pressure intensity provided by internal energy state of blood, η is blood flow viscosity coefficient, l is relative length of blood vessel, Q is blood volume, and r is blood vessel radius;

determining the blood pressure parameter comprises: blood flow velocity v, blood volume Q, blood flow viscosity coefficient η, blood vessel length l, and blood vessel radius r.

Optionally, the performing of the sample threshold evaluation on the sample blood pressure value and the physical examination report specifically includes:

selecting a threshold value: according to the reliability setting and the actual situation, the required threshold value can be reflected, and different calculation formulas are provided under different situations; correlation analysis is carried out between the same population and different populations, or calculation formulas of threshold values required by normal distribution and binomial distribution are different; evaluating the minimum sample size, namely a threshold value, according to the formula and the combination of conditionality;

judging whether the sample blood pressure value is smaller than a set threshold value or not;

if so, calculating the average value of the linear equation to calculate a linear equation, and performing functional evaluation; otherwise, carrying out risk assessment;

for the physical examination report, if the sample size is smaller than the threshold value, performing hyperlink response on the physical examination report; or comparing and checking the normal value of the physical examination report, the group physical examination report of the crowd and the physical examination of the user; if the sample size is greater than the threshold, a linear assessment analysis is performed.

Optionally, the analyzing the function change of the sample blood pressure value to obtain the result of the function change of the user includes:

obtaining values of systolic pressure, diastolic pressure, pulse pressure difference and blood pressure fluctuation range according to the sample blood pressure value;

the human body structure is adapted to the function according to the human body structure, and the linear evaluation is carried out on the human body structure from the function angle;

the problem of energy metabolism is shown by quantification of blood pressure values, and the pulse pressure difference is regarded as an instant metabolic unit for functional evaluation; the functions are built on a structural basis;

and reflecting the functionality on the basis of the structure by combining the factors under the guidance of the blood pressure parameters and the corresponding blood pressure parameters in the physical examination report and the energy conservation.

Optionally, judging whether the user performs structural change analysis for the first time according to the physical examination report of the user, and if so, responding to the physical examination report by a hyperlink in combination with symptoms; if the physical examination report of the user is not the first structural change analysis, comparing the several physical examination reports with the average value and the variance of the group physical examination report and feeding back the change of the physical examination report specifically includes:

searching a comparative physical examination report by extracting the user keyword, and if not, determining the report is a first physical examination report; otherwise, the report is a physical examination report again or for a plurality of times;

the first physical examination report result is obtained through a hyperlink to create a hyperlink interface for the keyword module data so as to access the module data through the hyperlink interface, the keyword module data comprises but is not limited to any corresponding characters, sign data, network knowledge, textbooks, expert team opinions and suggestions in the physical examination report, and the extraction and display module is used for proposing rationalization classification, suggestion and treatment;

if the report is a second physical examination report, comparing the several physical examination reports by using the average value and the variance of the group physical examination report, and feeding back the situation that the physical examination report changes; and (3) calculating: extracting normal values from a teaching book, solving the mean value and the variance of each physical examination report value of a group, respectively carrying out t-test by taking the normal values as the mean value and taking the mean value of each physical examination report value of the group, if the test is in accordance with hypothesis test, determining that the test is in accordance with the normal or in accordance with the group value, and sending the test to a patient or a physical examination center, and if the group value is not in accordance with the normal value, finding out factors influencing the group and managing the factors;

meanwhile, the probability range of each factor given in the physical examination report is obtained by taking each factor as an independent variable, the risk of each factor is evaluated, and a probability calculation formula is utilized:

wherein f (x) is probability, x is a random acquisition value of each factor, mu is an average value of independent variables of each factor, and Be is a standard deviation of the independent variables of each factor;

and the establishment of the linear regression model needs to meet 4 preconditions, namely linearity, independence, normal and equal variance, wherein the linearity means that the overall average value of the dependent variable Y and the independent variable X are in a linear relation; independent means that any two observations are independent of each other; normality means that for each given value of X, the population of its corresponding values of Y follows a normal distribution; the equal variance means that Y has the same variance no matter what value X takes in the value range of the independent variable X;

and (3) carrying out operation:

when the sample size reaches a threshold value, the physical examination report is linearly evaluated as an estimated value of a dependent variable;

analyzing and evaluating structure and function according to linear stepwise regression method, and using average number in regression equation

μ_Yj＝β₀+β_nX_j；

Multiple regression equation

Therefore, it is

Looking up a table to obtain significance that P is less than 0.05;

wherein the constant term is a ═ β₀；

Performing a regression equation slope comparison:

whether each factor conforms to the regression equation:

judgment by t-test

Taking the value meeting that P is less than 0.05 as meaningful;

according to the method, each factor is subjected to linear regression, and a linear evaluation equation is finally formed, so that the structural property of the human body is evaluated by using physical examination report data.

Optionally, the evaluating the fitness according to the blood pressure and the condition that the physical examination report of the user changes, and the obtaining of the physical examination prediction information, the blood pressure report evaluation, and the fitness information specifically includes:

carrying out progressive linear evaluation equations on each physical examination item one by one; carrying out qualitative analysis on the factors of the physical examination report obtained by taking the analysis parameters of the blood pressure as standards and combining the relationship between the analysis parameters of the blood pressure to obtain the fitness of the physical examination report and the blood pressure and the prediction results among the physical examination report and the blood pressure; setting a file A formed by the physical examination report and setting a file B formed by the blood pressure; a comparison file formed by the normal physical examination report and the normal blood pressure is an original file with a structure and a function which are matched; the coefficient of the linear evaluation equation can be obtained through a maximum likelihood method, so that the coincidence degree of the file A and the file B of the physical examination report and the original file can be obtained by comparing the file A or the file B of the blood pressure report with the original file, if the coincidence degree of the file A and the file B of the blood pressure report and the original file is coincident, the structure is adaptive to the function, otherwise, the file B of the physical examination report is not adaptive to the function, the health report is automatically predicted and explained through the factors of the structural linear evaluation equation and the parameters of the functional linear equation, guidance and interference are carried out, and particularly, the structure of the physical examination report is analyzed through the linear evaluation equation obtained through linear regression; and if the functional abnormality is expressed by the blood pressure, corresponding warning is carried out by applying blood pressure grading management, namely the risk degree of the functional abnormality is analyzed through a mu +/-sigma (68.27 percent confidence interval), an 80 percent confidence interval, a 90 percent confidence interval, a mu +/-1.96 sigma (95 percent confidence interval), a mu +/-2.58 sigma (99 percent confidence interval) and five confidence intervals; the two are combined to make a fitness assessment.

Optionally, the physical examination prediction information and the blood pressure report evaluation are combined through a relationship between a structural factor and a functional parameter to form a fitness analysis of a structure and a function, and finally a human body data acquisition and analysis report is generated, and a health management plan report is automatically generated, including:

performing progressive linear regression on each physical examination item one by one, and performing qualitative analysis according to the structural change result and the functional change result through the relationship between the blood pressure parameters and the factors under the parameter guidance to obtain the fitness of the physical examination structure and the function and the prediction results of the physical examination structure and the function;

when the physical examination reports are linearly evaluated one by one, qualitatively analyzing and comparing the structural change result with the last structural change result to obtain the structural change trend of the user;

performing qualitative analysis and comparison on the function change result and the last function change result to obtain a function change trend of the user;

qualitatively analyzing the structural change trend and the functional change trend to obtain a physical examination prediction result;

when the structural change trend is favorable for the change of the body health direction and the function change trend is also favorable for the change of the body health direction, judging that the body of the user is in a good maintenance stage, and judging that the user is healthy;

or when the structural change trend is the change beneficial to the body health direction and the functional change trend is the change not beneficial to the body health direction, judging that the body of the user is in an injury stage, and determining that the body is in negative correlation;

or when the structural change trend is a change in a direction not beneficial to body health and the functional change trend is a change in a direction beneficial to body health, judging that the body of the user is in a repair and maintenance stage, and determining that the body is in positive correlation;

or when the structural change trend is a change which is not beneficial to the health direction of the user and the function change trend is a change which is not beneficial to the health direction of the user, judging that the body of the user is in a malignant development stage, and determining that the body of the user is a disease;

and the risk of the disease is evaluated by combining the evaluation of structural and functional fitness, and an effective management scheme is proposed.

Optionally, the warning, the feedback and the verification are performed; the fitness information is used for reflecting the adaptation condition of the human body structure and the function, and simulating warning at a terminal, and carrying out feedback and error correction through a guidance, interference and verification system, and the fitness information comprises the following steps:

sending the health management plan report to a patient, a health care doctor, a health management center and relatives through wireless communication;

verifying the health management plan report by using the data collected in the range specified by the health management plan report to obtain a verification result, and correcting the health management plan report according to the verification result;

when the sample volume of the sample blood pressure value reaches a set threshold value, the automatic system can perform feedback, namely report answering and guide data, and perform data verification and correction report, wherein the report answering and the guide data are continuously optimized.

A physical examination report health management system comprising: the system comprises a detection device, an electronic device and a terminal, wherein the detection device, the electronic device and the terminal are in communication connection,

the detection equipment is used for acquiring human body data, and the human body data comprises human body examination report data and human body blood pressure data;

the electronic equipment is used for carrying out data processing on the human body data to obtain physical examination report data corresponding to the human body structure data and human body blood pressure data corresponding to the human body function data; converting the physical examination report data and the human blood pressure data into change data with structure and function adaptive to each other; determining the existing risk factors, beneficial factors and fitness information according to comparison or correlation analysis, and generating a human body data acquisition and analysis report;

the terminal equipment is used for showing a response mode and an alarm mode.

The technical scheme provided by the application can comprise the following beneficial effects:

according to the method, the blood pressure value of the user is subjected to energy conservation analysis to obtain a human body prediction parameter value, then the physical examination report items are analyzed to obtain relevant factors based on the parameters, the blood pressure value and the physical examination report are respectively analyzed, the fitness analysis is carried out on the factors obtained by analyzing the blood pressure parameters and the parameters corresponding to the blood pressure through the physical examination report of the user, then the whole analysis and prediction are carried out on the physical condition of the user according to the fitness, and then the corresponding diagnosis and treatment are carried out on the user, and automatic repeated feedback and verification are carried out, so that the automatic health management is realized. The invention combines the blood pressure value of the human body and the physical examination report to diagnose, treat and manage the health state of the human body, and can evaluate the health state of the human body according to the physical examination report and the existing index of the human body, thereby greatly improving the significance and the accuracy of evaluating the health state of the human body and providing the operable management.

Meanwhile, the invention is not limited to health managers or doctors, is suitable for any user and has great practicability.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow diagram illustrating a method of health management of a physical examination report, according to an exemplary embodiment;

FIG. 2 is a block diagram illustrating a physical examination report health management system according to an exemplary embodiment;

FIG. 3 is a block diagram illustrating a blood pressure response module according to an exemplary embodiment;

FIG. 4 is a block diagram illustrating a health assessment module according to an exemplary embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

FIG. 1 is a flow diagram illustrating a method for health management of physical examination reports according to an exemplary embodiment, as shown in FIG. 1, including the steps of:

step 101: obtaining a blood pressure sample value of a user at any moment;

step 102: and acquiring a physical examination report and data acquisition of a user. The data (data) is a result of facts or observations, is a logical summary of objective things, and is raw material used to represent objective things.

Wherein, the value of u is calculated according to the formula

Obtaining; wherein u is the value of u of the blood pressure value, x_nThe blood pressure value is any blood pressure value,

is the average value of the blood pressure values,

is the standard deviation of the blood pressure values. And the blood pressure sampling can be subjected to u test by using the u value, so that the risk of the blood pressure is judged.

Step 103: obtaining parameters and meanings of blood pressure expressed by hydrodynamics according to an energy conservation law, and analyzing and concluding human body structural factors corresponding to the parameters;

step 104: and determining parameters of blood pressure corresponding to each factor of the physical examination report according to the factors extracted from the physical examination report of the user. The concrete implementation is as follows: the specific steps of obtaining the blood pressure parameters and meanings shown by hydrodynamics by utilizing energy conservation include:

analyzing human body structure factors of the physical examination report, and determining human body structure evaluation factors, wherein the human body structure evaluation factors are the significance of the blood pressure parameters; the human structure evaluation factors include: structural and functional factors of the liver, structural and functional factors of the gallbladder, biochemical factors regulating blood circulation and lymphatic circulation, excretory system factors, transport and transformation factors affecting energy metabolism, digestive system factors, cardiovascular disease factors, local organ factors, and other auxiliary factors;

the selection principle of the parameters is as follows: according to the law of conservation of energy, combining with the relatively closed system of human blood circulation, obtaining the blood kinetic energy, the blood tension potential energy and the blood internal energy of the heart doing work on the blood;

dividing both sides of the heart-to-blood work formula by the blood volume acted by the heart and the principle of consuming the internal energy through resistance factors; obtaining parameters includes: blood density, blood flow velocity, blood flow viscosity coefficient, relative length of blood vessel, blood volume, blood vessel radius.

Step 105: estimating a blood pressure value according to the obtained blood pressure sample value of the user at any moment; the concrete implementation is as follows: analyzing the function change of the sample blood pressure value to obtain a function change result of the user, wherein the function change result comprises the following steps:

The blood pressure value evaluation specifically comprises: threshold values are not reached and are reached. If the value does not reach the threshold value, the average value is obtained and corresponding response is generated through the hyperlink; automatically generating a risk assessment if a threshold is reached; specifically, the blood pressure value is the value of systolic pressure, diastolic pressure, pulse pressure difference and blood pressure fluctuation range;

wherein, analyzing the function change of the sample blood pressure value to obtain the function change result of the user specifically comprises:

calculating the average value, the variance and the characteristic value of the sample blood pressure value;

and carrying out t test or risk assessment of confidence interval distribution according to the average value, the variance and the characteristic value, and carrying out test and risk assessment on the structure based on the blood pressure value. Specifically, the human body structure factors corresponding to the blood pressure parameters are analyzed and summarized, and the parameters of the physical examination reports corresponding to the blood pressure parameters are determined. Further, the correspondence relationship of the determination factor and the parameter is to extract a keyword and corresponds to the factor extracted by the "factor extraction unit 7" of the "blood pressure response module".

Step 106: judging the times of physical examination reports according to the physical examination reports of the users; the frequency judgment specifically comprises: first judgment and non-first judgment; the method comprises the following specific steps: searching a comparative physical examination report by extracting the user keyword, and if not, determining the report is a first physical examination report; otherwise, the report is a physical examination report again or for a plurality of times;

step 107: the first physical examination report result is obtained through a hyperlink to create a hyperlink interface for the keyword module data so as to access the module data through the hyperlink interface, the keyword module data comprises but is not limited to any corresponding characters, sign data, network knowledge, textbooks, expert team opinions and suggestions in the physical examination report, and the extraction and display module is used for proposing rationalization classification, suggestion and treatment;

step 108: if the report is a second physical examination report, carrying out sample threshold evaluation on the physical examination report;

step 109: performing sample threshold evaluation on the blood pressure value;

step 110: for physical examination reports, if the sample size is greater than a threshold, a linear assessment analysis is performed.

Step 111: for the physical examination report, if the sample size is smaller than the threshold value, performing hyperlink response on the physical examination report; or comparing and checking the normal value of the physical examination report, the group physical examination report of the crowd and the physical examination of the user;

comparing the several physical examination reports with the average value and the variance of the group physical examination reports and feeding back the change of the physical examination reports; and (3) calculating: extracting normal values from a teaching book, solving the mean value and the variance of each physical examination report value of a group, respectively carrying out t-test by taking the normal values as the mean value and taking the mean value of each physical examination report value of the group, if the test is in accordance with hypothesis test, determining that the test is in accordance with the normal or in accordance with the group value, and sending the test to a patient or a physical examination center, and if the group value is not in accordance with the normal value, finding out factors influencing the group and managing the factors;

meanwhile, the probability calculation formula is utilized to take each factor and given in the physical examination report as an independent variable to obtain the probability range of the factor and evaluate the risk of the factor;

and when the linear regression model is established and needs to meet 4 preconditions, carrying out structural and functional analysis and evaluation according to a linear stepwise regression method, and when a threshold value is reached, automatically estimating through a regression equation.

Step 112: for a sample of blood pressure values, automatically generating a risk assessment if the sample size reaches a threshold;

step 113: if the sample size does not reach the threshold value, the average value of the sample size is obtained and a response is generated through the hyperlink;

step 114: based on a linear regression evaluation equation of the physical examination report and combined with a blood pressure linear equation, the former corresponds to a structure, the latter corresponds to a function, and the fitness is evaluated by analyzing the corresponding relation between structural factors and functional parameters through the blood pressure and the physical examination report; the concrete implementation is as follows: carrying out progressive linear evaluation equations on each physical examination item one by one; carrying out qualitative analysis on the factors of the physical examination report obtained by taking the analysis parameters of the blood pressure as standards and combining the relationship between the analysis parameters of the blood pressure to obtain the fitness of the physical examination report and the blood pressure and the prediction results among the physical examination report and the blood pressure; if the physical examination report is consistent with the health examination report, the structural and functional are adaptive, otherwise, the structural and functional are not adaptive, the health examination report is automatically predicted and explained through the factors of the structural linear evaluation equation and the parametrics of the functional linear equation, the guidance and the interference are carried out, and the structural of the physical examination report is analyzed through a linear evaluation equation obtained through linear regression; analyzing the risk degree of the blood pressure expression by applying the blood pressure grading management to the functionality of the blood pressure expression through a confidence interval; the two are combined to make a fitness assessment.

Step 115: generating a human body data acquisition and analysis report according to the physical examination prediction information and the fitness analysis of the physical examination report and the blood pressure, and automatically generating a health management plan; the concrete implementation is as follows: performing progressive linear regression on each physical examination item one by one, and performing qualitative analysis according to the structural change result and the functional change result through the relationship between the blood pressure parameters and the factors under the parameter guidance to obtain the fitness of the physical examination structure and the function and the prediction results of the physical examination structure and the function;

firstly, when the physical examination reports can be linearly regressed one by one no matter the physical examination reports reach or do not reach the threshold value, and when the physical examination reports are linearly evaluated one by one, the structure change result and the last structure change result are qualitatively analyzed and compared to obtain the structure change trend of the user;

secondly, performing regression analysis and probability analysis on the physical examination report reaching the threshold, and performing one-to-one correspondence between the factors and the parameters in the blood pressure risk analysis to automatically generate a health management plan;

Step 116: the health management is used for warning, guiding and interfering to generate effects; feedback and verification are carried out on the effect data; the concrete implementation is as follows: sending the health management plan report to a patient, a health care doctor, a health management center and relatives through wireless communication;

when the sample volume of the sample blood pressure value reaches a set threshold value, an automatic system can perform feedback, namely report answering and guide data, and perform data verification and correction report; both are continuously optimized.

Wherein, step 103 specifically comprises: analyzing and concluding human body structure factors corresponding to the blood pressure parameters according to the blood pressure parameters, and forming factors of a linear evaluation equation;

analyzing human body structure factors of the physical examination report, and determining human body structure evaluation factors, wherein the human body structure evaluation factors are the significance of the blood pressure parameters; the human structure evaluation factors include: the liver has the structural and functional factors of blood bank, so the structural and functional factors of the liver correspond to the blood volume Q; the gallbladder has a structure for storing bile and a certain voltage and functional factors for fat digestion can influence blood fat, so the gallbladder factors correspond to the blood viscosity coefficient; biochemical factors regulating nutrient absorption between blood circulation and lymphatic circulation and the mutual exchange of capillary channels influence the viscosity coefficient, so the transport and chemical factors correspond to the viscosity coefficient; the excretion system factors of the blood cleaning function influence the viscosity coefficient, so the excretion factors correspond to the viscosity coefficient; other factors such as transport factors affecting energy metabolism, digestive factors affecting digestive system factors, cardiovascular disease factors and cardiovascular factors, local organ factors, other accessory factors, may affect blood flow rate, vessel length, vessel radius.

Specifically, the conservation calculation of the kinetic energy, potential energy and internal energy is performed on the systolic pressure to obtain the contribution of the blood flow velocity parameter. Specifically, the energy generated by applying work to the heart for the systolic pressure, including kinetic energy, potential energy and internal energy, is used for obtaining corresponding parameters of the blood hydrodynamics, and after the parameters are primarily and secondarily converted, the contribution amount of the systolic pressure provided by the blood flow speed is determined;

and performing conservation calculation of potential energy and internal energy on the diastolic blood pressure to obtain the blood volume parameter and the blood viscosity coefficient parameter. Specifically, the diastolic pressure is the pressure of blood during recalling, so that the kinetic energy is relatively zero, and the pressure includes the pressure generated by potential energy and internal energy, so that the blood volume and the blood viscosity coefficient corresponding to the pressure are corresponding to the pressure, and the blood volume is corresponding to related factors in a linear equation obtained from a physical examination report;

and obtaining the blood vessel length parameter according to the pulse pressure difference. Specifically, the pulse pressure difference generated by subtracting the diastolic pressure (kinetic energy) provided by (potential energy + internal energy) from the systolic pressure work (W ═ kinetic energy + potential energy + internal energy), the kinetic energy corresponds to the parameter of the blood flow velocity corresponding to the hemohydrodynamics, however, the final velocity consumption of blood from leaving the heart to returning to the heart through the blood vessels is zero, and the more sufficient the exchange is, the more abundant the capillaries are, the side by side and the blood vessels are relatively short, otherwise, the more proportional the blood vessel length l is;

and obtaining the blood vessel radius parameter according to the blood pressure fluctuation range. Specifically, the blood pressure fluctuation range is a deviation average difference which is a parameter relative to the radius of the blood vessel.

And analyzing the function change of the sample blood pressure value to obtain a function change result of the user.

Wherein, step 104 specifically includes: determining parameters of blood pressure corresponding to each factor of the physical examination report according to the factors extracted from the physical examination report of the user; the human body prediction parameter values specifically include: blood flow velocity factor, blood volume factor, blood viscosity factor, blood vessel length factor, blood vessel radius factor; the corresponding factors will be specifically described in detail in the "factor extraction unit 7" of the "blood pressure response module".

The blood pressure value and the physical examination report are subjected to sample threshold evaluation, and the following specific description is given:

the number of samples that can easily reach the threshold is: physical examination is reported as a sample size for a population, while blood pressure is reported as a sample size for a human individualization. Therefore, for the personalized physical examination report, only whether the report is in a normal range is conventionally checked, and for the blood pressure value, the calculation method is different according to different condition quantities, and the detailed calculation method is detailed in a sample threshold evaluation module. Generally, in two objectively existing blood pressure comparison files, delta normally has the smallest change in the same day, and the standard deviation is the largest change in a lifetime, which obviously does not accord with the objectivity, so that the change of blood pressure in one month is often taken to represent about 30-60 times, and the problem also exists in the report of physical examination of people. Therefore, the method utilizes formulas to combine actual conditions to roughly evaluate the actual conditions, but does not adopt accurate calculation, and the calculation is often a conditional calculation method;

wherein, step 106 specifically includes: the user judges for the first time, and the structural change analysis is defined as the first time, and a physical examination report is generated through a hyperlink and a response is generated to corresponding symptoms; specifically, the physical examination report result is obtained through a hyperlink to create a hyperlink interface for the keyword module data, so that the module data can be accessed through the hyperlink interface, wherein when the physical examination report which is verified to be compared in the first physical examination report is 0, the generated physical examination report is generated.

The user is not the first judgment and is divided into two conditions: if the condition is not met, the method comprises the following steps that the physical examination report is compared with the last physical examination report to generate the quality, and the quality is responded through a hyperlink; comparing the several physical examination reports by the average value and the variance of the group physical examination reports and feeding back the situation of the change of the physical examination reports according to the non-first physical examination report of the user; selecting the average value, the variance and the u value of the data of the individual physical examination reports for multiple times, carrying out t test on the average value, the variance and the u value, the normal value and the group physical examination reports extracted from the teaching book to judge whether the average value, the variance and the u value accord with the normal range, the group range or do not belong to the normal range or the group physical examination reports, and finding out factors causing the inconsistency; if the other condition is that the threshold value is reached, automatically performing linear regression evaluation and combining blood pressure risk evaluation to generate an evaluation result of the fitness of the blood pressure and the physical examination report; carrying out t test between the group and the normal value, if the group value is different from the normal value, sending a report to a user or a physical examination center, finding out factors influencing the group, and managing;

and finally, transmitting the health evaluation management system into a health evaluation management system, and finally forming a file to be expressed at a terminal.

Wherein, step 110 specifically includes: when the effect is in accordance with the expected value, the logic and the method are proved to be correct, and health management is continuously carried out; when the effect does not meet the expected value, the reason is found out, the correction is carried out, and the system is automatically and gradually repaired and perfected. Specifically, under the guidance of the result obtained after the fitness analysis of the physical examination report and the blood pressure, the returned data of the health examination report is obtained through health management, and the returned data is used for verifying the result of the fitness analysis; the results of the adaptation analysis are used for guiding health management in turn; the health management guidance is verified through the data, and the data collected under the health management guidance is evaluated.

The method has the advantages that the analysis of the structural and functional fitness can be realized by utilizing eight factors of physical examination to correspond to each parameter of the blood pressure, the defects of too small sample amount of a physical examination result and the surfacing of the blood pressure measurement are overcome, the blood pressure can be measured and analyzed randomly, the physical examination report result has the relatively stable and accurate characteristics, the two factors are made good for the deficiency, and the method is more beneficial to expressing the health condition and performing health management.

Fig. 1 is a block diagram of a human body data collecting and analyzing system according to a preferred embodiment of the present invention. The human body data acquisition and analysis system can comprise a detection device, an electronic device and a terminal, wherein the detection device is in communication connection with the electronic device and the terminal.

Figure 2 is a block diagram illustrating a physical examination report health management system according to an exemplary embodiment. Referring to fig. 2, a physical examination report health management system includes: a detection device 201, an electronic device 202 and a terminal 203.

The detection device 201 is configured to acquire human body data, where the human body data includes human body examination report data and human body blood pressure data;

the electronic device 202 is configured to perform data processing on the human body data to obtain physical examination report data corresponding to the human body structure data and human body blood pressure data corresponding to the human body function data; converting the physical examination report data and the human blood pressure data into change data with structure and function adaptive to each other; and generating a human body data acquisition and analysis report according to the risk factors, the beneficial factors and the fitness information determined by comparison or correlation analysis.

The terminal device 203 is configured to display a response and alert mode.

Characterized in that the detection device 201 comprises: blood pressure value acquisition module 2011 and physical examination report acquisition module 2012

A blood pressure value obtaining module 2011, configured to obtain a blood pressure sample value at any time of the user;

a physical examination report acquisition module 2012 for acquiring a physical examination report of the user;

the electronic device 202 includes: a blood pressure parameter analysis and acquisition module 2023; a factor analysis module 2024 for analyzing the corresponding factors in the physical examination report by the blood pressure parameters; a threshold evaluation module 2025; the blood pressure evaluation module 2026 is configured to perform function change analysis on the sample blood pressure value to obtain a function change result of the user, where the function change result includes a blood pressure value evaluation module and a blood pressure risk evaluation module; the physical examination report analysis module 2027, which comprises a normal value, a group value and a user value comparison analysis module and a linear regression evaluation module; the analysis module 2028 for the relationship between the blood pressure parameters and the physical examination report factors; a health assessment module 2029; a feedback module;

the terminal 203 includes: a blood pressure value response module 2031, a blood pressure risk assessment response module; a first physical examination report response module 2032, configured to generate a physical examination report and a response to a corresponding symptom through a hyperlink for the physical examination report; a three-item comparison response module, a health assessment response module 2033;

in the embodiment of the present invention, the electronic device 202 may be, but is not limited to, a personal computer, a notebook computer, a tablet computer, a personal digital assistant, a mobile internet device, and the like. The operating system of the electronic device 202 may be, but is not limited to, a Windows system, a Linux system, an OSX system, and the like.

As shown in fig. 2, the electronic device 202 may include a memory, a processor, a communication unit, a memory controller, and a display unit. The memory, the processor, the communication unit, the storage controller and the display unit are electrically connected with each other directly or indirectly to realize the transmission or interaction of data. For example, the components may be electrically connected to each other via one or more communication buses or signal lines.

The memory may include, among other things, high-speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, the memory may further include remote memory located remotely from the processor, which may be connected to the electronic device over a network. Examples of such networks may include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The processor may be an integrated circuit chip having signal processing capabilities. The processor may be a general-purpose processor including a central processing unit, a network processor, etc. But may also be a digital signal processor, an application specific integrated circuit, a field programmable gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components. The various methods, steps and logic blocks disclosed in the embodiments of the present invention may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The communication unit may be used to establish a communication connection between the electronic device 201 and the detection device 202.

The terminal 203 may provide both an output and input interface between the electronic device 202 and the user (doctor). Specifically, the terminal 203 displays video or image output to the user, and the content of the video output can include text, graphics, video, and any combination thereof. Some of the output results are for some of the user interface objects. In addition, the terminal 203 may also receive user inputs, such as user clicks, slides, and other gesture operations, so that the user interface objects respond to the user inputs. The technique of detecting user input may be based on resistive, capacitive, or any other possible touch detection technique. Alternatively, specific examples of the terminal 203 may include, but are not limited to, a liquid crystal display or a light emitting polymer display.

It will be appreciated that the configuration shown in FIG. 2 is merely illustrative, and that the electronic device 202 may include more or fewer components than shown in FIG. 2, or may have a different configuration than shown in FIG. 2. The components shown in fig. 2 may be implemented in hardware, software, or a combination thereof.

Please refer to fig. 2, which is a flowchart illustrating a human body data collecting and analyzing method according to a preferred embodiment of the present invention. It should be noted that the method provided by the embodiment of the present invention is not limited by the specific sequence shown in fig. 2 and described below.

Obtaining parameters and meanings of blood pressure expressed by hydrodynamics according to the law of conservation of energy, and analyzing and concluding human body structural factors corresponding to the parameters; further, the blood pressure value is acquired by a blood pressure value acquisition module 2011 in the detection device, and the blood pressure value is analyzed and acquired by a blood pressure parameter analysis and acquisition module 2023 in the electronic device: specifically, a blood pressure value at any time is obtained by a sphygmomanometer, and then, the mean values of the systolic pressure and the diastolic pressure are respectively obtained as follows:

and calculating the variance

u value

Specifically, in a relatively closed system, namely a human body, acting is kinetic energy + potential energy + internal energy through an energy conservation law; for the blood pressure which is the pressure generated by blood flowing in the blood vessel to the blood vessel wall, the blood volume which generates the pressure is divided by the two sides of the formula to obtain

This value is the pressure generated during systole, which we term systolic pressure. When the blood flow velocity v is zero after the kinetic energy is consumed in the formula, the obtained pressure is the so-called relaxationAnd (5) performing tension compression. The internal energy is consumed by the resistance, and the formula of the generated resistance is

Wherein Q provides both tension potential and resistance consumption; the pulse pressure difference is the systolic pressure minus the diastolic pressure, thus

And the blood pressure fluctuation is an off-average difference, then, for a relatively stable average of the blood pressure, it is a relatively stable state quantity thereof. For systolic blood pressure, the relative change factors are the kinetic energy of blood and the tension potential energy generated between blood and blood vessels; for diastolic blood pressure, the factor of relative change is the tension potential generated between blood and blood vessels; obviously, the smaller the radius of the blood vessel, the larger the blood volume, and the larger its tension potential.

The factor influencing the mean deviation is the spatial radius, i.e. the sum of r⁴In inverse proportion, the smaller the spatial radius, the higher the tension potential energy and vice versa, thus causing the fluctuation of blood pressure.

Therefore, the blood pressure parameters are as follows: in terms of energy conservation, kinetic energy, tension potential energy and internal energy are available; the human body structure has viscosity coefficient eta, blood vessel length l, blood volume Q and blood vessel radius r.

Therefore, the linear equations of blood pressure are:

(wherein the blood density is relatively stable, so

) A constant term) and the blood flow velocity is changing, lnv is the variable x;

wherein the internal energy consumption is

The generated pressure removes the pulseDifferential pressure factors and blood pressure fluctuation factors, therefore

Thus the diastolic pressure has a variable of x₁Viscosity coefficients ln η, x₂Blood vessel length lnl, x₃Blood volume in arterial vessel lnQ.

FIG. 3 is a block diagram illustrating a blood pressure response module according to an exemplary embodiment. Referring to fig. 3, the blood pressure response module 2031 specifically includes:

the blood pressure component value taking unit 1 is used for taking values of systolic pressure, diastolic pressure, pulse pressure difference and blood pressure fluctuation range according to the blood pressure value;

the diastolic pressure analysis unit 2 is used for performing conservation calculation of potential energy and internal energy on the diastolic pressure to obtain the blood volume parameter and the blood viscosity coefficient parameter;

a systolic pressure analysis unit 3, configured to perform conservation calculation of kinetic energy, potential energy, and internal energy on the systolic pressure to obtain the blood flow velocity contribution parameter;

the pulse pressure difference analysis unit 4 is used for performing kinetic energy conversion calculation on the pulse pressure difference to obtain the length parameter of the blood vessel;

and the blood pressure fluctuation analysis unit 5 is used for obtaining the blood vessel radius parameter according to the blood pressure fluctuation range.

And the system unit 6 is used for comparing the random physical examination result with a standard and judging the positive and negative correlation generated by each factor variable.

And the factor extraction unit 7 is used for extracting factors corresponding to the blood pressure value.

According to the steps, the sample threshold evaluation is performed, and further, the sample threshold evaluation equation which can be statistically calculated by the "threshold evaluation module" 2025 in the electronic device is as follows: set false positive error as α; the false negative error is beta (which can be set according to practical conditions, for example, a healthy person can set a smaller probability, generally more than 68.27%, and a weak person can set a larger probability, generally less than 99%); then, according to the alpha and beta probabilities, the required sample size can be calculated; then, performing correlation analysis by taking the sample size as a boundary, namely a threshold value;

if two different populations are assumed, with Z_βRepresents the intersection region, Z_α/2Represents a two-sided phase separation region, wherein Z_βBeta quantile, Z, representing a standard normal distribution_α/2Represents the alpha/2 quantile of a standard normal distribution;

therefore, according to the reliability setting, the required threshold value can be reflected, and the calculation among different populations is as follows:

wherein σ is the total standard deviation; delta is the difference of the overall parameters and is marked as delta in the two-mean Z test₁-₂The larger the δ is, the more likely it is to obtain the larger difference between the two sample averages in the samples; wherein the content of the first and second substances,

the former is a normal distribution formula, and the latter is a binomial distribution formula;

if in the same population, the threshold is

Wherein n is a threshold value, Z_α/2Unilateral u value, Z, for Z test of normal distribution_βThe u values at two sides of the normal distribution Z test are shown, and rho is an overall correlation coefficient;

wherein the content of the first and second substances,

it is noted here that the sample value range follows the principle of being relatively stable to the target file.

According to the steps, the blood pressure value is evaluated according to the blood pressure sample value obtained at any time of the user, and further, the blood pressure response module 2031 in the electronic equipment specifically divides the energy conservation formula in the blood pressure by the blood volumeFactor generated formula:

wherein the content of the first and second substances,

represents the kinetic energy pressure, ρ gh represents the tension potential energy pressure, and ψ represents the pressure generated by the internal energy or called the state quantity; and

and (6) comparing. Obviously, the blood pressure is linearized by logarithm, and on one hand, a linear equation of the macroscopic properties of kinetic energy pressure, tension potential energy pressure and internal energy pressure can be obtained; on the other hand, the formula ln Δ p ═ ln (8/pi) + ln η + lnl + lnQ-4lnr, where η represents viscosity coefficient, l represents length, Q represents blood volume, and r represents vessel radius; wherein the four local quantities of the viscosity coefficient, the length, the blood volume and the blood vessel radius are just corresponding to the systolic pressure, the pulse pressure difference, the diastolic pressure and the blood pressure fluctuation. The faster the blood flow, the lower the viscosity of the blood flow, and the speed of the blood flow is related to the kinetic energy thereof, the kinetic energy of the blood flow is generated by applying work during the contraction of the heart, and after one circulation, the resistance force is consumed, so that the resistance force corresponds to the systolic pressure; the shorter the length is, the capillary vessel is in a parallel state, so the metabolism is more vigorous, otherwise, the metabolism is corresponding to the problem that the pulse pressure difference reacts with the metabolism, because the pulse pressure difference is the kinetic energy pressure intensity, and then, the process of converting the kinetic energy into the internal energy is the metabolism; the blood volume is then related to afterload or vascular tension, a pressure that is reflected in vasodilation and thus corresponds to the diastolic pressure; however, since the radius of the blood vessel is proportional to the fourth power, a slight change in the radius causes a strong fluctuation in blood pressure, and thus corresponds to the fluctuation in blood pressure.

Thus, it is found that the pulse pressure difference and the diastolic pressure are the key blood pressure for mutual transformation of resistance and internal energy.

The relationship between the two formulas is that the resistance and the internal energy are mutually converted, so

Medium l (the transport and transformation between blood circulation and lymph circulation is related to the exchange between capillary vessels and lymphatic capillaries, the more sufficient the exchange, the richer the capillary vessels, in a parallel state, so l is shorter) and the internal energy conversion (resistance to heat energy) — the problem of blood temperature: transcranial Doppler (TCD) is a non-invasive cerebrovascular disease examination method for detecting the hemodynamics and blood flow physiological parameters of the main intracranial cerebral artery by using the ultrasonic Doppler effect, and combines the comprehensive judgment of the concentration of blood uric acid (uric acid is slightly dissolved in water, the solubility is multiplied along with the rise of blood temperature, the solubility of uric acid in phosphate buffer solution is far higher than that in water and is 32 times higher than that in water) and the distribution of body temperature as well as the CT conditions of the thorax, the costaphragraph angle, the lung field, the lung portal and the cervical vertebra. Thus, the thermal energy may create ρ gh to provide the tension potential to change the diastolic pressure.

Specifically, the calculation is described in the above risk assessment and step in the blood pressure value assessment according to the blood pressure sample value obtained at any time of the user.

According to the steps, the number of times of physical examination reports is judged according to the physical examination reports of the user, further, regression analysis is performed through a factor analysis module 2024 for analyzing the factors corresponding to the physical examination reports through blood pressure parameters and a physical examination report analysis module 2027 in the electronic device, specifically, after one physical examination report is taken, linear evaluation is performed through the physical examination reports, and the method comprises the following steps:

referring to the system unit 6, firstly, a standard is determined, namely, a constant standard is formed by the average value of the known normal range according to the neutralization linear equation in the factor extraction unit 7, and then the random physical examination result is compared with the standard to judge the positive and negative correlation generated by each factor variable. Since the sample size of these examinations far does not reach the statistical sample threshold value no matter the physical examination or the clinic, the comparison between the previous value and the next value is generally performed, and when the threshold value is accumulated, the following evaluation formula is automatically generated for automatic calculation. Thus shapePerforming correlation analysis among a normal value, a group average and the customer personalized physical examination, and specifically, taking the normal value as the average, and performing t-test comparison on the customer personalized physical examination data and the normal value; then the personalized physical examination data of the customers and the group average and standard deviation are obtained

And carrying out t-test to obtain whether the client physical examination data is in a normal condition or a group condition. If the condition is normal, the physical examination report is good, if the condition is a group condition, the group is different from the normal condition, and the adverse factors of the group are found. If the physical examination data of the client is different from the normal physical examination data and the group physical examination data, finding out adverse factors of the client;

wherein, the structure and the function are evaluated linearly as follows:

factor extraction unit 7:

the following evaluations exist

And the coefficients are obtained by a least-squares method, i.e.

When the minimum value is taken, calculate beta₀And β, thereby yielding a linear equation.

Wherein, the structure and the function are evaluated linearly as follows:

the factor one is as follows: blood collection organ (blood bank) related to blood volume load — structural and functional indices of the liver:

wherein the content of the first and second substances,

for the evaluation of the amount of strain, β is the coefficient and x is the independent variable, i.e. the value given by the report of physical examination.

Firstly, the liver functions of glutamic-pyruvic transaminase, glutamic-oxalacetic transaminase and direct bilirubin are all better as less as possible, the increase represents the damage of liver cells, and the morphological structure of the liver seen by B-ultrasound is combined to judge the damage degree of the liver: liver morphology and size, intrahepatic echo, intrahepatic occupation, portal vein.

Wherein the content of the first and second substances,

secondly, only glutamyl transpeptidase is standardized in serum to a certain extent, but its increased content is mainly related to hepatocyte damage.

Third, bilirubin is also a manifestation of liver cell damage.

Fourth, the structure of hepatocytes is a blood pool of loosely interconnected liver cords, so that the arrival of these enzymes and direct bilirubin in the blood pool in the peripheral blood circulation represents damage to hepatocytes. Liver cell damage represents a loss of blood from the liver. The blood volume in the formula also changes. Therefore, the blood pressure is changed, and the problem of treating the blood pressure by adjusting the change of the blood volume load, such as increasing rest to change the outcome of the blood pressure or treating the primary disease, so as to achieve the improvement of secondary hypertension.

Factor two: structural and functional indices of the gallbladder (direct effect on lipid digestion and on chyle supplementation to the lymphatic system, influencing the viscosity coefficient eta)

Wherein the content of the first and second substances,

factor three, regulating the biochemical indexes of the blood circulation and the lymphatic circulation (the lymphatic circulation promotes the blood circulation by the specific heat principle, so the viscosity coefficient is influenced):

wherein the content of the first and second substances,

is the arithmetic mean of the body temperature variables measured multiple times.

First, alkaline phosphatase (ALP or AKP) is an enzyme that catalyzes the removal of the 5' phosphate group from nucleic acid molecules, and liver glycogen phosphorylase has both phosphorylated and dephosphorylated forms. Thereby achieving a balance. The phosphatase increases the level of phosphorylation, i.e., the level of entry into the lymphatic circulation; and increased dephosphorylation, i.e., the level of entry into the blood circulation.

The spleen transportation and transformation functions are judged by combining the structures of the lymph nodes shown by CT and the spleen and the lymph nodes shown by B ultrasonic.

Wherein the content of the first and second substances,

secondly, the structure of the splenocytes is a blood reservoir surrounded by lymph nodes, through which the blood circulation flows, and the lymph circulation flows from the outside, so that heat is exchanged by the principle of heat oil, and the heat energy can reduce the blood viscosity and change the blood components in the blood circulation.

Thirdly, the blood components are mainly blood convention, which is seen as the main components in venous blood, and these components affect the viscosity coefficient of blood and also reflect the lymph and oxygen carrying capacity. Except that platelets are synthesized in the liver, the metabolism of erythrocytes is carried out in the liver, and other indexes are evidence of the lymphatic circulation injected into the blood circulation. And judging by combining B ultrasonic, spleen shape and size, spleen internal echo, spleen space occupation and spleen vein structure.

Factor four, drainage system: the purification of blood components is also an important factor in blood viscosity.

Wherein the content of the first and second substances,

wherein the content of the first and second substances,

first, the hepatic-related excretory system: total serum protein (TP), serum Albumin (ALB), serum globulin.

Secondly, the renal-related excretory system: renal function: urea nitrogen, creatinine, uric acid, cystatin C and blood urea nitrogen are one of the main indexes of renal function.

The above assay indexes are shown by combining B-mode ultrasonography: assessment of renal morphology size, renal structure, renal occupancy, ureter, cystoid, bladder wall, bladder echo, intravesical occupancy, prostate morphology size, prostate echo, prostate occupancy, and the like.

Thirdly, the driving forces of the excretory system are osmotic pressure and filtration force (expressed as filtration rate). The osmotic pressure comprises colloid osmotic pressure and crystal osmotic pressure, the crystal osmotic pressure is taken as a main factor, the osmotic pressure enables a bridge to be generated between human blood and tissue fluid, water can freely flow in and out, the water is a good solvent when the blood flows, namely the water changes the viscosity coefficient, the magnitude of the osmotic pressure can change the blood volume, and therefore the problem of the osmotic pressure and the problem of the filtering force are indirectly reflected by the blood pressure.

Wherein

While the oncotic pressure is provided by albumin.

Fourthly, combining an electrolyte: the determination of serum potassium, serum sodium and serum chloride and the determination of serum calcium are the judgment of muscle and electrocardio, the judgment of osmotic pressure and the judgment of bone metabolism, which are the expression of motility.

Fifthly, combining with the urine routine: urine color, urine clarity, urine pH, urine specific gravity, urine protein, urine glucose, urine ketone body, urine bilirubin, urine nitrite, urine erythrocyte test, and urine leukocyte test. This is mainly to observe the balance of urine volume and metabolism and energy metabolism in the human body, and the infection.

Factor five, transport and transformation factors affecting energy metabolism:

wherein the content of the first and second substances,

first, sugar metabolism: blood sugar, two hours after meal blood sugar, and glycated hemoglobin, which are manifestations of substance metabolism and of waste of energy substances. Formula for energy metabolism: glucose +6 oxygen is 6 carbon dioxide +44 water, when the glucose utilization is reduced, the respiration degree is also reduced, the respiration becomes shallow and fast, the heart rate is correspondingly increased, and at the moment, the energy substance 'blood sugar' is not fully utilized, a large amount of glucose is lost, and the blood sugar is increased. However, the blood sugar is not fully utilized, on one hand, glycolysis forms acid, on the other hand, the sugar is converted into alcohol from aldehyde, and a polar organic solvent is formed, so that blood and lymph fluid are mutually soluble.

β_{Energy storage}x_{Energy storage}＝β_{Energy storage}+β_{Low density lipoprotein}x_{Low density lipoprotein}+β_{High density lipoprotein}x_{High density lipoprotein}+β_{Extremely lowDensity lipoprotein}x_{Very low density lipoproteins}+β_{Total Cholesterol}x_{Total Cholesterol}+β_Triglyceridex_Triglyceride+β_{Waist circumference}x_{Waist circumference}

Secondly, lipid metabolism: total cholesterol, high density lipoproteins, triglycerides, low density lipoproteins, wherein synthesis in the liver is endogenous, endogenous through hepatic synthesis and transport of apolipoproteins; the diet is absorbed through the chylomicron to form an exogenous, lymphatic-going circulation, which then enters the vein under the clavicle. When the lymphatic and blood circulation are not sufficiently separated, as indicated by insufficient differentiation of the "spleen", this may be due to the increased formation of a dual solvent, such as "alcohol", which increases both blood solubility and lipid solubility. Due to the increase in alcohol, especially hexanol, red rashes, which we often say "allergy", are easily produced. Wherein, the liver P450 enzyme system has conversion function on alcohol.

Therefore, we cannot simply consider dietary problems or diabetes problems through sugar and lipid metabolism, and pay more attention to mitochondrial problems, which are the reasons why sugar is not sufficiently oxidized. Because of the insufficient oxidation, some intermediate products, namely acid, alcohol and the like are generated, so that the blood circulation and the lymph circulation can not separate the blood of the water solvent from the lymph of the fat solvent sufficiently and then perform good operation in the blood circulation and the lymph circulation respectively.

Combining: height, weight, blood pressure, waist circumference and body weight index.

The transport and transformation between the blood and lymphatic circulation is related to the exchange of capillary vessels with lymphatic capillaries. Therefore, the sufficient and insufficient metabolic properties of the capillary vessels are also key indicators for determining transport and transformation problems. The problem of blood lipid reaction and transportation is that the problem of blood lipid not only has the problem of viscosity coefficient, but also has the problem of blood temperature. In this case, the diastolic pressure problem, which is expressed by the presence of the tension potential, is manifested, and thus, an increase in diastolic pressure occurs.

Wherein the content of the first and second substances,

thirdly, lymphatic system indexes: antistreptolysin "O";

fourthly, indexes of a blood system are as follows: sedimentation-the sedimentation rate of red blood cells; rheumatoid factor; c-reactive protein;

fifthly, external microorganism indexes influencing blood and lymph circulation are as follows: external microorganism indexes: most commonly, the virus from the digestive tract is hepatitis c virus.

Sixthly, the index of structural change-the tumor index (structural change):

it is readily apparent that some parts of cancer return to the original differentiation state of the germ layers, while other parts remain normal, leading to structural distortions of the germ layers, such as: the ectoderm returns to the original state, while the mesoderm and endoderm are still in the normal mature state, and the differentiation of the ectoderm makes structural changes to the whole.

Further, the transport and transformation between the lymphatic circulation and the blood circulation are performed. The lymphatic circulation is the circulation of lymph fluid in lymphatic vessels under the guidance of organic solvents, and the blood circulation is the circulation of blood in blood vessels under the guidance of inorganic solvent water, and the two carry out energy and substance exchange with capillary vessels through lymphatic capillaries. When the energy metabolism is insufficient, acid and alcohol which enable the organic solvent and the inorganic solvent to be mutually soluble are formed, so that the lymph fluid and the blood are mutually soluble. Along with the excessive nonpolar solvent contained in the blood, the viscosity of the erythrocytes of the nonpolar membrane is increased, and the movement is slowed down; when the damage of the red blood cells is too large, the produced bile pigment can enable polar solvents, namely water, contained in the lymphatic circulation to be gradually increased; the increase of water content makes lymph transport not smooth, circulation formation of membrane structure for transporting organelles is blocked, lots of organelles die, and cytochrome C is increased. Therefore, the mitochondria are greatly reduced or are idle, which means that the utilization rate of a large amount of energy and substances is reduced, a large amount of glucose in blood is increased, and the blood sugar is increased.

In the process, the prevention and treatment of the diabetes or the chronic diseases, namely the change of the function between lymphatic circulation and blood circulation, are prompted, so that the diabetes or the chronic diseases are returned and improved. And combines cancer with chronic disease. Specifically, the physical signs include "three more or one less", and the abdomen is marked with specific symptoms, which are determined according to the blood routine, glucose metabolism and lipid metabolism in the blood assay, and the blood glucose and blood lipid problems are determined according to the structural changes of ultrasonography B and CT.

Seventh, enzymes: serum creatine kinase and lactate dehydrogenase are two groups of isoenzymes and are indexes for expressing the functions and activities among heart, brain and muscle.

Factor six, digestive system assessment:

factor seven, cardiovascular disease assessment:

among them, hyperhomocysteinemia is an independent risk factor for atherosclerosis and coronary heart disease.

First, vascular aspect assessment:

secondly, tension potential energy:

the structure is expressed as follows: right atrial, tricuspid valve orifice blood flow;

and (3) checking of heat energy: transcranial doppler: middle cerebral artery, posterior cerebral artery, anterior cerebral artery, vertebral artery, internal carotid artery terminal end, basilar artery, combine body temperature distribution and whole body CT: thorax, costal diaphragm angle, lung field, hilum, "fugui bao degree" and uric acid.

Wherein the content of the first and second substances,

wherein the content of the first and second substances,

third, assessment of cardiac aspects:

wherein the content of the first and second substances,

wherein, the structure foundation is that the structure of the heart is shown as the heart ultrasound:

among these, factors related to the metabolism of energy transported by the heart:

in connection with oxygen exchange: right ventricle, left pulmonary artery, right pulmonary artery, pulmonary valve ostial blood flow, left atrium, and heart rate:

wherein the content of the first and second substances,

wherein, the evaluation of oxidation factors:

wherein the content of the first and second substances,

among them, glucose +6 oxygen-6 carbon dioxide +44 water is regulated by the thyroid gland.

Otherwise, the related structure: atrial septum, anterior pericardium, posterior pericardium.

Factor eight, the local organs are selected,

factor nine, other auxiliary checks: blood coagulation function examination: prothrombin time, thrombin time, activated partial thromboplastin time, fibrinogen.

In this process, the criteria for health, i.e. "structural and functional unity, repair and damage balance" are determined. Structural and functional unification is fully discussed and guided by the balance of repair and damage.

According to the steps of a linear regression evaluation equation based on a physical examination report and combining a blood pressure linear equation, the former corresponds to a structure, the latter corresponds to a function, the evaluation of fitness is carried out by analyzing the corresponding relation between structural factors and functional parameters through a blood pressure and physical examination report, further, the evaluation is carried out through a relation analysis module 2028 between blood pressure parameters and physical examination report factors in electronic equipment, specifically,

calculating the probability range of each factor independent variable in the human body structure data, wherein the probability calculation formula is as follows:

the risk of each factor is analyzed by its probability and then a regression analysis is performed as described above to determine a multi-factor linear equation, where the fitness of the regression equation: determining

Coefficient of performance

After multiple physical examinations, the protocol is formed as follows:

wherein the content of the first and second substances,

for the evaluation value of the dependent variable, beta is the coefficient of a linear equation, the left side of the equal sign is the dependent variable, and the right side of the equal sign is the independent variable taking the dependent variable in other formulas as the formula.

Thus, the probability and risk of each factor in the physical examination report are combined with the t test and risk assessment of the blood pressure value as contribution degrees through the blood pressure parameters, and the assessment with unified structure and function is realized.

Wherein, each group of linear evaluation equations is subjected to positive and negative correlation analysis by using the contribution amount, and after the regression coefficients are tested, the contribution of each factor to the whole is in positive correlation or negative correlation; whether the factor is structural repair or damage is predicted by positive and negative correlation.

Then, when the threshold is reached, we can bring the physical examination results into a linear evaluation equation.

First, conditional probabilities are modeled by logistic regression

Then, the conditional probabilities P and 1-P are regarded as binomial distributions, so that the maximum likelihood is adoptedThe method of estimation is carried out by taking the current,

where, when infinity is obtained, i is close to a normal distribution. At this time

When they are almost equal, the greatest common divisor is found by an iterative method, and this principle is a maximum likelihood estimation method. Therefore, the condition is a condition in which both the simplified model and the original model coexist. We treated the model formed by the physical examination report as a simplified model and the normal values as the original model, and apparently, our physical examination results are once or several times per year, but the normal values are known standards, we consider the results obtained by the maximum likelihood estimation method, but we perform a rough evaluation by this method.

By Chi²The examination is carried out, the physical examination reports of the population, the individuals and the normal values are respectively compared in pairs,

wherein the simplified model is referred to as L_jThe prototype model is called L_iIs set as H₀:β₁＝β₂＝......β_nWhen 0 is true, there is no difference when the coefficient of each natural factor is equal to 0, that is, A, B and the total effective rate in the A, B two comparison files are equal, respectively

Wherein, a is the sample size in the file A, and B is the sample size in the file B; likelihood ratio approximation obeys χ of degree of freedom ν ═ i-j²Distribution, L_iEfficiency of the original model as a mean

L_jTo simplify the efficiency of the model

Or

According to hypothesis H₀And H₁(wherein, H is assumed)₀:β₁＝β₂＝......β_nWhen 0 is true, then H₁Is other than H₀:β₁＝β₂＝......β_nWhen 0 is true), the statistics are carried out, and the result is in accordance with H₀It is statistically meaningful, i.e. the simplified model can represent the original model.

Thus, cyclic structural evaluation is carried out for many times and continuously, and finally a linear evaluation equation of the human body structure is obtained. Further, the linear evaluation equation of the physical examination report with the complete normal value is compared with the linear equation of the physical examination report of the user, and two results, namely normal and abnormal results, are generated, wherein the normal results are positive correlation, and the abnormal results are negative correlation; comparing the linear equation of the group average value with the linear equation of the user physical examination report to generate two results, namely trend and normal and trend and abnormal; specifically, the trend is abnormal and compared by taking the population mean as a reference frame, namely, the trend is far away from the range enclosed by a linear evaluation equation of the population mean and a normal value, and the trend is normal otherwise.

FIG. 4 is a block diagram illustrating a health assessment module according to an exemplary embodiment. Referring to fig. 4, the health assessment module 2029 specifically includes: a fitness evaluation unit 9 and a generation unit 10.

Wherein, according to the above steps, a human body data acquisition and analysis report is generated according to the physical examination prediction information and the fitness analysis between the physical examination report and the blood pressure, and a health management plan is automatically generated, and further, through an electronic device "health evaluation module" 2029, a structural and functional fitness evaluation unit 9: the health management plan is automatically generated by analyzing the fitness of the physical examination prediction information, the physical examination report and the blood pressure and generating a human body data acquisition and analysis report, and specifically, the fitness of the function and the structure is compared after the blood pressure is combined with the physical examination report:

now, the process of analyzing the blood pressure by adopting the energy conservation principle is introduced:

since the blood circulation is a systemic network, the network causes pressure on the vessel wall when energy flows in the blood circulation, which generates the blood pressure we measure.

And the evaluation linear equation of the human body is compared with the blood pressure formula, so that the living state corresponds to the human body physiological index from the coefficient of the blood pressure formula, the living state is managed, and the health monitoring and management can be carried out in 24 hours.

The following structural linear equation:

blood pressure analysis was performed. Wherein the content of the first and second substances,

for the evaluation of the amount of strain, as described above, each of the obtained amounts of strain is used as an independent variable of the structural linear equation to finally figure out the structural amount of strain

Beta is its corresponding coefficient.

Specifically, the invention can perform pre-estimation health corresponding to blood pressure parameters, if the sample size is large enough, the blood pressure linear equation and the physical examination report linear evaluation equation are combined with the above discussion and steps to perform sample threshold evaluation on the blood pressure value to perform positive and negative correlation analysis, and after the regression coefficient is tested, the contribution of each factor to the whole is positive correlation or negative correlation; whether the factors are repaired or damaged is comprehensively predicted through positive and negative correlation and whether the results of several times of physical examinations are different or not and whether the results return to normal or not.

Then, after physical examination, we can bring the physical examination results into the linear evaluation equation. First, the conditional probability P is determined by a logistic regression model

The conditional probability is the probability of distribution after a certain physical examination, and the larger the distribution probability is, the smaller the risk is, and the smaller the distribution probability is, the larger the risk is. For example: if the carcinoembryonic antigen is found to be several tens of times normal, the conditional probability will be small, but the risk of cancer will be greater, and this example is for illustrative purposes only and is not limited thereto.

Setting a file A formed by the physical examination report and setting a file B formed by the blood pressure; a contrast file formed by a normal physical examination report and normal blood pressure is an original file with a structure and a function which are matched. Specifically, after unit conversion is performed on the parameters, a new linear equation is formed, and efficiency comparison is performed.

Then, by the maximum likelihood method, the coefficient of the linear equation can be obtained, then the physical examination report A file or the blood pressure B file can be compared with the original file, the coincidence degree of the A file and the B file with the original file can be obtained, if the files A, B are all in accordance with H₀Statistically significant, then A, B is structurally and functionally appropriate; otherwise, the health report is not adapted, the incompatible factors are extracted, the health report is automatically predicted and explained through the factors of the structural linear equation and the parameters of the functional linear equation, guidance and interference are given, specifically, the structural normal of the physical examination report and the functional abnormal of the blood pressure expression are given corresponding caution by applying blood pressure grading management, when the structural abnormal of the physical examination report and the functional normal of the blood pressure expression are given, encouragement and insist execution are strengthened, and when the structure and the function are not normal, hospitalization is mainly recommended; the specific algorithm is described in the logistic regression model.

Specifically, for example: separately apply the diastolic linear equation of

Wherein the diastolic pressure has a variable of x₁Viscosity coefficients ln η, x₂Blood vessel length lnl, x₃Blood volume in arterial vessels lnQ;

(wherein the blood density is relatively stable, so

A constant term) and the blood flow velocity is changing, lnv is the variable x;

and the linear equation of the human body structure is

The relative factors are normally found from the linear equation of the human body structure and correspond to the corresponding factors in the structure one by one, so that the structure bears the functions, and the functions can be calculated through the physical principle. Thus, an original file of the normal structure and the normal function formed by the normal structure and the blood pressure can be formed; the physical examination report is a file A, and the blood pressure is a file B, and the above evaluation is performed.

Further, by the electronic device "health assessment module" 2029, the generating unit 10: according to the scheme, the structure and function changes of the human body can be obtained, the health condition of the human body can be judged according to the structure and function changes, and a reasonable health management plan is given according to the health condition of the human body.

Specifically, by evaluating the blood pressure value, the numerical values of the systolic pressure, the diastolic pressure, the pulse pressure difference and the blood pressure fluctuation can be known to evaluate the occurrence and development conditions of the blood volume, the blood vessel length, the blood vessel radius, the blood flow rate and the blood viscosity coefficient; furthermore, the corresponding evaluation is performed through parameters corresponding to various factors in the physical examination report, so as to give guidance on specific life states, for example: when diastolic blood pressure increases: on one hand, the method can carry out bold risk assessment on the length, viscosity coefficient and blood volume of blood vessels which may appear in a human body through the assessment of diastolic pressure; on the other hand, among the first factors, the diastolic pressure is increased due to liver damage. The etiology, living habits (such as early sleep and more rest), internal medicine treatment (such as light drinking, cassia seeds for clearing away heat and toxic materials, bovine liver embryo extract and the like or treatment of anti-hepatitis B virus) and some physical therapy (such as acupuncture and moxibustion on liver meridian) can be determined; here, examples are given for increasing the description, and are not limited to such management, treatment, health maintenance, and the like.

Furthermore, the blood pressure can be compared with the blood pressure; comparing the physical examination report with the physical examination report pair; and (4) comparing the fitness of the function and the structure after the blood pressure is combined with the physical examination report.

Specifically, the effect of energy metabolism can be clearly felt by comparing blood pressure with blood pressure: specifically, the characteristics of the pulse can be obtained through the mean and variance of systolic pressure, the mean and variance of diastolic pressure and the mean and variance of pulse pressure difference; the risk is shown by the deviation from mean, as described in the '201510227059.9 health monitoring and management system' patent.

Further, under the guidance of the result obtained after the fitness analysis of the physical examination report and the blood pressure, health management is carried out through a feedback module of the electronic equipment to obtain returned data of the health examination report, and the returned data is used for verifying the result of the fitness analysis; the results of the adaptation analysis are used for guiding health management in turn; this continually corrects errors and optimizes health management. In particular, the method and apparatus for interactive media analysis with intelligent learning of 201711069861.5 patent is described in detail.

Through the electronic device "terminal module" 203, the physical examination report mode terminal in the health management plan response unit 11 is generated: the "response module for first physical examination report" 2032 specifically, the comparison between the physical examination report and the physical examination report: in the case of combined symptoms, the problem is analyzed and found by examination, and diagnosis and treatment are performed. Specifically, the eight factors are combined with the input physical signs and the situations, and corresponding treatment is carried out through a network, a textbook and a background expert team. Then, a treatment is performed for a certain period of time, and the reports of symptoms, signs and physical examinations are classified to show a practical application pattern. For example: liver function-glutamic-pyruvic transaminase, glutamic-oxalacetic transaminase and direct bilirubin are all better as less as possible, the increase represents the damage of liver cells, and the morphological structure of the liver seen by B-ultrasound is combined to judge the degree of liver damage: liver morphology and size, intrahepatic echo, intrahepatic occupation, portal vein.

Corresponding treatment is carried out through a network, a textbook and a background expert team according to the input physical signs and the conditions, namely diseases of hepatitis, liver cancer and the like which damage liver cells can be suspected, and corresponding treatment is carried out through the network, the textbook and the background expert team according to the input physical signs and the conditions. Specifically, according to clinical manifestations, acute icteric hepatitis B is considered to be caused by that the liver and gallbladder are fumigated by pathogenic damp-heat, the spleen and stomach are stagnated, bile is forced to flow out of the skin due to disorder, and the acute icteric hepatitis belongs to the category of 'yang yellow' in jaundice in traditional Chinese medicine. And the clinical manifestations of the disease are hypochondriac pain, bitter taste in mouth, vomiting, aversion to oil, poor appetite, fullness and distention, yellow urine, yellow eyes and body, bright color, general debilitation and other damp-heat symptoms.

By blood transmission (including mother-to-baby transmission) mainly, the family members should pay attention to avoid direct contact with the blood and various secretions of the user. But general life contacts such as talking, shaking hands, sharing furniture, toys, appliances, books, etc. do not result in propagation.

Patients with hepatitis B mainly have rest in the acute stage and the active stage; in the stage of jaundice deepening, the patient should be in bed for rest. In the recovery period and the rest period, the patient can properly engage in various mild physical activities or labours without tiredness. Asymptomatic hepatitis B virus infected persons can be married to have a birth. In order to ensure that the partner does not infect the hepatitis B virus due to the co-life, a healthy party needs to inject the hepatitis B vaccine, marry the partner after the hepatitis B surface antibody is generated in the body, and select a proper time for breeding. A child born to a mother positive for hepatitis B surface antigen (HBsAg) is injected with hepatitis B vaccine immediately after delivery to prevent transmission of hepatitis virus to the newborn.

The diet is reasonable, the diet should be light and delicious, and the high fat and high sugar diet is controlled. Foods rich in protein and vitamins should be added appropriately.

Dietary therapy for hepatitis

(1) Sufficient heat supply is ensured, and the daily dosage is 8400-10500 kilojoules (2000-2500 kilocalories). The hyperthermia therapy of hepatitis advocated in the past is not preferable because high fever can improve clinical symptoms, but it can eventually lead to fatty liver, but rather worsens the disease condition, so the disadvantage is more favorable.

(2) Carbohydrates, typically, may account for 60-70% of the total heat energy. High-sugar diets used in the past have also been corrected because high-sugar diets, particularly excess glucose, fructose, sucrose, can affect the patient's appetite, aggravate flatulence, increase body fat stores, and are prone to obesity and fatty liver. The carbohydrate supply should be mainly via the staple food.

(3) In order to promote the repair and regeneration of liver cells and increase the supply of protein, the total heat energy is generally 15%, and particularly, the supply of a certain amount of high-quality protein, such as animal egg-coated material, bean products and the like, is ensured.

(4) Fat intake is generally not limited, and because hepatitis patients mostly have symptoms such as oil aversion and inappetence, the problem of excessive fat intake is not caused under normal conditions.

(5) Ensure the supply of vitamins. Vitamin B1, vitamin B2, B vitamins such as nicotinic acid and the like, and vitamin C play an important role in improving symptoms. In addition to selecting foods rich in these vitamins, multivitamin formulations can also be administered orally.

(6) Sufficient liquid is supplied. Proper multi-drink fruit juice, rice water, honey water, watermelon juice and the like can accelerate the excretion of toxicant and ensure the normal metabolism function of the liver.

(7) The cooking method is noticed, and the color, the fragrance, the taste and the shape of food are increased to promote appetite. Deep-fried or deep-fried food and strongly irritant food are avoided, and food containing high nitrogen extract such as broth or chicken soup is restricted to reduce liver burden.

The traditional Chinese medicine treatment comprises the following steps: for heat-clearing and damp-excreting, toxicity-removing and jaundice-curing, it is indicated.

Western medicine treatment: such as interferon for resisting virus, HEPRDIN, YILIANGFU for supporting therapy, bovine liver embryo extract, ANLUOXIANHANHUA pill, etc. And other diseases, corresponding treatment modes (source or network or treatment modes in textbooks) can be applied, and the other diseases and the treatment are not described in detail. This is done solely to aid understanding and illustration and is not meant to be limiting.

Thus, the prediction, diagnosis and treatment can be carried out through one physical examination.

And so on: through the physical examination report, various diseases can be predicted, the diseases are taken as key words, the automatic searching is carried out from the network of hundred degrees or 360 degrees, the automatic selection is carried out on several modules of diseases, diseases and causes, passing, returning and symptoms and treatment, the automatic entry is carried out on the interface, the symptoms are coupled with the searched symptoms to provide the selection of the user and the doctor, and then the preliminary answer is carried out in combination with the first scheme.

The three comparison response modules are response terminals of comparison physical examination report files: specifically, when the number of times is more than two, the last physical examination index can be checked for the outcome of the last physical examination. And form the automatic storage of the file. And carrying out t-test through the normal value, the group value and the user value of the physical examination report, carrying out pairwise comparison, and finally obtaining the expression mode shown by the judgment of the physical examination report times according to the physical examination report of the user.

The "health assessment response module" 2033 is a response terminal with structure and function fitness: the structural and functional fitness refers to calculating a human body prediction linear equation of the user, obtaining a correlation coefficient of the linear equation, and evaluating the contribution and the contribution amount of the linear equation; wherein the predictive linear evaluation equation comprises a structural and functional linear evaluation equation; the structural prediction linear evaluation equation is a linear equation summarized by the physical examination report, and the functional linear equation is a blood pressure equation of hydrodynamics; and analyzing the structural change and the blood pressure of the physical examination report to obtain the relevant factors of the user structure and the contribution quantity of each factor in the linear equation and the contribution quantity provided for the blood pressure parameter.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims

1. A physical examination report health management method, comprising:

obtaining blood pressure parameters and significance expressed by hydromechanics by utilizing energy conservation; wherein the blood pressure parameters comprise blood flow velocity, blood vessel length, blood volume, viscosity coefficient and blood vessel radius;

performing sample threshold evaluation on the sample blood pressure value and the physical examination report; wherein the threshold is the minimum sample size required for statistical analysis;

if the physical examination report of the user does not carry out structural change analysis for the first time, judging whether the sample size reaches a threshold value, comparing the physical examination reports of several times with the average value and the variance of the group physical examination report, and feeding back the change condition of the physical examination report;

2. The physical examination report health management method of claim 1, wherein the u value is according to a formula

Obtaining; wherein u is the value of u of the blood pressure value, xn is any blood pressure value,

is the average value of the blood pressure values,

is the standard deviation of the blood pressure values.

3. A physical examination report health management method as claimed in claim 1, wherein said obtaining parameters and significance of hydrodynamically expressed blood pressure using energy conservation specifically comprises:

the selection principle of the parameters is as follows:

dividing both sides of the heart-to-blood work formula by the blood volume acted by the heart and the principle of consuming the internal energy through resistance factors; the parameters obtained are: blood density, blood flow velocity, blood flow viscosity coefficient, relative length of blood vessel, blood volume, blood vessel radius.

4. The health management method of claim 1, wherein the performing of the sample threshold evaluation on the sample blood pressure value and the physical examination report specifically comprises:

analysis and calculation of thresholds;

judging whether the sample blood pressure value is smaller than a set threshold value or not; if so, calculating the average value of the linear equation to calculate a linear equation, and performing functional evaluation; otherwise, carrying out risk assessment;

5. The health management method of claim 1, wherein the analyzing the sample blood pressure value for functional change to obtain the result of functional change of the user comprises:

6. The health management method according to claim 1, wherein: judging whether the user carries out structural change analysis for the first time according to the physical examination report of the user, and if so, responding to the physical examination report by a hyperlink and combining symptoms; if the physical examination report of the user is not the first structural change analysis, comparing the several physical examination reports with the average value and the variance of the group physical examination report and feeding back the change of the physical examination report specifically includes:

the first physical examination report result is obtained through a hyperlink to create a hyperlink interface for the keyword module data so as to access the module data through the hyperlink interface, and the keyword module data comprises any corresponding characters, physical sign data, network knowledge, textbooks, expert team opinions and suggestions in the physical examination report, and proposed reasonable classification, suggestions and treatment;

and the establishment of the linear regression model needs to meet 4 preconditions, the analysis and evaluation of the structure and the function are carried out according to a linear stepwise regression method, and when the threshold value is reached, the estimation is automatically carried out through a regression equation;

7. The health management method according to claim 1, wherein the evaluating fitness according to the blood pressure and the change of the physical examination report of the user, and the obtaining of the physical examination prediction information, the blood pressure report evaluation, and the fitness information specifically comprises:

carrying out progressive linear evaluation equations on each physical examination item one by one; carrying out qualitative analysis on the factors of the physical examination report obtained by taking the analysis parameters of the blood pressure as standards and combining the relationship between the analysis parameters of the blood pressure to obtain the fitness of the physical examination report and the blood pressure and the prediction results among the physical examination report and the blood pressure; if the physical examination report is consistent with the health examination report, the structural and functional are adaptive, otherwise, the structural and functional are not adaptive, the health examination report is automatically predicted and explained through the factors of the structural linear evaluation equation and the parametrics of the functional linear equation, the guidance and the interference are carried out, and the structural of the physical examination report is analyzed through a linear evaluation equation obtained through linear regression; analyzing the risk degree of the blood pressure expression by applying the blood pressure grading management to the functionality of the blood pressure expression through a confidence interval; the two are combined to make a fitness assessment.

8. The physical examination report health management method of claim 1, wherein the alerting, feeding back and verifying; the fitness information is used for reflecting the adaptation condition of the human body structure and the function, and simulating warning at a terminal, and carrying out feedback and error correction through a guidance, interference and verification system, and the fitness information comprises the following steps:

9. A physical examination report health management system, comprising: the system comprises a detection device, an electronic device and a terminal, wherein the detection device, the electronic device and the terminal are in communication connection,

the detection equipment is used for acquiring human body data, and the human body data comprises human body examination report data and human body blood pressure data; the human body blood pressure data is a sample blood pressure value of a user, the blood pressure value is a blood pressure value measured immediately, and the sample blood pressure value is an average value, a variance and a u value obtained by measuring the blood pressure value for multiple times;

the electronic equipment is used for acquiring blood pressure parameters and significance expressed by hydromechanics by utilizing energy conservation; wherein the blood pressure parameters comprise blood flow velocity, blood vessel length, blood volume, viscosity coefficient and blood vessel radius; performing sample threshold evaluation on the sample blood pressure value and the physical examination report; wherein the threshold is the minimum sample size required for statistical analysis; analyzing the function change of the sample blood pressure value to obtain a function change result of the user; judging whether the user performs structural change analysis for the first time according to the physical examination report of the user; if yes, responding to the physical examination report through hyperlink and combining symptoms; the response refers to answering and answering; if the physical examination report of the user does not carry out structural change analysis for the first time, judging whether the sample size reaches a threshold value, comparing the physical examination reports of several times with the average value and the variance of the group physical examination report, and feeding back the change condition of the physical examination report; evaluating fitness according to the blood pressure value and the change condition of the physical examination report of the user to obtain physical examination prediction information, blood pressure report evaluation and fitness information; the fitness information is used for reflecting the adaptation condition of the structure and the function of the human body, simulating warning at a terminal, and carrying out feedback and error correction through a guidance, interference and verification system; combining the physical examination prediction information and the blood pressure report evaluation through the relationship between structural factors and functional parameters to form structural and functional fitness analysis, finally generating a human body data acquisition and analysis report, and automatically generating a health management plan report; performing warning, feedback and verification according to the health management plan report;

the terminal equipment is used for showing a response mode and an alarm mode.