FEEDBACK SYSTEM FOR INTEGRATING INTERVENTIONAL PLANNING AND NAVIGATION

US 20110251607A1
Filed: 11/05/2009
Published: 10/13/2011
Est. Priority Date: 12/03/2008
Status: Active Grant

First Claim

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1. A system for ablation treatment of tissue, comprising:

an ablation probe (6) for treating a tissue of interest with at least one of RF ablation, cryo-ablation, microwave ablation, ultrasound ablation, or other thermal or non-thermal ablation;

a planning component (1) for calculating a three-dimensional treatment plan including a plurality of desired ablation probe placement positions and orientations and a plurality of estimated ablation volumes to achieve a composite ablation volume that will treat the entire planned target volume (PTV);

a navigation component (2) for spatially tracking at least one of the treatment probe and an imaging device and providing treatment instructions to an operator based on the three-dimensional treatment plan;

an imaging component (4) for obtaining planning and treatment images of the tissue to be treated; and

a feedback component (3) for determining actual probe position and orientation using the navigation component or imaging component, and for determining actual ablation volume based on treatment images provided by the imaging component (4), and feeding the actual probe position and orientation and actual ablation volume during treatment to the planning component (1),wherein the planning component (1) determines a treatment iteration based on the treatment plan, the actual probe position and orientation and actual ablation volume, the treatment iteration including at least one of a desired next probe position and orientation and a desired next ablation volume, andwherein the navigation component (2) provides revised treatment instructions to the operator based on the treatment iteration until treatment is completed according to the desired planned target volume.

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Abstract

A therapy planning and image guidance and navigation for an interventional procedure are combined in one system. The system includes: a radio frequency ablation therapy planning component (1) capable of creating an initial treatment plan, adjusting the treatment plan to take into account data received during a procedure and transferring a treatment plan to a navigation component, a navigation system component (2) to guide an ablation probe (6) and a feedback sub-system (3) for determining actual ablation probe positions/orientations and actual ablation size/shape via imaging (4) and/or tracking (5) systems, and enabling exchange of information between the planning component and the navigation component. By combining and integrating procedure planning and navigation, and by providing feedback from the navigation component back to the planning component about actual electrode position and orientation and ablation volume, complex procedures can be carried out more accurately, efficiently, and potentially with better clinical outcomes.

134 Citations

20 Claims

1. A system for ablation treatment of tissue, comprising:
- an ablation probe (6) for treating a tissue of interest with at least one of RF ablation, cryo-ablation, microwave ablation, ultrasound ablation, or other thermal or non-thermal ablation;
  
  a planning component (1) for calculating a three-dimensional treatment plan including a plurality of desired ablation probe placement positions and orientations and a plurality of estimated ablation volumes to achieve a composite ablation volume that will treat the entire planned target volume (PTV);
  
  a navigation component (2) for spatially tracking at least one of the treatment probe and an imaging device and providing treatment instructions to an operator based on the three-dimensional treatment plan;
  
  an imaging component (4) for obtaining planning and treatment images of the tissue to be treated; and
  
  a feedback component (3) for determining actual probe position and orientation using the navigation component or imaging component, and for determining actual ablation volume based on treatment images provided by the imaging component (4), and feeding the actual probe position and orientation and actual ablation volume during treatment to the planning component (1),wherein the planning component (1) determines a treatment iteration based on the treatment plan, the actual probe position and orientation and actual ablation volume, the treatment iteration including at least one of a desired next probe position and orientation and a desired next ablation volume, andwherein the navigation component (2) provides revised treatment instructions to the operator based on the treatment iteration until treatment is completed according to the desired planned target volume.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The system according to claim 1, wherein the imaging component (4) provides at least one of ultrasound, CT, MR imaging, ultrasound elastography, and Doppler ultrasound, and wherein the navigation component provides at least one of spatial tracking coordinates of the therapy probe and imaging, based on at least one of electromagnetic (EM), optical, acoustic, and magnetic tracking sensors.
  - 3. The system according to claim 1, further comprising a user interface for displaying the treatment iteration instructions from the navigation component (2) for access by a human operator.
  - 4. The system according to claim 1, wherein the feedback component (3) further calculates at least one of local micro-vascular perfusion and macro-vascular blood flow parameters near the ablation site and provides this information to the planning component (1) for incorporation into the treatment iteration.
  - 5. The system according to claim 1, wherein the feedback component (3) registers treatment images with planning images to calculate at least one of the actual probe position and orientation and tumor position and orientation, and uses the information to update the three-dimensional treatment plan.
  - 6. The system according to claim 1, wherein the feedback component (3) obtains imaging feedback and tracking feedback about the actual probe location, and uses the information to update and improve the registration between the imaging system and tracking system

7. A method of ablation therapy of tissue, comprising:
- calculating a three-dimensional treatment plan (20) for a tissue of interest including a plurality of desired ablation probe placement positions and orientations and a plurality of estimated ablation volumes to achieve a desired planned target volume that will treat the entire tissue volume of interest;
  
  providing treatment instructions (14) to an operator based on the three-dimensional treatment plan;
  
  treating the tissue of interest with at least one of RF ablation, cryo-ablation, microwave ablation, ultrasound ablation, and other thermal or non-thermal ablation;
  
  obtaining planning (10) and treatment images of the tissue to be treated;
  
  determining actual probe position and orientation and actual ablation volume (30) based on the treatment images; and
  
  calculating a treatment iteration (32) based on the treatment plan, the actual probe position and orientation and actual ablation volume, the treatment iteration including at least one of a desired next probe position and a desired next ablation volume, andproviding revised treatment instructions to the operator based on the treatment iteration and continuing iterative treatment until treatment is completed according to the desired planned target volume.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The method according to claim 7, wherein the imaging component provides at least one of ultrasound, CT, MR imaging, ultrasound elastography, and Doppler ultrasound, and wherein the navigation component provides at least one of spatial tracking coordinates of the therapy probe and imaging based on at least one of electromagnetic (EM), optical, acoustic, and magnetic sensors.
  - 9. The method according to claim 7, wherein the treatment is carried out by a human operator accessing at least one of the treatment plan and the treatment iteration instructions from a user interface.
  - 10. The method according to claim 7, wherein at least one of local micro-vascular perfusion and macro-vascular blood flow parameters near the ablation site are calculated, and this information is incorporated into the treatment iteration.
  - 11. The method according to claim 7, wherein the treatment images are registered with planning images to calculate at least one of the actual probe position and orientation and tumor position and orientation, and to use the information to update the three-dimensional treatment plan.
  - 12. The method according to claim 7, wherein treatment images showing the actual ablation probe location and tracking system data representing the actual probe position are used to update the registration between the imaging system and tracking system.

13. A control system for ablation treatment of tissue, comprising:
- a planning component (1) for calculating a three-dimensional treatment plan including a plurality of desired ablation probe placement positions and orientations and a plurality of estimated ablation volumes to achieve a desired planned target volume that will treat an entire tissue volume of interest;
  
  an imaging component (4) for obtaining treatment images of the tissue to be treated; and
  
  a feedback component (3) for calculating actual probe position and orientation and actual ablation volume based on treatment images provided by the imaging component, and feeding the actual probe position and orientation and actual ablation volume during treatment to the planning component,wherein the planning component (1) maps the actual probe location and actual ablation volume to the three-dimensional plan and calculates a treatment iteration based on the treatment plan, the actual probe position and orientation and actual ablation volume, the treatment iteration including at least one of a desired next probe position and orientation and a desired next ablation volume.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
- - 14. The control system according to claim 13, wherein the imaging component (4) provides at least one of ultrasound, CT, MR imaging, ultrasound elastography, and Doppler ultrasound, and wherein the navigation component provides at least one of spatial tracking coordinates of the therapy probe and imaging device based on at least one of electromagnetic (EM), optical, acoustic, and magnetic sensors.
  - 15. The control system according to claim 13, wherein the control system delivers the next treatment ablation according to the calculated treatment iteration by at least one of moving the ablation probe to the desired next probe position and ablating the next desired ablation volume.
  - 16. The control system according to claim 13, wherein the feedback component (3) further calculates at least one of local micro-vascular perfusion and macro-vascular blood flow parameters near the ablation site and provides this information to the planning component for incorporation into the treatment iteration.
  - 17. The control system according to claim 13, wherein the feedback component (3) registers treatment images with planning images to calculate at least one of the actual probe position and orientation and tumor position and orientation, and uses the information to update the three-dimensional treatment plan.
  - 18. The control system according to claim 13, wherein the feedback component (3) obtains imaging feedback and tracking feedback about the actual probe location, and uses the information to update and improve the registration between the imaging system and tracking system.
  - 19. The control system according to claim 14, wherein the imaging component (4) utilizes a contrast medium.
  - 20. The control system according to claim 13, wherein the planning component (1) utilizes center positions of individual ablations for calculating the three-dimensional treatment plan.

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Current Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.), United States Department Of Health And Human Services
Original Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Inventors
Wood, Bradford J., Kruecker, Jochen, Xu, Sheng, Dalal, Sandeep

Granted Patent

US 9,144,461 B2
Time in Patent Office

Days
Field of Search
US Class Current

606/34
CPC Class Codes

A61B 18/1206   Generators therefor

A61B 18/1477   Needle-like probes

A61B 18/18   by applying electromagnetic...

A61B 18/1815   using microwaves

A61B 2018/1425   Needle

A61B 2034/104   Modelling the effect of the...

A61B 2034/107   Visualisation of planned tr...

A61B 2034/2051   Electromagnetic tracking sy...

A61B 2090/378   using ultrasound

A61B 34/20   Surgical navigation systems...

A61N 7/02   Localised ultrasound hypert...

FEEDBACK SYSTEM FOR INTEGRATING INTERVENTIONAL PLANNING AND NAVIGATION

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

134 Citations

20 Claims

Specification

Solutions

Use Cases

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FEEDBACK SYSTEM FOR INTEGRATING INTERVENTIONAL PLANNING AND NAVIGATION

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

134 Citations

20 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links