DE102015200220A1 - Magnetic Resonance Imaging System - Google Patents

Abstract

The present invention relates to a magnetic resonance imaging apparatus (100) for performing a human medical imaging examination, comprising a data interface (103-1) for wirelessly receiving control data for medical examination from a display device (105).

Description

The present invention relates to a magnetic resonance imaging apparatus for performing a medical imaging examination on humans.

The control of a magnetic resonance tomography device takes place on a control console, which is located in a separate control room. A pictorial evaluation takes place either on the control console or on a separate workstation with an image display software. The spatial distance between the user of the magnetic resonance imaging apparatus and the patient results in a limited observation of the patient by means of a video camera or through a glass pane and limited communication with the patient.

Patient movement, respiratory irregularity or positioning problems are detected less or with less delay, which can affect image quality and reproducibility. This can prolong the patient's "tabletime" in such cases. Furthermore, the design possibility of a workplace in the space of the magnetic resonance tomography device is severely limited. In a few cases, it is therefore possible to display the control console on a second monitor.

In the process, cables are laid on the floor, which entail an inherent danger of tripping over. In addition, a restriction on a screen, which is specified by the manufacturer of the magnetic resonance tomography device. Consequently, there is no way to set up a flexible workplace in the space of a magnetic resonance tomography device, so that any positioning of a control console and an additional image reading is possible.

It is the object of the present invention to enable any, simple and rapid positioning of a control console for a magnetic resonance tomography device.

According to a first aspect, the object is achieved by a magnetic resonance tomography apparatus for performing a medical imaging examination on humans, having a data interface for wirelessly receiving control data for the medical examination from a display device. As a result, the technical advantage is achieved, for example, that the display device can be placed anywhere within the range of the interface and can be dispensed with a disturbing cabling.

In a technically advantageous embodiment of the magnetic resonance tomography device, the data interface is a WLAN interface or a Bluetooth interface. As a result, for example, the technical advantage is achieved that the control data can be transmitted at a high speed.

In a further technically advantageous embodiment of the magnetic resonance tomography device, the data interface is an infrared interface. As a result, for example, the technical advantage is achieved that the magnetic resonance tomography device is not influenced by induced currents.

In a technically advantageous embodiment of the magnetic resonance tomography device, the data interface comprises a separate antenna. As a result, the technical advantage is achieved, for example, that improves the reception.

In a technically advantageous embodiment of the magnetic resonance tomography apparatus, the antenna is a directional antenna for concentrating the radiation in a specific spatial direction. As a result, for example, the technical advantage is achieved that increases the range in this spatial direction.

In a technically advantageous embodiment of the magnetic resonance tomography device, the antenna is arranged on the upper side of the magnetic resonance tomography device. As a result, the technical advantage is achieved, for example, that improves the reception even further.

In a technically advantageous embodiment of the magnetic resonance tomography apparatus, the data interface is designed to transmit the control data in real time or near real time. As a result, for example, the technical advantage is achieved that a direct and rapid control of the magnetic resonance tomography device takes place.

According to a second aspect, the object is achieved by a magnetic resonance tomography system comprising a magnetic resonance tomography device according to the first aspect and a display device for displaying a control console, which comprises a data interface for the wireless transmission of control data for a medical examination to the magnetic resonance tomography device. As a result, for example, the technical advantage is achieved that can be dispensed with a disturbing cabling.

In a technically advantageous embodiment of the magnetic resonance tomography system, the display device is attached to a wall. As a result, for example, the technical advantage is achieved that the magnetic resonance tomography system is designed to save space.

According to a third aspect, the object is achieved by a method for controlling a magnetic resonance tomography apparatus for performing a medical imaging examination on humans, comprising the step of wirelessly transmitting control data for the medical examination from a display apparatus to the magnetic resonance tomography apparatus. As a result, for example, the technical advantage is achieved that can be dispensed with a disturbing cabling.

In the following detailed description of the figures, non-limiting exemplary embodiments with their features and further advantages will be discussed with reference to the drawings.

Show it:

1 a schematic view of a magnetic resonance imaging system; and

2 a block diagram of a method.

1 shows a schematic view of a magnetic resonance imaging system 200 , The magnetic resonance imaging system 200 includes a magnetic resonance imaging device 100 , also called MR scanner, for performing a medical imaging examination on humans and a display device 105 to display a control console and image data.

The magnetic resonance tomography device 100 is an imaging device that is used in medical diagnostics to represent the structure and function of tissues and organs in the body. The magnetic resonance tomography device 100 is physically based on the principles of nuclear magnetic resonance (NMR), in particular field gradient NMR, and is therefore also referred to as nuclear spin tomography. To insert a patient into the magnetic field is a sliding table 109 used.

Both the magnetic resonance imaging device 100 as well as the display device 105 include a data interface 103-1 or 103-2 to wirelessly receive and send data. The data interfaces 103-1 and 103-2 can be interfaces according to the WLAN or Bluetooth standard and a separate antenna 107 exhibit. The antenna 107 is at a top of the magnetic resonance imaging apparatus 100 arranged so that the propagation of electromagnetic waves through the magnetic resonance imaging device 100 not hindered.

The display device 105 may have a touch-sensitive display. As a display device 105 For example, a computer, such as a tablet or laptop, with input and output capabilities based on different operating systems, such as Windows, iOS, or Android, can be used to perform the I / O functionality of a control console. This involves using software that runs on the computer, performs the control console input / output functions on the computer, and uses a wireless network connection with the magnetic resonance imaging device 100 combines.

A wireless network, such as a Wi-Fi network or Bluetooth network, allows connection of the display device 105 with the magnetic resonance tomography device 100 to map the functionality of the control console and a viewing station. When choosing the transmission frequency bands should be avoided, the magnetic resonance imaging device 100 disturb electromagnetically.

In a one-time establishment of the wireless connection between the magnetic resonance tomography device 100 and the display device 105 a unique authentication can take place. The operation of the virtual control console takes place in real time or near-real time, so that an immediate control of the magnetic resonance tomography device 100 without noticeable time lag.

It is also possible to divide the control console into different physical devices. For example, part of the control console may be on a computer 111 be shown with output monitor and the other part of the control console, which requires interactive operation, on a tablet PC as a display device 105 ,

The display device 105 Allows the user to perform control commands directly to the patient. The wall-mounted display device 105 can the acquired images of the magnetic resonance tomography device 100 Show. Computers and monitors as a display device 105 With suitable wireless network technology can be arbitrary in space 113 of the magnetic resonance tomography device 100 to be ordered. Computers already used by the users can be used as well as preferred models of the respective users. In terms of data security, a strict partitioning of all functionalities of the virtual control console is required.

2 shows a block diagram of a method for controlling a magnetic resonance tomography device 100 performing a medical imaging examination on a human. For this purpose, in step S101 control data for the medical examination via the data interfaces 103-1 and 103-2 from the display device 105 to the magnetic resonance tomography device 100 sent wirelessly. In step S102, for example, image data is then reversed across the data interfaces 103-1 and 103-2 from the magnetic resonance imaging apparatus 100 to the display device 105 sent wirelessly.

The magnetic resonance imaging system 200 uses the virtual control console on wirelessly connected devices with the Zeck, a magnetic resonance imaging device 100 in a scanner room 113 to use. The magnetic resonance imaging system 200 is based, for example, on optimized low-field approaches and does not require a separate control and technical room and no elaborate shielding of the examination room.

This makes it possible to use the magnetic resonance imaging system 200 to control in patient mode and to find pictures. The magnetic resonance imaging system 200 can be a "point-of-care" where the system is deployed directly in the environment of a patient's operation, for example, in low-threshold healthcare settings in small clinics or in Western referral practices such as neonatal wards, dental facilities or orthopedics. This enables image acquisition, which is coordinated with the work processes and individual settings. As long as specific wireless network standards are used, any monitors can be used as a display device 105 be used.

The same applies to the use of existing computers for control.

All features explained and shown in connection with individual embodiments of the invention may be provided in different combinations in the article according to the invention, in order to simultaneously realize their advantageous effects.

The scope of the present invention is given by the following claims and is not limited by the features illustrated in the specification or shown in the figures.

Claims (10)

Magnetic Resonance Imaging Device ( 100 for performing a medical imaging examination on humans, comprising: a data interface ( 103-1 ) for wirelessly receiving control data for medical examination from a display device ( 105 ). Magnetic Resonance Imaging Device ( 100 ) according to claim 1, wherein the data interface ( 103-1 ) is a WLAN interface or a Bluetooth interface. Magnetic Resonance Imaging Device ( 100 ) according to one of the preceding claims, wherein the data interface ( 103-1 ) is an infrared interface. Magnetic Resonance Imaging Device ( 100 ) according to one of the preceding claims, wherein the data interface ( 103-1 ) a separate antenna ( 107 ). Magnetic Resonance Imaging Device ( 100 ) according to claim 4, wherein the antenna ( 107 ) is a directional antenna for concentrating the radiation in a particular spatial direction. Magnetic Resonance Imaging Device ( 100 ) according to claim 4 or 5, wherein the antenna ( 107 ) at the top of the magnetic resonance imaging apparatus ( 100 ) is arranged. Magnetic Resonance Imaging Device ( 100 ) according to one of the preceding claims, wherein the data interface ( 103-1 ) is adapted to send the control data in real time or near real time. Magnetic Resonance Imaging System ( 200 ), comprising: a magnetic resonance tomography device ( 100 ) according to any one of claims 1 to 7; and a display device ( 105 ) for presenting a control console having a data interface ( 103-2 ) for the wireless transmission of control data for a medical examination to the magnetic resonance tomography device ( 100 ). Magnetic Resonance Imaging System ( 200 ) according to claim 8, wherein the display device ( 105 ) is attached to a wall. Method for controlling a magnetic resonance tomography apparatus ( 100 for performing a medical imaging examination on humans, comprising the step of: wirelessly transmitting (S101) medical control data Display device ( 105 ) to the magnetic resonance tomography device ( 100 ).

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