CN115034651A - Ultrasonic inspection method for user-defined flow - Google Patents
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Abstract
The invention relates to the technical field of ultrasonic inspection, in particular to an ultrasonic inspection method with a self-defined flow, which comprises the following steps: step S1: acquiring patient data, searching a diagnosis process according to the patient data, and then judging whether the diagnosis process needs to be adjusted; if yes, go to step S2; if not, go to step S3; step S2: acquiring each diagnosis component in the diagnosis process, and adjusting the diagnosis components to generate a new diagnosis process; step S3: the examination is performed according to a diagnostic procedure to generate an examination result. The invention has the beneficial effects that: the diagnosis process is split into a plurality of assemblies, and then adjustment can be carried out on a single diagnosis assembly, so that adjustment of the diagnosis process is realized, the diagnosis process is convenient to self-define according to actual examination requirements in the ultrasonic examination process, and different diagnosis requirements are met.
Description
Technical Field
The invention relates to the technical field of ultrasonic inspection, in particular to an ultrasonic inspection method with a user-defined flow.
Background
Ultrasound scanning, or medical ultrasound examination, is an ultrasound-based medical imaging diagnostic technique. The technology can realize the visual imaging of the muscle tissues and internal organs of a patient including the size, the structure and pathological focus outside the body of the patient on the basis of ultrasonic waves so as to assist doctors to effectively diagnose the diseases of the patient. An ultrasound scanning apparatus refers to a medical instrument to which the above ultrasound scanning technology is applied, and images each tissue part of a patient in an ultrasound manner to assist medical diagnosis. In order to achieve a better disease diagnosis effect, a corresponding ultrasonic scanning diagnosis flow is usually required to be compiled, and a scanning process is performed according to a specific flow. For example, for thyroid scanning, it is usually necessary to design corresponding scanning directions, sequences, and branches, such as how to scan the nodule region and how to treat the nodule region.
In the prior art, there is a technical solution for setting a workflow of an ultrasound examination to meet a user's requirement. For example, by acquiring a corresponding operation flow template as a workflow of an ultrasound examination, repeated setting work by a user is avoided. However, in the actual implementation process, the inventor finds that, in the setting method of the workflow in the prior art, usually, an administrator constructs a corresponding operation flow according to different inspection items in advance, and the requirement of a user for adjusting the workflow according to the actual situation cannot be well met.
Disclosure of Invention
In order to solve the above problems in the prior art, an ultrasonic inspection method with a custom flow is provided.
The specific technical scheme is as follows:
a custom flow ultrasound inspection method, comprising:
step S1: acquiring patient data, searching a diagnosis process according to the patient data, and then judging whether the diagnosis process needs to be adjusted;
if yes, go to step S2;
if not, go to step S3;
step S2: acquiring each diagnosis component in the diagnosis process, and adjusting the diagnosis components to generate a new diagnosis process;
step S3: the examination is performed according to a diagnostic procedure to generate an examination result.
Preferably, the step S1 includes:
step S11: acquiring the patient data, and searching historical patient data according to the patient data to obtain the closest historical patient data;
step S12: acquiring the corresponding diagnosis process according to the historical patient data;
step S13: acquiring the diagnosis component in the diagnosis process, and judging whether the diagnosis process needs to be adjusted according to the patient data and the diagnosis component;
if yes, go to step S2;
if not, the process goes to step S3.
Preferably, the step S2 includes:
step S21: obtaining a plurality of said diagnostic components from said diagnostic procedure;
step S22: acquiring a diagnostic component to be adjusted from the diagnostic component, and adjusting the parameter of the diagnostic component;
step S23: generating a new diagnostic procedure according to the diagnostic component.
Preferably, in step S22, the method for adjusting the parameter of the diagnostic component includes:
and carrying out macro recording on an ultrasonic scanning action so as to record action parameters of the ultrasonic scanning action, wherein the action parameters are used as parameters of the diagnosis component.
Preferably, the step S23 further includes:
adjusting the sequence among a plurality of diagnostic components in a graphical interface to generate a new diagnostic process.
Preferably, in the step S23, an examination form corresponding to the diagnosis process is further generated;
then, after the scanning result is obtained in step S3, the scanning result is entered into the inspection form.
Preferably, examination process data is acquired during the examination of the patient in step S3;
after the step S3, the method further includes:
step S4: and acquiring the inspection process data, and adjusting the diagnosis process according to the inspection process data.
Preferably, the step S4 includes:
step S41: acquiring the examination procedure data, the historical patient data and the patient data;
step S42: comparing the historical patient data with the patient data using an SVM classifier to generate an adjustment vector;
step S43: and processing the inspection process data by using the adjustment vector to generate a new diagnosis process.
Preferably, the diagnostic assembly comprises: imaging parameters, measurement items, body surface markers, picture storage types and report templates.
Preferably, before the step S1, the method further includes:
step S01: acquiring identity information of an operator;
the step S1 further includes acquiring the diagnosis process corresponding to the identity information according to the identity information.
The technical scheme has the following advantages or beneficial effects: the diagnosis process is split into a plurality of assemblies, and then adjustment can be carried out on a single diagnosis assembly, so that adjustment of the diagnosis process is realized, the diagnosis process is convenient to self-define according to actual examination requirements in the ultrasonic examination process, and different diagnosis requirements are met.
Drawings
Embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings. The drawings are, however, to be regarded as illustrative and explanatory only and are not restrictive of the scope of the invention.
FIG. 1 is an overall schematic diagram of an embodiment of the present invention;
FIG. 2 is a diagram illustrating the substep of step S1 according to an embodiment of the present invention;
FIG. 3 is a schematic diagram illustrating the substep of step S2 according to the embodiment of the present invention;
FIG. 4 is a diagram illustrating step S4 according to an embodiment of the present invention;
FIG. 5 is a diagram illustrating the substep of step S4 according to an embodiment of the present invention;
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.
The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.
The invention comprises the following steps:
a custom flow ultrasound inspection method, as shown in fig. 1, comprising:
step S1: acquiring patient data, searching a diagnosis process according to the patient data, and then judging whether the diagnosis process needs to be adjusted;
if yes, go to step S2;
if not, go to step S3;
step S2: acquiring each diagnosis component in the diagnosis process, and adjusting the diagnosis components to generate a new diagnosis process;
step S3: the examination is performed according to a diagnostic procedure to generate an examination result.
Specifically, in the embodiment, the diagnostic flow is split into a plurality of diagnostic components, and a new diagnostic flow is generated by adjusting the diagnostic components, so that the diagnostic flow can be adjusted according to the user requirement.
In the implementation process, the ultrasonic examination method is deployed in a corresponding doctor workstation as a software embodiment and used for compiling and adjusting ultrasonic examination items according to medical records of patients in the diagnosis process, so that a better examination effect is realized. The patient data is related information of patient medical records acquired from an in-hospital information system, including age, sex, medical history, inquiry condition and the like, so that a diagnosis process can be compiled according to the patient data, or a diagnosis process stored in a history database can be searched according to the patient data. The diagnosis procedure may include a historical diagnosis procedure stored when a patient with similar symptoms is examined in the past, or may be a template diagnosis procedure previously prepared in a database. The diagnostic assembly includes: imaging parameters, measurement items, body surface markers, picture storage types and report templates. The imaging parameters comprise transducer types, scanning modes, specific scanning parameters of the modes and the like, the measurement items comprise specific measurement items or common measurements in a special measurement package aiming at specific diseases or examination items, such as FL items in an obstetrical package, the body surface marks comprise preset body surface marking modes and types, the picture storage types comprise standard section image storage or lesion image storage, and the report template comprises patient information, measurement results, preset lesion description and the like. Through the setting, the corresponding diagnosis process can be selected according to the actual requirement of the user and adjusted, so that the requirement of actual examination is met.
In a preferred embodiment, as shown in fig. 2, step S1 includes:
step S11: acquiring patient data, and searching historical patient data according to the patient data to obtain the closest historical patient data;
step S12: acquiring a corresponding diagnosis process according to historical patient data;
step S13: acquiring a diagnosis component in a diagnosis process, and judging whether the diagnosis process needs to be adjusted according to patient data and the diagnosis component;
if yes, go to step S2;
if not, the process goes to step S3.
Specifically, for the problem that the ultrasound examination system in the prior art can only adopt a pre-programmed template diagnosis process and cannot well conform to the operation habits of doctors in actual hospitals in the actual use process, in the embodiment, historical patient data is stored and the current patient data is matched with the historical patient data, so that the historical patient data closest to the current patient data is found to obtain the diagnosis process of the last doctor for the patients. The process of searching for historical patient data may be implemented by using a matching algorithm, for example, a KNN algorithm, where the patient data and each of the plurality of historical patient data are calculated by the KNN algorithm to generate a patient distance and a plurality of historical patient distances, and then the closest historical patient data is obtained. Meanwhile, aiming at the condition that partial key items exist in the patient data, such as the past medical history, the diagnosis process corresponding to the historical patient data is not completely suitable for the current patient, and the adjustment can be carried out by acquiring a specific diagnosis component.
In a preferred embodiment, as shown in fig. 3, step S2 includes:
step S21: acquiring a plurality of diagnostic components in a self-diagnosis process;
step S22: acquiring a diagnostic component to be adjusted from the self-diagnostic component, and adjusting parameters of the diagnostic component;
step S23: a new diagnostic procedure is generated from the diagnostic component.
Specifically, for the problem that the ultrasonic examination system in the prior art can only adopt a pre-programmed template diagnosis process and cannot well conform to the operation habits of doctors in actual hospitals in the actual use process, in this embodiment, corresponding diagnosis components are respectively extracted from the diagnosis processes, and parameters of the diagnosis components are edited, so that a new diagnosis process is generated by combination, and good adaptability to different patients is realized.
In a preferred embodiment, in step S22, the method for adjusting the parameter of the diagnostic module comprises:
and carrying out macro recording on an ultrasonic scanning action so as to record action parameters of the ultrasonic scanning action, wherein the action parameters are used as parameters of the diagnosis component.
Specifically, in the embodiment, macro recording is performed on a corresponding ultrasound scanning action, for example, by connecting an ultrasound scanning device or in a virtual ultrasound scanning environment, different parameter settings of the doctor during performing the ultrasound scanning are read as action parameters of the ultrasound scanning action, so that the parameters of the diagnostic component are updated. Meanwhile, aiming at the diagnosis component which does not need to be subjected to parameter adjustment, the parameters of the diagnosis component in the original diagnosis process can be inherited only, so that a simpler editing process is realized.
In a preferred embodiment, step S23 further includes:
the sequence among the plurality of diagnostic components is adjusted in a graphical interface to generate a new diagnostic flow.
Specifically, in the embodiment, a graphical interface is added to the system, and the sequence between corresponding diagnostic components is set, so that when a plurality of diagnostic components are used as a scanning list item, the sequence of different scanning list items is adjusted according to the sequence of the different scanning list items and a selection branch which is judged in real time according to a scanning image, thereby generating a new diagnostic flow, and realizing better adaptability to the diagnostic process.
In a preferred embodiment, in step S23, a check form corresponding to the diagnosis process is also generated;
the scanning result is recorded into the inspection form after the scanning result is obtained in step S3.
Specifically, in order to achieve a better inspection effect, in the present embodiment, while the diagnostic flow is generated, an inspection form corresponding to a specific inspection item is generated by adding components. The diagnosis component comprises a formatted template corresponding to each examination item, such as a diagnosis picture, an identification result, a self-describing symptom and the like, and all parts of the formatted template are combined according to a diagnosis process so as to generate a corresponding examination report.
In a preferred embodiment, the examination procedure data is acquired during the examination of the patient at step S3;
after step S3, the method further includes:
step S4: and acquiring inspection process data, and adjusting the diagnosis process according to the inspection process data.
Specifically, for the problem that the diagnosis process in the prior art is relatively fixed and cannot be effectively adjusted according to the user requirements in the actual use process, in this embodiment, the examination process data in the examination process, including the parameter setting and scanning method of the doctor during scanning, is acquired, so that the doctor can update the diagnosis process according to the relevant parameters in the actual operation process, so as to facilitate the next use.
In a preferred embodiment, as shown in fig. 5, step S4 includes:
step S41: acquiring examination process data, historical patient data and patient data;
step S42: comparing the historical patient data with the patient data by adopting an SVM classifier so as to generate an adjustment parameter;
step S43: and processing the inspection process data by adopting the adjusting parameters to generate a new diagnosis process.
Specifically, in the embodiment, the examination process data is acquired after the examination is completed, then a specific dimension including information such as sex, age, weight and the like of the user is selected by a doctor, and then an SVM classifier is used for comparing with historical patient data, so that the operation parameters in the examination process data are revised, and a better operation parameter under the condition is generated, and further the diagnosis process is updated and stored to be used as the diagnosis process adopted in the next ultrasonic examination.
In a preferred embodiment, before step S1, the method further includes:
step S01: acquiring identity information of an operator;
step S1 further includes obtaining a diagnosis procedure corresponding to the identity information according to the identity information.
Specifically, in the embodiment, a corresponding doctor account is logged in before the examination is started, and then the historical diagnosis process of the corresponding doctor is found according to the account, so that the subsequent diagnosis process is found and updated on the basis, and the diagnosis process is more suitable for the operation habit of each doctor.
The invention has the beneficial effects that: by introducing the concept of the diagnosis assembly, a doctor can find a relatively close historical diagnosis process through the patient data in the diagnosis process, and then respectively adjust the diagnosis assembly according to the historical patient data and the current patient data, so that the diagnosis process is more in line with the reality of the patient. Meanwhile, the examination process data are collected after the examination is finished, and the doctor specifies a specific dimensionality to analyze the existing user operation data so as to obtain better operation parameters through a recommendation algorithm, so that the auxiliary adjustment of the operation parameters is realized, the revised parameters can be stored as a new diagnosis flow, and the iterative optimization of the diagnosis flow is realized.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.
Claims (10)
1. A custom flow ultrasound inspection method, comprising:
step S1: acquiring patient data, searching a diagnosis process according to the patient data, and then judging whether the diagnosis process needs to be adjusted;
if yes, go to step S2;
if not, go to step S3;
step S2: acquiring each diagnosis component in the diagnosis process, and adjusting the diagnosis components to generate a new diagnosis process;
step S3: the examination is performed according to a diagnostic procedure to generate an examination result.
2. The ultrasonic inspection method according to claim 1, wherein said step S1 includes:
step S11: acquiring the patient data, and searching historical patient data according to the patient data to obtain the closest historical patient data;
step S12: acquiring the corresponding diagnosis process according to the historical patient data;
step S13: acquiring the diagnosis component in the diagnosis process, and judging whether the diagnosis process needs to be adjusted according to the patient data and the diagnosis component;
if yes, go to step S2;
if not, the process goes to step S3.
3. The ultrasonic inspection method according to claim 1, wherein said step S2 includes:
step S21: obtaining a plurality of said diagnostic components from said diagnostic process;
step S22: acquiring a diagnostic component to be adjusted from the diagnostic component, and adjusting the parameter of the diagnostic component;
step S23: generating a new diagnostic procedure according to the diagnostic component.
4. The ultrasonic inspection method of claim 3, wherein in the step S22, the method of adjusting the parameter of the diagnostic assembly comprises:
and carrying out macro recording on an ultrasonic scanning action so as to record action parameters of the ultrasonic scanning action, wherein the action parameters are used as parameters of the diagnosis component.
5. The ultrasonic inspection method according to claim 3, wherein said step S23 further includes:
and adjusting the sequence among a plurality of diagnostic components in a graphical interface to generate a new diagnostic process.
6. The ultrasonic inspection method according to claim 3, wherein in the step S23, an inspection form corresponding to the diagnostic procedure is further generated;
then, after the scanning result is obtained in step S3, the scanning result is entered into the inspection form.
7. The ultrasound examination method according to claim 2, wherein examination procedure data is acquired during the examination of the patient in said step S3;
after the step S3, the method further includes:
step S4: and acquiring the inspection process data, and adjusting the diagnosis process according to the inspection process data.
8. The ultrasonic inspection method according to claim 7, wherein said step S4 includes:
step S41: acquiring the examination procedure data, the historical patient data and the patient data;
step S42: comparing the historical patient data with the patient data using an SVM classifier to generate an adjustment vector;
step S43: and processing the inspection process data by using the adjustment vector to generate a new diagnosis process.
9. The ultrasound inspection method of claim 1, wherein the diagnostic assembly comprises: imaging parameters, measurement items, body surface markers, picture storage types and report templates.
10. The ultrasonic inspection method according to claim 1, further comprising, before said step S1:
step S01: acquiring identity information of an operator;
the step S1 further includes acquiring the diagnosis process corresponding to the identity information according to the identity information.
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