US2023008051A1PendingUtilityA1

Utilization of a transportable ct-scanner for radiotherapy procedures

Assignee: BRAINLAB AGPriority: Jun 25, 2015Filed: Jul 14, 2022Published: Jan 12, 2023
Est. expiryJun 25, 2035(~8.9 yrs left)· nominal 20-yr term from priority
A61N 2005/1059A61N 5/1038A61B 6/5235A61B 6/4405A61N 2005/1061A61N 5/1069A61B 2090/378A61B 2090/364A61N 2005/1051A61N 5/1049A61B 6/5217G06T 7/0012A61B 6/032A61B 2034/2055G06T 2207/30004A61N 2005/1063G16H 50/30A61B 2034/2051A61B 6/547
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Claims

Abstract

The present application relates to a data processing system and method for determining the position of a soft tissue body part within a patient's body. The data processing method includes acquiring CT-image data including information about the position of the body part within a coordinate system assigned to a transportable CT-device, wherein the patient's body is positioned relative to the treatment device, and wherein the CT-device is configured to be positioned relative to the patient's body and/or relative to the treatment device, acquiring first transformation data including information about a first transformation between the coordinate system assigned to the CT-device and a coordinate system assigned to the treatment device, and determining, based on the CT-image data and the first transformation data, position data including information about the position of the body part within the coordinate system assigned to the treatment device.

Claims

exact text as granted — not AI-modified
1 . A system for determining a position of a soft tissue body part within a patient's body, which is to be treated by radiotherapy with a treatment beam arrangement of at least one position of a treatment beam issued by a treatment device, the system comprising:
 a treatment device configured to issue the treatment beam arrangement;   a patient couch configured to support a patient's body during radiotherapy;   a transportable computed tomography device (CT-device) having an undercarriage by which the CT-device can be freely moved in two dimensions on a floor of a medical treatment area, the CT-device being configured to be transported to a radiotherapy treatment site, to be moved relative to the treatment device and/or the patient couch, and to acquire computed tomography image (CT-image) data of the patient's body; and   a guiding unit configured to guide the CT-device along a path between a first position of the CT-device and a second position of the CT-device allowing for acquiring the CT-image data.   
     
     
         2 . (canceled) 
     
     
         3 . (canceled) 
     
     
         4 . The system according to  claim 1 , wherein the guiding unit comprises at least one element selected from the group consisting of:
 an induction loop defining a guiding path;   a sensor device assigned to the CT-device and configured to detect markings that define the guiding path;   a transmitter emitting electromagnetic radiation, and a complementary receiver receiving the electromagnetic radiation, wherein the transmitter or the receiver is mounted to the CT-device, allowing the guiding unit to determine the path to the second position; and   a mechanical coupling defining a coupling position of the CT-device with respect to the treatment device.   
     
     
         5 . The system according to  claim 1 , further comprising:
 a computer comprising at least one processor configured to execute program instructions to determine the position of the soft tissue body part within the patient's body by:
 acquiring, at the at least one processor, CT-image data comprising information about the position of the soft tissue body part within a coordinate system assigned to the transportable CT-device having the undercarriage by which the CT-device can be freely moved in two dimensions on the floor of the medical treatment area, wherein the patient's body is positioned in a treatment position relative to the treatment device, and wherein the CT-device is configured to be positioned relative to the patient's body and/or relative to the treatment device; 
 acquiring, at the at least one processor, first transformation data comprising information about a first transformation between the coordinate system assigned to the CT-device and a coordinate system assigned to the treatment device, wherein acquiring first transformation data includes using the guiding unit configured to guide the CT-device along the path between the first position of the CT-device and the second position of the CT-device allowing for acquiring the CT-image data; and 
 determining, by the at least one processor and based on the CT-image data and the first transformation data, position data comprising information about the position of the soft tissue body part within the coordinate system assigned to the treatment device. 
   
     
     
         6 . The system according to  claim 5 , further comprising at least one element selected from the group consisting of:
 a repositioning unit configured to reposition the patient couch, the treatment device and/or the transportable CT-device so as to reach a spatial arrangement allowing for acquiring CT-image data;   a positioning imaging device assigned to the treatment device, and provided in a known spatial position relative to the treatment device;   a position detection unit configured to determine a spatial position of the CT-device with respect to the treatment device; and   the guiding unit further configured to determine the spatial position of the CT-device with respect to the treatment device and/or wherein the second position is predefined with respect to the treatment device.   
     
     
         7 . The system according to  claim 6 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body further comprises:
 acquiring, at the at least one processor, imaging-arrangement data including information about a spatial arrangement of the soft tissue body part, the treatment device and the transportable CT-device, the spatial arrangement allowing for acquiring CT-image data of the soft tissue body part with the patient's body positioned on the patient couch of the treatment device;   acquiring, at the at least one processor, current-arrangement data including information about a current spatial arrangement of the soft tissue body part, the treatment device and the transportable CT-device; and   determining, by the at least one processor and based on the imaging-arrangement data and the current-arrangement data, rearrangement data including information about a rearrangement of the soft tissue body part, the treatment device and/or the transportable CT-device, to reach the spatial arrangement allowing for acquiring CT-image data.   
     
     
         8 . The system according to  claim 6 , wherein acquiring first transformation data includes using the position detection unit configured to determine the spatial position of the CT-device with respect to the treatment device, wherein the position detection unit comprises at least one element selected from the group consisting of:
 an optical tracking system;   an electromagnetic tracking (EM-tracking) system;   an ultrasound tracking system;   a sensor assigned to an actuating element configured to induce a transport movement of the CT-device, the sensor being configured to determine a current position of the actuating element relative to a known initial position of the actuating element;   a sensor device assigned to the CT-device and configured to detect markings that define a guiding path; and   a tracking system comprising a 3D-range camera configured to determine three-dimensional surface structure.   
     
     
         9 . The system according to  claim 6 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body further comprises:
 acquiring, at the at least one processor, positioning-image data comprising information about the position of the soft tissue body part within the coordinate system assigned to the treatment device; and   determining, based on the positioning-image data and the CT-image data, the first transformation data,   wherein the positioning imaging device assigned to the treatment device is used to acquire the positioning-image data, wherein the positioning-image data is registered with the CT-image data.   
     
     
         10 . The system according to  claim 9 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body, and to further determine a consistency of registration of the soft tissue body part within the patient's body, comprises:
 acquiring, at the at least one processor and with the patient's body taking a position being different from a treatment position relative to the treatment device, planning computed tomography image (planning-CT image) data comprising information about the position of the soft tissue body part;   acquiring, at the at least one processor, second transformation data comprising information about a second transformation between the coordinate system assigned to the planning-CT image data and the coordinate system assigned to the treatment device; and   determining, by the at least one processor and based on the second transformation data, the planning-CT image data and the CT-image data, consistency data comprising information about whether positional registration of the soft tissue body part based on the planning-CT image data is valid for the patient's body taking the treatment position relative to the treatment device.   
     
     
         11 . The system according to  claim 10 , wherein acquiring the second transformation data includes:
 registering the positioning-image data with the planning-CT image data, or   registering the CT-image data with the planning-CT image data,   wherein registering image data includes an elastic image fusion.   
     
     
         12 . The system according to  claim 10 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body, and to further determine the consistency of registration of the soft tissue body part within the patient's body, comprises:
 acquiring, at the at least one processor, treatment constraints data comprising information about treatment constraints for radiotherapy of the body part with the treatment beam arrangement, the treatment constraints being defined on the basis of the planning-CT image data; and   determining, by the at least one processor and based on the treatment constraints data and the consistency data, constraint consistency data comprising information about whether the treatment constraints are fulfilled for the patient's body taking the treatment position relative to the treatment device.   
     
     
         13 . A system for determining a position of a soft tissue body part within a patient's body, which is to be treated by radiotherapy with a treatment beam arrangement of at least one position of a treatment beam issued by a treatment device, the system comprising:
 a treatment device configured to issue the treatment beam arrangement;   a patient couch configured to support a patient's body during radiotherapy;   a transportable computed tomography device (CT-device) having an undercarriage by which the CT-device can be freely moved in two dimensions on a floor of a medical treatment area, the CT-device being configured to be transported to a radiotherapy treatment site, to be moved relative to the treatment device and/or the patient couch, and to acquire computed tomography image (CT-image) data of the patient's body; and   a position detection unit configured to determine a spatial position of the CT-device with respect to the treatment device.   
     
     
         14 . The system according to  claim 13 , wherein the position detection unit comprises at least one element selected from the group consisting of:
 an optical tracking system;   an electromagnetic tracking (EM-tracking) system;   an ultrasound tracking system;   a sensor assigned to an actuating element configured to induce a transport movement of the CT-device, the sensor being configured to determine a current position of the actuating element relative to a known initial position of the actuating element;   a sensor device assigned to the CT-device and configured to detect markings that define a guiding path; and   a tracking system comprising a 3D-range camera configured to determine three-dimensional surface structure.   
     
     
         15 . The system according to  claim 13 , further comprising:
 a computer comprising at least one processor configured to execute program instructions to determine the position of the soft tissue body part within the patient's body by:
 acquiring, at the at least one processor, CT-image data comprising information about the position of the soft tissue body part within a coordinate system assigned to the transportable CT-device having the undercarriage by which the CT-device can be freely moved in two dimensions on the floor of the medical treatment area, wherein the patient's body is positioned in a treatment position relative to the treatment device, and wherein the CT-device is configured to be positioned relative to the patient's body and/or relative to the treatment device; 
 acquiring, at the at least one processor, first transformation data comprising information about a first transformation between the coordinate system assigned to the CT-device and a coordinate system assigned to the treatment device, wherein acquiring first transformation data includes using the position detection unit configured to determine the spatial position of the CT-device with respect to the treatment device; and 
 determining, by the at least one processor and based on the CT-image data and the first transformation data, position data comprising information about the position of the soft tissue body part within the coordinate system assigned to the treatment device. 
   
     
     
         16 . The system according to  claim 15 , further comprising at least one element selected from the group consisting of:
 a repositioning unit configured to reposition the patient couch, the treatment device and/or the transportable CT-device so as to reach a spatial arrangement allowing for acquiring CT-image data;   a guiding unit configured to guide the CT-device along a path between a first position of the CT-device and a second position of the CT-device allowing for acquiring the CT-image data, wherein the guiding unit is configured to determine the spatial position of the CT-device with respect to the treatment device, and/or wherein the second position is predefined with respect to the treatment device; and   a positioning imaging device assigned to the treatment device, and provided in a known spatial position relative to the treatment device.   
     
     
         17 . The system according to  claim 16 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body further comprises:
 acquiring, at the at least one processor, imaging-arrangement data including information about a spatial arrangement of the soft tissue body part, the treatment device and the transportable CT-device, the spatial arrangement allowing for acquiring CT-image data of the soft tissue body part with the patient's body positioned on the patient couch of the treatment device;   acquiring, at the at least one processor, current-arrangement data including information about a current spatial arrangement of the soft tissue body part, the treatment device and the transportable CT-device; and   determining, by the at least one processor and based on the imaging-arrangement data and the current-arrangement data, rearrangement data including information about a rearrangement of the soft tissue body part, the treatment device and/or the transportable CT-device, to reach the spatial arrangement allowing for acquiring CT-image data.   
     
     
         18 . The system according to  claim 16 , wherein acquiring first transformation data includes using the guiding unit configured to guide the CT-device along the path between the first position of the CT-device and the second position of the CT-device allowing for acquiring the CT-image data, wherein the guiding unit is configured to determine the spatial position of the CT-device with respect to the treatment device, and wherein the second position is predefined with respect to the treatment device, the guiding unit comprises at least one element selected from the group consisting of:
 an induction loop defining the guiding path;   a sensor device assigned to the CT-device and configured to detect markings that define the guiding path;   a transmitter emitting electromagnetic radiation, and a complementary receiver receiving the electromagnetic radiation, wherein the transmitter or the receiver is mounted to the CT-device, allowing the guiding unit to determine the path to the second position; and   a mechanical coupling defining a coupling position of the CT-device with respect to the treatment device.   
     
     
         19 . The system according to  claim 16 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body further comprises:
 acquiring, at the at least one processor, positioning-image data comprising information about the position of the soft tissue body part within the coordinate system assigned to the treatment device; and   determining, based on the positioning-image data and the CT-image data, the first transformation data,   wherein the positioning imaging device assigned to the treatment device is used to acquire the positioning-image data, wherein the positioning-image data is registered with the CT-image data.   
     
     
         20 . The system according to  claim 19 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body, and to further determine a consistency of registration of the soft tissue body part within the patient's body, comprises:
 acquiring, at the at least one processor and with the patient's body taking a position being different from a treatment position relative to the treatment device, planning computed tomography image (planning-CT image) data comprising information about the position of the soft tissue body part;   acquiring, at the at least one processor, second transformation data comprising information about a second transformation between the coordinate system assigned to the planning-CT image data and the coordinate system assigned to the treatment device; and   determining, by the at least one processor and based on the second transformation data, the planning-CT image data and the CT-image data, consistency data comprising information about whether positional registration of the soft tissue body part based on the planning-CT image data is valid for the patient's body taking the treatment position relative to the treatment device.   
     
     
         21 . The system according to  claim 20 , wherein acquiring the second transformation data includes:
 registering the positioning-image data with the planning-CT image data, or   registering the CT-image data with the planning-CT image data,   wherein registering image data includes an elastic image fusion.   
     
     
         22 . The system according to  claim 20 , wherein the computer comprising the at least one processor configured to execute the program instructions to determine the position of the soft tissue body part within the patient's body, and to further determine a consistency of registration of the soft tissue body part within the patient's body, comprises:
 acquiring, at the at least one processor, treatment constraints data comprising information about treatment constraints for radiotherapy of the body part with the treatment beam arrangement, the treatment constraints being defined on the basis of the planning-CT image data; and   determining, by the at least one processor and based on the treatment constraints data and the consistency data, constraint consistency data comprising information about whether the treatment constraints are fulfilled for the patient's body taking the treatment position relative to the treatment device.

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