WO2024031659A1 - Système médical, procédé de traitement coopératif et support d'enregistrement lisible - Google Patents
Système médical, procédé de traitement coopératif et support d'enregistrement lisible Download PDFInfo
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Definitions
- the disclosure content of this application relates to the technical field of medical equipment, and in particular, to a medical system, a collaborative processing method, and a readable storage medium.
- Neuromodulation technology is a scientific, medical and bioengineering technology that uses implantable and non-implantable technologies and relies on electrical or chemical means to improve the quality of human life. As an effective surgical treatment method, it is minimally invasive, reversible, and adjustable. Compared with stereotactic destructive surgery, it greatly reduces the disability rate of surgery and can provide treatment for patients suffering from serious diseases (such as brain diseases). Offering patients a new option.
- Existing neuromodulation devices often require input of various relevant information on the device used to treat the patient. Due to the large number of treatment courses and the number of patients, patients often need to complete treatment on different neuromodulation devices. Therefore, when the neuromodulation device being replaced is one that the patient has not used before, the patient's information needs to be re-entered and the patient's medical imaging images need to be re-imported, which increases the patient's treatment time. When the patient needs to be treated on the same control device, the patient needs to make an appointment for treatment according to the free time of the control device, thus making it more difficult for the patient to make an appointment for treatment.
- the present invention provides a medical system, a collaborative processing method and a readable storage medium, which can at least partially realize that users with different roles can work together with each other, thereby Improved user productivity.
- the technical solutions are as follows:
- a medical system including:
- a client configured to provide patient data, a first treatment plan, and a treatment record, and to execute the first treatment plan
- a first processing system connected to the client, is configured to perform first data processing based on the patient data to obtain first data.
- the medical system is the medical system described in any of the above,
- the collaborative processing method includes the following steps:
- the first processing system performs first data processing based on the patient data transmitted by the client to obtain the first data.
- a readable storage medium is provided, wherein,
- the readable storage medium stores programs or instructions, and when the programs or instructions are executed by the processor, the above-mentioned collaborative processing method based on the medical system is performed.
- Figure 1 is a schematic structural diagram of a medical system according to an embodiment of the present invention.
- FIG 2 is a schematic structural diagram of the first processing system shown in Figure 1;
- FIG 3 is a schematic structural diagram of the second processing system shown in Figure 1;
- Figure 4 is a schematic structural diagram of the first client and the second client shown in Figure 1;
- Figure 5 is a flow chart of a collaborative processing method based on a medical system according to an embodiment of the present invention.
- Data used in this article should be broadly understood as the result of facts or observations, a logical induction of objective things, and the unprocessed raw material used to represent objective things.
- Data can be continuous values, such as sounds and images, which are called analog data; they can also be discrete, such as symbols and text, which are called digital data.
- Medical imaging data should be understood broadly as a collection of data making up an image.
- the image data of digital X-ray photography is a set of pixel values
- the image data of computerized X-ray tomography is a set of CT values.
- Medical imaging data includes medical imaging images. Medical imaging images should be broadly understood as medical or medical research, which are internal tissue imaging images of the human body or a certain part of the human body obtained in a non-invasive manner. Medical imaging images include anatomical imaging images and functional imaging images.
- Anatomical imaging images include computed tomography (CT) imaging images, ultrasound imaging (Ultrasound, US) images, magnetic resonance imaging (Magnetic Resonance Imaging, MRI) images, endoscopic imaging images and digital subtraction angiography ( Digital Subtraction Angiography, DSA) image.
- Functional imaging images include Positron Emission Computed Tomography (PET) images, Single-Photon Emission Computed Tomography (SPECT) images, and functional magnetic resonance imaging (functional magnetic resonance imaging) , FMRI) image.
- the medical system 100 includes a client and a first processing system 30 .
- the client is configured to provide patient data, a first treatment plan and a treatment record, and to execute the first treatment plan;
- a first processing system connected to the client, is configured to perform a third treatment based on the patient data.
- a data process is performed to obtain first data.
- the first processing system and the client have a signal connection through a network communication protocol, which may be a wired connection or a wireless connection.
- the patient data includes at least one of patient information, patient's medical imaging data, patient's test data, examination data, and the like.
- Medical imaging data includes medical imaging data of various parts of the human body, such as head medical imaging data, trunk medical imaging data (such as heart, lungs, chest, lungs, etc. medical imaging data), vascular medical imaging data, etc.
- Test data includes biochemical test data (for example, blood lipid test data, liver function test data, renal function test data, cardiac injury-related test data, diabetes test data, electrolyte test data, etc.), immune test data (for example, infectious disease test data, Tumor marker examination data, bone metabolism examination data, viral marker examination data, hormone examination data, etc.), microbial examination data (for example, fungal culture examination data, mycoplasma culture examination data, anaerobic bacteria culture examination data, Mycoplasma pneumoniae antibodies Measurement data, etc.), routine blood examination data, coagulation system examination data, routine urine examination data, body fluid and cerebrospinal fluid examination data, newborn disease screening data, blood disease morphological examination data, etc.
- the examination data includes electrocardiogram data, electroencephalogram examination data, blood gas analysis data, etc.
- the clients include a first client 10 and a second client 20 respectively connected to the first processing system 30 .
- the first client 10 is configured to provide patient information, the patient's medical imaging data, and a first treatment plan.
- the second client 20 is configured to perform the first treatment plan and provide treatment records.
- the first processing system 30 is connected to the first client 10 and the second client 20 respectively, and the first processing system 30 is configured to perform image preprocessing based on the medical imaging data to obtain the first image data.
- the first client 10 and the second client 20 respectively send requests to the first processing system 30 to upload or download data, etc.
- the medical system 100 further includes a second processing system 40 connected to the first processing system 30, and the second processing system 40 is configured to perform second data processing based on the first data to obtain a third two data, and transmits the second data to the first processing system 30 for storage, and the client formulates at least one second treatment plan based on the first data or the second data.
- the first processing system 30 and the second processing system 40 are signally connected to each other through a network communication protocol, which may be a wired connection or a wireless connection.
- the first data processing and the second data processing are respectively different data processing from each other.
- Data processing includes image preprocessing (such as image segmentation, smoothing, sharpening, etc.), data conversion, data classification, data visualization, data processing, data statistics/analysis, data mining, and data preprocessing (such as data cleaning, etc.).
- Both the first data and the second data are data obtained after data processing based on any one of the above or any combination thereof.
- the first data processing may be image preprocessing, which includes functional structure partitioning, image reconstruction, etc.
- the second data processing may be functional analysis, target planning, etc.
- the first data is first image data
- the second data is second image data.
- the first and second image data may be visual images, or may be pixel values, attribute values, voxel values, etc.
- the first processing system 30 and the second processing system 40 may be different systems, or they may be the same systems as each other, or the second processing system 40 may only have part of the functions of the first processing system 30
- the system may also be a system in which the first processing system 30 only has part of the functions of the second processing system 40 .
- the first processing system 30 can have all the functions of the second processing system 40 at the same time without providing the second processing system 40 .
- those skilled in the art can also set the second processing system 40 to have all the functions of the first processing system 30 at the same time without setting the first processing system 30 .
- the first processing system 30 and the second processing system 40 may be functionally different from each other, and the first processing system 30 and the second processing system 40 may be provided at the same time.
- the first processing system 30 when there is only the first processing system 30, the first processing system 30 can be disposed in a processing station and/or a server. Preferably, the first processing system 30 is disposed in a processing station.
- the first processing system 30 When there is no external network, patient data can be downloaded from the internal LAN, which will not affect the patient's treatment course. At the same time, the security level of the data can also be improved through the setting of the processing station.
- the first processing system 30 when there are both a first processing system 30 and a second processing system 40, the first processing system 30 may be disposed in a processing station and the second processing system 40 may be disposed in a server (for example, a cloud server )middle.
- the first processing system 30 can also be installed in a server (for example, a cloud server), and the second processing system 40 can be installed in a processing station.
- both the first processing system 30 and the second processing system 40 can also be provided in a server (for example, a cloud server).
- both the first processing system 30 and the second processing system 40 can be arranged in the processing station.
- the first processing system 30 can also play the role of the second processing system 40 at the same time
- the second processing system 40 can also play the role of the first processing system 30 at the same time. That is to say, when there is only one system, it is essentially the first processing system provided by the present invention.
- first and second processing systems 30 and 40 can choose whether to set up the first and second processing systems 30 and 40 at the same time according to actual needs, and can also determine the settings of the first and second processing systems 30 and 30 according to actual needs. Wherever, as long as the client can quickly obtain the processed data.
- the medical system 100 is used to set up the first processing system 30 and the second processing system 40 at the same time, and the first client 10 and the second client 20 are set up at the same time, and the first processing system 30 is set up in the processing station.
- the second processing system 40 is set up in the cloud server as an example for illustrative description.
- the medical system 100 is set up with the client, the method, structure and principle of the first processing system 30 and/or the second processing system 40, as well as the methods, structures and principles of the medical system 100.
- the methods, structures and principles of the first processing system 30 being arranged in the cloud server and the second processing system 40 being arranged in the processing station are the same or similar to the methods, structures and principles of the medical system 100 in this exemplary description, and will not be repeated here. Let’s go over them one by one.
- the second processing system 40 is connected to the first processing system 30, and the second processing system 40 is configured to perform target planning based on the first image data in the first data to obtain the second image data and at least one target. point position, and transmits the second image data and the position of at least one target point to the first processing system 30 for storage.
- the first client 10 formulates at least one second treatment plan based on the first image data or the second image data.
- users can obtain patient information, treatment plans (first treatment plan and/or second treatment plan) and treatment records on different terminals without having to use the same device throughout the entire course of treatment.
- the equipment is used for treatment, which not only saves medical personnel's time, improves the utilization rate of neuromodulation equipment, but also improves the level of data security, while reducing patient waiting time and making it easier to make an appointment.
- the patient can understand the applicable objects of the medical system 100 or the collaborative processing method based on the medical system 100 provided by any example or embodiment of the present invention.
- the patient includes at least one of an experimental subject, a test subject, and a patient.
- body parts can be understood as various parts of the eight major systems of the human body, including the motor system, nervous system, endocrine system, circulatory system, respiratory system, digestive system, urinary system, and reproductive system.
- a part can be several different types of tissues that have been developed and differentiated and combined with each other to form a structure with a certain form and function; it can also be several types of tissues that are combined with each other to form a structure with a certain form and function; or it can be a part that can serve as a certain function in an organism. part of an independent physiological function.
- the body part may be the stomach, kidneys, heart, lungs, brain tissue, bones, lymph, or muscles.
- the human body part is the brain, which includes at least one of the cerebrum, cerebellum and brainstem.
- the brain may be the cerebrum, the cerebellum, a combination of the cerebrum and the cerebellum, or of course, a combination of the cerebrum, the cerebellum, and the brainstem.
- the following will illustrate the medical system 100 by taking the medical imaging data as brain magnetic resonance imaging images and brain functional imaging images as an example.
- Other medical imaging data of the brain and medical imaging data of other body parts are used in the method of the medical system 100.
- the principles are the same or similar and will not be repeated here.
- image preprocessing may be preprocessing before image processing, image processing, or preprocessing of images and image processing.
- Image pre-processing is performed to eliminate irrelevant information in the image, restore useful real information, enhance the detectability of relevant information and simplify the data to the greatest extent, thereby improving the reliability of feature extraction, image segmentation, matching and recognition. deal with.
- image preprocessing includes at least one of image segmentation, image reconstruction, structural partitioning, and brain function analysis.
- Target planning includes a combination of at least one of image segmentation, image reconstruction, structural partitioning, brain function analysis and determination of target location.
- Target planning and image preprocessing are different image processings from each other. That is to say, when the image preprocessing is set to image reconstruction and structural partitioning, target planning will not include image reconstruction and structural partitioning, that is, target planning can be the determination of the target location, or the determination and calculation of the target location.
- Brain function analysis when image preprocessing is brain function analysis, target planning can be the determination of the target location, the determination of structural partitions and target location, image reconstruction and target determination, or the determination of the target location.
- Image reconstruction, structural partitioning and determination of target location; and so on, will not be repeated here.
- target planning may be based on medical imaging data (eg, MRI, FMRI, etc.) and based on each subject's region (eg, structural region, functional region) of each part of the body (eg, brain).
- the risk value of the element is used to plan the location of the target.
- the level of the risk value can represent the degree (for example, distance) of the location of the voxel from the dangerous area (for example, blood vessels, temporal lobe, etc.).
- the target point planning may also include a trajectory of medical device (eg, skull electrode) implantation planned based on the determined target point location.
- a trajectory of medical device eg, skull electrode
- structural partitioning is a method of dividing the cerebral cortex into several regions based on characteristics such as brain cell composition, arrangement, and architecture based on medical imaging data (eg, magnetic resonance imaging (MRI) images).
- medical imaging data eg, magnetic resonance imaging (MRI) images.
- the functional partitioning is based on medical imaging data (eg, functional magnetic resonance imaging (FMRI)) images, dividing the cerebral cortex into several regions according to functions such as sensation, movement, vision, language, text, memory, and emotion. a way.
- medical imaging data eg, functional magnetic resonance imaging (FMRI)
- FMRI functional magnetic resonance imaging
- the first processing system 30 and the second processing system 40 can process medical imaging data of the brain, and can also process medical imaging data of other parts of the human body other than the brain, such as the chest, abdomen, neck, and limbs. medical imaging data.
- the first processing system 30 is any one of a multi-processor system, a computer cluster, or a distributed system.
- a multiprocessor system is a shared memory multiprocessor in which two or more central processing units (CPUs) all share access to a common random access memory (RAM).
- the plurality of central processing units can be implemented by a multi-core chip, a many-core chip, or a heterogeneous multi-core chip (that is, different types of processors are provided on the same chip).
- the multiprocessor system includes a single-bus unified memory access (UMA) multiprocessor, a crossbar UMA multiprocessor, a crossbar UMA multiprocessor, a nonuniform memory access (NUMA) ) multiprocessor.
- UMA single-bus unified memory access
- NUMA nonuniform memory access
- the computer cluster can be a cluster computer or a cluster of workstations (Clusters of Workstations, COWs).
- the scheduling method of the first processing system 30 adopts a first-in-first-out (First Input First Output, FIFO) scheduling algorithm for scheduling.
- FIFO First Input First Output
- the first processing system 30 and/or the second processing system 40 can be provided in the processing station, which can undertake the task of three-dimensional image reconstruction, and perform data processing during data processing. Patient treatment can also be performed at the same time. This not only greatly improves the user's work efficiency, but also because this design can reduce the performance requirements of neuromodulation equipment, it can greatly reduce the cost of medical institutions.
- the treatment process presents a three-level model: diagnosis and treatment (first client 10)-data centralized management (Processing station) - implements the business process architecture of the (second client 20).
- the first treatment plan will be a treatment plan that has been confirmed by a user with authority (for example, a doctor with authority), and the second treatment plan will be a treatment plan that has not yet been authorized by a user (for example, a treatment plan generated by the second processing system but
- the undetermined treatment plan that has not yet been confirmed by a doctor with authority) image preprocessing is image reconstruction and structural partitioning
- target planning is brain function analysis and target location determination are taken as an example to illustrate.
- the treatment plan to be confirmed can also be provided in the first client. For example, when a doctor with authority is formulating a treatment plan, the treatment plan that has not yet been finalized can be saved.
- the undetermined treatment plan can be provided while waiting for consultation and confirmation by the doctors.
- the pending treatment plan can be provided while waiting for the doctor to confirm the plan.
- the treatment plan presented in the second client 20 is a treatment plan that has been confirmed by an authorized doctor.
- the first processing system 30 includes a first image processing module 31, a first communication module 32, a first storage module 33, a first solution management module 34, a first control and processing module 35 and an authority control module.
- Module 36 the layout and quantity of the first image processing module 31, the first communication module 32, the first storage module 33, the first solution management module 34, the first control and processing module 35 and the authority control module 36 are in accordance with the multi-processing computer system, computer cluster or distributed system.
- the first image processing module 31 is configured to perform image reconstruction and structural partitioning based on the medical imaging data to obtain the first image data.
- the medical imaging data are preferably magnetic resonance imaging images and/or functional magnetic resonance imaging images.
- the magnetic resonance imaging image is preferably a T1-weighted image (T1WI).
- T1WI T1-weighted image
- the first image data is a reconstructed image obtained through image reconstruction and structural partitioning.
- the medical imaging data is T1WI of the brain
- the first image data is a reconstructed magnetic resonance image of the brain.
- the first communication module 32 is configured to communicate with the first client 10, the second client 20 and the first processing system 30 respectively through a network communication protocol.
- the network communication protocol includes TCP/IP protocol, Telnet protocol, and Token Ring protocol.
- the first communication module 32 is connected to the first client 10 and the second client 20 through a local area network, a metropolitan area network or a wide area network respectively.
- the first communication module 32 is connected to the first client 10 and the second client 20 respectively through a local area network.
- the first communication module 32 may be wired or wirelessly connected to the first client 10 and the second client 20 respectively.
- the first communication module 32 is connected to the first client 10 and the second client 20 through internal communication (ie, local area network), the time required between the first client 10 and the second client 20 and the first process is greatly reduced. Communication between systems 30 relies on the external network. When the external network cannot be used, local downloading can be performed from the first processing system through the internal local area network, thus not affecting the patient's treatment process.
- internal communication ie, local area network
- the first storage module 33 is configured to store data and information uploaded by the first client 10 and the second client 20, the first image data, the second image data and all targets in the at least one target point. point location.
- the first plan management module 34 is configured to formulate at least one pending treatment plan based on the first image data provided by the first image processing module 31 .
- the first control and processing module 35 is configured to connect with the first image processing module 31, the first communication module 32 and the first storage module 33 to transmit control signals and corresponding data.
- the number of pending treatment options is one, two, or more.
- the first control and processing module 35 includes a processor. In one example, the first control and processing module 35 and the first image processing module 31 are connected to transmit the uploaded medical image data to the first image processing module 31 and send image processing to the first image processing module 31 control signals for image reconstruction and structural partitioning.
- the first control and processing module 35 and the first communication module 32 are connected to receive or send requests from the first client 10 and the second client 20, or to respond to corresponding requests.
- a transmission signal is sent to the first communication module 32 and the data requested by the requesting end is transmitted to the first communication module 32 .
- the first control and processing module 35 and the first storage module 33 are connected to perform a read operation and/or a write operation.
- the written data includes the user's account information, patient information, first image data, second image data, etc. Image data, target location, pending treatment plan, confirmed treatment plan (such as the confirmed treatment plan uploaded by the first client 10), treatment records, various operation logs, etc.
- the first control and processing module 35 can write the data returned by the second processing system 40, the data uploaded by the first client 10, the data uploaded by the second client 20 or the first image data into the first storage module 33,
- the data stored in the first storage module 33 can also be read out and transmitted to the second processing system 40, the first client 10 or the second client 20.
- the first control and processing module 35 and the first solution management module 34 are connected to read out and transmit the first image data stored in the first storage module 33 to the first solution management module 34.
- the first solution The management module 34 formulates a treatment plan based on the plan formulation signal of the first control and processing module 35 to obtain at least one pending treatment plan.
- a unique identifier is set for each pending treatment plan.
- the first control and processing module 35 may also be configured to obtain the first image data from the first storage module 33 based on the request of the first client 10 and send the first image data through the first communication module 32 to the second processing system 40, and receive the second image data from the second processing system 40 and the positions of all target points in at least one target point and store them in the first storage module 33.
- the number of targets may be one, two, or more.
- the first control and processing module 35 may be further configured to process requests from the first client 10 and requests from the second client 20 transmitted through the first communication module.
- the requests of the first client 10 and the second client 20 include upload data requests, download data requests, data review requests, data processing and analysis requests, and login requests.
- Data processing and analysis requests include image reconstruction and structural partitioning requests, brain function analysis requests, and target planning requests.
- the permission control module 36 is configured to, when the first control and processing module 35 receives a login request from the first client 10 or the second client 20 , based on the control transmitted by the first control and processing module 35 Signal to verify the user's account information from the first client 10 or the second client 20 to allow or deny the user's login.
- the permission control module may also be configured to: when the first control and processing module 35 receives at least one of upload data, download data, and data processing and analysis from the first client 10 or the second client 20 When a request is made, the account information, roles and corresponding permissions of the user from the first client or the second client are verified based on the control signal transmitted by the first control and processing module to allow or deny the corresponding operation of the user.
- the permission control module 36 allows or denies the request sent by the logged-in user based on the role, account information and corresponding permissions of the logged-in user in the first client 10 and the second client 20 .
- the user role is a doctor
- data processing and analysis requests can be sent when the first client 10 or the second client 20 logs in.
- the user role is a nurse
- the user role can also be a medical imaging technician, and can be designed to have the permission to send data processing and analysis requests, or can be designed to not have the permission to send data processing and analysis requests.
- the first client 10 or the second client 20 can send requests for uploading data and downloading data.
- the permission control module 36 receives a request to download data (for example, a pending treatment plan) sent from the first or second client, it verifies the account information, role and corresponding permissions of the user who sent the request.
- a request to download data for example, a pending treatment plan
- the permission control module 36 verifies the account information, role and corresponding permissions of the user who sent the request.
- you are a doctor and have the authority to download the pending treatment plan you are allowed to download the pending treatment plan stored in the first storage module 33 and formulated through the second processing system 40 .
- the verification user role is a nurse, the download of the pending treatment plan is refused.
- the permission control module 36 when the permission control module 36 receives a request from the first or second client to download a confirmed treatment plan, when the verification user role is a doctor or nurse and has the permission to download the confirmed treatment plan , the confirmed treatment plan is allowed to be downloaded. When the verification user role is a doctor or nurse but does not have the permission to download the confirmed treatment plan, the download of the confirmed treatment plan is refused. When the user role is a medical imaging technician, downloading of the confirmed treatment plan will be refused.
- the user's account information includes the user's login ID, login password and/or verification code, etc.
- the login identifier is a unique identifier for user login (for example, a unique identification code).
- the login identifier can be set to at least one of text, letters, numbers, and characters.
- the login identifier can also be a pattern, fingerprint, facial feature, etc.
- the server 40 includes a cloud server (ie, a virtual server) and a physical server.
- the server 40 is a cloud server.
- the processing station 30 is preferably a computer cluster.
- the cloud server 40 has a unique identification of the processing station 30 .
- the cloud server 40 transmits the second image data of the download request and the locations of all targets to the corresponding processing station 30 based on the unique identification (for example, a unique identification code), thereby ensuring the security of the data.
- the data uploaded by the first processing system 30 to the second processing system 40 is data that has been desensitized.
- Data desensitization is the deformation of certain sensitive information through desensitization rules to achieve reliable protection of sensitive private data.
- Sensitive information includes personal information such as user and patient ID numbers, contact information, and home addresses. The security of patient data is increased by desensitizing the data.
- the server is a physical server, and the processing station is a distributed system or multiple systems.
- the structure and principles of the medical system of the processor system are the same or similar to the structure and principles of the medical system of the server as a cloud server and the processing station as a computer cluster, and will not be described in detail here.
- the second processing system 40 includes a second image processing module 41 , a second communication module 42 , a second storage module 43 and a second control and processing module 44 .
- the second image processing module 41 is configured to perform brain function analysis and target planning based on the first image data to obtain the second image data and the location of at least one target.
- the second communication module 42 is configured to communicate with the first processing system 30 via a network communication protocol.
- the second storage module 43 is configured to store the second image data and the positions of all target points in the at least one target point.
- the second control and processing module 44 is configured to connect with the second image processing module 41, the second communication module 42 and the second storage module 43 respectively to transmit control signals and corresponding data.
- the number of targets may be one, two, or more.
- the network communication protocol includes TCP/IP protocol, Telnet protocol, and Token Ring protocol.
- the second communication module 42 is wirelessly connected to the first processing system 30 through a wide area network.
- the second control and processing module 44 and the second image processing module 41 are connected to transmit the uploaded first image data to the second image processing module 41 and send the image processed data to the second image processing module 41 Control signals for brain function analysis and target planning.
- the second control and processing module 44 and the second communication module 42 are connected to receive or send requests from the first processing system 30 or to respond to corresponding requests. When the requested data needs to be sent to the first processing system 30 , a transmission signal is sent to the second communication module 42 , and the data requested by the first processing system 30 is transmitted to the second communication module 42 .
- the first processing system 30 sends a data request to the second processing system 40 in a polling manner.
- the second control module 44 and the second storage module 43 are connected to perform read operations and/or write operations, for example, data uploaded by the first processing system 30 or the second image processing module 41 performs image processing.
- the second image data obtained by reconstruction and structural partitioning is written into the second storage module 43 , and the data stored in the second storage module 43 can also be read out and transmitted to the first processing system 30 .
- the second control and processing module 44 is further configured to obtain the second image data and the positions of all target points in the at least one target point from the second storage module 43 based on the request of the first processing system 30, and obtain the positions of all target points in the at least one target point through the first processing system 30.
- the second communication module 42 sends the obtained second image data and the positions of all target points in the at least one target point to the first processing system 30 .
- the second control and processing module 44 is further configured to receive the first image data from the first processing system 30 based on the upload request of the first processing system 30 and transmit the first image data to the second image processing
- the module 41 processes to obtain the second image data and the position of at least one target point, and then stores the second image data and the positions of all target points in the at least one target point into the second storage module 43 .
- the second control and processing module 44 is further configured to obtain the second image data and the positions of all targets from the second storage module 43 based on the download request of the first processing system 30, and transmit them through the second communication module 42. Send the second image data and the locations of all target points to the first processing system 30.
- the first client 10 can be a personal computer (such as a desktop computer, an all-in-one computer, a notebook computer, a tablet computer, a handheld computer, an ultrabook, etc.), a mobile phone, a digital TV, a smart watch, a wearable device, a mobile phone, etc.
- Intelligent terminals such as virtual computers through camera tracking and infrared laser projection) or software, etc.
- the first client 10 includes a third communication module 11 , an information recording module 12 , a treatment strategy module 13 , a first authority management module 14 , a third storage module 15 and a first control module 16 .
- the third communication module 11 is configured to communicate with the first processing system 30 through a network communication protocol.
- Information recording module 12 is configured to create and record patient information.
- the treatment strategy module 13 is configured to create a treatment task and generate a confirmed treatment plan based on at least one of the medical imaging data, the first image data, the second image data, and at least one pending treatment plan.
- the first authority management module 14 is configured to transmit the user's account information to the first processing system 30 through the third communication module 11 and allow or deny the user's login based on the verification result of the first processing system 30 .
- the third storage module 15 is configured to store patient information, medical imaging data, first image data, second image data, at least one pending treatment, and a confirmed treatment plan.
- the first control module 16 is configured to connect with the third communication module 11, the information recording module 12, the treatment strategy module 13, the first authority management module 14 and the third storage module 15 respectively to transmit control signals.
- the verification result received by the first processing system 30 is login allowed or login denied.
- the data uploaded by the first client 10 includes the user's account information, the patient's medical imaging data (for example, head medical imaging data, body torso medical imaging data, cardiac medical imaging data, etc.), patient information and patient information. Confirmed treatment plan.
- the data downloaded by the first client 10 includes at least one of first image data, second image data, all pending treatment plans in at least one pending treatment plan, and the treatment record.
- the data downloaded by the first client 10 may be the first image data, the second image data, or the locations of all target points or all pending treatment plans. Of course, it can also be any combination of the first image data, the second image data, the locations of all targets and all pending treatment plans.
- the downloaded data can be the first image data and the second image data, or the second image data and the positions of all target points, or the first image data, the second image data and the positions of all target points, Of course, it can also be the first image data, the second image data, the locations of all targets and all pending treatment plans.
- the treatment plan to be determined includes a treatment course, the location of at least one target, and energy stimulation parameters.
- the treatment plan uploaded by the first client 10 is a treatment plan that has been confirmed by a doctor.
- the treatment plan confirmed by the doctor may be a treatment plan determined by the doctor based on the downloaded first image data, or may be a treatment plan confirmed by the doctor based on the downloaded first image data and second image data. Of course, it can also be a treatment plan confirmed by the doctor based on the downloaded first image data, second image data, the locations of all targets and the pending treatment plan. At this time, the doctor can re-formulate a new treatment plan based on the pending treatment plan. You can also select a suitable treatment plan from the pending treatment plans as the confirmed treatment plan.
- the treatment plan confirmed by the doctor can be the patient's bed rest, the next treatment time to be booked, and the next treatment time. At least one of these has been reserved.
- the treatment plan confirmed by the doctor can also include the target location, energy stimulation parameters, energy output intensity range, treatment time and treatment course confirmed by the doctor.
- Energy stimulation parameters include the intensity of energy stimulation, stimulation frequency, stimulation interval time, pulse frequency, number of pulses within a cluster, frequency within a cluster, number of clusters within a pulse train, and number of pulse trains.
- the treatment time is the specific day of the visit or every few days.
- the treatment course includes the total number of treatments, the number of rounds of each treatment, the duration of each round of treatment, and the interval between two adjacent rounds of treatment.
- a treatment course includes the number of days of treatment, the number of treatments per day, the duration of each treatment, and the time between treatments.
- the third communication module 11 is connected to the first processing system 30 through a local area network or a wide area network. Preferably, the third communication module 11 is connected to the first processing system 30 through a local area network. In one example, the third communication module 11 is connected to the first processing system 30 through wired or wireless connections. Preferably, the third communication module 11 is connected to the first processing system 30 through wireless connections. In one example, first control module 16 is a processor.
- the first control module 16 is connected to the third communication module 11 to upload the user account information in the first authority management module 14 to the first authority through the third communication module 11 when the user logs in or when the authority is verified.
- Access control module 36 of processing system 30 When a user logs in, the permission control module 36 verifies the user account information to allow or deny the user's login. When a user needs corresponding permissions to upload, download, check data, create files, add, delete and modify data, etc., the permission control module 36 verifies the user role and the corresponding permissions of the user to allow or deny the user's corresponding permissions. operate.
- the first control module 16 is connected to the third communication module 11, and can transmit data in the third storage module 15 to the first processing system 30, send requests to the first processing system 30, and receive Data, responses, etc. from the first processing system 30.
- the first control module 16 is connected to the information recording module 12 to send a signal to the information recording module 12 to create and/or record patient information.
- the information recording module 12 creates or records patient information
- the created or recorded patient information is stored in the third storage module 15 .
- the patient information includes at least one of the patient's basic information, the patient's symptoms, and treatment history.
- the treatment strategy module 13 can obtain the patient's medical imaging data.
- the patient's medical imaging data can be obtained directly or indirectly from a CT device, a magnetic resonance imaging machine, a radiological imaging device, etc., and then the medical image data will be obtained.
- the data is transmitted to the third storage module 15.
- the patient's medical image data can be directly obtained by the first processing system 30 from CT equipment, magnetic resonance imaging equipment, radiological imaging equipment, etc.
- the treatment strategy module 13 may create a treatment task for himself or a nurse, for example, by a doctor.
- the treatment strategy module 13 may generate a confirmed treatment plan based on at least one of the medical imaging data, the first image data, the second image data, and at least one pending treatment plan. That is to say, the treatment strategy module 13 can provide the doctor with a confirmed treatment plan based on the medical image data, or can provide a confirmed treatment plan based on the first image data, or can also provide a confirmed treatment plan based on the second image data.
- the treatment plan can also provide a confirmed treatment plan based on the position of at least one target in at least one to-be-determined treatment plan, and can also directly adopt one of the at least one to-be-determined treatment plan as the confirmed treatment plan,
- the doctor can also provide a confirmed treatment plan based on any combination of medical image data, first image data, second image data and at least one pending treatment plan.
- the doctor is a doctor with corresponding authority.
- the treatment strategy module 13 generates a treatment plan based on the patient's medical image data. It can also generate a treatment plan based on the patient's first image data. It can also generate a treatment plan based on the second image data and the location of the target (for example, one, two or more).
- the treatment plan may be generated based on the first image data, the second image data and the location of the target points), and the treatment plan may also be generated based on one, two or more of at least one pending treatment plan.
- the pending treatment plan generates a new treatment plan, or selects a treatment plan from one, two or more pending treatment plans in at least one pending treatment plan, or generates a new treatment plan based on an existing treatment plan.
- the first control module 16 is connected to the first authority management module 14 to update the first authority management module 14 (such as adding, modifying or deleting the user's account information), logging in or users who need to perform authority verification.
- the information is stored in the third storage module 15 .
- the first control module 16 is connected to the third storage module 15 to send a control signal to the third control module 15 to perform a read operation and/or a write operation.
- the second client 20 is a treatment terminal.
- the second client 20 may be an entire treatment device, or may be a combination of software and energy output equipment or medical equipment.
- the data uploaded by the second client 20 includes the user's account information, the patient information, and the patient's treatment record of this treatment.
- the data downloaded by the second client 20 includes any combination of patient information, first image data, second image data, the confirmed treatment plan and the treatment record.
- the second client 20 can download patient information and treatment records, patient information and first image data, or download confirmed patient information, treatment plans, and treatment records, and so on, which will not be described in detail here.
- the first image data and the second image data may be used for navigation of energy output devices, medical instruments, etc. and tracking of patient targets (eg, positions, changes in the cortex at the target points, etc.) during treatment. .
- the second client 20 includes a fourth communication module 21 , a treatment module 22 , a second authority management module 23 , a fourth storage module 24 and a second control module 25 .
- the fourth communication module 21 is configured to communicate with the first processing system 30 through a network communication protocol.
- the treatment module 22 is configured to obtain the confirmed treatment plan from the first processing system 30 through the fourth communication module 21 , execute the confirmed treatment plan and update the treatment record.
- the second rights management module 23 is configured to transmit the user's account information to the first processing system 30 through the fourth communication module 21 and allow or deny the user's login based on the verification results of the first processing system 30 .
- the second control module 25 is configured to connect with the fourth communication module 21, the treatment module 22, the second authority management module 23 and the fourth storage module 24 respectively to transmit control signals.
- the fourth communication module 21 is connected to the first processing system 30 through a wide area network or a local area network. Preferably, the fourth communication module 21 is connected to the first processing system 30 through a local area network. In one example, the fourth communication module 21 is connected to the first processing system 30 through wired or wireless connections. Preferably, the fourth communication module 21 is connected to the first processing system 30 through wireless connections.
- treatment module 22 includes an energy output device and a medical instrument.
- Energy output devices include magnetic field energy stimulation devices, electric field energy stimulation devices, light energy stimulation devices, etc.
- Magnetic field energy stimulation devices are used to output magnetic stimulation, such as transcranial magnetic therapy devices.
- Electric field energy stimulation devices are used to output electrical stimulation, such as electric muscle stimulators, spinal cord electrical stimulation therapy devices, radio frequency electrotherapy devices, cerebral circulation electrical stimulators, etc.
- Light energy stimulation devices are used to output light stimulation, such as laser therapy devices, laser beauty equipment, etc.
- Medical equipment includes scalpels, decoction machines, ventilators, high-pressure syringes, blood cell sample processors, rehabilitation equipment, and cardiac defibrillators.
- both the energy output device and the medical device can be coupled with a robotic arm to perform a treatment regimen.
- the treatment module 22 is further configured to modify the confirmed treatment plan based on the user's permissions.
- the locking mechanism is triggered to lock the modification permissions of the first client 10 and the remaining second clients 20 except the second client 20 that is executing the treatment plan,
- the second client 20 that is executing the treatment plan at the same time has the authority to modify the energy stimulation parameters in the currently executed treatment plan.
- the second control module 25 uploads the modified energy stimulation parameters to the first processing system 30 through the fourth communication module 24, and updates the modified treatment plan.
- the treatment module 22 saves the modified treatment plan to the fourth storage module 24 .
- the treatment module 22 uploads the modified energy stimulation parameters to the first processing system 30.
- the first processing system modifies and updates the corresponding treatment plan based on the unique identification code carried in the energy stimulation parameters, and then updates the treatment plan.
- the treatment plan is stored in the first storage module.
- the treatment plan performed includes the confirmed target location, energy stimulation parameters, energy output intensity range, energy convergence location, and treatment course.
- the treatment plan executed may be a treatment plan confirmed by a doctor, or may be a modified and updated treatment plan.
- the treatment record may include patient information, the number of treatments, whether this treatment has been completed, etc.
- the treatment record may also include the therapeutic effect, the patient's condition during the treatment (such as physical condition, mood, abnormal changes in the treatment site, etc.), etc.
- the second control module 25 is connected to the fourth communication module 21 to send a transmission signal or receive a signal.
- the fourth communication module 21 can transmit the data in the fourth storage module 24 to the first processing based on the transmission signal.
- the system 30 may send a request to the first processing system 30 based on the transmission signal, or may receive data, responses, etc. from the first processing system 30 based on the received signal.
- the second control module 25 is connected to the treatment module 22 to control the treatment module 22 to obtain the confirmed treatment plan, for example, directly obtain the confirmed treatment plan from the first processing system 30 through the fourth communication module 21 and store it. to the fourth storage module 24, or obtain the confirmed treatment plan from the fourth storage module 24.
- the treatment module 22 includes a treatment control module 221 and a second protocol management module 222 connected to the second control module 25 .
- the treatment control module 221 is configured to start and stop the confirmed treatment plan, track the patient target in real time, measure the energy output intensity, and output energy according to the determined treatment plan.
- the second plan management module 222 is configured to manage treatment plans, such as downloading, reviewing and modifying determined treatment plans, recording and uploading treatment records, etc.
- the treatment control module 221 includes an energy output module (not shown), a start/end submodule (not shown), a navigation submodule (not shown), a measured movement threshold submodule (not shown), and Complete/terminate submodule (not shown).
- the energy output module is configured to output energy according to the determined treatment protocol. For example, energy is output to the stimulated target point according to the target point position, energy stimulation parameters, energy output intensity range and energy convergence position in the treatment plan.
- the start/end sub-module 221 is configured to start or end this treatment based on the determined treatment plan.
- Navigation submodule 222 is configured to track the patient's target points in real time.
- the measuring movement threshold sub-module 223 is configured to stimulate and measure the subject area of the patient's body part (for example, the motor area of the cerebral cortex, the subject's acupuncture points of traditional Chinese medicine, and areas that can cause nerve reflexes) based on the energy output intensity range to Obtain energy output intensity that is suitable or tolerated by the patient.
- the completion/termination sub-module 224 is configured to complete the entire treatment or terminate the treatment based on the determined treatment plan.
- the start/end sub-module 221 also includes a pause sub-module (not shown), which is used to pause the treatment at this time when needed, such as when special circumstances are encountered or when the current treatment is multiple rounds of treatment.
- treatment module 22 also includes a start/stop submodule 225.
- the start/stop sub-module 225 is configured to start or stop (i.e., end) the current round of treatment based on the determined treatment plan.
- the navigation submodule 222 is a mapping between virtual and reality established by means of a camera (eg, an optical positioning camera) and a three-dimensional reconstructed image of the patient's brain (including first image data and/or second graphic data),
- a camera eg, an optical positioning camera
- patient body parts e.g., head, chest, heart, kidneys, liver, lungs, blood vessels, etc.
- visualized patient body parts e.g., head, chest, heart, kidneys, liver, lungs, etc.
- blood vessels, etc. virtual
- the second control module 25 is connected to the second authority management module 23 to send the user's account information to the first processing system 30 for verification through the fourth communication module 21 when the user logs in or requires authority verification. test.
- the first processing system 30 allows or denies user login based on the user's account information. It can also obtain the user's role and corresponding permissions from the first storage module based on the user's account information and perform verification to allow or deny the corresponding operation ( For example, modify, add, delete or access data).
- the second control module 25 is connected to the fourth storage module 24 to perform read operations and/or write operations.
- the second rights management module 23 of the second client 20, and the rights control module 36 of the first processing system 30 functionally, Distinguish between the doctor client (first client) and the treatment client (second client) in terms of roles and permissions, so that users with different roles can work together with each other in their respective positions, thus greatly improving the user's work efficiency.
- the third storage module 15 of the first client 10 the fourth storage module 24 of the second client 10 , the first storage module 33 of the first processing system 30 and the second storage module of the second processing system 40
- the module 43 can be configured as a main memory, an external memory, or have both main memory and external memory modules.
- the third storage module 15 and the fourth storage module 24 can be configured as main memory, and the main memory can be a volatile memory such as a cache memory (Cache) or a random access memory (RAM).
- the first storage module 33 and the second storage module 43 may be a combination of main memory and external memory, and the external memory includes non-volatile memory such as a floppy disk, a hard disk, or an optical disk.
- the first client 10 and the second client 20 can temporarily store the data that needs to be stored in the main memory, and then upload it to the first processing system 30.
- the first processing system 30 will process the medical imaging data that needs to be image reconstructed and structurally partitioned.
- the medical image data and the first image data after image processing are stored in the external memory.
- they need to be uploaded to the second processing system 40 or need to be downloaded they will be read out and transmitted to The second processing system 40, or the first client 10 with download authority, or the second client 20 with download authority.
- the second processing system 40 receives the medical imaging data and the first image data from the first processing system 30, it first stores them in the main memory. After performing brain function analysis and target planning processing, the second image data and all The target location is stored in external memory.
- the medical system 100 further includes multiple terminals, each of which is provided with multiple clients.
- the plurality of terminals are at least two terminals, and the plurality of clients are at least two clients.
- each first terminal 50 of the multiple first terminals 50 is provided with the first client 10 and/or the second client 20 .
- the plurality of terminals further include a plurality of second terminals 60
- each second terminal 60 of the plurality of second terminals 60 is provided with the first client 10 and/or the second client 20. That is to say, the first client 10, or the second client 20, or the first client 10 and the second client 20 can be set in the first terminal 50; of course, those skilled in the art can also set the second client as needed.
- Terminal 60, the first client 10, or the second client 20, or the first client 10 and the second client 20 can be set in the second terminal 60.
- Those skilled in the art can also set the client set in the first terminal 50 and the client set in the second terminal 60 as the same client or different clients as needed.
- the first terminal 50 and the second terminal 60 may be the same device and perform different functions; they may also be different devices and perform different functions. When the first terminal 50 and the second terminal 60 are the same device and perform the same function, they can be essentially understood as the same terminal.
- the plurality of first terminals is at least one first terminal 50 , that is, the plurality of first terminals 50 may be 2, 3 or more.
- the plurality of second terminals is at least one second terminal 60, that is, the plurality of second terminals 60 may be 2, 3 or more.
- the number of the first terminal 50 and the second terminal 60 may be in one-to-one correspondence, or may be set according to the actual needs of the first terminal and the second terminal.
- the number of the first terminal and the second terminal may not be one-to-one.
- it can be configured as one first terminal and at least two second terminals, it can also be configured as one second terminal and at least two first terminals, and of course it can also be configured as at least two first terminals and at least two second terminals. .
- the plurality of first terminals 50 and the plurality of second terminals 60 respectively communicate with the first processing system 30 through a network communication protocol.
- the first terminal 50 and the second terminal 60 and the first processing system 30 may be connected through a local area network, a metropolitan area network, or a wide area network.
- the unique identification of the task in the request transmitted by the first processing system 30 based on the first client 10 of the first terminal 50 and/or the second client 20 of the second terminal 60 will match the unique identification.
- the data is transmitted to the corresponding client.
- the medical system 100 can be deployed in multiple institutions, that is, the combination of the first client 10, the second client 20, and the first processing system 30 in the medical system 100 can be deployed in multiple institutions. They share the same cloud server, which enables centralized data analysis, multi-node data storage and multi-node treatment.
- the collaborative processing method 200 includes the following steps:
- the first processing system 30 performs image preprocessing (for example, image reconstruction and structural partitioning) based on the patient's medical image data transmitted by the first client 10 to obtain the first image data;
- image preprocessing for example, image reconstruction and structural partitioning
- the second processing system 40 performs target point planning based on the first image data transmitted by the first processing system 30 or the first image data and the medical imaging data to obtain the second image data and the position of at least one target point, and based on the first
- the image data, the second image data, and the position of the at least one target point generate at least one second treatment plan (eg, at least one pending treatment plan), and the first image data, the second image data, and the at least one second treatment plan are At least one of is transmitted to the first processing system 30;
- the first client 10 formulates a first treatment plan (for example, a confirmed treatment plan) based on at least one of the first image data, the second image data and the at least one pending treatment plan transmitted by the first processing system 30 and transmitting the first image data, the second image data and the first treatment plan to the first processing system 30;
- a first treatment plan for example, a confirmed treatment plan
- the second client 10 executes the confirmed treatment plan obtained from the first processing system 30 and generates treatment records during and/or after execution.
- the first processing system performs image reconstruction based on the medical imaging data of the patient's body parts (eg, head, chest, bones, heart, kidneys, liver, lungs, blood vessels, etc.) transmitted by the first client 10 and structural partitioning to obtain first image data.
- the medical imaging data of the patient's body parts eg, head, chest, bones, heart, kidneys, liver, lungs, blood vessels, etc.
- the collaborative processing method 200 further includes the following steps:
- the user logs in to the first client 10 to create and record patient information
- the first client 10 acquires the patient's medical image data and transmits the medical image data to the first processing system 30 for image reconstruction and structural partitioning.
- the collaborative processing method 200 further includes the following steps:
- the requested data is transmitted to the corresponding requesting end.
- the requesting end is the first client 10 and the user has the download permission for the corresponding data
- the first processing system 30 reads the second image data from the first storage module 33 and performs the processing based on the request.
- the unique identification of the task for example, a unique identification code
- the unique identification of the first client 10 for example, a source port address or a unique identification code
- a readable storage medium is provided in accordance with yet another embodiment of the present invention.
- “Readable storage medium” of embodiments of the present invention refers to any medium that participates in providing programs or instructions to a processor for execution.
- the media can take many forms, including, but not limited to, non-volatile media, volatile media, and transmission media.
- Non-volatile media include, for example, optical or magnetic disks, such as storage devices.
- Volatile media includes dynamic memory, such as main memory.
- Transmission media include coaxial cables, copper wire, and fiber optics, including the wires that contain the bus. Transmission media may also take the form of acoustic or light waves, such as those generated during radio frequency (RF) and infrared (IR) data communications.
- RF radio frequency
- IR infrared
- Common forms of readable storage media include, for example, floppy disks, flexdisks, hard disks, magnetic tape, any other magnetic media, CD-ROM, DVD, any other optical media, punched cards, paper tape, any other physical medium with a pattern of holes, RAM , PROM and EPROM, FLASH-EPROM, any other memory chip or cartridge, a carrier wave as described below, or any other medium from which a computer can read.
- Programs or instructions are stored on the readable storage medium.
- the above-detailed collaborative processing method 200 based on the medical system is performed.
- the medical system, collaborative processing method and readable storage medium according to embodiments of the present invention have at least one of the following advantages:
- the medical system, collaborative processing method and readable storage medium provided by the present invention enable users to obtain patient information, treatment plans and treatment records on different terminals through the shared data of the processing station without having to complete the entire treatment course.
- the same device must be used for treatment, which not only saves medical personnel's time, improves the utilization rate of neuromodulation equipment, but also improves the level of data security, reduces patient waiting time, and reduces the difficulty of making appointments;
- the medical system and collaborative processing method provided by the present invention and the data stored in the cloud server in the readable storage medium are desensitized data, so that the patient's data security is guaranteed;
- the design of the processing station greatly reduces the dependence on the external network.
- the processing station can be accessed through the internal local area network. Perform local downloads so they do not interfere with patient treatment progress;
- the medical system, collaborative processing method and readable storage medium provided by the present invention have a high-performance large storage processing station to undertake the task of 3D image reconstruction, enabling data processing and patient treatment to be performed at the same time, which greatly improves the user's Work efficiency, and because such a design can reduce the performance requirements of neuromodulation equipment, it can greatly reduce the cost of medical institutions;
- the medical system, collaborative processing method and readable storage medium provided by the present invention functionally distinguish the doctor client and the treatment client, allowing users with different roles to work collaboratively with each other in their respective positions, thus greatly improving User productivity.
- All the clients in the medical system, collaborative processing method and readable storage medium devices provided by the present invention share a processing station, and present a three-level model during the treatment process: diagnosis and treatment - centralized data management - implementation
- the business process architecture achieves centralized processing and analysis of data and multi-node treatment through such a design, thus increasing the efficiency of collaborative work between users with different roles, while also improving the utilization efficiency of neuromodulation equipment;
- the medical system, collaborative processing method and readable storage medium provided by the present invention can realize multi-institution shared cloud services, and realize centralized data analysis, multi-node data storage and multi-node treatment.
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Abstract
La présente invention concerne un système médical, un procédé de traitement coopératif et un support d'enregistrement lisible. Le système médical comprend un client configuré pour fournir des données patient, un premier schéma de traitement et un enregistrement de traitement, et pour exécuter le premier schéma de traitement ; et un premier système de traitement connecté au client et configuré pour traiter des premières données sur la base des données patient pour obtenir des premières données.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| PCT/CN2022/112190 WO2024031659A1 (fr) | 2022-08-12 | 2022-08-12 | Système médical, procédé de traitement coopératif et support d'enregistrement lisible |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| PCT/CN2022/112190 WO2024031659A1 (fr) | 2022-08-12 | 2022-08-12 | Système médical, procédé de traitement coopératif et support d'enregistrement lisible |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| WO2024031659A1 true WO2024031659A1 (fr) | 2024-02-15 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| PCT/CN2022/112190 WO2024031659A1 (fr) | 2022-08-12 | 2022-08-12 | Système médical, procédé de traitement coopératif et support d'enregistrement lisible |
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| WO (1) | WO2024031659A1 (fr) |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110101974A (zh) * | 2018-02-01 | 2019-08-09 | 瓦里安医疗系统国际股份公司 | 使用基于知识的模型触发自适应计划的系统和方法 |
| CN114501408A (zh) * | 2022-02-09 | 2022-05-13 | 挂号网(杭州)科技有限公司 | 诊疗数据处理方法、装置、电子设备及存储介质 |
| CN114728166A (zh) * | 2019-10-29 | 2022-07-08 | 医科达有限公司 | 使用mr linac的心脏消融 |
-
2022
- 2022-08-12 WO PCT/CN2022/112190 patent/WO2024031659A1/fr unknown
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110101974A (zh) * | 2018-02-01 | 2019-08-09 | 瓦里安医疗系统国际股份公司 | 使用基于知识的模型触发自适应计划的系统和方法 |
| CN114728166A (zh) * | 2019-10-29 | 2022-07-08 | 医科达有限公司 | 使用mr linac的心脏消融 |
| CN114501408A (zh) * | 2022-02-09 | 2022-05-13 | 挂号网(杭州)科技有限公司 | 诊疗数据处理方法、装置、电子设备及存储介质 |
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