CN115796082B - Double J-shaped catheter inner diameter drainage data analysis method and system - Google Patents

Abstract

The present disclosure provides a method and a system for analyzing inner diameter drainage data of a double J-shaped catheter, and relates to the technical field of data processing, wherein the method comprises: determining first connection information according to the product type of the double J-shaped catheter; outputting a first sensed temperature dataset; acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information; acquiring a first drainage rate data set; analyzing the temperature-rate response relation and outputting a temperature-rate index; predicting the inner diameter drainage time length to obtain a predicted time length; the predicted time length is recorded and stored, so that the technical problems in the prior art that the accuracy of the analysis result of the inner diameter drainage rate of the catheter is insufficient and the auxiliary effect on the subsequent operation is poor due to the fact that the analysis flow of the inner diameter drainage data of the double J-shaped catheter is not detailed enough are solved.

Description

Double J-shaped catheter inner diameter drainage data analysis method and system

Technical Field

The disclosure relates to the technical field of data processing, in particular to a double J-shaped catheter inner diameter drainage data analysis method and system.

Background

The double J-shaped catheter is a catheter which is conventionally used after a urinary system calculus operation, and mainly comprises a double J-shaped catheter which is placed in a ureter after laser lithotripsy of ureteral calculus holmium or percutaneous nephroscope lithotripsy and after conventional operation incision of a ureteral bladder. The main function of the double J tube plays a role in drainage and support, analyzes the drainage data of the inner diameter of the double J-shaped catheter, and plays an auxiliary role for postoperative operation.

At present, the technical problems of insufficient accuracy of the analysis result of the inner diameter drainage rate of the catheter and poor auxiliary effect on the subsequent operation are caused by insufficient detailed analysis flow of the inner diameter drainage data of the double J-shaped catheter in the prior art.

Disclosure of Invention

The disclosure provides a method and a system for analyzing inner diameter drainage data of a double J-shaped catheter, which are used for solving the technical problems in the prior art that the accuracy of the analysis result of the inner diameter drainage rate of the catheter is insufficient and the auxiliary effect on the subsequent operation is poor due to the fact that the analysis flow of the inner diameter drainage data of the double J-shaped catheter is not detailed enough.

According to a first aspect of the present disclosure, there is provided a dual J-catheter inner diameter drainage data analysis method comprising: determining first connection information according to the product type of the double J-shaped catheter; according to the first connection information, the temperature sensing device is subjected to patch setting, and a first sensing temperature data set is output; acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information; carrying out drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information to obtain a first drainage rate data set; analyzing the temperature-rate response relation by using the first sensing temperature data set and the first drainage rate data set, and outputting a temperature-rate index; predicting the inner diameter drainage time length according to the temperature-speed index to obtain the predicted time length; and recording and storing the predicted time length through the terminal of the catheter inner diameter drainage data analysis system.

According to a second aspect of the present disclosure, there is provided a dual J-catheter inner diameter drainage data analysis system comprising: the first connection information acquisition module is used for determining first connection information according to the product type of the double J-shaped catheter; the temperature sensing device setting module is used for carrying out patch setting on the temperature sensing device according to the first connection information and outputting a first sensing temperature data set; the catheter attribute information acquisition module is used for acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information; the drainage rate identification module is used for carrying out drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information to obtain a first drainage rate data set; the temperature-speed response relation analysis module is used for analyzing the temperature-speed response relation according to the first sensing temperature data set and the first drainage speed data set and outputting a temperature-speed index; the inner diameter drainage duration prediction module is used for predicting inner diameter drainage duration according to the temperature-speed index to obtain predicted duration; and the predicted duration recording and storing module is used for recording and storing the predicted duration through the terminal of the catheter inner diameter drainage data analysis system.

According to a third aspect of the present disclosure, there is provided an electronic device comprising:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein, the liquid crystal display device comprises a liquid crystal display device,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of the first aspect.

According to the method for analyzing the inner diameter drainage data of the double-J-shaped catheter, first connection information is determined according to the product type of the double-J-shaped catheter; according to the first connection information, the temperature sensing device is subjected to patch setting, and a first sensing temperature data set is output; acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information; carrying out drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information to obtain a first drainage rate data set; analyzing the temperature-rate response relation by using the first sensing temperature data set and the first drainage rate data set, and outputting a temperature-rate index; predicting the inner diameter drainage time length according to the temperature-speed index to obtain the predicted time length; and recording and storing the predicted time length through the terminal of the catheter inner diameter drainage data analysis system. According to the method, the material property and the self structure of the catheter are analyzed to obtain the fixed drainage rate, the change of the drainage rate at different temperatures is further analyzed, so that the inner diameter drainage duration is predicted, the inner diameter drainage duration is accurately predicted, and the technical effect of providing auxiliary data for subsequent operation is achieved.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the disclosure, nor is it intended to be used to limit the scope of the disclosure. Other features of the present disclosure will become apparent from the following specification.

Drawings

For a clearer description of the present disclosure or of the prior art, the drawings that are required to be used in the description of the embodiments or of the prior art will be briefly described, it being apparent that the drawings in the description below are merely illustrative and that other drawings may be obtained, without inventive effort, by a person skilled in the art from the drawings provided.

FIG. 1 is a flow chart of a method for analyzing inner diameter drainage data of a double J-shaped catheter according to an embodiment of the present invention;

FIG. 2 is a flow chart of acquiring reminding information according to the adaptation degree in the embodiment of the invention;

FIG. 3 is a schematic flow chart of obtaining an optimized predicted time length according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a dual J catheter inner diameter drainage data analysis system according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Reference numerals illustrate: the device comprises a first connection information acquisition module 11, a temperature sensing device setting module 12, a catheter attribute information acquisition module 13, a drainage rate identification module 14, a temperature-rate response relation analysis module 15, an inner diameter drainage duration prediction module 16, a prediction duration record storage module 17, an electronic device 800, a processor 801, a memory 802 and a bus 803.

Description of the embodiments

Exemplary embodiments of the present disclosure are described below in conjunction with the accompanying drawings, which include various details of the embodiments of the present disclosure to facilitate understanding, and should be considered as merely exemplary. Accordingly, one of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the present disclosure. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

In order to solve the technical problems that in the prior art, the analysis flow of the inner diameter drainage data of the double J-shaped catheter is not detailed enough, so that the accuracy of the analysis result of the inner diameter drainage rate of the catheter is insufficient, and the auxiliary effect on the subsequent operation is poor, the inventor of the present disclosure obtains the analysis method and the system of the inner diameter drainage data of the double J-shaped catheter through creative labor.

Examples

Fig. 1 is a diagram of a method for analyzing inner diameter drainage data of a double J-shaped catheter according to an embodiment of the present application, where the method is applied to a system for analyzing inner diameter drainage data of a catheter, and the system is communicatively connected to a temperature sensing device, as shown in fig. 1, and the method includes:

step S100: determining first connection information according to the product type of the double J-shaped catheter;

specifically, the embodiment of the application provides a double-J catheter inner diameter drainage data analysis method, wherein the double-J catheter is an intra-ureteral stent tube, the method is applied to a catheter inner diameter drainage data analysis system, the catheter inner diameter drainage data analysis system is a system platform for analyzing double-J catheter inner diameter drainage data, first connection information is determined according to the product type of the double-J catheter, the product type of the double-J catheter comprises a hippocampus tube, a double-end opening, a single-end opening and the like, the first connection information means that the double-J catheter is connected with a certain part of a human body, and therefore liquid is discharged.

Step S200: according to the first connection information, the temperature sensing device is subjected to patch setting, and a first sensing temperature data set is output;

specifically, the temperature sensing device is a temperature sensor for monitoring the temperature of a part of a human body connected with the double-J-shaped catheter, and is generally arranged on the part of the human body connected with the double-J-shaped catheter, and a first sensing temperature data set is acquired through the temperature sensing device and is the temperature data acquired by the temperature sensing device.

Step S300: acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information;

specifically, the catheter inner diameter information refers to the size of the inner diameter of the double J-shaped catheter, the catheter outer diameter information refers to the size of the outer diameter of the double J-shaped catheter, the catheter material information refers to the material of the double J-shaped catheter, and the like.

Step S400: carrying out drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information to obtain a first drainage rate data set;

specifically, the first drainage rate data set is obtained by carrying out drainage rate identification according to the inner diameter information of the catheter, the outer diameter information of the catheter and the material information of the catheter, in short, according to the material property and the structure of the catheter, the fixed drainage rate is output, namely, according to the outer diameter size and the inner diameter size of the catheter and the smoothness of the inner wall of the catheter material, a fixed drainage rate value is obtained, namely, the first drainage rate data set is obtained.

Step S500: analyzing the temperature-rate response relation by using the first sensing temperature data set and the first drainage rate data set, and outputting a temperature-rate index;

specifically, the first temperature sensing data set and the first drainage rate data set are analyzed, so that the change of the drainage rate at different temperatures can be obtained, the temperature-rate response relationship refers to the influence of the change of the temperature on the drainage rate, the drainage rate at different temperatures is different, and then the temperature-rate index is output, and the temperature-rate index refers to the corresponding drainage rate at different temperatures.

Step S600: predicting the inner diameter drainage time length according to the temperature-speed index to obtain the predicted time length;

specifically, the inner diameter drainage duration prediction is performed according to the temperature-rate index, namely, simply, the amount of liquid required to be discharged from the inner cavity is detected, the duration required to discharge the liquid in the inner cavity is predicted according to the temperature-rate index, the predicted duration is obtained, and the predicted duration is the duration required to discharge the liquid in the inner cavity, so that auxiliary data is provided for the next surgical arrangement or treatment means.

Step S700: and recording and storing the predicted time length through the terminal of the catheter inner diameter drainage data analysis system.

Specifically, the terminal of the catheter inner diameter drainage data analysis system is the installation equipment of the guiding catheter inner diameter drainage data analysis system, the catheter inner diameter drainage data analysis system can be operated through the terminal, the predicted time length is recorded and stored through the terminal of the catheter inner diameter drainage data analysis system, in a simple way, the predicted time length is uploaded to the catheter inner diameter drainage data analysis system, and the technical effect of providing auxiliary data for subsequent operation arrangement or treatment means is achieved.

Based on the above analysis, the disclosure provides a dual J-type catheter inner diameter drainage data analysis method, in this embodiment, by analyzing the material attribute and the self structure of the catheter, the magnitude of the fixed drainage rate is obtained, and further analyzing the changes of the drainage rate at different temperatures, so as to predict the inner diameter drainage duration, accurately predict the inner diameter drainage duration, and provide auxiliary data for subsequent operations.

As shown in fig. 2, step S800 in the embodiment of the present application further includes:

step S810: acquiring a drainage liquid source according to the first connection information;

step S820: performing liquid characteristic analysis on the drainage liquid source to obtain a plurality of liquid characteristics;

step S830: performing fitness analysis on the double J-shaped catheter according to the liquid characteristics to obtain a fitness index;

step S840: and if the fitness index is smaller than the preset fitness index, acquiring reminding information.

Specifically, the drainage liquid source is the drainage liquid that flows out from the human body, liquid characteristic analysis is carried out on the drainage liquid source, the color, the consistency of the drainage liquid is analyzed, whether the drainage liquid contains coagulum, whether the catheter can be used for drainage, whether the catheter can be blocked or the drainage speed is slow, and the like, thereby a plurality of liquid characteristics are obtained, the plurality of liquid characteristics just contain the color, the consistency of the drainage liquid, whether the coagulum contains coagulum, whether the catheter can be used for drainage, whether the catheter can be blocked or the drainage speed is slow and the like, the adaptation degree analysis is carried out on the double J-shaped catheter according to the plurality of liquid characteristics, namely, whether the drainage liquid is suitable for being drained by the double J-shaped catheter according to the analysis of the plurality of liquid characteristics, the adaptation degree index is the adaptation degree of guiding the flow liquid by the double J-shaped catheter, then the adaptation degree index is compared with the preset adaptation degree index, the preset adaptation degree index is set according to the actual conditions, if the adaptation degree index is larger than the preset adaptation degree index, the liquid can be considered to be drained by the double J-shaped catheter, if the adaptation degree index is smaller than the preset adaptation degree index, the preset adaptation degree index is required to be used for the double J-shaped catheter, the drainage is required to be changed, the drainage liquid is required to be carried out by the double J-shaped drainage staff, the drainage staff is reminded, the adaptation degree is required to be carried out by the double J-shaped drainage liquid, and the drainage staff is required to be changed, and the drainage liquid, and the drainage scheme is required to be according to the adaptation to be required to be according to the an adaptation type to the two to the adaptation type is.

Wherein, after performing liquid characteristic analysis on the drainage liquid source and obtaining a plurality of liquid characteristics, step S820 in the embodiment of the present application further includes:

step S821: performing stability analysis on the drainage liquid source according to the liquid characteristics to obtain a stability index;

step S822: if the stability index is smaller than a preset stability index, acquiring a data interception instruction;

step S823: connecting the terminal of the catheter inner diameter drainage data analysis system to obtain a real-time drainage record data set;

step S824: and intercepting the real-time drainage record data set according to the data intercepting instruction to obtain a screening drainage record data set, and predicting the duration of the screening drainage record data set.

Specifically, stability analysis is performed on the drainage liquid source according to a plurality of liquid characteristics, namely stability of the liquid source is analyzed, namely characteristic change speed of the liquid source, such as characteristic change of high frequency of the drainage liquid source is low, if the characteristic change of the drainage liquid source is stable, the stability is considered to be high, based on the stability analysis, a stability index is obtained, the stability index is used for representing the stability of the drainage liquid source, then whether the stability index is smaller than a preset stability index or not is judged, the preset stability index can be set according to actual conditions, if the stability index is smaller than the preset stability index, a data interception instruction is obtained, the data interception instruction is an instruction for controlling interception of unstable data of the drainage liquid source, the terminal of a catheter inner diameter drainage data analysis system is connected, a real-time drainage record data set is obtained, the real-time drainage record data set contains recorded drainage liquid characteristic data, and unstable data in the real-time drainage record data set is removed according to the data interception instruction, so that stable data are selected as a screening record data set, drainage prediction is performed according to the screening record data set, drainage prediction is realized, stable data is removed, and accuracy of stable data is improved, and accuracy of predicted accuracy is prolonged.

Wherein, carry out drainage rate discernment according to catheter internal diameter information, catheter external diameter information and catheter material information, this application embodiment step S400 includes:

step S410: performing catheter drainage cavity analysis according to the catheter inner diameter information and the catheter outer diameter information to obtain a fixed drainage rate data set;

step S420: analyzing the influence of the drainage rate of the catheter wall when the temperature changes based on the catheter material information, and outputting an influence drainage rate data set;

step S430: and outputting the first drainage rate data set according to the fixed drainage rate data set and the influence drainage rate data set.

Specifically, the drainage rate is identified according to the inner diameter information of the catheter, the outer diameter information of the catheter and the material information of the catheter, the catheter drainage cavity is analyzed according to the inner diameter information and the outer diameter size of the catheter, namely, the larger the inner diameter and the outer diameter size of the catheter are, the more liquid can flow out in unit time, the fixed drainage rate data set is obtained based on the analysis of the fixed liquid outflow rate of the catheter, the fixed drainage rate data set is the fixed liquid outflow rate of the catheter, further, the influence of the drainage rate of the catheter wall when the temperature is changed is analyzed according to the material information of the catheter, in a simple way, the smoothness of the catheter wall and the flow rate of the liquid in the catheter can be influenced along with the temperature change, the change of the flow rate of the liquid in the catheter wall at different temperatures is determined according to the material information of the catheter, the influence drainage rate data set is obtained, the influence on the influence value of the flow rate data set of the catheter wall on the flow rate of the liquid at different temperatures is contained, and the fixed drainage rate data set and the influence drainage rate data set is combined, so that the first drainage rate data set is obtained, and the effect of improving the accuracy of the drainage rate analysis is achieved.

The step S900 in this embodiment of the present application further includes:

step S910: acquiring the double-end bending length of the double-J-shaped catheter;

step S920: acquiring an identification node according to the double-end bending length, wherein the identification node comprises a first identification node and a second identification node, the first identification node is a switching node from a bent catheter to an intermediate catheter, and the second identification node is a switching node from the intermediate catheter to the bent catheter;

step S930: and carrying out drainage data segment storage according to the first identification node and the second identification node.

Specifically, the drainage rate of the bent position and the drainage rate of the middle straight position of the catheter are different, the double-head bent length of the double-J-shaped catheter is firstly obtained, the double-head bent length is the length of the bent parts at two sides of the guiding catheter, the identification nodes are obtained according to the double-head bent length, the identification nodes comprise a first identification node and a second identification node, the first identification node is a switching node from the bent catheter to the middle catheter, the second identification node is a switching node from the middle catheter to the bent catheter, namely, the two ends of the catheter are bent, the position of the catheter entering the middle straight catheter from the bent catheter and the position of the middle straight catheter entering the bent catheter are identified, the position of the bent catheter entering the middle straight catheter is identified as a first identification node, the position of the bent catheter is identified as a second identification node, drainage data are stored in a segmented mode according to the first identification node and the second identification node, namely, the drainage data in the bent catheter are stored separately, and the drainage data in the middle straight catheter are stored according to the different positions, and the drainage data are stored accurately, and the drainage effect is guaranteed.

Wherein, the first identification node and the second identification node are used for conducting drainage data segment storage, as shown in fig. 3, step S930 in the embodiment of the present application further includes:

step S931: outputting a three-section catheter record data set according to the first identification node and the second identification node, wherein the three-section catheter record data set comprises a first bent catheter record data set, an intermediate catheter record data set and a second bent catheter record data set;

step S932: acquiring a temperature-bending rate indicator from the first bending catheter record data set and the second bending catheter record data set;

step S933: acquiring a temperature-intermediate rate index according to the intermediate catheter record data set;

step S934: and predicting the inner diameter drainage time according to the temperature-bending rate index and the temperature-intermediate rate index to obtain the optimized prediction time.

Specifically, the catheter is divided into three parts according to the first identification node and the second identification node, namely a bent catheter and a straight catheter in the middle of the two ends of the catheter, based on the three parts, a tube record data set corresponding to the three parts of the catheter is obtained, namely a three-section catheter record data set, the three-section catheter record data set comprises a first bent catheter record data set, a middle catheter record data set and a second bent catheter record data set, a temperature-bending rate index is obtained according to the first bent catheter record data set and the second bent catheter record data set, in brief, the change of the drainage liquid rate of the bent catheter part under different temperatures is analyzed, so that a temperature-bending rate index is obtained, the temperature-bending rate index is the corresponding relation between the drainage liquid rate of the bent catheter part and the temperature, then the temperature-middle rate index is obtained according to the middle catheter record data set, namely the change of the drainage liquid rate of the middle part of the catheter under different temperatures is analyzed, so that the temperature-middle rate index is the corresponding relation between the drainage liquid rate of the catheter and the temperature, finally, the prediction time of the drainage liquid is required to be improved, the prediction time length is improved, and the prediction time is accurately predicted according to the temperature-middle bending rate index.

The step S1000 in this embodiment of the present application further includes:

step S1010: acquiring a real-time use environment of the double J-shaped catheter;

step S1020: detecting the temperature of the real-time use environment to obtain environment temperature data;

step S1030: performing influence analysis on the first sensing temperature data set by using the environmental temperature data to obtain a temperature influence coefficient;

step S1040: and if the temperature influence coefficient is larger than the preset temperature influence coefficient, acquiring temperature reminding information.

Specifically, the real-time use environment of the double-J catheter is obtained, the real-time use environment comprises a place where the double-J catheter is used, such as a hospital ward or an operating room in which the double-J catheter is used, then the temperature of the use environment is detected, environment temperature data is obtained, the environment temperature data is temperature data corresponding to the real-time use environment of the double-J catheter, the environment temperature data possibly affects a first sensing temperature data set acquired by a temperature sensing device, the temperature of the first sensing temperature data set becomes high or low, a temperature influence coefficient is used for representing an influence value of the environment temperature data on the first sensing temperature data set, such as the temperature of the first sensing temperature data set is increased or reduced by the environment temperature data, the temperature influence coefficient is compared with the preset temperature influence coefficient, the preset temperature influence coefficient can be set according to the actual situation, if the temperature influence coefficient is larger than the preset temperature influence coefficient, the influence of the environment temperature data on the first sensing temperature data set is considered to exceed expectations, temperature reminding information is needed to be obtained, the environment temperature reminding personnel is easy to cause a large current drainage temperature difference, and the accuracy of the temperature sensing effect is guaranteed, and the accuracy of the technical effect is stable.

Examples

Based on the same inventive concept as the method for analyzing the inner diameter drainage data of the double-J-shaped catheter in the previous embodiment, as shown in fig. 4, the present application further provides a system for analyzing the inner diameter drainage data of the double-J-shaped catheter, the system is in communication connection with a temperature sensing device, and the system comprises:

the first connection information acquisition module 11 is used for determining first connection information according to the product type of the double J-shaped catheter;

the temperature sensing device setting module 12, wherein the temperature sensing device setting module 12 is configured to set the temperature sensing device in a patch according to the first connection information, and output a first sensing temperature data set;

a catheter attribute information acquisition module 13, wherein the catheter attribute information acquisition module 13 is configured to acquire a plurality of catheter attribute information of the double-J catheter, and the plurality of catheter attribute information includes catheter inner diameter information, catheter outer diameter information, and catheter material information;

the drainage rate identification module 14, wherein the drainage rate identification module 14 is configured to perform drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information, so as to obtain a first drainage rate data set;

a temperature-rate response relation analysis module 15, where the temperature-rate response relation analysis module 15 is configured to perform analysis of a temperature-rate response relation with the first sensing temperature data set and the first drainage rate data set, and output a temperature-rate index;

the inner diameter drainage duration prediction module 16, wherein the inner diameter drainage duration prediction module 16 is used for predicting inner diameter drainage duration according to the temperature-rate index to obtain predicted duration;

the predicted duration recording and storing module 17 is used for recording and storing the predicted duration through the terminal of the catheter inner diameter drainage data analysis system by the predicted duration recording and storing module 17.

Further, the system further comprises:

the drainage liquid source acquisition module is used for acquiring a drainage liquid source according to the first connection information;

the liquid characteristic analysis module is used for carrying out liquid characteristic analysis on the drainage liquid source to obtain a plurality of liquid characteristics;

the fitness analysis module is used for performing fitness analysis on the double J-shaped catheter according to the liquid characteristics to obtain a fitness index;

the extraction information acquisition module is used for acquiring reminding information if the fitness index is smaller than a preset fitness index.

Further, the system further comprises:

the stability analysis module is used for carrying out stability analysis on the drainage liquid source according to the liquid characteristics to obtain a stability index;

the data interception instruction acquisition module is used for acquiring a data interception instruction if the stability index is smaller than a preset stability index;

the real-time drainage record data set acquisition module is used for connecting the terminal of the catheter inner diameter drainage data analysis system to obtain a real-time drainage record data set;

and the screening drainage record data set acquisition module is used for intercepting the real-time drainage record data set according to the data interception instruction to acquire a screening drainage record data set, and predicting the duration of the screening drainage record data set.

Further, the system further comprises:

the fixed drainage rate data set acquisition module is used for carrying out catheter drainage cavity analysis according to the catheter inner diameter information and the catheter outer diameter information to acquire a fixed drainage rate data set;

the drainage rate influencing data set acquisition module is used for analyzing the influence of the drainage rate of the catheter wall when the temperature changes based on the catheter material information and outputting a drainage rate influencing data set;

and the comprehensive analysis module is used for outputting the first drainage rate data set according to the fixed drainage rate data set and the influence drainage rate data set.

Further, the system further comprises:

the double-end bending length acquisition module is used for acquiring the double-end bending length of the double-J-shaped catheter;

the identification node acquisition module is used for acquiring identification nodes according to the double-end bending length, wherein the identification nodes comprise a first identification node and a second identification node, the first identification node is a switching node from a bent catheter to an intermediate catheter, and the second identification node is a switching node from the intermediate catheter to the bent catheter;

and the drainage data segment storage module is used for conducting drainage data segment storage according to the first identification node and the second identification node.

Further, the system further comprises:

the three-section catheter record data set acquisition module is used for outputting a three-section catheter record data set according to the first identification node and the second identification node, and comprises a first bent catheter record data set, a middle catheter record data set and a second bent catheter record data set;

a temperature-bend rate index acquisition module for acquiring a temperature-bend rate index from the first and second bend catheter record data sets;

the temperature-intermediate rate index acquisition module is used for acquiring a temperature-intermediate rate index according to the intermediate catheter record data set;

the optimized prediction time length acquisition module is used for predicting the inner diameter drainage time length according to the temperature-bending rate index and the temperature-intermediate rate index to acquire the optimized prediction time length.

Further, the system further comprises:

the real-time use environment acquisition module is used for acquiring the real-time use environment of the double J-shaped catheter;

the temperature detection module is used for detecting the temperature of the real-time use environment and acquiring environmental temperature data;

the temperature influence coefficient acquisition module is used for carrying out influence analysis on the first sensing temperature data set by using the environment temperature data to acquire a temperature influence coefficient;

the temperature reminding information acquisition module is used for acquiring temperature reminding information if the temperature influence coefficient is larger than a preset temperature influence coefficient.

The specific example of the double-J catheter inner diameter drainage data analysis method in the first embodiment is also applicable to the double-J catheter inner diameter drainage data analysis system in the present embodiment, and those skilled in the art will clearly know the double-J catheter inner diameter drainage data analysis system in the present embodiment through the foregoing detailed description of the double-J catheter inner diameter drainage data analysis method, so that the details thereof will not be described herein for brevity. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

Examples

Fig. 5 is a schematic diagram according to a third embodiment of the present disclosure, as shown in fig. 5, an electronic device 800 in the present disclosure may include: a processor 801 and a memory 802.

A memory 802 for storing a program; memory 802, which may include volatile memory (English: volatile memory), such as random-access memory (RAM), such as static random-access memory (SRAM), double data rate synchronous dynamic random-access memory (Double Data Rate Synchronous Dynamic Random Access Memory, DDR SDRAM), and the like; the memory may also include a non-volatile memory (English) such as a flash memory (English). The memory 802 is used to store computer programs (e.g., application programs, functional modules, etc. that implement the methods described above), computer instructions, etc., which may be stored in one or more of the memories 802 in a partitioned manner. And computer programs, computer instructions, data, etc. described above may be called upon by the processor 801.

The computer programs, computer instructions, etc., described above may be stored in one or more of the memories 802 in partitions. And the above-described computer programs, computer instructions, etc. may be invoked by the processor 801.

A processor 801 for executing a computer program stored in a memory 802 to realize the steps in the method according to the above embodiment.

Reference may be made in particular to the description of the embodiments of the method described above.

The processor 801 and the memory 802 may be separate structures or may be integrated structures integrated together. When the processor 801 and the memory 802 are separate structures, the memory 802 and the processor 801 may be coupled by a bus 803.

The electronic device in this embodiment may execute the technical scheme in the above method, and the specific implementation process and the technical principle are the same, which are not described herein again.

According to embodiments of the present disclosure, the present disclosure also provides an electronic device, a readable storage medium and a computer program product.

According to an embodiment of the present disclosure, the present disclosure also provides a computer program product comprising: a computer program stored in a readable storage medium, from which at least one processor of an electronic device can read, the at least one processor executing the computer program causing the electronic device to perform the solution provided by any one of the embodiments described above.

It should be appreciated that various forms of the flows shown above may be used to reorder, add, or delete steps. For example, the steps recited in the present disclosure may be performed in parallel, may be performed sequentially or may be performed in a different order,

the present disclosure is not limited herein so long as the desired results of the disclosed technical solutions can be achieved.

The above detailed description should not be taken as limiting the scope of the present disclosure. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives are possible, depending on design requirements and other factors. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (9)

1. A method of dual J-catheter inner diameter drainage data analysis, the method being applied to a catheter inner diameter drainage data analysis system, the system being in communication with a temperature sensing device, the method comprising:

determining first connection information according to the product type of the double J-shaped catheter;

according to the first connection information, the temperature sensing device is subjected to patch setting, and a first sensing temperature data set is output, wherein when the temperature sensing device is subjected to patch setting, the patch is arranged on a human body part connected with the double J-shaped catheter;

acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information;

carrying out drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information to obtain a first drainage rate data set;

analyzing the temperature-rate response relation by using the first sensing temperature data set and the first drainage rate data set, and outputting a temperature-rate index;

predicting the inner diameter drainage time length according to the temperature-speed index to obtain the predicted time length;

and recording and storing the predicted time length through the terminal of the catheter inner diameter drainage data analysis system.

2. The method of claim 1, wherein the method further comprises:

acquiring a drainage liquid source according to the first connection information;

performing liquid characteristic analysis on the drainage liquid source to obtain a plurality of liquid characteristics;

performing fitness analysis on the double J-shaped catheter according to the liquid characteristics to obtain a fitness index;

and if the fitness index is smaller than the preset fitness index, acquiring reminding information.

3. The method of claim 2, wherein after performing a liquid characterization of the source of drainage liquid to obtain a plurality of liquid characteristics, the method further comprises:

performing stability analysis on the drainage liquid source according to the liquid characteristics to obtain a stability index;

if the stability index is smaller than a preset stability index, acquiring a data interception instruction;

connecting the terminal of the catheter inner diameter drainage data analysis system to obtain a real-time drainage record data set;

and intercepting the real-time drainage record data set according to the data intercepting instruction to obtain a screening drainage record data set, and predicting the duration of the screening drainage record data set.

4. The method of claim 1, wherein the drainage rate identification is based on the catheter inner diameter information, the catheter outer diameter information, and the catheter material information, the method further comprising:

performing catheter drainage cavity analysis according to the catheter inner diameter information and the catheter outer diameter information to obtain a fixed drainage rate data set;

analyzing the influence of the drainage rate of the catheter wall when the temperature changes based on the catheter material information, and outputting an influence drainage rate data set;

and outputting the first drainage rate data set according to the fixed drainage rate data set and the influence drainage rate data set.

5. The method of claim 4, wherein the method further comprises:

acquiring the double-end bending length of the double-J-shaped catheter;

acquiring an identification node according to the double-end bending length, wherein the identification node comprises a first identification node and a second identification node, the first identification node is a switching node from a bent catheter to an intermediate catheter, and the second identification node is a switching node from the intermediate catheter to the bent catheter;

and carrying out drainage data segment storage according to the first identification node and the second identification node.

6. The method of claim 5, wherein the data segments are stored according to the first identified node and the second identified node, the method further comprising:

outputting a three-section catheter record data set according to the first identification node and the second identification node, wherein the three-section catheter record data set comprises a first bent catheter record data set, an intermediate catheter record data set and a second bent catheter record data set;

acquiring a temperature-bending rate indicator from the first bending catheter record data set and the second bending catheter record data set;

acquiring a temperature-intermediate rate index according to the intermediate catheter record data set;

and predicting the inner diameter drainage time according to the temperature-bending rate index and the temperature-intermediate rate index to obtain the optimized prediction time.

7. The method of claim 1, wherein the method further comprises:

acquiring a real-time use environment of the double J-shaped catheter;

detecting the temperature of the real-time use environment to obtain environment temperature data;

performing influence analysis on the first sensing temperature data set by using the environmental temperature data to obtain a temperature influence coefficient;

and if the temperature influence coefficient is larger than the preset temperature influence coefficient, acquiring temperature reminding information.

8. A dual J-catheter inner diameter drainage data analysis system, the system in communication with a temperature sensing device, the system comprising:

the first connection information acquisition module is used for determining first connection information according to the product type of the double J-shaped catheter;

the temperature sensing device setting module is used for carrying out patch setting on the temperature sensing device according to the first connection information and outputting a first sensing temperature data set, wherein the patch is arranged on a human body part connected with the double-J-shaped catheter when the temperature sensing device is subjected to patch setting;

the catheter attribute information acquisition module is used for acquiring a plurality of catheter attribute information of the double J-shaped catheter, wherein the plurality of catheter attribute information comprises catheter inner diameter information, catheter outer diameter information and catheter material information;

the drainage rate identification module is used for carrying out drainage rate identification according to the catheter inner diameter information, the catheter outer diameter information and the catheter material information to obtain a first drainage rate data set;

the temperature-speed response relation analysis module is used for analyzing the temperature-speed response relation according to the first sensing temperature data set and the first drainage speed data set and outputting a temperature-speed index;

the inner diameter drainage duration prediction module is used for predicting inner diameter drainage duration according to the temperature-speed index to obtain predicted duration;

and the predicted duration recording and storing module is used for recording and storing the predicted duration through the terminal of the catheter inner diameter drainage data analysis system.

9. An electronic device, comprising:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein, the liquid crystal display device comprises a liquid crystal display device,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of any one of claims 1-7.

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