EP2542152A1 - Medical examination and/or treatment device - Google Patents

Abstract

The invention relates to a medical examination and/or treatment device for performing image acquisitions and/or radiation- or instrument-based treatments in an examination or treatment region, comprising an image acquisition means and/or a treatment means and a patient table, wherein a detection means (7) for determining the position of a patient (4) located on the patient table (3) is provided, the detection means comprising a radiation emitter (8) which irradiates the patient (4) in at least one region and emits terahertz radiation (9), at least one radiation receiver (10) detecting reflected terahertz radiation (12), and a processing means (13) processing the receiver signals supplied by the radiation receiver (10), wherein the processing means (13) can generate an image showing the surface of the irradiated patient region on the basis of the receiver signals and the position of the patient region relative to the examination or treatment region (5) can be determined on the basis of said image.

Description

description

Medical examination and / or treatment device The invention relates to a medical examination ^¬ and / or treatment device for performing image recordings and / or radiation or instrument-based treatments in an examination or treatment region comprising an image pickup means and / or a Behandlungsmit- tel and a patient table ,

In the context of carrying out medically indicated examinations or treatments, image recordings are frequently carried out with a wide variety of modalities, such as X-ray equipment, ultrasound equipment, PET equipment and the like, or interventional treatments, for example ^robotically controlled. For this purpose, ensure that the examination or treatment, so for example, the image recording or interventional procedure, is actually carried out in the correct body part, that is, that the patient is correctly positioned relative to the image capture or treatmen ^¬ development means. For this purpose, especially when prolonged examinations or treatments are pending, the patient is often fixed, which is sometimes unpleasant for the patient.

The invention is therefore based on the problem to provide a medical ^¬ African examination and / or treatment device, which allows improved position control of the patient.

In order to solve this problem, a medical examination and / or treatment device of the type mentioned in the introduction provides for a detection means for determining the position of a patient located on the patient table comprising a radiation transmitter irradiating the patient in at least one area and emitting terahertz radiation , at least one reflected Terahertz radiation detecting radiation receiver as well as the receiver signals supplied by the radiation receiver-processing processing means is provided, wherein the processing means based on the receiver signals a berfläche the 0 of the irradiated patient area facing depicting ^¬ lung generated and determined from this the position of the patient area relative to the examination or treatment region is. In the examination and / or treatment apparatus according to the invention, it is particularly advantageous to use a position detection means which operates on a transmitter-receiver base. The transmit emitted terahertz radiation is reflected from the patient, the receiver detects the terahertz radiation reflected and provides corresponding Emp ^¬ catcher signals weiterverar ^¬ beitet in a processing means. The terahertz radiation, which comprises a frequency spectrum of about 150 GHz-10 THz, penetrates with particular advantage not or only insignificantly in the patient, so it is superficially or near the surface reflected. The reflected in its frequency or amplitude varied reflexionsbe ^¬ dingt signal consequently represents the irradiated upper ^¬ surface of the patient. Terahertz images can thus be generated by the processing means of the receiver signals, based on which the processing means (using suitable algorithms such as edge or region-based algorithms), pattern recognition method, and the like throughput are performed by optionally further conducted image processing ^¬ steps such as one or more segmentations to automatically determine the exact patient area geometry from the surface image. From this, consequently, information about the position or position of the patient with respect to the examination or treatment area known in his position can be detected. The processed beitungsmittel determined from the surface showing how the patient area looks like or what it is, and checks whether it is dealing with the defined user side before loading ^¬ rich, which is to examine or treat. is Thus, knowing which area it is, it can be recognized whether the position of the patient is correct or not. The surface of the patient area is very well suited for positioning because it provides a very accurate image of the patient. In particular, no radiation exposure is associated with the use of the Tehrahertzstrahlung, as they are given, for example, if an X-ray image for determining the position is performed before when X-ray ^¬ gene recordings. Another advantage is the fact that the terahertz images can of course be continuously recorded, so therefore a continuous position control is possible. It is also advantageous that the clothing worn by the patient is transparent to the terahertz radiation, and therefore does not interfere, so that in any case the surface images suitable according to the invention can be taken up.

Furthermore, any movements or changes in position of the patient can be detected by simple comparison of the continuously recorded surface images and, if necessary, can be governed by them.

Patients determined position or the 0- generated (if it is determined directly in the processing means) berflächenbild respectively any thereof extracted infor ^¬ mation on patient geometry are given in each case, the control means of the device that controls the operation of the image pickup means and / or the treating agent. Results from a position comparison, that the patient is correctly positioned ^¬ lung area relative to the examination and / or treatmen, the examination or treatment can be started or continued with continuous monitoring. Results in an incorrect positioning, so, if the treatment has not yet begun, corresponding measures for correction of the position, or if the treatment is already running, arrangements for repositioning or, if necessary, also the temporary termination of the investi ^¬ monitoring and / or treatment be made. A particularly expedient development of the invention provides for the use of two or more radiation receivers arranged at different positions, with the processing means using the various receiver signals

3D representation of the patient area can be generated and based on the 3D representation, the position of the patient area relative to the examination or treatment area can be determined. If two 3D surface images can be generated when using a radiation emitter and a radiation receiver, the use of a radiation receiver and at least two radiation receivers arranged at different positions makes it possible to generate or to reconstruct 3D surface representations of the patient area. It is therefore proposed to create a 3D surface representation using stereographic image processing techniques, a stereographic arrangement of ^radiation-¬ catcher. A three-dimensional representation allows an even better geometry determination and position determination.

The radiation transmitter and the radiation receiver (s) can be arranged on the device itself, it is also conceivable to position the transmitter and the receiver adjacent to the device. Of course, it is also conceivable, for example, to position the radiation transmitter on the device and the receiver device outside or vice versa. Any arrangement is possible as long as good area irradiation and good reception of the reflected terahertz radiation is possible.

In order to determine the absolute patient table position, it is customary to determine the table movement, for example via mechanical counters, which detect the displacement length of the table, or electrical position measuring means. In order to be able to determine the patient position in the form of absolute coordinates in the coordinate system of the examination and / or treatment apparatus in a simple manner, an expedient development of the invention provides that in or on the patient. at least one marking is provided at least one of the terahertz radiation which is at least partially absorbing or reflecting upon irradiation by the radiation transmitter, the position of the marking in the coordinate system shown in FIG

Device and the position of the patient area can be determined relative to the mark and from both position information, the position of the patient area relative to the examination or treatment area can be determined. According to the invention, at least one marker with a specific geometric structure that absorbs or reflects terahertz radiation is embedded in the patient table. The captured with the Tera Hertz ^¬ radiation receiver picture shows the patient's area and the patient table, se at least ausschnittswei-, with absorbing or reflecting marker. The mark is formed from very accurately and with defined contrast in the image and can with suitable Bildverarbei ^¬ processing means (segmentation, pattern recognition etc.) are determined. The relative position of the patient area to the marker can now also be determined via suitable further image processing options. Since the position of the patient table in the coordinate system of the examination and / or treatment device is known, it is now possible from the additional knowledge of the relative patient area position to the marking, which thus represents a reference point, and the position of the marking in the room itself the position of the patient in the coordinate system of the examination and / or treatment device can be calculated. Since the position of the mark does not change during the examination or treatment, after the table is usually not moved, the mark thus a not changing during the process reference point in Ko ^¬ ordinate system of examination and / or treatment apparatus is, in relation to which the patient position determination can take place.

It is expedient if a plurality of markings are distributed in or on the patient table, with these being preferred at the edge are provided so that they can also be irradiated and thus shown in the picture. A mark have preferably ^¬, on a defined 3D geometry, so that from the results shown in the image marking geometry any Tischstel- payments, so tilts or twists, can be detected.

As a radiation receiver, any receiver that provides a signal when detecting a terahertz radiation, but also suitable cameras that are sensitive in this frequency range can be used.

In addition to medical examination and / or treatment apparatus itself, the invention also relates to a procedural ren for determining the position of a patient relative to an examination and / or treatment area of an image pickup means and / or a treatment agent of a medi ^¬ zinischen examination and / or treatment device , The process is characterized is that irradiated with a terahertz radiation emitting radiation emitter a portion of the patient and detected by a Strahlungsempfän ^¬ gers reflected terahertz radiation, and that irradiated using the information supplied by the receiver receiver signals an the surface of the loading by means of a processing means Patient area showing representation is generated and from this, the position of the patient area is determined relative to the examination and / or treatment area.

Be used two or more arranged at different positions radiation receiver in the context of the inventive method that provide separate receiver signals, so a 3D representation of the patient area can be generated by suitable stereoscopic proces ^¬ processing methods with this stereoscopic receiver assembly due to the position due to different surface representations of the respective receiver, based on the determination of the position of the patient area. Is with the radiation transmitter and at least a part of patent tiententischs, in or on which is the see ^¬ at least one when irradiated by the radiation transmitter, the terahertz radiation at least partly absorbing or reflecting mark provided, is irradiated, it is possible with the proces ^¬ tung medium Determining the position of the marking shown in the generated representation in the coordinate system of the device and the position of the patient area relative to the marking and to determine from both position information the position of the patient area relative to the examination ^¬ and / or treatment area. This is only possible of a radiation receiver as well as in United ^¬ application of several distributed both when used in stereographic assembly positioned radiation receiver.

Further advantages, features and details of the invention will become apparent from the ^exemplary embodiment described below and from the drawings. Showing:

1 is a schematic diagram of a medical examination and / or treatment device according to the invention of a first embodiment, and

2 shows a medical examination and / or treatment ^{device according to the} invention of a second embodiment.

Fig. 1 shows an inventive medical investi ^¬ ceutical and / or treatment device 1 in the form of a pure basic diagram. In the example shown, the examination and / or treatment apparatus 1 has, by way of example, an X-ray image recording means 2, comprising, for example, the X-ray source shown here and an X-ray detector (not shown here). Via this X-ray image recording device, it is possible to record X-ray images of the patient 4 located on a patient table 3. In order to determine the spatial position of the patient and thus his position relative to the examination or treatment area 5, which is defined here for example by the beam cone 6 of the X-ray image recording device 2, a detection means 7 is provided by recording and evaluating surface images the patient 4 allows an exact position determination. In the example shown, the detection means comprises a radiation transmitter 8, which emits terahertz radiation 9, represented by the fan beam, on the patient 4. Also provided in the example shown are two radiation receivers 10, which are arranged offset from one another. The terahertz radiation applied by the radiation transmitter 8 is reflected by the surface 11 of the patient 4, that is to say that it does not penetrate the patient by wavelength or does not penetrate it insignificantly. The reflected terahertz radiation 12 is received by the respective radiation receiver 10. Each radiation receiver 10 consequently supplies corresponding receiver signals to a processing means 13 belonging to the detection means 7, which processes the receiver signals and uses them to determine surface images which highly accurately map the surface 11 of the patient which was occupied by the emitted terrestrial radiation 9. After two radiation receivers 10 arranged offset to one another are provided, and therefore a stereoscopic arrangement is provided, slightly different images are detected or generated by the two radiation receivers 10. On the basis of the small differences in the image of two images taken at the same time, a three-dimensional representation of the irradiated surface can now be generated, that is, reconstructed.

The processing means 13 is now determined by appropriate image processing algorithms such as ^¬ segmentation algorithms, pattern recognition algorithms, etc., the exact geometry of the surface. From this geometric information relating to this recorded patient table can now turn the control device 14, which controls the operation of the examination and / or treatment device, in this case for example, the operation of the X-ray image recording device 2, the Determining the position of the patient relative to the examination and / or treatment area 5, thus recognizing from the surface information or geometry information, whether the previously defined desired area to be examined or treated is actually in the examination and / or treatment area 5, or whether it is still another area that has a different geometry, which does not correspond to the area geometry that has to be handled ^¬ area. If the evaluation of the geometry information from the surface representation shows that the correct patient area is in the examination area 5 known in its position, then the examination or treatment can be started. Implies that there are no correct positioning is still present, the patient table 3 can be moved according to the patient 4 to correctly po ^¬ sitionieren.

At this point it should be noted that the position ^¬ specifications can be continuous, that is, continuously always a position control can be carried out during the examination or treatment. As soon as a displacement of the actual patient area to be examined or treated caused by a patient movement results relative to the examination area 5, the control unit 14 can intervene immediately and, for example, carry out a tracking of the table or intervene in the examination or treatment process.

2 shows a second embodiment of an inventive examination and / or treatment device 1, wherein the same reference numerals are used for the same components. Provided, in turn, is a patient table 3 on which a patient is 4, as well as a detecting means 7 to ^¬ collectively a radiation emitter 8, of the terahertz radiation advantage emit, and in the illustrated example, only one radiation receiver 10, which receives the reflected terahertz radiation 12th In turn, the processing means 13 generates a surface ^¬ image with respect to the geometry of the irradiated patient tenbereichs is evaluated, the corresponding Geometriein ^¬ formations are given to the controller 14 which determines therefrom the position. In this example, a radiation receiver is provided le ^¬ diglich 10, and therefore the geometry determination is made on the basis of a 2D image. Even ^¬ course, it is conceivable to provide also two stereoscopically located radiation receiver 10, as also in the embodiment of Fig. 1, only one radiation receiver 10 may be provided.

In this embodiment, a plurality of markings 15 are provided on or in the patient table 3, which either absorb or reflect the terahertz radiation 9, which also impinges on them with a corresponding design of the beam cone. The reflected terahertz radiation 12 which is absorbed by the radiation ^¬ receiver 10, consequently also depicts the region of the one or more irradiated marks 15, that is, that the upper generated in the processing means 13 area display also shows the markings. Because they are either absorbing or reflecting, they are very precisely recognizable with sharp contrast.

Since the table 3 is moved by motor, it is possible in a simple manner to determine the absolute position of the markers 15 in the coordinate system of the examination and / or treatment device 1. That is, their absolute position coordinates are known by the processing means 13. The processing means 13 is now by means of suitable image processing algorithms in a position on the one hand Mar- markings in the image exactly to detect, for example by ge ^¬ suitable edge detection algorithms or region-based algorithms or the like. Furthermore, the patient's geometry is determined and the relative position of the patient ^¬ range, so the geometry of the marks or chendarstellung shown in of surface 15. All information is given to the control device 14th If, during the course of the examination or treatment, the position of the patient 4 changes on the table, but remains fixed on the position itself, then the relative position of the patient area, ie the detected geometry, inevitably changes, likewise in the picture shown Markie ^¬ stanchions 15. here About can thus be continuously the relative position of the geometry determined at the positionally fixed marks and immediately detects any changes in position and processed by the controller 14 and any necessary adjustment action to be initiated.

The known position coordinates of the markings 15 in the coordinate system of the examination and / or treatment device 1 now make it possible to determine exact position coordinates of the determined geometry of the patient area, ie the patient himself, in the coordinate system of the examination and / or treatment device. This means that the exact spatial position of the patient or of the scanned patient area is also known in absolute co-ordinates of the co-ordinate system of the examination and / or treatment ^apparatus . Now follows a movement so, this can because it is determined from the image representations in its periphery immediately be accurately converted into corresponding Koordinatenän ^¬ requirements, resulting in the part of the Steuerungsein- direction 14, for example, appropriate control signals can be given to the patient table, the is then moved accordingly to reposition the patient area to be treated and the like.

Reference sign list

1 medical examination and / or treatment facility

 2 X-ray image acquisition means

 3 patient table

 4 patient

 5 examination or treatment area

6 cone cones

 7 detection means

 8 radiation transmitter

 9 terahertz radiation

 10 radiation receiver

 11 surface

 12 terahertz radiation

 13 processing agents

 14 control device

 15 marks

Claims

claims

1. Medical examination and / or treatment apparatus for performing image recordings and / or radiation- or instrument-based treatments in an examination or treatment area, comprising an image recording means ^¬ and / or a treatment agent and a patient ^¬ table, characterized in that a detection means ( 7) for determining the position egg nes on the patient table (3) located patient (4) comprising a (patient 4) in at least one region irradiated radiation emitter (8) of the terahertz radiation (9) emitted, at least one reflected Terahertzstrah ^¬ lung (12) detecting radiation receiver (10) and one of the radiation receiver (10) supplied receiving signals processing processing means (13) is provided, wherein the processing means (13) based on the receiver signals a the surface of the irradiated patient area show ^¬ de representation generated and from this the position of patent tientenbereichs relative to the examination or treatmen ^¬ (5) lung area determined.

2. Medical examination and / or treatment device according to claim 1, characterized - characterized in that two or more arranged at different positions radiation receiver (10) are provided, wherein the processing means (13) based on the ver ^¬ different receiver signals, a 3D representation of Patients can be generated range and based on the 3D representation of the position of the patient area relative to the examination or treatment area (5) can be determined.

3. Medical examination and / or treatment ^device according to claim 1 or 2, characterized in that the radiation transmitter (8) and the radiation receiver (s) (10) are arranged on the device (1) itself or adjacent thereto.

4. Medical examination and / or treatment device according to one of the preceding claims, characterized in that in or on the patient ^¬ table (3) at least one upon irradiation by the radiation emitter (8) the terahertz radiation (9) at least partially absorbing or reflecting mark (15) vorgese ^{¬ is} hen, with the processing means (13) the position of the marker shown in the generated representation (15) in the coordinate system of the device (1) and the position of the patient area relative to the marker (15) determinable and from both Position information, the position of the patient area relative to the examination or treatment ^¬ area can be determined.

5. medical examination and / or Behandlungsvorrich ^¬ device according to claim 4, characterized in that in or on the patient table (3) a plurality of markings (15) are arranged distributed.

6. Medical examination and / or Behandlungsvorrich ^¬ device according to claim 4 or 5, characterized in that a marking (15) has a defined 3D geometry.

7. A method for determining the position of a patient relative to an examination and / or treatment area of an image acquisition means and / or a treatment means of a medical examination and / or treatment apparatus, which emit a terahertz radiation (9)

Radiation emitter (10) irradiates a region of the patient (4) and by at least one radiation receiver (10) re ^¬ inflected terahertz radiation (12) is detected, and that by means of a processing means (13) supplied on the basis of lung receiver of radiation (10) receiver signals a the 0 berfläche of the irradiated patient area facing depicting ^¬ lung is generated, and from this the position of the patient range relative to the examination and / or treatment ^¬ area (5) is determined.

8. The method according to claim 7, dadurchge - indicates that of two or more, arranged at different positions radiation receivers (10) separate receiver signals are supplied to the processing means (13), wherein with the processing means on ^¬ hand of the various receiver signals, a 3D representation the patient area is generated and the position of the patient area relative to the examination and / or treatment area (5) is determined on the basis of the SD display.

9. The method according to claim 7 or 8, characterized in that with the Strahlungssen ^¬ of (8) and at least a part of the patient (4) tra ^¬ ing patient table (3), in or on the at least one upon irradiation by the radiation transmitter ( 8) the terahertz radiation (9) is provided with at least partially absorbing or reflecting mark (15), the processing means (13) indicating the position of the marking (15) shown in the generated illustration in the coordinate system of the device (FIG. 1) and the patient's position range relative to the marker (15) is determined and the position of the patient relative to the examination region and / or treatmen ^¬ lung region (5) is determined from the two position information.