CN213781027U - Composite medical image system - Google Patents

Abstract

The utility model provides a pair of compound medical image system, include: the ultrasonic image acquisition unit is used for acquiring and outputting an ultrasonic image of a patient; the CT image acquisition unit is used for acquiring and outputting a CT image of a patient; the magnetic resonance image acquisition unit is used for acquiring and outputting a nuclear magnetic resonance image of a patient; a control unit; the magnetic resonance imaging device is in communication connection with the ultrasonic image acquisition unit, the CT image acquisition unit and the magnetic resonance image acquisition unit and is used for receiving the ultrasonic image, the CT image and the nuclear magnetic resonance image, processing the ultrasonic image, the CT image and the nuclear magnetic resonance image and outputting the processed image; the wearable augmented reality display device is in communication connection with the control unit and is used for receiving and displaying the processed image output by the control unit; can form the compound fusion image with patient's ultrasonic image, CT image and magnetic resonance image and show to can instruct medical personnel's operation, and then can effectively improve operation efficiency and reduce the operation risk.

Description

Composite medical image system

Technical Field

The utility model relates to an image system especially relates to a compound medical image system.

Background

In the medical field, medical staff often perform diagnosis and surgical reference of diseases on patients through medical images, wherein the medical images generally include magnetic resonance images, CT images (i.e., imaging with x-rays, gamma rays, etc.), and ultrasound images; in the actual operation process, the medical staff is often separated from the medical image of the patient, so that the operation efficiency is low and the operation risk is high.

Therefore, in order to solve the above technical problems, it is necessary to provide a new technical means for solving the problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a compound medical image system can form compound fusion image with patient's ultrasonic image, CT image and magnetic resonance image and show to can guide medical personnel's operation, and then can effectively improve operation efficiency and reduce the operation risk.

The utility model provides a pair of compound medical image system, include:

the ultrasonic image acquisition unit is used for acquiring and outputting an ultrasonic image of a patient;

the CT image acquisition unit is used for acquiring and outputting a CT image of a patient;

the magnetic resonance image acquisition unit is used for acquiring and outputting a nuclear magnetic resonance image of a patient;

a control unit; the magnetic resonance imaging device is in communication connection with the ultrasonic image acquisition unit, the CT image acquisition unit and the magnetic resonance image acquisition unit and is used for receiving the ultrasonic image, the CT image and the nuclear magnetic resonance image, processing the ultrasonic image, the CT image and the nuclear magnetic resonance image and outputting the processed image;

and the wearable augmented reality display equipment is in communication connection with the control unit and is used for receiving and displaying the processed image output by the control unit.

Further, the ultrasonic image acquisition unit comprises an ultrasonic image acquisition device, an ultrasonic image processor and a first protocol conversion device;

the output end of the ultrasonic image acquisition equipment is connected with the input end of the ultrasonic image processor, the output end of the ultrasonic image processor is connected with the first protocol conversion equipment, and the first protocol conversion equipment is in communication connection with the control unit.

Further, the CT image acquisition unit comprises a CT image acquisition device, a CT image processor, a CT image memory and a second protocol conversion device;

the output end of the CT image acquisition equipment is connected with the CT image processor, the CT image processor is in communication connection with the CT image memory, the CT image memory is in communication connection with the second protocol conversion equipment, and the second protocol conversion equipment is in communication connection with the control unit.

Further, the magnetic resonance image acquisition unit comprises a magnetic resonance image acquisition device, a magnetic resonance image processor, a magnetic resonance image memory and a third protocol conversion device;

the magnetic resonance image acquisition equipment is connected with a magnetic resonance image processor, the magnetic resonance image processor is in communication connection with a magnetic resonance image memory, the magnetic resonance memory is in communication connection with third protocol conversion equipment, and the third protocol conversion equipment is in communication connection with the control unit.

Further, the control unit includes monitoring host computer and display, monitoring host computer and ultrasonic image acquisition unit, CT image acquisition unit and magnetic resonance image acquisition unit communication connection, the monitoring host computer is connected with the display, the monitoring host computer still with dress type augmented reality display device communication connection.

The utility model has the advantages that: through the utility model discloses, can form compound fusion image with patient's ultrasonic image, CT image and magnetic resonance image and show to can guide medical personnel's operation, and then can effectively improve operation efficiency and reduce the operation risk.

Drawings

The invention will be further described with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention is described in further detail below with reference to the accompanying drawings, and it is noted that the processes involved in the following description are only for the convenience of those skilled in the art to understand the present invention, and are not modifications of the processes.

The utility model provides a pair of compound medical image system, include:

the ultrasonic image acquisition unit is used for acquiring and outputting an ultrasonic image of a patient;

the CT image acquisition unit is used for acquiring and outputting a CT image of a patient;

the magnetic resonance image acquisition unit is used for acquiring and outputting a nuclear magnetic resonance image of a patient;

a control unit; the magnetic resonance imaging device is in communication connection with the ultrasonic image acquisition unit, the CT image acquisition unit and the magnetic resonance image acquisition unit and is used for receiving the ultrasonic image, the CT image and the nuclear magnetic resonance image, processing the ultrasonic image, the CT image and the nuclear magnetic resonance image and outputting the processed image;

the wearable augmented reality display device is in communication connection with the control unit and is used for receiving and displaying the processed image output by the control unit; by the utility model, the ultrasonic image, the CT image and the magnetic resonance image of the patient can form a composite fusion image and display the fusion image, so that the operation of medical personnel can be guided, the operation efficiency can be effectively improved, and the operation risk can be reduced; the wearable augmented reality display device is an existing device, and the principle and structure of the wearable augmented reality display device are not described herein.

In this embodiment, the ultrasound image acquisition unit includes an ultrasound image acquisition device, an ultrasound image processor, and a first protocol conversion device;

the output end of the ultrasonic image acquisition equipment is connected with the input end of the ultrasonic image processor, the output end of the ultrasonic image processor is connected with the first protocol conversion equipment, the first protocol conversion equipment is in communication connection with the control unit, the ultrasonic image acquisition equipment is the existing equipment through the structure and comprises an ultrasonic transducer, an ultrasonic probe and the like and is used for carrying out ultrasonic imaging, the ultrasonic image processor is the existing microprocessor and is used for processing ultrasonic images, such as denoising and the like, and the first protocol conversion equipment, namely the interface converter is used for carrying out protocol conversion between the ultrasonic equipment processor and the monitoring host and realizing transmission of the ultrasonic images.

In this embodiment, the CT image acquisition unit includes a CT image acquisition device, a CT image processor, a CT image memory, and a second protocol conversion device;

the output end of the CT image acquisition equipment is connected with a CT image processor, the CT image processor is in communication connection with a CT image memory, the CT image memory is in communication connection with a second protocol conversion equipment, the second protocol conversion equipment is in communication connection with a control unit, wherein the CT image processor is an existing microprocessor and used for preprocessing a CT image, such as denoising, contrast processing and the like, the second protocol conversion equipment is an existing interface converter, and image transmission is carried out between the CT image memory and a monitoring host.

In this embodiment, the magnetic resonance image acquisition unit includes a magnetic resonance image acquisition device, a magnetic resonance image processor, a magnetic resonance image memory, and a third protocol conversion device;

the magnetic resonance image acquisition equipment is connected with a magnetic resonance image processor, the magnetic resonance image processor is in communication connection with a magnetic resonance image memory, the magnetic resonance memory is in communication connection with a third protocol conversion equipment, the third protocol conversion equipment is in communication connection with a control unit, the magnetic resonance image acquisition equipment is the existing equipment, the magnetic resonance image processor is used for preprocessing a magnetic resonance image, such as denoising, contrast, definition and the like, and the third protocol conversion equipment is the existing interface converter, so that the transmission of the magnetic resonance image between the magnetic resonance image memory and a monitoring host is facilitated.

In this embodiment, the control unit includes a monitoring host and a display, the monitoring host is in communication connection with the ultrasound image acquisition unit, the CT image acquisition unit and the magnetic resonance image acquisition unit, the monitoring host is connected with the display, the monitoring host is also in communication connection with the wearable augmented reality display device, the monitoring host is used for receiving the ultrasonic images, the CT images and the magnetic resonance images, the staff carries out the fusion processing of the images through the monitoring host, then the image is transmitted to a wearable augmented reality display device for display, the wearable augmented reality display device is used for displaying the fused image, the medical personnel wear the augmented reality display device, the method is characterized in that reference is made in the operation process, the position of a focus is accurately identified, and the like, so that the efficiency and the safety of the operation are facilitated, wherein the existing touch display is adopted for displaying.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (5)

1. A composite medical image system characterized by: the method comprises the following steps:

the ultrasonic image acquisition unit is used for acquiring and outputting an ultrasonic image of a patient;

the CT image acquisition unit is used for acquiring and outputting a CT image of a patient;

the magnetic resonance image acquisition unit is used for acquiring and outputting a nuclear magnetic resonance image of a patient;

a control unit; the magnetic resonance imaging device is in communication connection with the ultrasonic image acquisition unit, the CT image acquisition unit and the magnetic resonance image acquisition unit and is used for receiving the ultrasonic image, the CT image and the nuclear magnetic resonance image, processing the ultrasonic image, the CT image and the nuclear magnetic resonance image and outputting the processed image;

and the wearable augmented reality display equipment is in communication connection with the control unit and is used for receiving and displaying the processed image output by the control unit.

2. A composite medical image system according to claim 1, characterized in that: the ultrasonic image acquisition unit comprises ultrasonic image acquisition equipment, an ultrasonic image processor and first protocol conversion equipment;

the output end of the ultrasonic image acquisition equipment is connected with the input end of the ultrasonic image processor, the output end of the ultrasonic image processor is connected with the first protocol conversion equipment, and the first protocol conversion equipment is in communication connection with the control unit.

3. A composite medical image system according to claim 1, characterized in that: the CT image acquisition unit comprises CT image acquisition equipment, a CT image processor, a CT image memory and second protocol conversion equipment;

the output end of the CT image acquisition equipment is connected with the CT image processor, the CT image processor is in communication connection with the CT image memory, the CT image memory is in communication connection with the second protocol conversion equipment, and the second protocol conversion equipment is in communication connection with the control unit.

4. A composite medical image system according to claim 1, characterized in that: the magnetic resonance image acquisition unit comprises magnetic resonance image acquisition equipment, a magnetic resonance image processor, a magnetic resonance image memory and third protocol conversion equipment;

the magnetic resonance image acquisition equipment is connected with a magnetic resonance image processor, the magnetic resonance image processor is in communication connection with a magnetic resonance image memory, the magnetic resonance memory is in communication connection with third protocol conversion equipment, and the third protocol conversion equipment is in communication connection with the control unit.

5. The medical image system of claim 1, wherein: the control unit comprises a monitoring host and a display, the monitoring host is in communication connection with the ultrasonic image acquisition unit, the CT image acquisition unit and the magnetic resonance image acquisition unit, the monitoring host is connected with the display, and the monitoring host is also in communication connection with the wearable augmented reality display device.

Images