CN114093473A - Patient management system for ophthalmic surgery - Google Patents

Patient management system for ophthalmic surgery Download PDF

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CN114093473A
CN114093473A CN202111267495.0A CN202111267495A CN114093473A CN 114093473 A CN114093473 A CN 114093473A CN 202111267495 A CN202111267495 A CN 202111267495A CN 114093473 A CN114093473 A CN 114093473A
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ophthalmic
patient
scheme
module
difficulty
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CN114093473B (en
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王铮
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Guangzhou Aier Eye Hospital Co Ltd
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Guangzhou Aier Eye Hospital Co Ltd
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    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H40/00ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
    • G16H40/20ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the management or administration of healthcare resources or facilities, e.g. managing hospital staff or surgery rooms
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H20/00ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance
    • G16H20/40ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to mechanical, radiation or invasive therapies, e.g. surgery, laser therapy, dialysis or acupuncture

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Abstract

The invention discloses an ophthalmologic operation patient management system which comprises an information acquisition end, an operation scheme generation end, a personnel distribution end and an article distribution end, wherein a plurality of optimal parameter sets corresponding to operation schemes are generated, the first ophthalmologic operation scheme of a first patient is generated according to the acquired preoperative examination data of the first patient and the optimal parameter sets corresponding to different ophthalmologic operation schemes in a matching mode, meanwhile, the generated first ophthalmologic operation scheme is graded, a corresponding number of medical care personnel are reasonably configured, and the nursing personnel are enabled to take charge of corresponding medical instruments and medicines. Compared with the prior art, nursing staff are configured according to the difficulty level of the patient operation scheme, reasonable utilization of the staff is achieved, working efficiency is improved, and potential safety hazards are reduced.

Description

Patient management system for ophthalmic surgery
Technical Field
The invention relates to the technical field of medical systems, in particular to an ophthalmic surgery patient management system.
Background
With the improvement of medical level and the development of science and technology, surgical treatment becomes the first choice treatment means of many diseases, taking ophthalmology as an example, the ophthalmology medical market includes three large plates of ophthalmology diagnosis and treatment, laser myopia operation and medical vision, wherein 70% can be treated through the operation, but to different ophthalmology diseases, the difficulty of performing surgical treatment is different, the high and low energy of nursing staff level directly or indirectly helps doctors to perform operations better, the efficiency is improved, but the current nursing staff level is uneven, nursing staff are directly configured according to a shift list, and the improvement of the operation efficiency is not facilitated.
The demand of current ophthalmic surgery is higher, and patient's number is more, and ophthalmic surgery goes on under local anesthesia mostly, and the operating time is shorter for the mobile degree of patient of operation is great in the short term, changes medical instrument and medicine in the short time, causes the confusion of medical instrument and medicine during the operation easily, for guaranteeing the security, needs to spend more time to verify, influences efficiency.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: the utility model provides an ophthalmic surgery patient management system, through the different nursing staff of degree of difficulty configuration according to patient's operation scheme, realize personnel's rational utilization, raise the efficiency, reduce the potential safety hazard.
In order to solve the above technical problem, the present invention provides an ophthalmic surgery patient management system, comprising: the information acquisition end, the operation scheme generation end, personnel distribution end and article distribution end specifically are:
the information acquisition terminal is used for acquiring nursing staff information and first patient information, wherein the first patient information comprises preoperative examination data;
the operation scheme generation planning terminal is used for generating a plurality of training data sets according to historical preoperative examination data of patients corresponding to a plurality of ophthalmic operation schemes, processing the training data sets, generating optimal parameter sets corresponding to the ophthalmic operation schemes, acquiring the ophthalmic operation scheme corresponding to a first patient according to the data matching rate of the first patient information and the optimal parameter sets corresponding to the ophthalmic operation schemes, taking the ophthalmic operation scheme as a first ophthalmic operation scheme to be generated, and then performing difficulty grade division on the first ophthalmic operation scheme;
the staff distributing end is used for grading the collected nursing staff information and distributing nursing staff with corresponding grades according to the difficulty grade of the first ophthalmic surgery scheme;
the article distribution end is used for distributing medical equipment and medicines corresponding to the first ophthalmic surgery scheme to nursing staff corresponding to the first ophthalmic surgery scheme.
Further, the surgical plan generation planning end comprises an acquisition module, an optimal parameter generation module and a matching module, and specifically comprises:
the acquisition module is used for acquiring historical preoperative examination data of a large number of ophthalmic patients corresponding to a plurality of ophthalmic surgical schemes and generating a plurality of training data sets corresponding to the plurality of ophthalmic surgical schemes;
the optimal parameter generation module is configured to classify the plurality of training data sets according to a single preoperative examination item of a single ophthalmologic operation scheme in the plurality of ophthalmologic operation schemes, acquire optimal parameters of the single preoperative examination item of the single ophthalmologic operation scheme under the classification, generate an optimal parameter set of the single ophthalmologic operation scheme, traverse the plurality of ophthalmologic operation schemes, generate a plurality of optimal parameter sets corresponding to the plurality of ophthalmologic operation schemes, and the matching module is configured to match the acquired preoperative examination item data of the first patient with the optimal parameter sets corresponding to the plurality of ophthalmologic operation schemes, and acquire an ophthalmologic operation scheme corresponding to a highest data matching rate as a to-be-generated first ophthalmologic operation scheme of the first patient.
Further, the operation scheme generation planning end further comprises a label making module and a grade difficulty dividing module, and the operation scheme generation planning end specifically comprises the following steps:
the tagging module is configured to formulate a set of tags for the plurality of ophthalmic surgical protocols, the set of tags including: technical difficulty, complexity, and risk, each tag in the set of tags containing four levels;
the grade difficulty division module is used for combining the labels according to grades, dividing different difficulty grades according to different label combinations, and simultaneously acquiring the grade difficulty of the first ophthalmic surgery scheme according to the label combination of the first ophthalmic surgery scheme, wherein the difficulty grades comprise a first difficulty grade, a second difficulty grade, a third difficulty grade and a fourth difficulty grade.
Further, the information acquisition end includes nursing staff information acquisition module and with patient information acquisition module, specifically is:
the nursing staff information acquisition module is used for acquiring the working information of all nursing staff in the hospital, wherein the working information comprises: years of employment, operating room accompanying times and schedule; grading all the nursing staff according to the years of work and the times of accompanying of the operating room, wherein the grades comprise a first grade, a second grade, a third grade and a fourth grade;
the patient information acquisition module is used for acquiring the first patient information, wherein the first patient information comprises: demographic information and preoperative exam information.
Further, the staff distributing end comprises a nursing staff distributing module, which specifically comprises:
the nursing staff allocation module is used for allocating nursing staff of corresponding levels according to the difficulty level of the first ophthalmic surgery scheme and allocating a corresponding number of nursing staff according to the first ophthalmic surgery schemes with different difficulty levels, wherein the difficulty level of the first ophthalmic surgery scheme is in direct proportion to the number of the nursing staff.
Further, the article distribution end comprises an article distribution module, specifically:
the article distribution module is used for obtaining the medical instruments and medicines of the ophthalmic surgery corresponding to the first ophthalmic surgery scheme according to the article distribution module, and obtaining a list of medical staff with corresponding quantity distributed according to the first ophthalmic surgery scheme with different difficulty levels, so that the medical staff in the list of medical staff are correspondingly responsible for different medical instruments and medicines.
Compared with the prior art, the ophthalmic surgery patient management system provided by the embodiment of the invention has the following beneficial effects:
an ophthalmic surgical patient management system comprising: the system comprises an information acquisition end, an operation scheme generation planned end, a personnel distribution end and an article distribution end, wherein the optimal parameter sets corresponding to a plurality of operation schemes are generated, the optimal parameter sets corresponding to the plurality of operation schemes are matched according to acquired preoperative examination data of a first patient, the first ophthalmic operation scheme to be generated of the first patient is generated, the workload of a doctor can be further reduced, the efficiency is improved under the condition of large workload, meanwhile, the first ophthalmic operation scheme to be generated is graded, corresponding nursing personnel are reasonably configured, and the nursing personnel are enabled to be responsible for corresponding medical instruments and medicines, the accuracy of the configuration of the medical instruments and the medicines is ensured, and the potential safety hazard is reduced. Compared with the prior art, the nursing staff is configured according to the difficulty level of the patient operation scheme, so that the staff is reasonably utilized, the efficiency is improved, and the potential safety hazard is reduced.
Drawings
FIG. 1 is a schematic block diagram of one embodiment of an ophthalmic surgical patient management system provided by the present invention;
FIG. 2 is a schematic structural diagram of an information acquisition end of an embodiment of the ophthalmic surgical patient management system provided by the present invention;
FIG. 3 is a schematic structural diagram of a surgical plan generation-ready end of an embodiment of the ophthalmic surgical patient management system provided by the present invention;
FIG. 4 is a schematic diagram of a personnel dispensing end of one embodiment of an ophthalmic surgical patient management system provided by the present invention;
fig. 5 is a schematic structural view of an article dispensing end of an embodiment of an ophthalmic surgical patient management system provided by 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 present application, 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.
Example 1
Referring to fig. 1, fig. 1 is a schematic flowchart of an embodiment of an ophthalmic surgery patient management system provided by the present invention, and as shown in fig. 1, the system includes an information acquisition end 101, a surgical plan generation end 102, a personnel distribution end 103, and an article distribution end 104, which are as follows:
the information collecting terminal 101 is used for collecting caregiver information and first patient information, wherein the first patient information includes preoperative examination data.
In this embodiment, the information collecting terminal 101 includes a caregiver information collecting module 1011 and a patient information collecting module 1012, as shown in fig. 2.
In this embodiment, the caregiver information collecting module 1011 is configured to collect the work information of all the caregivers in the hospital, wherein the work information includes: years of employment, operating room accompanying times and schedule; the information of all nursing staff in the hospital can be acquired according to personal data collected when the nursing staff enter the work, and the information of the work corresponding to all the nursing staff is input into the ophthalmic surgery patient management system, wherein the information of the work entering includes but is not limited to the graduation year of the nursing staff. As an example in this embodiment, the ophthalmic surgical patient management system obtains the working years of the nursing staff by extracting the graduation year from the personal data of the nursing staff, and calculating the difference between the graduation year and the current year, so as to generate a working year set corresponding to all the nursing staff; meanwhile, for the statistics of the number of times of accompanying in the operating room of the nursing staff, the ophthalmologic operation patient management system can perform statistics according to a schedule of the nursing staff, wherein the schedule includes but is not limited to the working time, the working content and the leave-on information, and updates the number of times of accompanying in the operating room of the nursing staff according to the preset time, wherein the preset time can be one week or one month, and can be adjusted according to the requirements of a hospital.
In this embodiment, the ophthalmic surgery patient management system performs automatic grade division on all nursing staff according to the acquired working years and the acquired surgical accompanying times of the nursing staff, and the grades of the nursing staff include a first grade, a second grade, a third grade and a fourth grade. As a preferable scheme in this embodiment, the grade of the caregiver with the working years lower than the first year limit threshold and the operation accompanying times lower than the first preset time threshold is classified into a first grade; classifying the grades of the nursing staff with the working years greater than a first age threshold and less than or equal to a second age threshold, and the operation accompanying times greater than a first preset time and less than or equal to a second preset time threshold into second grades; classifying the grades of the nursing staff with the working years larger than a second age threshold and the operation accompanying times larger than a second preset time threshold into a third grade; and classifying the grades of the nursing staff with the working years larger than a third year threshold and the operation accompanying times larger than a third preset time threshold into a fourth grade, wherein the settings of the first year threshold, the second year threshold, the first year threshold, the second preset time threshold, the third preset time threshold and the third preset time threshold are mainly set according to the requirements of the hospital, for example, the grades of the nursing staff with the working years smaller than one year and the operation accompanying times smaller than 20 times are classified into the first grade. Similarly, the caregiver's ratings are updated at preset times, which may be in months or years.
In this embodiment, after all the nursing staff are automatically graded, the ophthalmic surgery patient management system automatically generates a nursing staff grade form table according to the grading result, wherein the nursing staff grade form table includes a first-level nursing staff name form table, a second-level nursing staff name form table, a third-level nursing staff name form table, and a fourth-level nursing staff name form table.
In this embodiment, the patient information collecting module 1012 is configured to collect the first patient information, where the first patient information includes: demographic information and preoperative exam information. When a first patient is admitted, acquiring the demographic information of the first patient according to a normal admission process, and registering the acquired demographic information of the first patient in the ophthalmologic operation patient management system, wherein the demographic information of the first patient comprises age, sex, medicine allergy history, occupation and past ophthalmologic medical history. Meanwhile, preoperative ophthalmic examination data which is performed after the first patient is admitted is acquired according to the type of the ophthalmic surgery reserved by the first patient. As an example in this embodiment, if the first patient is scheduled to perform a myopia operation, the pre-operative ophthalmic examination data includes, but is not limited to, a visual examination and an optometry, knowing the accurate myopia degree and astigmatism degree of the first patient, examining the corneal topography of the first patient, determining the thickness of the cornea of the eye, the corneal curvature, and the like.
The surgical plan generation end 102 is configured to generate a plurality of training data sets according to historical preoperative examination data of patients corresponding to a plurality of ophthalmic surgical plans, process the plurality of training data sets, generate optimal parameter sets corresponding to the plurality of ophthalmic surgical plans, acquire an ophthalmic surgical plan corresponding to a first patient according to a data matching rate of the first patient information and the optimal parameter sets corresponding to the plurality of ophthalmic surgical plans, serve as a first ophthalmic surgical plan to be generated, and then perform difficulty level division on the first ophthalmic surgical plan.
In this embodiment, the surgical plan generation end 102 includes an obtaining module 1021, an optimal parameter generation module 1022, and a matching module 1023, as shown in fig. 3. In this embodiment, the obtaining module 1021 is configured to obtain historical preoperative examination data of a large number of ophthalmic patients corresponding to a plurality of ophthalmic surgical schemes, and generate a plurality of training data sets corresponding to the plurality of ophthalmic surgical schemes. According to the type of the ophthalmic surgery reserved by the first patient, a plurality of ophthalmic surgery schemes corresponding to the type of the ophthalmic surgery and stored in the ophthalmic surgery patient management system are obtained, historical preoperative examination data of a large number of ophthalmic patients corresponding to the plurality of ophthalmic surgery schemes are obtained, and the historical preoperative examination data of the plurality of ophthalmic patients corresponding to the single ophthalmic surgery scheme is used as a training set to generate a plurality of training data sets corresponding to the plurality of ophthalmic surgery schemes. As an example in this embodiment, when the type of the ophthalmic surgery scheduled by the first patient is a near-sighted ophthalmic surgery, a plurality of ophthalmic surgery plans of the near-sighted ophthalmic surgery, such as a full-femtosecond ophthalmic surgery plan and a half-femtosecond ophthalmic surgery plan, are acquired, historical preoperative inspection data of a plurality of patients regarding the full-femtosecond ophthalmic surgery plan in the ophthalmic surgery patient management system is acquired, historical preoperative inspection data of a plurality of patients of the half-second ophthalmic surgery plan is acquired at the same time, the historical preoperative inspection data of the plurality of patients of the full-femtosecond ophthalmic surgery plan is integrated to form a training data set of the full-femtosecond ophthalmic surgery plan, and the historical preoperative inspection data of the plurality of patients of the half-femtosecond ophthalmic surgery plan is integrated to form a training data set of the half-femtosecond ophthalmic surgery plan.
In this embodiment, the optimal parameter generating module 1022 is configured to classify the plurality of training data sets according to a single preoperative examination item of a single ophthalmologic operation scheme in the plurality of ophthalmologic operation schemes, acquire optimal parameters of the single preoperative examination item of the single ophthalmologic operation scheme under the classification, generate an optimal parameter set of the single ophthalmologic operation scheme, traverse the plurality of ophthalmologic operation schemes, and generate a plurality of optimal parameter sets corresponding to the plurality of ophthalmologic operation schemes. The method comprises the steps of using a single training data set corresponding to a single ophthalmic surgery scheme as an original development data set, using a plurality of data corresponding to different ophthalmic preoperative examination items under the single training data set generated after classification processing of the original development data set as a development data set of a pre-training algorithm model, carrying out mean value calculation on the development data set in a mode of supporting a vector set, a random deep forest or an artificial neural network and the like, using the obtained mean value of the plurality of data of the different ophthalmic preoperative examination items as an optimal parameter of the corresponding single ophthalmic preoperative examination item, generating an optimal parameter set corresponding to the different ophthalmic preoperative examination items of the single ophthalmic surgery scheme, traversing the plurality of ophthalmic surgery schemes, and generating a plurality of optimal parameter sets corresponding to the plurality of optimal ophthalmic surgery schemes. As an example in this embodiment, a training data set corresponding to a full femtosecond ophthalmic surgery scheme in a myopic ophthalmic surgery is classified according to a single ophthalmic preoperative examination item, for example, the training data set is classified according to a vision examination item, an eye examination item and a corneal topography examination item, preoperative examination data of a plurality of patients corresponding to the vision examination item, the eye examination item and the corneal topography examination item under the classification is obtained, an average value of the preoperative examination data of the plurality of patients corresponding to the vision examination item, the eye examination item and the corneal topography examination item is calculated through a pre-training algorithm model, and is used as an optimal parameter corresponding to the vision examination item, the eye examination item and the corneal topography examination item, and the full femtosecond ophthalmic surgery scheme including an optimal parameter set of a plurality of optimal parameters is generated.
In the embodiment, the pre-training algorithm model is generated by an artificial intelligence technology, and the pre-selection algorithm model can be continuously updated iteratively by further utilizing big data and calculation force advantages, so that the problem of few types of current ophthalmic surgery schemes is solved, and the application range is widened.
In this embodiment, the matching module 1023 is configured to match the acquired preoperative examination item data of the first patient with the optimal parameter sets corresponding to the multiple ophthalmic surgical schemes, and obtain the ophthalmic surgical scheme corresponding to the highest data matching rate as the to-be-generated first ophthalmic surgical scheme of the first patient. The ophthalmic surgery patient management system extracts pre-operative examination data of the first patient collected from the patient information collecting module 1012 in the information collecting terminal 101, and matches the extracted preoperative examination data of the first patient with a plurality of optimal parameter sets corresponding to a plurality of optimal ophthalmic surgical protocols generated in the optimal parameter generation module 1022, generating a plurality of corresponding numerical curves by the ophthalmic surgery patient management system according to the optimal parameter set corresponding to the plurality of ophthalmic surgery schemes, similarly generating the extracted preoperative examination data of the first patient into the numerical curves, and through system comparison, generating a data matching rate between the numerical curve corresponding to the first patient and the numerical curves corresponding to the plurality of ophthalmic surgery schemes, and acquiring the ophthalmic surgery scheme corresponding to the highest value of the data matching rate as the first ophthalmic surgery scheme to be generated of the first patient.
In this embodiment, the surgical plan generating end 102 further includes a label formulation module 1024 and a grade difficulty dividing module 1025, as shown in fig. 3.
In this embodiment, the tagging module 1024 is configured to formulate a set of tags for the plurality of ophthalmic surgical plans, the set of tags including: the label set comprises four grades, wherein the four grades corresponding to each label are respectively low in technical difficulty, general in technical difficulty, high in technical difficulty and high in technology; the operation process is simple, uncomplicated, complex and complex; and less, medium, greater, and greater risk.
In this embodiment, the difficulty level classification module 1025 is configured to combine the tags according to levels, classify different difficulty levels according to different tag combinations, and simultaneously acquire and acquire the level difficulty of the first ophthalmic surgery scheme according to the tag combination of the first ophthalmic surgery scheme, where the difficulty level includes a first difficulty level, a second difficulty level, a third difficulty level, and a fourth difficulty level. As an example in this embodiment, the label combination corresponding to the first difficulty level is various operations with lower technical difficulty, simple operation process, and lower risk; the label combination corresponding to the second difficulty level is various operations with general technical difficulty, uncomplicated operation process and moderate risk; the label combination corresponding to the third difficulty level is various operations with higher technical difficulty, more complex operation process and higher risk; the label combination corresponding to the fourth difficulty level is various operations with high technical difficulty, complex operation process and high risk.
In this embodiment, for the formulation of the tag, an expert formulates an evaluation standard for technical difficulty, complexity, and risk degree in the tag. In the embodiment, a plurality of ophthalmic surgery schemes are subjected to word segmentation processing to generate a word segmentation file set, each word group in the word segmentation text set is converted into a space vector through a weighting optimization algorithm, so that a space vector set corresponding to each word segmentation text is obtained, the word segmentation file set is subjected to datamation, the space vector set is divided into a verification set and a training set, the space vector set is subjected to model training to generate an original evaluation model, the original evaluation model is subjected to model tuning processing in combination with the verification set to generate a pre-trained evaluation model, the plurality of ophthalmic surgery schemes are subjected to technical difficulty, complexity and risk degree evaluation to generate a predicted evaluation result, the evaluation result is compared with the established technical difficulty, complexity and risk degree evaluation standards, and corresponding label combinations of the plurality of ophthalmic surgery schemes are generated according to the comparison result.
The staff distributing terminal 103 is used for grading the collected caregiver information and distributing the caregivers of corresponding grades according to the difficulty grade of the first ophthalmic surgery scheme.
In this embodiment, the staff dispensing end 103 comprises a caregiver dispensing module 1031, as shown in fig. 4. The caregiver distribution module 1031 is configured to distribute caregivers of corresponding grades according to the difficulty grades of the first ophthalmic surgical scheme, and distribute a corresponding number of caregivers according to the first ophthalmic surgical scheme with different difficulty grades, where the difficulty grade of the first ophthalmic surgical scheme is proportional to the number of the caregivers. As an example in this embodiment, the number of medical care personnel corresponding to ophthalmic surgery schemes with different difficulty levels is preset in the ophthalmic surgery patient management system, the scheduled time of the ophthalmic surgery is obtained, the duty information of the current medical care personnel in the time period is obtained according to the duty list of the medical care personnel, the corresponding number of the medical care personnel are randomly scheduled to be responsible for the ophthalmic surgery scheme in combination with the levels of the medical care personnel, and the schedule list information corresponding to the medical care personnel is updated after scheduling, so that the medical care personnel can obtain the work content in time. The higher the difficulty level of the ophthalmic surgery is, the longer the time is needed, the larger the workload is, nursing staff can be distributed according to the difficulty level of the ophthalmic surgery, doctors can be further helped, and the surgery efficiency is improved.
The article dispensing end 104 is used for dispensing medical instruments and medicines corresponding to the first ophthalmic surgery scheme to a caregiver corresponding to the first ophthalmic surgery scheme.
In this embodiment, the item dispensing end 104 includes an item dispensing module 1041, as shown in FIG. 5. The article distribution module 1041 is configured to obtain, according to the ophthalmic surgery medical devices and medicines corresponding to the first ophthalmic surgery scheme, and obtain, at the same time, a list of nursing staff corresponding to the number distributed according to the first ophthalmic surgery scheme with different difficulty levels, so that the nursing staff in the list of nursing staff are correspondingly responsible for different medical devices and medicines.
In this embodiment, when a first ophthalmic surgery scheme to be generated of a first patient is determined, a medical instrument list and a drug list corresponding to the first ophthalmic surgery scheme are obtained, corresponding sequence codes are configured for the obtained medical instrument list and the drug list one by one, meanwhile, a corresponding number of nursing staff lists allocated to the first ophthalmic surgery scheme are obtained, and the sequence codes are randomly allocated to corresponding nursing staff, so that the nursing staff can take corresponding medical instruments and drugs according to the sequence codes, and update conditions of the medical instruments and the drugs. As an example in this embodiment, after the ophthalmic surgery patient management system first performs serial code configuration on a medical instrument list and a drug list corresponding to a first ophthalmic surgery plan of a first patient, currently, the use condition of the medical instrument and the drug is to be dispensed; the medical instrument list and the medicine list are compared one by special distribution personnel, then distributed to the corresponding operating rooms and stored at the corresponding positions, and at the moment, the use condition of the medical instrument and the medicine is updated to be that the medical instrument and the medicine are placed in the operation room for taking; before the surgery is started, a corresponding number of caregivers assigned by the first ophthalmic surgery scheme check and take the corresponding medical instruments and medicines according to the serial code and place them at the corresponding positions for use. Compared with the prior art that the medical instruments and the medicines are only checked and distributed to the operating room by the distribution personnel, in the embodiment, the medical instruments and the medicines which are respectively checked by the corresponding nursing personnel are additionally arranged, the accuracy of distributing the medical instruments and the medicines is further improved, the error rate is reduced, meanwhile, the serial numbers of the medical instruments and the medicines are configured and distributed to the special nursing personnel for taking charge, the follow-up responsibility tracing is facilitated, and the management system is perfected.
In summary, the ophthalmic surgery patient management system of the present invention includes an information acquisition end, a surgery plan generation end, a personnel distribution end and an article distribution end, and generates a first ophthalmic surgery plan to be generated for a first patient by generating optimal parameter sets corresponding to a plurality of surgery plans and matching the collected preoperative examination data of the first patient with the optimal parameter sets corresponding to the plurality of surgery plans, so as to further reduce the workload of a doctor, improve the efficiency under the condition of large workload, and simultaneously perform grade division on the first ophthalmic surgery plan to be generated, so as to reasonably configure corresponding nursing staff, enable the nursing staff to be responsible for corresponding medical instruments and medicines, ensure the accuracy of medical instrument and medicine configuration, and reduce the potential safety hazard. Compared with the prior art, the nursing staff is configured according to the difficulty level of the patient operation scheme, so that the staff is reasonably utilized, the efficiency is improved, and the potential safety hazard is reduced.
The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (6)

1. An ophthalmic surgical patient management system, comprising: the information acquisition end, the operation scheme generation end, personnel distribution end and article distribution end specifically are:
the information acquisition terminal is used for acquiring nursing staff information and first patient information, wherein the first patient information comprises preoperative examination data;
the operation scheme generation planning terminal is used for generating a plurality of training data sets according to historical preoperative examination data of patients corresponding to a plurality of ophthalmic operation schemes, processing the training data sets, generating optimal parameter sets corresponding to the ophthalmic operation schemes, acquiring the ophthalmic operation scheme corresponding to a first patient according to the data matching rate of the first patient information and the optimal parameter sets corresponding to the ophthalmic operation schemes, taking the ophthalmic operation scheme as a first ophthalmic operation scheme to be generated, and then performing difficulty grade division on the first ophthalmic operation scheme;
the staff distributing end is used for grading the collected nursing staff information and distributing nursing staff with corresponding grades according to the difficulty grade of the first ophthalmic surgery scheme;
the article distribution end is used for distributing medical equipment and medicines corresponding to the first ophthalmic surgery scheme to nursing staff corresponding to the first ophthalmic surgery scheme.
2. The ophthalmic-surgery patient management system of claim 1, wherein the surgical-plan generating end comprises an obtaining module, an optimal-parameter generating module, and a matching module, and specifically comprises:
the acquisition module is used for acquiring historical preoperative examination data of a large number of ophthalmic patients corresponding to a plurality of ophthalmic surgical schemes and generating a plurality of training data sets corresponding to the plurality of ophthalmic surgical schemes;
the optimal parameter generation module is configured to classify the plurality of training data sets according to a single preoperative examination item of a single ophthalmologic operation scheme in the plurality of ophthalmologic operation schemes, acquire optimal parameters of the single preoperative examination item of the single ophthalmologic operation scheme under the classification, generate an optimal parameter set of the single ophthalmologic operation scheme, traverse the plurality of ophthalmologic operation schemes, generate a plurality of optimal parameter sets corresponding to the plurality of ophthalmologic operation schemes, and the matching module is configured to match the acquired preoperative examination item data of the first patient with the optimal parameter sets corresponding to the plurality of ophthalmologic operation schemes, and acquire an ophthalmologic operation scheme corresponding to a highest data matching rate as a to-be-generated first ophthalmologic operation scheme of the first patient.
3. The ophthalmic surgery patient management system of claim 2, wherein the surgical plan generation end further comprises a label formulation module and a grade difficulty division module, and specifically comprises:
the tagging module is configured to formulate a set of tags for the plurality of ophthalmic surgical protocols, the set of tags including: technical difficulty, complexity, and risk, each tag in the set of tags containing four levels;
the grade difficulty division module is used for combining the labels according to grades, dividing different difficulty grades according to different label combinations, and simultaneously acquiring the grade difficulty of the first ophthalmic surgery scheme according to the label combination of the first ophthalmic surgery scheme, wherein the difficulty grades comprise a first difficulty grade, a second difficulty grade, a third difficulty grade and a fourth difficulty grade.
4. The ophthalmic surgery patient management system of claim 1, wherein the information collection end comprises a caregiver information collection module and a patient information collection module, and specifically comprises:
the nursing staff information acquisition module is used for acquiring the working information of all nursing staff in the hospital, wherein the working information comprises: years of employment, operating room accompanying times and schedule; grading all the nursing staff according to the years of work and the times of accompanying of the operating room, wherein the grades comprise a first grade, a second grade, a third grade and a fourth grade;
the patient information acquisition module is used for acquiring the first patient information, wherein the first patient information comprises: demographic information and preoperative exam information.
5. An ophthalmic surgical patient management system according to claim 4, wherein the staff allocation end comprises a caregiver allocation module, in particular:
the nursing staff allocation module is used for allocating nursing staff of corresponding levels according to the difficulty level of the first ophthalmic surgery scheme and allocating a corresponding number of nursing staff according to the first ophthalmic surgery schemes with different difficulty levels, wherein the difficulty level of the first ophthalmic surgery scheme is in direct proportion to the number of the nursing staff.
6. An ophthalmic surgical patient management system according to claim 5, wherein the item dispensing end comprises an item dispensing module, in particular:
the article distribution module is used for obtaining the medical instruments and medicines of the ophthalmic surgery corresponding to the first ophthalmic surgery scheme according to the article distribution module, and obtaining a list of medical staff with corresponding quantity distributed according to the first ophthalmic surgery scheme with different difficulty levels, so that the medical staff in the list of medical staff are correspondingly responsible for different medical instruments and medicines.
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