CN116785591A

CN116785591A - Method and device for initially binding energy controller and stimulator in operation and electronic equipment

Info

Publication number: CN116785591A
Application number: CN202310755734.XA
Authority: CN
Inventors: 徐天睿; 唐艳辉
Original assignee: Beijing Lingchuang Yigu Technology Development Co ltd
Current assignee: Beijing Lingchuang Yigu Technology Development Co ltd
Priority date: 2023-06-25
Filing date: 2023-06-25
Publication date: 2023-09-22
Anticipated expiration: 2043-06-25
Also published as: CN116785591B

Abstract

The application relates to a method, a device and electronic equipment for initially binding an energy controller and a stimulator in an operation. The method comprises the following steps: in the operation process, after acquiring a device implantation request, sending an information acquisition signal to a doctor end and receiving an uploading result of the doctor end; determining a stimulator to be implanted, an energy controller to be bound and a patient to be operated according to the uploading result; binding the to-be-implanted stimulator, the to-be-bound energy controller and the to-be-operated patient, and writing the information of the to-be-implanted stimulator, the information of the to-be-bound energy controller, the information of the to-be-operated patient and the binding relation information back to the to-be-bound energy controller and the to-be-implanted stimulator through the energy controller interface so that the to-be-bound energy controller and the to-be-implanted stimulator interact based on the binding relation information. The energy controller to be bound, the stimulator to be implanted and the patient to be operated are bound in a one-to-one correspondence manner, so that the stimulator is not connected by other equipment, and the program control safety is improved.

Description

Method and device for initially binding energy controller and stimulator in operation and electronic equipment

Technical Field

The application relates to the field of data processing, in particular to a method, a device and electronic equipment for initially binding an energy controller and a stimulator in operation.

Background

Currently, an implantable neurostimulation system is used for neurostimulation therapy. The implantable neural electrical stimulation system includes an implantable neural stimulator and an external energy controller. The stimulator can be implanted into a human body, and an external energy controller sends parameters of pulse signals to the implanted nerve stimulator, so that the stimulator can send pulse signals to nerves in the human body through an internal electrode to realize the therapeutic effect.

At present, doctors mostly implant the stimulator into a patient in the operation process, but the controllable device generally needs the patient to bind through Bluetooth after the operation, and the patient can normally control the stimulator only after the controllable device is bound. However, this mode is limited by the bluetooth range, and if the controller is out of bluetooth range, the controller will automatically disconnect, and this controller can be bound by anyone, thus making the patient's program control unsafe.

Disclosure of Invention

The application provides a method, a device and electronic equipment for initially binding an energy controller and a stimulator in operation, which aim to solve the technical problems.

In a first aspect, the present application provides a method of intraoperatively initially binding an energy controller and a stimulator, comprising:

In the operation process, after acquiring a device implantation request, sending an information acquisition signal to a doctor end, and receiving an uploading result of the doctor end;

determining a stimulator to be implanted, an energy controller to be bound and a patient to be operated according to the uploading result;

binding the to-be-implanted stimulator, the to-be-bound energy controller and the to-be-operated patient, and writing back the information of the to-be-implanted stimulator, the information of the to-be-bound energy controller, the information of the to-be-operated patient and binding relation information to the to-be-bound energy controller and the to-be-implanted stimulator through an energy controller interface so that the to-be-bound energy controller and the to-be-implanted stimulator interact based on the binding relation information.

Through the scheme provided by the embodiment, after the equipment implantation request is acquired in the operation process, the current equipment implantation is determined, and at the moment, an information acquisition signal is sent to the doctor end so that the doctor end can acquire information and receive the result uploaded by the doctor end. And determining the stimulator to be implanted, the energy controller to be bound and the patient to be operated from the uploaded result, binding the stimulator to be implanted, the information of the energy controller to be bound, the information of the patient to be operated and the binding relation information are written back to the energy controller to be bound and the stimulator to be implanted through the energy controller interface, so that the energy controller to be bound and the stimulator to be implanted interact based on the binding relation information. Through the mode, the three parts are bound in the operation process, the inconvenience caused by the fact that a patient needs to find the energy controller independently after the operation is avoided, in addition, the three parts are in one-to-one correspondence, the fact that the stimulator cannot be connected by other equipment is guaranteed, and the program control safety can be improved.

Optionally, the device implantation request includes initiator information; before sending the information acquisition signal to the doctor side, the method comprises the following steps:

according to the sponsor information, calling operation reservation information of the sponsor;

determining whether the initiator currently has an operation to be performed according to the operation reservation information;

the step of sending an information acquisition signal to a doctor according to the device implantation request comprises the following steps:

if the operation to be performed currently exists in the sponsor, an information acquisition signal is sent to a doctor side according to the equipment implantation request.

By means of the scheme provided by the embodiment, whether the equipment implantation request sent by the sponsor is real or not can be determined by retrieving the operation reservation information, so that malicious equipment implantation requests can be reduced, and at the moment, only the equipment implantation request sent by the sponsor with the operation at present is corresponding, so that resource consumption and waste can be avoided as much as possible.

Optionally, the calling the operation appointment information of the sponsor according to the sponsor information includes:

according to the sponsor information, matching a doctor information database, and determining whether a doctor corresponding to the sponsor information exists;

If a doctor corresponding to the sponsor information exists, an information acquisition request is initiated to a hospital information system;

and according to the content fed back by the information acquisition request of the hospital information system, calling the operation reservation information of the doctor.

Through the scheme provided by the embodiment, database matching can be performed through the initiator information, so that the danger possibly caused by malicious attack is avoided. In addition, because the information contained in the hospital information system is more comprehensive, when the sponsor is determined to belong to the hospital, an information acquisition request can be initiated to the hospital information system, all information of the sponsor is obtained, and operation reservation information is extracted from the information, so that the problem of data omission caused by manual searching can be avoided.

Optionally, the uploading result includes patient information and device information, the device information includes stimulator information and energy controller information, and determining, according to the uploading result, a stimulator to be implanted, an energy controller to be bound and a patient to be operated on includes: determining the serial number and mac address of the scanned stimulator according to the stimulator information;

determining whether the scanned stimulator belongs to a normal stimulator according to the serial number and the mac address;

If the scanned stimulator belongs to the normal stimulator, retrieving information corresponding to the scanned stimulator in a device database according to the mac address, and determining whether the scanned stimulator is used or not;

if the scanned stimulator is not used, determining the scanned stimulator as a stimulator to be implanted; determining an energy controller to be bound according to the energy controller information;

and determining the patient to be operated according to the patient information.

According to the scheme provided by the embodiment, the serial number and the mac address of the scanned stimulator are obtained through the stimulator information, so that whether the scanned stimulator is normal or not is judged, and the phenomenon that the patient is affected by an improper stimulator is avoided. In addition, under the condition that the scanned stimulator is compliant, whether the scanned stimulator is used or not is judged by calling the information in the database, so that the influence of the secondarily used stimulator on the treatment of a patient is avoided, and meanwhile, the possible harm caused by the secondarily used stimulator can be avoided as much as possible.

Optionally, the binding the stimulator to be implanted, the energy controller to be bound, and the patient to be operated on includes:

after determining a stimulator to be implanted and an energy controller to be bound according to the stimulator information and the energy controller information, binding the stimulator to be implanted and the energy controller to be bound;

And after the patient to be operated is determined according to the patient information, binding the bound stimulator to be implanted, the bound energy controller and the patient to be operated.

Through the scheme provided by the embodiment, the two devices, namely the stimulator to be implanted and the energy controller to be bound, are bound together, so that interaction between the two devices is ensured. And then binding the patient with the patient, and ensuring one-to-one correspondence of the patient, the patient and the patient.

Optionally, after determining the stimulator to be implanted and the energy controller to be bound according to the stimulator information and the energy controller information, binding the stimulator to be implanted and the energy controller to be bound includes:

creating equipment objects of the stimulator to be implanted and the energy controller to be bound according to the stimulator information and the energy controller information, and giving corresponding equipment codes to the equipment objects;

creating a relation object between the to-be-implanted stimulator and the to-be-bound energy controller to bind the to-be-implanted stimulator and the to-be-bound energy controller, and giving a corresponding relation code to the relation object; the relationship object includes a device encoding attribute; the relation object is used for representing a one-to-one relation between the stimulator to be implanted and the energy controller to be bound;

After determining the patient to be operated according to the patient information, binding the bound stimulator to be implanted, the bound energy controller and the patient to be operated, including:

generating a patient object according to the patient information, and giving a patient code corresponding to the patient object;

binding the patient object with the equipment object and the relation object according to the patient code, the relation code and the equipment code;

the writing back of the information of the stimulator to be implanted, the information of the energy controller to be bound, the information of the patient to be operated and the binding relation information to the energy controller to be bound and the stimulator to be implanted through the energy controller interface comprises the following steps:

and writing the patient object, the equipment object and the relation object back to the to-be-bound energy controller and the to-be-implanted stimulator through an energy controller interface.

According to the scheme provided by the embodiment, the stimulator to be implanted, the energy controller to be bound and the patient to be operated are respectively set as corresponding equipment objects, relation objects and patient objects, and three codes corresponding to the three codes, namely, patient codes, relation codes and equipment codes are given. The device object, the relation object and the patient object are bound in a one-to-one correspondence manner through the patient code, the relation code and the device code, so that the binding purpose is achieved.

Optionally, the information acquisition signal includes a patient information acquisition signal, and the sending the information acquisition signal to the doctor end and receiving the uploading result of the doctor end includes:

sending a patient information acquisition signal to the doctor end so that the doctor end scans the information carrier of the patient to be operated and feeds back patient information;

and receiving the patient information fed back by the doctor side.

By the scheme provided by the embodiment, the doctor can scan the information carrier of the patient to be operated by utilizing the doctor end, so that the information of the patient is directly obtained, and the situation that the information of the patient is wrong due to other approaches is avoided.

sending a patient information acquisition signal to the doctor side so that the doctor side can call a case of a patient with surgery in a preset period from a case database; the preset time period comprises the current time;

screening the cases to determine patients needing stimulator implantation;

according to the operation appointment information, matching the patient of the sponsor with the patient needing stimulator implantation;

And determining a patient which is corresponding to the initiator and needs to be subjected to stimulator implantation at the current moment according to the matching result, and extracting patient information from the case of the patient which is corresponding to the initiator and needs to be subjected to stimulator implantation.

Through the scheme provided by the embodiment, the case of the patient needing to perform the operation in the preset time period is firstly called. And determining whether a patient needing stimulator implantation exists in the preset period, and if so, matching the patient with the operation appointment information corresponding to the sponsor, so as to determine whether the sponsor exists the patient needing stimulator implantation. If present, the corresponding case is called, and the patient information is extracted therefrom. Thus, an initiator is not required to use the doctor end to actively scan the information carrier of the patient to acquire the patient information, and the operation time is saved. Patient information is extracted directly from the case, and is more comprehensive.

In a second aspect, the present application provides an apparatus for intraoperative initial binding of an energy controller and stimulator, comprising:

the result receiving module is used for sending an information acquisition signal to a doctor end after acquiring a device implantation request in the operation process and receiving an uploading result of the doctor end;

The device and patient determining module is used for determining a stimulator to be implanted, an energy controller to be bound and a patient to be operated according to the uploading result;

the binding module is used for binding the to-be-implanted stimulator, the to-be-bound energy controller and the to-be-operated patient, and writing the information of the to-be-implanted stimulator, the information of the to-be-bound energy controller, the information of the to-be-operated patient and the binding relation information back to the to-be-bound energy controller and the to-be-implanted stimulator through the energy controller interface so that the to-be-bound energy controller and the to-be-implanted stimulator interact based on the binding relation information.

Optionally, the device for initially binding the energy controller and the stimulator in the operation comprises an initiator determining module for:

Optionally, the initiator determining module is specifically configured to:

Optionally, the device and patient determination module is specifically configured to:

determining the serial number and mac address of the scanned stimulator according to the stimulator information;

if the scanned stimulator is not used, determining the scanned stimulator as a stimulator to be implanted;

determining an energy controller to be bound according to the energy controller information;

Optionally, the binding module is specifically configured to:

Optionally, the binding module is specifically further configured to:

Optionally, the result receiving module is specifically configured to:

and receiving the patient information fed back by the doctor side.

Optionally, the result receiving module is specifically further configured to:

Screening the cases to determine patients needing stimulator implantation;

In a third aspect, the present application provides an electronic device comprising: a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method of the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium storing a computer program capable of being loaded by a processor and performing the method of the first aspect.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic diagram of a stimulator according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an energy controller according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a structural relationship among a cloud platform, a patient side, a doctor side, an energy controller, and a stimulator according to an embodiment of the present application;

fig. 4 is a schematic view of an application scenario provided in an embodiment of the present application;

FIG. 5 is a flow chart of a method for initially binding an energy controller and a stimulator during surgery according to one embodiment of the present application;

FIG. 6 is a flow chart of a procedure for binding an energy controller, a stimulator and a patient according to one embodiment of the present application;

FIG. 7 is a flowchart illustrating steps for creating a device code according to one embodiment of the present application;

FIG. 8 is a flowchart of a binding procedure of an energy controller and a stimulator according to an embodiment of the present application;

FIG. 9 is a flowchart of a bound write-back procedure according to an embodiment of the present application;

FIG. 10 is a schematic diagram of an apparatus for initially binding an energy controller and a stimulator during surgery according to one embodiment of the present application;

fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In addition, the term "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In this context, unless otherwise specified, the term "/" generally indicates that the associated object is an "or" relationship.

Embodiments of the application are described in further detail below with reference to the drawings.

Implantable medical systems typically include implantable neural electrical stimulation systems (including deep brain electrical stimulation DBS, implantable cortical stimulation CNS, implantable spinal cord electrical stimulation SCS, implantable sacral nerve electrical stimulation SNS, implantable vagal nerve electrical stimulation VNS, etc.), implantable cardiac electrical stimulation systems (commonly known as cardiac pacemakers), implantable drug infusion systems (IDDS), etc.

Taking an implantable nerve electrical stimulation system as an example, the implantable nerve electrical stimulation system mainly comprises a pulse generator implanted in a human body, an electrode and an external control device. The pulse generator is connected with the electrode, so that the pulse generated by the pulse generator is transmitted to the electrode, and the pulse signal generated by the pulse generator is transmitted to a specific nerve target point by the electrode for electric stimulation, so that the human body function is recovered to a normal operation state. The external control device comprises an energy controller, a doctor end program controller and a patient end program controller.

The stimulator is implanted in the body in use, and its structure is shown in figure 1, and the antenna of the stimulator is implanted in subcutaneous fat layer. Comprising the following steps: n (typically 8 or 16) stimulating electrodes, a processor MCU, a memory, an antenna, bluetooth, and various detection modules, such as a temperature detection module, a voltage detection module, an impedance detection module, etc. The electric energy is obtained through the antenna and transmitted to the processor MCU, and the processor MCU is controlled to generate a stimulation waveform and transmit the stimulation waveform to the stimulation electrode. Pulse signals are sent to nerves in the body through the electrodes so as to realize the therapeutic effect. The parameters of the pulse signals come from the energy controller and are received through Bluetooth or radio frequency antennas. The power of the stimulator is also from the energy controller. The stimulator can also realize detection of temperature, voltage, impedance and the like, and the detection result is fed back to the energy controller through Bluetooth.

The energy controller is positioned outside the body, the structure diagram is shown in figure 2, and the antenna of the energy controller is aligned with the antenna of the stimulator in the body so as to achieve higher transmission efficiency. The energy controller comprises: the device comprises a processor MCU, a memory, an antenna, bluetooth, an external communication module and a battery. The wireless power supply is carried out on the stimulator through the radio frequency antenna, wireless communication interaction is carried out on the stimulator through the Bluetooth or the radio frequency antenna, the wireless power supply comprises parameters for sending pulse signals to the stimulator and detection results fed back by the stimulator are received. The external communication module is communicated with the patient end or the doctor end, and the external communication module is WiFi or mobile communication and the like.

The schematic diagram of the structural relationship among the cloud platform, the patient end, the doctor end, the energy controller and the stimulator is shown in fig. 3, wherein the patient end and the doctor end can be devices such as a mobile phone, a PC, a PAD, a smart watch and the like. Various control commands can be sent to the energy controller, and logs reported by the energy controller can be received. The patient end and the doctor end can report the log to the cloud platform and can also receive the control command of the cloud platform. The cloud platform can collect and analyze data of various aspects of a stimulator, an energy controller, a patient end, a doctor end and the like.

The stimulator can be implanted into a human body, and an external energy controller sends parameters of pulse signals to the implanted nerve stimulator, so that the stimulator can send pulse signals to nerves in the human body through an internal electrode to realize the therapeutic effect.

Based on the above, the application provides a method, a device and electronic equipment for initially binding an energy controller and a stimulator in operation. In the operation process, after the equipment implantation request is acquired, the current equipment implantation need to be performed is determined, and an information acquisition signal is sent to a doctor end at the moment, so that the doctor end can conveniently acquire information, and the result uploaded by the doctor end is received. And determining the stimulator to be implanted, the energy controller to be bound and the patient to be operated from the uploaded result, binding the stimulator to be implanted, the information of the energy controller to be bound, the information of the patient to be operated and the binding relation information are written back to the energy controller to be bound and the stimulator to be implanted through the energy controller interface, so that the energy controller to be bound and the stimulator to be implanted interact based on the binding relation information. Through the mode, the three parts are bound in the operation process, the inconvenience caused by the fact that a patient needs to find the energy controller independently after the operation is avoided, in addition, the three parts are in one-to-one correspondence, the stimulator cannot be connected by other equipment, and the program control safety can be improved.

Fig. 4 is a schematic diagram of an application scenario provided by the present application. The proposal provided by the application can be utilized when the stimulator and the energy controller are required to be bound with a patient in the operation process. Firstly, a doctor sends a device implantation request to a cloud platform by utilizing a doctor terminal, and after the cloud platform receives the device implantation request, the cloud platform firstly sends an information acquisition signal to the doctor terminal to obtain an uploading result of the doctor terminal. Then determining the stimulator to be implanted, the energy controller to be bound and the patient to be operated. After binding is completed, corresponding information is written back to the to-be-bound energy controller and the to-be-implanted stimulator through the energy controller interface to interact, one-to-one correspondence among the to-be-bound energy controller and the to-be-implanted stimulator is realized, and therefore other devices are prevented from being connected to the stimulator, and treatment and life safety of a patient are prevented from being influenced.

Reference may be made to the following examples for specific implementation.

Fig. 5 is a flowchart of a method for initially binding an energy controller and a stimulator in surgery according to an embodiment of the present application, where the method of the present embodiment may be applied to a cloud platform in the above scenario. As shown in fig. 5, the method includes:

s501, after a device implantation request is acquired in the operation process, an information acquisition signal is sent to a doctor end, and an uploading result of the doctor end is received.

The information acquisition signal can be a signal which is sent to the doctor end by the cloud platform and can remind the doctor to acquire the information.

If the patient is to be treated by an implantable neurostimulation system, the physician implants the neurostimulation system during the procedure for subsequent treatment.

Before implantation, a doctor is required to initiate an implantation process through doctor-side third-party software equipped in a hospital, so that the doctor can be synchronized into an information system of the hospital, and the implantation condition of a patient can be known conveniently. The doctor end sets an implantation button, and after entering the implantation procedure, clicks the implantation button to send a device implantation request. After receiving the device implantation request, according to the doctor end corresponding to the device implantation request, an information acquisition signal is sent to the doctor end, and the result uploaded by the doctor end is received.

In some implementations, after sending the information acquisition signal, the doctor terminal may pop up the corresponding option, and because there are multiple types of information that may be involved, for convenience in distinguishing and subsequent use, multiple corresponding options may be set, and the doctor selects through the doctor terminal and uploads the information corresponding to the option.

In some implementations, the uploaded information may be simply analyzed, such as extracting some keywords, to determine whether the information belongs to the option, and if not, a reminder of the content mismatch may be sent, so that the doctor confirms the information again, and the problem of subsequent binding is avoided.

S502, determining a stimulator to be implanted, an energy controller to be bound and a patient to be operated according to the uploading result.

Because the implantation of the stimulator is performed on the patient in need of neurostimulation treatment. Therefore, the obtained information, that is, the uploading result fed back by the information obtaining signal, at least includes the information of the patient, the corresponding stimulator and the information of the energy controller.

By means of the method, information corresponding to different options can be distinguished, and therefore the stimulator to be implanted, the energy controller to be bound and the patient to be operated can be directly determined.

S503, binding the to-be-implanted stimulator, the to-be-bound energy controller and the to-be-operated patient, and writing information of the to-be-implanted stimulator, information of the to-be-bound energy controller, information of the to-be-operated patient and binding relation information back to the to-be-bound energy controller and the to-be-implanted stimulator through the energy controller interface so that the to-be-bound energy controller and the to-be-implanted stimulator interact based on the binding relation information.

In some implementations, certain specific functions can be utilized to create an association relationship among the stimulator to be implanted, the energy controller to be bound and the patient to be operated according to the information obtained in the steps, and the association relationship is bound according to the association relationship.

After binding is completed, the information of the stimulator to be implanted, the information of the energy controller to be bound, the information of the patient to be operated and the binding relation information are written back through the energy controller interface, so that the information of the stimulator after binding is in one-to-one correspondence, the corresponding energy controller and the patient can be determined through the information, and the energy controller can also identify the corresponding stimulator and the patient.

Through the scheme provided by the embodiment, after the equipment implantation request is acquired in the operation process, the current equipment implantation is determined, and at the moment, an information acquisition signal is sent to the doctor end so that the doctor end can acquire information and receive the result uploaded by the doctor end. And determining the stimulator to be implanted, the energy controller to be bound and the patient to be operated from the uploaded result, binding the stimulator to be implanted, the information of the energy controller to be bound, the information of the patient to be operated and the binding relation information are written back to the energy controller to be bound and the stimulator to be implanted through the energy controller interface, so that the energy controller to be bound and the stimulator to be implanted interact based on the binding relation information. Through the mode, the three parts are bound in the operation process, the inconvenience caused by the fact that a patient needs to find the energy controller independently after the operation is avoided, in addition, the three parts are in one-to-one correspondence, the stimulator cannot be connected by other equipment, and the program control safety can be improved.

In some embodiments, the sponsor's surgical appointment information is invoked according to the sponsor's information; determining whether an operation to be performed exists by an initiator currently according to operation reservation information; if the operation to be performed currently exists in the sponsor, an information acquisition signal is sent to a doctor side according to the equipment implantation request.

The initiator can be understood as any person who sends a device implantation request, and generally the initiator can be a medical staff with a doctor end, and the staff needs to log in an account when using the doctor end, and can send the logged-in information to the cloud platform together when each operation is performed. This login information may be used as sponsor information, where the sponsor information may include name, gender, etc.

The operation reservation information may be generally stored in an information system of a hospital, may be retrieved from the information system of the hospital by the sponsor information, and may include contents such as a reservation time, an operation type, doctor information, patient information, and the like.

After the operation appointment information of the sponsor is called, whether the sponsor really has an operation at the current moment can be determined according to the operation appointment information. If so, the information acquisition signal can be sent to the doctor side according to the device implantation request. If it is found from the surgical appointment information that the sponsor does not currently need to perform the surgery, the device implantation request may not be responded to.

In some embodiments, according to the sponsor information, matching a doctor information database to determine whether a doctor corresponding to the sponsor information exists; if doctors corresponding to the initiator information exist, an information acquisition request is initiated to a hospital information system; and acquiring the operation reservation information of the doctor according to the content of the response information acquisition request of the hospital information system.

The doctor information database can store information of each medical staff in the hospital, and can be regarded as a small part of an information system of the hospital. After the sponsor information is obtained through the above embodiment, the sponsor information is matched with the medical staff information in the database, and if the sponsor information can be matched, the device implantation request can be considered to be sent by medical staff in a hospital, rather than sent after being attacked maliciously. At this time, an information acquisition request may be initiated to the hospital information system, and this information acquisition request may acquire all the information of this initiator in the hospital. After receiving the information acquisition request, the hospital information system feeds back according to the content of the information acquisition request. The doctor's surgical appointment information may then be extracted from the feedback based on the feedback content.

In some embodiments, the serial number and mac address of the scanned stimulator are determined from the stimulator information; determining whether the scanned stimulator belongs to a normal stimulator according to the serial number and the mac address; if the scanned stimulator belongs to the normal stimulator, retrieving information corresponding to the scanned stimulator in the equipment database according to the mac address, and determining whether the scanned stimulator is used or not; if the scanned stimulator is not used, determining the scanned stimulator as a stimulator to be implanted; determining an energy controller to be bound according to the energy controller information; and determining the patient to be operated according to the patient information.

The uploading result comprises patient information and equipment information, wherein the equipment information comprises stimulator information and energy controller information.

Each stimulator is defined by the manufacturer at the time of production by a unique serial number and mac address. The definition modes of all manufacturers are different, so that whether the stimulator belongs to the manufacturer ordered at the time can be determined through the serial number and the mac address, and if so, the stimulator corresponding to the stimulator information can be considered to belong to the normal stimulator. If it does not belong to the manufacturer ordered at the time, the source of this stimulator is considered to be unknown.

In some implementations, information of the uniformly ordered stimulators, such as implantation information and status information, corresponds to the storage device database, and the information can be updated in real time. Wherein the implantation information may include content such as whether or not to be implanted, implantation patient information, etc.; the status information may include several options to correspond to the status of the stimulator, e.g., an initial status, representing that the stimulator is not in use; a use state representing that it is currently being used; the frozen state represents a state that has been used but has no program record recently, and the like, and is exemplified here.

After determining that the corresponding stimulator in the stimulator information comes from the manufacturer subscribed at the time, retrieving information corresponding to the scanned stimulator in the equipment database according to the mac in the stimulator information, and judging whether the scanned information is used or not by analyzing whether content exists in the implantation information and whether the state is an initial state or not. If the information indicates that the scanned stimulator is not in use, the scanned stimulator may be determined to be the stimulator to be implanted as described above.

In addition, after the energy controller is ordered, the related information is stored in the equipment database, so that whether the scanned energy controller is stored in the equipment database or not can be determined according to the energy controller information, and if the scanned energy controller exists, the scanned energy controller can be used as the energy controller to be bound. In addition, a case database can be arranged in the information system of the hospital to store the cases of the patient, so that the cases of the patient can be fetched from the information system of the hospital, and after the patient information is fetched, the patient information can be matched with the cases of the patient, so that the patient to be operated is determined.

In some embodiments, after determining the stimulator to be implanted and the energy controller to be bound by the stimulator information and the energy controller information, binding the stimulator to be implanted and the energy controller to be bound; after the patient to be operated is determined according to the patient information, the bound stimulator to be implanted, the bound energy controller and the patient to be operated are bound.

When the stimulator to be implanted, the energy controller to be bound and the patient to be operated are bound, the stimulator to be implanted and the energy controller to be bound belong to equipment, so that the stimulator to be implanted and the energy controller to be bound can be bound through stimulator information and energy controller information. And then binding the patient to be operated with the already bound stimulator to be implanted and the to-be-bound energy controller again.

In some embodiments, creating a device object to be implanted with the stimulator and the energy controller to be bound according to the stimulator information and the energy controller information, and giving a corresponding device code to the device object; creating a relation object of the to-be-implanted stimulator and the to-be-bound energy controller to bind the to-be-implanted stimulator and the to-be-bound energy controller, and giving corresponding relation codes to the relation object; the relationship object includes a device encoding attribute; the relation object is used for representing a one-to-one relation between the stimulator to be implanted and the energy controller to be bound; generating a patient object according to the patient information, and giving a patient code corresponding to the patient object; binding the patient object with the equipment object and the relation object according to the patient code, the relation code and the equipment code; and writing the patient object, the equipment object and the relation object back to the to-be-bound energy controller and the to-be-implanted stimulator through the energy controller interface.

In some implementations, before binding the to-be-bound energy controller, the to-be-implanted stimulator and the to-be-operated patient is performed, an initiator, that is, a doctor, is required to successfully log in the doctor end first, and after the doctor successfully logs in, the doctor selects an implantation menu of the device on the front page of the doctor end, and clicks the menu to enter the implantation process of the device. After entering the equipment implantation process, adding equipment, enabling a doctor to manually unseal the energy controller and the stimulator, and then scanning the two-dimensional codes of the unsealed energy controller and the unsealed stimulator by utilizing a doctor end. The energy controller for scanning the codes is used as an energy controller to be bound, and the stimulator for scanning the codes is used as a stimulator to be implanted.

After the code scanning is completed, firstly creating a device object to be implanted with the stimulator and the to-be-bound energy controller in a software layer, wherein the device object is provided with a device code. And then creating a relation object of the to-be-bound energy controller and the to-be-implanted stimulator, and completing the binding of the to-be-bound energy controller and the to-be-implanted stimulator. The relationship object has a relationship code (the relationship object: the controller and the stimulator are bound in a one-to-one relationship and stored as a record in the information system of the hospital). Meanwhile, the relation object contains the equipment coding attribute of the equipment object, and the initial binding of the stimulator to be implanted and the energy controller to be bound is completed through the equipment coding attribute.

After the initial binding of the stimulator to be implanted and the energy controller to be bound is completed, adding the patient corresponding to the patient information as the patient object according to the patient information acquired in the embodiment. And gives its patient code. After the patient object is determined, the patient code corresponding to the patient object is assigned to the equipment object, at the moment, the parameters of the equipment object are changed, and the relation object contains equipment code attributes, so that the equipment code attributes are correspondingly changed, the relation object contains the equipment object and the relation among the equipment objects, and simultaneously contains the patient code corresponding to the newly added patient object, so that the binding of the equipment object, the relation object and the patient object can be realized.

In some embodiments, a patient information acquisition signal is sent to the doctor side to cause the doctor side to scan an information carrier of a patient to be operated on and to feed back patient information; patient information fed back by a doctor side is received.

The information acquisition signal includes a patient information acquisition signal.

An information carrier is understood to be an item that can be used to carry patient information, such as a wristband worn by a patient, which wristband has a bar code thereon, which bar code, when scanned, is known about the patient's information; or an identity document, and the information of the patient to be operated is obtained by identifying the identity document.

When acquiring patient information, a doctor end is supposed to send a patient information acquisition signal, and after receiving the patient information acquisition signal, the doctor end scans an information carrier of a patient to be operated by utilizing a scanning function of the doctor end. And after the scanning is finished, directly feeding back to the cloud platform.

In some embodiments, sending a patient information acquisition signal to the doctor side to cause the doctor side to retrieve a case of a patient having surgery in a preset period of time from a case database; screening the cases to determine the patients needing stimulator implantation; according to the operation appointment information, matching the patient of the sponsor with the patient needing to implant the stimulator; and determining a patient which is corresponding to the initiator and needs to be subjected to stimulator implantation at the current moment according to the matching result, and extracting patient information from the case of the patient which is corresponding to the initiator and needs to be subjected to stimulator implantation.

The preset time period includes the current time. Because there may be some emergency in the operation process, the operation time is longer than the original time, and if the original time is over, there is another operation to be performed immediately, and at this time, the operation start time of the other operation needs to be delayed.

Therefore, the situation that the scheduled time does not coincide with the original scheduled time can occur, and in order to avoid that the operation at the current moment is not the operation scheduled at the original moment, all cases of patients with the operation in the preset time period can be called from the database. And screening the cases to determine whether patients needing stimulator implantation surgery exist in a preset period. If the patient needs to be subjected to stimulator implantation, the patient of the sponsor can be matched with the screened patient needing to be subjected to stimulator implantation according to the operation appointment information of the sponsor. Thereby determining whether a patient requiring stimulator implantation exists in the patient of the sponsor, and if so, indicating that the sponsor is normal to send a device implantation request, processing can be performed. If not, this initiator may click on the error, or may have malicious activity, and may not respond.

And after determining that the patient requiring stimulator implantation exists in the initiator, extracting information from the corresponding case to obtain patient information.

In some embodiments, the patient is collected during the operation and the binding of the controller and the stimulator is completed, so that the patient can directly and quickly log in after the operation, and the controller and the stimulator can be programmed immediately after the login is successful.

The current practice is that: 1) Selecting a control device model; 2) Setting the device to a remote mode according to the app interface prompt and then opening the device; 3) Selecting devices to be bound; 4) Click "bind the device".

The prior art scheme still has unsafe loopholes and is complicated in user operation, so that the experience is not good enough. The specific defects are as follows:

1. if the user Bluetooth is bound to the device by other people nearby, program control is easy to be unsafe;

2. the patient selects the model of the device, then sets the device to a remote mode according to the app prompt, opens the device, searches for the bluetooth of the device, and finally binds the device. The binding process is too complex to facilitate convenient and quick binding of devices.

In order to solve the above problems, the present application provides a solution, referring to fig. 6, a flowchart of a method for binding an energy controller, a stimulator and a patient, wherein the binding between a patient object and a device object can be implemented by patient code, device code; the relation between the device object and the stimulator and the energy controller can be bound through device coding and relation coding. The specific flow is as follows:

1. the doctor App is seamlessly integrated with information systems such as CIS, HIS, LIS, PACS, EMR of a hospital through the hospital IOT (internet of things), and the basic information of the operation reserved by the currently logged-in attending doctor is queried from the CIS system.

2. Pointing device implantation, creating a temporary variable with device Code (information_code) of 6-bit random number when entering an implantation process, and referring to fig. 7 for a specific process.

3. Four steps are taken in the operation of implanting a stimulator into a patient online, the energy controller and the stimulator are scanned in the first step, the relation object between the energy controller and the stimulator is created firstly after the energy controller and the stimulator are scanned, then the equipment object is created, and equipment codes of the two objects are respectively given to be information_code variables, such as relation codes corresponding to the relation object, and equipment codes corresponding to the equipment object. The binding of the device object and the relationship object between the energy controller and the stimulator is completed, and the binding flow can refer to fig. 8, and the device code referred to in the drawing can be regarded as the relationship code and the device code given above.

4. The second step is for the physician to intra-operatively acquire non-implanted patient information in four ways.

The method comprises the steps of 1, scanning and then OCR (optical character recognition) to identify information such as patient name, sex, age, department, bed and the like on a wrist strap of a patient, then taking identification information to access an IOT platform of a hospital to obtain basic information of the patient, finally manually inputting contact information, selecting a disease diagnosis result, uploading an electronic medical record and inputting remarks;

the mode 2, the app is accessed to the hospital IOT platform to acquire the information of the patient in the operation according to the operation time, the dimension of the current main doctor and the like;

mode 3, OCR recognizes (patient name, sex, birth date, identification card number) on the identification card, finally manually inputs contact information, selects disease diagnosis result, uploads electronic medical record, inputs remarks;

Mode 4, inputting contact information manually by inputting (patient name, sex, date of birth and ID card number), selecting disease diagnosis result, uploading electronic medical record and inputting remarks.

5. And thirdly, after the patient Information acquisition is completed, a patient object is newly generated, and equipment codes in the patient object are endowed with information_code variables, such as patient codes. And sending the three objects of the patient object, the equipment object, the energy controller and the stimulator relationship object to the back-end cloud platform for binding.

6. After the fourth step is executed at the back end, the patient object, the device object, the relationship object between the controller and the stimulator are written back to the controller and the stimulator through the controller interface, and the specific flow can refer to fig. 9.

Through the scheme that this embodiment provided, accomplish the initial operation of binding of patient and energy accuse ware, stimulator in the operation, postoperative patient can directly operate energy accuse ware and stimulator and need not bind again, convenient and swift.

Fig. 10 is a schematic structural diagram of an apparatus for intra-operative initial binding of an energy controller and a stimulator according to an embodiment of the present application, as shown in fig. 10, an apparatus 1000 for intra-operative initial binding of an energy controller and a stimulator according to the embodiment includes: a result receiving module 1001, a device determination module 1002, a binding module 1003.

The result receiving module 1001 is configured to send an information acquisition signal to a doctor end after acquiring a device implantation request in a surgical procedure, and receive an upload result of the doctor end;

a device and patient determination module 1002, configured to determine, according to the uploading result, a stimulator to be implanted, an energy controller to be bound, and a patient to be operated;

and a binding module 1003, configured to bind the to-be-implanted stimulator, the to-be-bound energy controller, and the to-be-operated patient, and write back the information of the to-be-implanted stimulator, the information of the to-be-bound energy controller, the information of the to-be-operated patient, and the binding relationship information to the to-be-bound energy controller and the to-be-implanted stimulator through an energy controller interface, so that the to-be-bound energy controller and the to-be-implanted stimulator interact based on the binding relationship information.

Optionally, the device for initially binding the energy controller and the stimulator during surgery includes an initiator determining module 1004 for:

Optionally, the sponsor determining module 1004 is specifically configured to:

Optionally, the device and patient determination module 1002 is specifically configured to:

Optionally, the binding module 1003 is specifically configured to:

Optionally, the binding module 1003 is specifically further configured to:

Optionally, the result receiving module 1001 is specifically configured to:

and receiving the patient information fed back by the doctor side.

Optionally, the result receiving module 1001 is specifically further configured to:

screening the cases to determine patients needing stimulator implantation;

The apparatus of this embodiment may be used to perform the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein again.

Fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present application, as shown in fig. 11, an electronic device 1100 of the present embodiment may include: a memory 1101 and a processor 1102.

The memory 1101 has stored thereon a computer program that can be loaded by the processor 1102 and that performs the methods of the above embodiments.

The processor 1102 is coupled to the memory 1101, such as via a bus.

Optionally, the electronic device 1100 may also include a transceiver. It should be noted that, in practical applications, the transceiver is not limited to one, and the structure of the electronic device 1100 is not limited to the embodiment of the present application.

The processor 1102 may be a CPU (Central Processing Unit ), general purpose processor, DSP (Digital Signal Processor, data signal processor), ASIC (Application Specific Integrated Circuit ), FPGA (Field Programmable Gate Array, field programmable gate array) or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this disclosure. The processor 1102 may also be a combination of computing functions, e.g., including one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

A bus may include a path that communicates information between the components. The bus may be a PCI (Peripheral Component Interconnect, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. The buses may be divided into address buses, data buses, control buses, etc. For ease of illustration, the figures are shown with only one bold line, but not with only one bus or one type of bus.

The Memory 1101 may be, but is not limited to, ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, EEPROM (Electrically Erasable Programmable Read Only Memory ), CD-ROM (Compact Disc Read Only Memory, compact disc Read Only Memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 1101 is used for storing application program codes for executing the inventive arrangements and is controlled to be executed by the processor 1102. The processor 1102 is configured to execute application code stored in the memory 1101 to implement what is shown in the foregoing method embodiments.

Among them, electronic devices include, but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. And may also be a cloud platform, etc. The electronic device shown in fig. 11 is only an example, and should not impose any limitation on the functions and scope of use of the embodiments of the present application.

The electronic device of the present embodiment may be used to execute the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein.

The present application also provides a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the method in the above embodiments.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the method embodiments described above may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

Claims

1. A method of intraoperative initial binding of an energy controller and stimulator, comprising:

2. The method of claim 1, wherein the device implantation request includes sponsor information; before sending the information acquisition signal to the doctor side, the method comprises the following steps:

3. The method of claim 2, wherein retrieving the surgical appointment information of the sponsor based on the sponsor information comprises:

4. The method of claim 3, wherein the uploading results include patient information and device information, the device information including stimulator information, controller information, and the determining the stimulator to be implanted, the controller to be bound, and the patient to be operated on based on the uploading results includes:

5. The method of claim 4, wherein the binding the stimulator to be implanted, the energy controller to be bound, the patient to be operated on, comprises:

6. The method according to claim 5, wherein after determining a stimulator to be implanted and an energy controller to be bound by the stimulator information and the energy controller information, binding the stimulator to be implanted and the energy controller to be bound includes:

7. The method of claim 4, wherein the information acquisition signal comprises a patient information acquisition signal, and wherein the sending the information acquisition signal to the doctor side and receiving the upload result from the doctor side comprise:

and receiving the patient information fed back by the doctor side.

8. The method of claim 4, wherein the information acquisition signal comprises a patient information acquisition signal, and wherein the sending the information acquisition signal to the doctor side and receiving the upload result from the doctor side comprise:

screening the cases to determine patients needing stimulator implantation;

9. An apparatus for intraoperative initial binding of an energy controller and a stimulator, comprising:

10. An electronic device, comprising: a memory and a processor;

the memory is used for storing program instructions;

the processor for invoking and executing program instructions in the memory to perform the method of intraoperative initial binding of an energy controller and stimulator as defined in any one of claims 1-7.