CN115188482B - Clinical diagnosis and treatment path generation system for tracking chest pain patients - Google Patents

Abstract

The invention discloses a clinical diagnosis and treatment path generation system for tracking chest pain patients, relates to the technical field of diagnosis and treatment path generation, and aims to solve the problems that the existing clinical diagnosis and treatment path generation system cannot remove duplication and check on clinical diagnosis and treatment paths of chest pain patients, so that the clinical diagnosis and treatment path data are inaccurate and non-unique, and privacy information of patients is unsafe; according to the invention, the path generation module is used for generating the path of the diagnosis and treatment information, the diagnosis and treatment operation is sequenced according to time sequence, the temporary diagnosis and treatment path is matched with all the clinical diagnosis and treatment paths stored in the database, when the clinical diagnosis and treatment path which is the same as the temporary diagnosis and treatment path is not matched, the temporary diagnosis and treatment path is marked as a diagnosis and treatment path to be checked, and the path checking module is used for checking, so that the accurate and unique clinical diagnosis and treatment path of a clinical patient can be conveniently obtained, and the sensitive contents in the clinical diagnosis and treatment path and the patient diagnosis and treatment information are encrypted, so that the privacy information safety of the patient can be ensured.

Description

Clinical diagnosis and treatment path generation system for tracking chest pain patients

Technical Field

The invention relates to the technical field of diagnosis and treatment path generation, in particular to a clinical diagnosis and treatment path generation system for tracking chest pain patients.

Background

Chest pain refers to discomfort or pain between the neck and the upper abdomen, the chest pain is mainly caused by chest diseases, a few of the chest pain is caused by other diseases, a clinical diagnosis and treatment path is to establish a set of standardized treatment mode and treatment program for the chest pain diseases, the chest pain is a comprehensive mode related to clinical treatment, and the method for promoting the management of treatment tissues and diseases by taking evidence-based medical evidence and guidelines as guidance finally plays a role in standardizing medical behaviors and improving the treatment quality;

however, the existing clinical diagnosis and treatment path generation system cannot remove duplication and check on clinical diagnosis and treatment paths of chest pain patients, so that the clinical diagnosis and treatment path data are inaccurate and not unique, and patient privacy information is unsafe.

Disclosure of Invention

The invention aims to solve the problems that the existing clinical diagnosis and treatment path generation system cannot remove duplication and check on clinical diagnosis and treatment paths of chest pain patients, so that the clinical diagnosis and treatment path data are inaccurate and not unique, and patient privacy information is unsafe.

The aim of the invention can be achieved by the following technical scheme:

the clinical diagnosis and treatment path generation system for tracking chest pain patients comprises an information acquisition module, a path generation module, a path verification module and a database; the information acquisition module is used for acquiring the authorization of the chest pain patient, acquiring diagnosis and treatment information of the chest pain patient in real time and sending the diagnosis and treatment information to the path generation module; wherein the diagnosis and treatment information comprises patient medical records, course records and chest pain treatment schedules; the chest pain treatment schedule comprises diagnosis and treatment operations such as completion of various examinations, treatment details, procedures and the like; the method is characterized in that the path generation module is used for receiving diagnosis and treatment information and performing path generation processing, and the specific process is as follows: encrypting sensitive content in the diagnosis and treatment information; sequencing diagnosis and treatment operations according to time sequence, and marking the sequenced diagnosis and treatment operations as temporary diagnosis and treatment paths; matching the temporary diagnosis and treatment path with all clinical diagnosis and treatment paths stored in a database, and when the clinical diagnosis and treatment path which is the same as the temporary diagnosis and treatment path is not matched, marking the temporary diagnosis and treatment path as a diagnosis and treatment path to be checked and sending the temporary diagnosis and treatment path to a path verification module;

the path verification module verifies the path to be verified, marks the path to be verified, which is verified successfully, as a clinical diagnosis and treatment path, and sends the path to be verified to a database for storage.

As a preferred implementation mode of the invention, the specific process of encrypting the sensitive content in the diagnosis and treatment information is as follows: sensitive content in diagnosis and treatment information is extracted, an encryption request instruction is generated and sent to a patient or an intelligent terminal of a doctor corresponding to the patient; after receiving the encryption request instruction through the intelligent terminal, the patient or the doctor corresponding to the patient inputs a corresponding numerical encryption code; setting a unique numerical preset code corresponding to all characters; wherein the numerical value encryption code and the numerical value preset code are composed of a plurality of digits; matching the characters in the sensitive content with all the characters to obtain corresponding numerical preset codes, adding the corresponding numerical preset codes with corresponding numerical encryption codes to obtain encryption recombinant codes, and sequentially combining all the encryption recombinant codes to obtain an encryption recombinant code set corresponding to the sensitive content; converting each encryption recombinant code in the encryption recombinant code set into an encryption graph, then establishing all the encryption graphs in a coordinate system, extracting the coordinates of each encryption graph, converting the coordinates of each encryption graph into a preset symbol, and replacing the preset symbol corresponding to the sensitive content into diagnosis and treatment information; the step of converting the encryption recombinant code into an encryption graph comprises the following steps: counting the number of digits in the encryption recombinant code, equally dividing the arc length of a fan into parts equal to the number of digits, selecting the midpoint of each arc length, taking the midpoint as a starting point to serve as a straight line segment, enabling the direction of the straight line segment to pass through the circle center of the fan, and enabling the length value of the straight line segment to be equal to the number value in the encryption recombinant code; all numbers in the encryption recombinant code are converted into corresponding straight line segments and are built in the sector, and the built sector is marked as an encryption graph.

As a preferred implementation mode of the invention, the specific process of the path verification module for verifying the diagnosis and treatment path to be verified is as follows: sending a verification request to a database to obtain all verification terminals fed back by the database, obtaining the current state of the verification terminals, marking the verification terminals with the current state of idle state as primary verification terminals, sending a verification request instruction to the primary verification terminals to obtain the feedback result of the primary verification terminals, marking the primary verification terminals feeding back the confirmation result as preferred verification terminals, and simultaneously performing time difference calculation on the time when the feedback confirmation result is received and the time when the verification request instruction is sent to obtain the response time of the preferred verification terminals; counting the number of all response time lengths of the preferred verification terminal, when the number of the response time lengths is larger than the set number, extracting the value of the response time length and substituting the value into a line graph according to time sequence, in the line graph, connecting points corresponding to the values of the adjacent two response time lengths to obtain a response line, calculating the slope of the response line and the included angle between the response line and the horizontal axis of the line graph, marking the slope of the response line as a first slope when the included angle is an obtuse angle, and marking the slope of the response line as a second slope when the included angle is an acute angle; summing all the first slopes and taking absolute values to obtain a first slope sum, summing all the second slopes and taking absolute values to obtain a second slope sum, and dividing the first slope sum by the second slope sum to obtain a response ratio of the preferred verification terminal; acquiring a total verification value and total verification times of a preferred verification terminal; the method comprises the steps of extracting values of response ratio, total verification value and total verification times, constructing a sector by taking the values of the total verification value and the total verification times as radiuses, overlapping and symmetrically setting circle centers of the two sectors, taking a circle center starting point as a straight line, enabling the length of the straight line to be equal to the length corresponding to the response ratio value, connecting end points of the straight line with midpoints of arc lengths corresponding to the two sectors respectively to construct a triangle, calculating the area of the triangle, extracting the values of the area, marking the values of the area as the verification value of a preferred verification end, sending a diagnosis and treatment path to the preferred verification end with the largest verification value by a path verification module, checking and verifying the diagnosis and treatment path by a chest pain mainly treating doctor corresponding to the preferred verification end, after verification is successful, sending a verification success instruction to a path verification module, and marking the diagnosis and treatment path to be a clinical diagnosis and treatment path after the verification success instruction is received by the path verification module, and increasing the total verification times of the preferred verification end.

As a preferred embodiment of the present invention, the database is provided with a registration unit and an analysis unit, the registration unit is used for the chest pain mainly treating doctor to submit registration information through the intelligent terminal for registration and send the registration information which is successfully registered to the database, and the intelligent terminal of the chest pain mainly treating doctor which is successfully registered is marked as a verification registration end; the registration information comprises a communication number, a position, an age, a time length and the like of the intelligent terminal of the chest pain treating doctor; the analysis unit is used for analyzing the registration information to obtain a verification total value of a verification registration end, and specifically comprises the following steps: performing position interval calculation on the positions of the verification registering ends and the positions of the database to obtain transmission intervals; collecting the time of receiving a diagnosis and treatment path to be checked and the time of feeding back a check success instruction, calculating the difference value between the time and the time to obtain check duration, summing all check durations of the check registering end, taking an average value to obtain a check average value, normalizing the transmission interval, the working duration and the check average value, taking the normalized values of the transmission interval, the working duration and the check average value, and marking the values of the transmission interval, the working duration and the check average value as DS1, DS2 and DS3 in sequence; substituting a preset formula HY= [ DS2 xu2+ (10 xu 3)/(|DS 3-20|+1) ]/DS1 xu 1 to obtain a verification total value HY of the verification registering terminal; wherein u1, u2 and u3 are preset weight factors, and the values are 10.3, 1.7 and 2.4.

As a preferred implementation mode of the invention, the information acquisition module comprises an authorization connection unit, wherein the authorization connection unit is used for acquiring the authorization authentication of a hospital and accessing the hospital's diagnosis system, when the patient is recorded in the diagnosis system as chest pain symptoms, the information acquisition module sends a diagnosis and treatment authorization request to the patient and a doctor corresponding to the patient, and after the authorization is successful, the diagnosis and treatment information of the patient is acquired.

As a preferred implementation mode of the invention, the information acquisition module further comprises an acquisition reminding unit, wherein the acquisition reminding unit is used for acquiring corresponding nursing staff in the patient treatment process, generating a path generation reminding instruction to an intelligent terminal of the nursing staff, and inputting the corresponding patient treatment record to the authorized connection unit through the intelligent terminal after the nursing staff receives the path generation reminding instruction through the intelligent terminal.

Compared with the prior art, the invention has the beneficial effects that:

the invention collects diagnosis and treatment information of chest pain patients in real time through an information collection module, then carries out path generation on the diagnosis and treatment information through a path generation module, sorts diagnosis and treatment operations according to time sequence, marks the sorted diagnosis and treatment operations as temporary diagnosis and treatment paths, matches the temporary diagnosis and treatment paths with all clinical diagnosis and treatment paths stored in a database, marks the temporary diagnosis and treatment paths as diagnosis and treatment paths to be verified when the same clinical diagnosis and treatment paths as the temporary diagnosis and treatment paths are not matched, sends the temporary diagnosis and treatment paths to a path verification module, and verifies the temporary diagnosis and treatment paths through the path verification module, thereby generating clinical diagnosis and treatment paths so as to obtain accurate and unique clinical diagnosis and treatment paths of clinical patients;

when the clinical diagnosis and treatment path is generated, the sensitive content in the clinical diagnosis and treatment path and the patient diagnosis and treatment information is encrypted to ensure the safety of the privacy information of the patient; the acquisition reminding unit is used for acquiring nursing staff corresponding to the patient in the treatment process and generating a path generation reminding instruction to an intelligent terminal of the nursing staff, and after the nursing staff receives the path generation reminding instruction through the intelligent terminal, the nursing staff inputs the patient corresponding treatment record to the authorized connection unit through the intelligent terminal so as to remind the nursing staff to input the patient detailed treatment record into the diagnosis and treatment information.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

Fig. 1 is a functional block diagram of the present invention.

Description of the embodiments

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, a clinical diagnosis and treatment path generating system for tracking chest pain patients is used in a server, and an information acquisition module, a path generating module, a path verification module and a database are arranged in the server;

the database is used for storing data, and a registration unit and an analysis unit are also arranged in the database;

the registration unit is used for submitting registration information through the intelligent terminal to register by the chest pain mainly treating doctor, sending the registration information which is successfully registered to the database, and marking the intelligent terminal of the chest pain mainly treating doctor which is successfully registered as a verification registration end; the registration information comprises a communication number, a position, an age, a time length and the like of the intelligent terminal of the chest pain treating doctor;

the analysis unit analyzes the registration information to obtain a verification total value of a verification registration end, specifically: performing position interval calculation on the positions of the verification registering ends and the positions of the database to obtain transmission intervals; collecting the time of receiving a diagnosis and treatment path to be checked and the time of feeding back a check success instruction, calculating the difference value between the time and the time to obtain check duration, summing all check durations of the check registering end, taking an average value to obtain a check average value, normalizing the transmission interval, the working duration and the check average value, taking the normalized values of the transmission interval, the working duration and the check average value, and marking the values of the transmission interval, the working duration and the check average value as DS1, DS2 and DS3 in sequence; substituting a preset formula HY= [ DS2 xu2+ (10 xu 3)/(|DS 3-20|+1) ]/DS1 xu 1 to obtain a verification total value HY of the verification registering terminal; wherein u1, u2 and u3 are preset weight factors, and the values are 10.3, 1.7 and 2.4, which can be reasonably set by a person skilled in the art according to actual practice;

the information acquisition module acquires the authorization of the chest pain patient and acquires the diagnosis and treatment information of the chest pain patient in real time, and sends the diagnosis and treatment information to the path generation module, wherein an authorization connection unit and an acquisition reminding unit are arranged in the information acquisition module;

the method comprises the steps that an authorization connection unit acquires authorization authentication of a hospital and accesses a diagnosis system of the hospital, when a patient is recorded in the diagnosis system as chest pain symptoms, diagnosis and treatment authorization requests are sent to the patient and diagnosis and treatment doctors corresponding to the patient, and after the authorization is successful, diagnosis and treatment information of the patient is acquired; the diagnosis and treatment information comprises patient medical records, course records and chest pain treatment schedules; the chest pain treatment schedule comprises diagnosis and treatment operations such as completion of various examinations, treatment details, procedures and the like;

the acquisition reminding unit is used for acquiring corresponding nursing staff in the patient treatment process and generating a path generation reminding instruction to an intelligent terminal of the nursing staff, and after the nursing staff receives the path generation reminding instruction through the intelligent terminal, the corresponding patient treatment record is input to the authorized connection unit through the intelligent terminal so as to remind the nursing staff to input the detailed patient treatment record into diagnosis and treatment information;

the path generation module receives diagnosis and treatment information and performs path generation processing: encrypting sensitive contents in diagnosis and treatment information, wherein the specific encryption process comprises the following steps: sensitive content in diagnosis and treatment information is extracted, an encryption request instruction is generated and sent to a patient or an intelligent terminal of a doctor corresponding to the patient; after receiving the encryption request instruction through the intelligent terminal, the patient or the doctor corresponding to the patient inputs a corresponding numerical encryption code; setting a unique numerical preset code corresponding to all characters; wherein the numerical value encryption code and the numerical value preset code are composed of a plurality of digits; matching the characters in the sensitive content with all the characters to obtain corresponding numerical preset codes, adding the corresponding numerical preset codes with corresponding numerical encryption codes to obtain encryption recombinant codes, and sequentially combining all the encryption recombinant codes to obtain an encryption recombinant code set corresponding to the sensitive content; each encryption recombinant code in the encryption recombinant code set is converted into an encryption graph, specifically: counting the number of digits in the encryption recombinant code, equally dividing the arc length of a fan into parts equal to the number of digits, selecting the midpoint of each arc length, taking the midpoint as a starting point to serve as a straight line segment, enabling the direction of the straight line segment to pass through the circle center of the fan, and enabling the length value of the straight line segment to be equal to the number value in the encryption recombinant code; all numbers in the encryption recombinant code are converted into corresponding straight line segments and are built in a sector, and the built sector is marked as an encryption graph;

then, all the encrypted graphics are built in a coordinate system, the coordinates of each encrypted graphic are extracted, then the coordinates of each encrypted graphic are converted into preset symbols, and the preset symbols corresponding to the sensitive content are replaced into diagnosis and treatment information; the sensitive content in the clinical diagnosis and treatment path and the patient diagnosis and treatment information is encrypted to ensure the safety of the privacy information of the patient;

sequencing diagnosis and treatment operations according to time sequence, and marking the sequenced diagnosis and treatment operations as temporary diagnosis and treatment paths; matching the temporary diagnosis and treatment path with all clinical diagnosis and treatment paths stored in a database, and when the clinical diagnosis and treatment path which is the same as the temporary diagnosis and treatment path is not matched, marking the temporary diagnosis and treatment path as a diagnosis and treatment path to be checked and sending the temporary diagnosis and treatment path to a path verification module;

the path verification module is used for verifying the diagnosis and treatment path to be verified, and specifically comprises the following steps:

sending a verification request to a database to obtain all verification terminals fed back by the database, obtaining the current state of the verification terminals, marking the verification terminals with the current state of idle state as primary verification terminals, sending a verification request instruction to the primary verification terminals to obtain the feedback result of the primary verification terminals, marking the primary verification terminals feeding back the confirmation result as preferred verification terminals, and simultaneously performing time difference calculation on the time when the feedback confirmation result is received and the time when the verification request instruction is sent to obtain the response time of the preferred verification terminals; counting the number of all response time lengths of the preferred verification terminal, when the number of the response time lengths is larger than the set number, extracting the value of the response time length and substituting the value into a line graph according to time sequence, in the line graph, connecting points corresponding to the values of the adjacent two response time lengths to obtain a response line, calculating the slope of the response line and the included angle between the response line and the horizontal axis of the line graph, marking the slope of the response line as a first slope when the included angle is an obtuse angle, and marking the slope of the response line as a second slope when the included angle is an acute angle; summing all the first slopes and taking absolute values to obtain a first slope sum, summing all the second slopes and taking absolute values to obtain a second slope sum, and dividing the first slope sum by the second slope sum to obtain a response ratio of the preferred verification terminal; acquiring a total verification value and total verification times of a preferred verification terminal; the method comprises the steps of extracting values of response ratio, total verification value and total verification times, constructing a sector by taking the values of the total verification value and the total verification times as radiuses, overlapping and symmetrically setting circle centers of the two sectors, taking a circle center starting point as a straight line, enabling the length of the straight line to be equal to the length corresponding to the response ratio value, connecting end points of the straight line with midpoints of arc lengths corresponding to the two sectors respectively to construct a triangle, calculating the area of the triangle, extracting the values of the area, marking the values of the area as the verification value of a preferred verification end, sending a diagnosis and treatment path to the preferred verification end with the largest verification value by a path verification module, checking and verifying the diagnosis and treatment path by a chest pain main doctor corresponding to the preferred verification end, sending a verification success instruction to a path verification module after the verification module receives the verification success instruction, marking the diagnosis and treatment path to be a clinical diagnosis and treatment path, and simultaneously increasing the total verification times of the preferred verification end once;

when the invention is used, diagnosis and treatment information of chest pain patients is acquired in real time through the information acquisition module, then the diagnosis and treatment information is subjected to path generation through the path generation module, diagnosis and treatment operations are sequenced according to time sequence, the sequenced diagnosis and treatment operations are marked as temporary diagnosis and treatment paths, the temporary diagnosis and treatment paths are matched with all clinical diagnosis and treatment paths stored in a database, when the same clinical diagnosis and treatment path as the temporary diagnosis and treatment paths is not matched, the temporary diagnosis and treatment paths are marked as diagnosis and treatment paths to be verified and sent to the path verification module, and verification is carried out through the path verification module, so that clinical diagnosis and treatment paths are generated, and accurate and unique clinical diagnosis and treatment paths of clinical patients are conveniently obtained; meanwhile, when the clinical diagnosis and treatment path is generated, the sensitive content in the clinical diagnosis and treatment path and the patient diagnosis and treatment information is encrypted to ensure the safety of the privacy information of the patient; the acquisition reminding unit is used for acquiring nursing staff corresponding to the patient in the treatment process and generating a path generation reminding instruction to an intelligent terminal of the nursing staff, and after the nursing staff receives the path generation reminding instruction through the intelligent terminal, the nursing staff inputs the patient corresponding treatment record to the authorized connection unit through the intelligent terminal so as to remind the nursing staff to input the patient detailed treatment record into the diagnosis and treatment information.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (4)

1. A clinical diagnosis and treatment path generation system for tracking chest pain patients comprises an information acquisition module, a path generation module, a database and a path verification module; the information acquisition module is used for acquiring the authorization of the chest pain patient, acquiring diagnosis and treatment information of the chest pain patient in real time and sending the diagnosis and treatment information to the path generation module; the method is characterized in that the path generation module is used for receiving diagnosis and treatment information and performing path generation processing, and the specific process is as follows: encrypting sensitive content in the diagnosis and treatment information; sequencing diagnosis and treatment operations according to time sequence, and marking the sequenced diagnosis and treatment operations as temporary diagnosis and treatment paths; matching the temporary diagnosis and treatment path with all clinical diagnosis and treatment paths stored in a database, and when the clinical diagnosis and treatment path which is the same as the temporary diagnosis and treatment path is not matched, marking the temporary diagnosis and treatment path as a diagnosis and treatment path to be checked and sending the temporary diagnosis and treatment path to a path verification module;

the path verification module verifies the diagnosis and treatment path to be verified, marks the diagnosis and treatment path to be verified successfully as a clinical diagnosis and treatment path, and sends the diagnosis and treatment path to be verified to a database for storage;

the specific process of the path verification module for verifying the diagnosis and treatment path to be verified is as follows: sending a verification request to a database to obtain all verification terminals fed back by the database, obtaining the current state of the verification terminals, marking the verification terminals with the current state of idle state as primary verification terminals, sending a verification request instruction to the primary verification terminals to obtain the feedback result of the primary verification terminals, marking the primary verification terminals feeding back the confirmation result as preferred verification terminals, and simultaneously performing time difference calculation on the time when the feedback confirmation result is received and the time when the verification request instruction is sent to obtain the response time of the preferred verification terminals; counting the number of all response time lengths of the preferred verification terminal, when the number of the response time lengths is larger than the set number, extracting the value of the response time length and substituting the value into a line graph according to time sequence, in the line graph, connecting points corresponding to the values of the adjacent two response time lengths to obtain a response line, calculating the slope of the response line and the included angle between the response line and the horizontal axis of the line graph, marking the slope of the response line as a first slope when the included angle is an obtuse angle, and marking the slope of the response line as a second slope when the included angle is an acute angle; summing all the first slopes and taking absolute values to obtain a first slope sum, summing all the second slopes and taking absolute values to obtain a second slope sum, and dividing the first slope sum by the second slope sum to obtain a response ratio of the preferred verification terminal; acquiring a total verification value and total verification times of a preferred verification terminal; the method comprises the steps of extracting values of response ratio, total verification value and total verification times, constructing a sector by taking the values of the total verification value and the total verification times as radiuses, overlapping and symmetrically setting circle centers of the two sectors, taking a circle center starting point as a straight line, enabling the length of the straight line to be equal to the length corresponding to the response ratio value, connecting end points of the straight line with midpoints of arc lengths corresponding to the two sectors respectively to construct a triangle, calculating the area of the triangle, extracting the values of the area, marking the values of the area as the verification value of a preferred verification end, sending a diagnosis and treatment path to the preferred verification end with the largest verification value by a path verification module, checking and verifying the diagnosis and treatment path by a chest pain main doctor corresponding to the preferred verification end, sending a verification success instruction to a path verification module after the verification module receives the verification success instruction, marking the diagnosis and treatment path to be a clinical diagnosis and treatment path, and simultaneously increasing the total verification times of the preferred verification end once;

the database is provided with:

the registration unit is used for submitting registration information through the intelligent terminal to register by the chest pain mainly treating doctor, sending the registration information which is successfully registered to the database, and marking the intelligent terminal of the chest pain mainly treating doctor which is successfully registered as a verification registration end;

an analysis unit configured to analyze the registration information: performing position interval calculation on the positions of the verification registering ends and the positions of the database to obtain transmission intervals; the method comprises the steps of collecting the moment when a check registering end receives a diagnosis and treatment path to be checked and the moment when a check success instruction is fed back, calculating the difference value between the moment and the moment to obtain check duration, summing all check durations of the check registering end, taking a mean value to obtain a check mean value, and normalizing transmission distance, the duration and the check mean value to obtain a check total value of the check registering end.

2. The clinical diagnosis and treatment path generating system for tracking chest pain patients according to claim 1, wherein the specific process of encrypting the sensitive content in the diagnosis and treatment information is as follows: sensitive content in diagnosis and treatment information is extracted, an encryption request instruction is generated and sent to a patient or an intelligent terminal of a doctor corresponding to the patient; after receiving the encryption request instruction through the intelligent terminal, the patient or the doctor corresponding to the patient inputs a corresponding numerical encryption code; setting a unique numerical preset code corresponding to all characters; wherein the numerical value encryption code and the numerical value preset code are composed of a plurality of digits; matching the characters in the sensitive content with all the characters to obtain corresponding numerical preset codes, adding the corresponding numerical preset codes with corresponding numerical encryption codes to obtain encryption recombinant codes, and sequentially combining all the encryption recombinant codes to obtain an encryption recombinant code set corresponding to the sensitive content; and converting each encryption recombinant code in the encryption recombinant code set into an encryption graph, then establishing all the encryption graphs in a coordinate system, extracting the coordinates of each encryption graph, converting the coordinates of each encryption graph into a preset symbol, and replacing the preset symbol corresponding to the sensitive content into diagnosis and treatment information.

3. The clinical diagnosis and treatment path generating system for tracking chest pain patients according to claim 1, wherein the information acquisition module comprises an authorization connection unit, the authorization connection unit is used for acquiring authorization authentication of a hospital and accessing a diagnosis system of the hospital, when the patient is recorded as chest pain symptoms in the diagnosis system, a diagnosis and treatment authorization request is sent to the patient and a diagnosis and treatment doctor corresponding to the patient, and after the authorization is successful, diagnosis and treatment information of the patient is acquired.

4. The system for generating a clinical diagnosis and treatment path for tracking chest pain patients according to claim 1, wherein the information acquisition module further comprises an acquisition reminding unit, the acquisition reminding unit is used for acquiring nursing staff corresponding to the patient in the treatment process and generating a path generation reminding instruction to an intelligent terminal of the nursing staff, and the nursing staff inputs the patient corresponding treatment record to the authorized connection unit through the intelligent terminal after receiving the path generation reminding instruction through the intelligent terminal.

Images