Method and system for patient-specific modeling of blood flow

US 10,478,252 B2
Filed: 11/14/2014
Issued: 11/19/2019
Est. Priority Date: 08/12/2010
Status: Active Grant

First Claim

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1. A computer-implemented method for enabling the assessment of one or more blood vessels of a patient, based on calculated values of a blood flow characteristic, the method comprising:

receiving patient-specific imaging data of a geometry of a plurality of blood vessels interconnected to form a vessel tree of the patient;

determining, using a processor, a three-dimensional geometrical model of the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the three-dimensional geometrical model comprising a model, in three dimensions, of a geometry of the plurality of blood vessels;

determining, using the processor, a patient-specific model of blood flow through the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the patient-specific model of blood flow comprising a model of the flow of blood through the plurality of blood vessels;

determining a first value of the blood flow characteristic within the plurality of blood vessels of the patient based on the three-dimensional geometrical model or the patient-specific model of blood flow through the plurality of blood vessels of the patient;

upon receiving a selection, from a user input received from a user or health care provider, of a blood vessel of the plurality of blood vessels interconnected to form the vessel tree, enabling a modification of one or both of the patient-specific model of blood flow and a geometry of the three-dimensional geometrical model to simulate an occlusion that prevents blood flow through the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;

modifying the patient-specific model of blood flow to prevent blood flow through the blood vessel of the plurality of blood vessels to simulate occlusion of the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;

predicting a change in blood flow, based on the occlusion, in vessels of the vessel tree different from the blood vessel having the occlusion, based on the modified patient-specific model of blood flow and/or the modified three-dimensional geometrical model;

determining a second value of the blood flow characteristic within the plurality of blood vessels of the patient based on the modified three-dimensional geometrical model reflecting the occlusion, and/or the modified patient-specific model of blood flow reflecting the occlusion;

predicting an effect on the patient of the occlusion based on the second value of the blood flow characteristic; and

outputting one or more of the first or second values of the blood flow characteristic, the modified three-dimensional geometrical model, the modified patient-specific model of blood flow, or the predicted effects, to an electronic storage medium or display.

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Abstract

Embodiments include a system for determining cardiovascular information for a patient. The system may include at least one computer system configured to receive patient-specific data regarding a geometry of the patient'"'"'s heart, and create a three-dimensional model representing at least a portion of the patient'"'"'s heart based on the patient-specific data. The at least one computer system may be further configured to create a physics-based model relating to a blood flow characteristic of the patient'"'"'s heart and determine a fractional flow reserve within the patient'"'"'s heart based on the three-dimensional model and the physics-based model.

289 Citations

16 Claims

1. A computer-implemented method for enabling the assessment of one or more blood vessels of a patient, based on calculated values of a blood flow characteristic, the method comprising:
- receiving patient-specific imaging data of a geometry of a plurality of blood vessels interconnected to form a vessel tree of the patient;
  
  determining, using a processor, a three-dimensional geometrical model of the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the three-dimensional geometrical model comprising a model, in three dimensions, of a geometry of the plurality of blood vessels;
  
  determining, using the processor, a patient-specific model of blood flow through the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the patient-specific model of blood flow comprising a model of the flow of blood through the plurality of blood vessels;
  
  determining a first value of the blood flow characteristic within the plurality of blood vessels of the patient based on the three-dimensional geometrical model or the patient-specific model of blood flow through the plurality of blood vessels of the patient;
  
  upon receiving a selection, from a user input received from a user or health care provider, of a blood vessel of the plurality of blood vessels interconnected to form the vessel tree, enabling a modification of one or both of the patient-specific model of blood flow and a geometry of the three-dimensional geometrical model to simulate an occlusion that prevents blood flow through the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;
  
  modifying the patient-specific model of blood flow to prevent blood flow through the blood vessel of the plurality of blood vessels to simulate occlusion of the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;
  
  predicting a change in blood flow, based on the occlusion, in vessels of the vessel tree different from the blood vessel having the occlusion, based on the modified patient-specific model of blood flow and/or the modified three-dimensional geometrical model;
  
  determining a second value of the blood flow characteristic within the plurality of blood vessels of the patient based on the modified three-dimensional geometrical model reflecting the occlusion, and/or the modified patient-specific model of blood flow reflecting the occlusion;
  
  predicting an effect on the patient of the occlusion based on the second value of the blood flow characteristic; and
  
  outputting one or more of the first or second values of the blood flow characteristic, the modified three-dimensional geometrical model, the modified patient-specific model of blood flow, or the predicted effects, to an electronic storage medium or display.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The computer-implemented method of claim 1, wherein the blood flow characteristic includes at least one of blood pressure, blood velocity, blood flow rate, or fractional flow reserve within the plurality of blood vessels of the patient.
  - 3. The computer-implemented method of claim 1, wherein the patient-specific model of blood flow comprises a reduced-order model defined by a plurality of resistance values defining blood flow through the plurality of blood vessels.
  - 4. The computer-implemented method of claim 3, wherein the reduced-order model is a lumped parameter model.
  - 5. The computer-implemented method of claim 3, wherein modifying the patient-specific model of blood flow to reflect the occlusion of the blood vessel includes modifying a resistance value of the reduced-order model.
  - 6. The computer-implemented method of claim 1, wherein the plurality of blood vessels include one or more arteries in the patient'"'"'s heart, neck, head, thorax, abdomen, arms, or legs.
  - 7. The computer-implemented method of claim 1, further comprising:
    - modeling an interventional or surgical repair, wherein modeling the interventional or surgical repair includes modifying the three-dimensional geometrical model and/or the patient-specific model of blood flow based on positioning of a stent at a location at or near the occlusion.

8. A system for enabling the assessment of one or more blood vessels of patient, based on calculated values of a blood flow characteristic, the system comprising at least:
- a processor configured for;
  
  receiving patient-specific imaging data of a geometry of a plurality of blood vessels interconnected to form a vessel tree of the patient;
  
  determining, using a processor, a three-dimensional geometrical model of the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the three-dimensional geometrical model comprising a model, in three dimensions, of a geometry of the plurality of blood vessels;
  
  determining, using the processor, a patient-specific model of blood flow through the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the patient-specific model of blood flow comprising a model of the flow of blood through the plurality of blood vessels;
  
  determining a first value of the blood flow characteristic within the plurality of blood vessels of the patient based on the three-dimensional geometrical model or the patient-specific model of blood flow through the plurality of blood vessels of the patient;
  
  upon receiving a selection, from a user input received from a user or health care provider, of a blood vessel of the plurality of blood vessels interconnected to form the vessel tree, enabling a modification of one or both of the patient-specific model of blood flow and a geometry of the three-dimensional geometrical model to simulate an occlusion that prevents blood flow through the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;
  
  modifying the patient-specific model of blood flow to prevent blood flow through the blood vessel of the plurality of blood vessels to simulate the occlusion of the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;
  
  predicting a change in blood flow, based on the occlusion, in vessels of the vessel tree different from the blood vessel having the occlusion, based on the modified patient-specific model of blood flow and/or the modified three-dimensional geometrical model;
  
  determining a second value of the blood flow characteristic within the plurality of blood vessels of the patient based on the modified three-dimensional geometrical model reflecting the occlusion, and/or the modified patient-specific model of blood flow reflecting the occlusion;
  
  predicting an effect on the patient of the occlusion based on the second value of the blood flow characteristic; and
  
  outputting one or more of the first or second values of the blood flow characteristic, the modified three-dimensional geometrical model, the modified patient-specific model of blood flow, or the predicted effects, to an electronic storage medium or display.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The system of claim 8, wherein the blood flow characteristic includes at least one of blood pressure, blood velocity, blood flow rate, or fractional flow reserve within the plurality of blood vessels of the patient.
  - 10. The system of claim 8, wherein the patient-specific model of blood flow is a reduced-order model defined by a plurality of resistance values defining blood flow through the plurality of blood vessels.
  - 11. The system of claim 10, wherein the reduced-order model is a lumped parameter model.
  - 12. The system of claim 10, wherein modifying the patient-specific model of blood flow to reflect the occlusion of the blood vessel includes modifying a resistance value of the reduced-order model.
  - 13. The system of claim 8, wherein the plurality of blood vessels include one or more arteries in the patient'"'"'s heart, neck, head, thorax, abdomen, arms, or legs.
  - 14. The system of claim 8, further comprising:
    - modeling an interventional or surgical repair, wherein modeling the interventional or surgical repair includes modifying the three-dimensional geometrical model and/or the patient-specific model of blood flow based on positioning of a stent at a location at or near the occlusion.

15. A non-transitory computer readable medium for use on at least one computer system containing computer-executable programming instructions for performing a method for enabling the assessment of one or more blood vessels of a patient, based on calculated values of a blood flow characteristic, the method comprising:
- receiving patient-specific imaging data of a geometry of a plurality of blood vessels interconnected to form a vessel tree of the patient;
  
  determining, using a processor, a three-dimensional geometrical model of the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the three-dimensional geometrical model comprising a model, in three dimensions, of a geometry of the plurality of blood vessels;
  
  determining, using the processor, a patient-specific model of blood flow through the plurality of blood vessels interconnected to form the vessel tree of the patient, based on the received patient-specific imaging data, the patient-specific model of blood flow comprising a model of the flow of blood through the plurality of blood vessels;
  
  determining a first value of the blood flow characteristic within the plurality of blood vessels of the patient based on the three-dimensional geometrical model or the patient-specific model of blood flow through the plurality of blood vessels of the patient;
  
  upon receiving a selection, from a user input received from a user or health care provider, of a blood vessel of the plurality of blood vessels interconnected to form the vessel tree, enabling a modification of one or both of the patient-specific model of blood flow and a geometry of the three-dimensional geometrical model to simulate an occlusion that prevents blood flow through the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;
  
  modifying the patient-specific model of blood flow to prevent blood flow through the blood vessel of the plurality of blood vessels to simulate the occlusion of the blood vessel of the plurality of blood vessels interconnected to form the vessel tree;
  
  predicting a change in blood flow, based on the occlusion, in vessels of the vessel tree different from the blood vessel having the occlusion, based on the modified patient-specific model of blood flow and/or the modified three-dimensional geometrical model;
  
  determining a second value of the blood flow characteristic within the plurality of blood vessels of the patient based on the modified three-dimensional geometrical model reflecting the occlusion, and/or the modified patient-specific model of blood flow reflecting the occlusion;
  
  predicting an effect on the patient of the occlusion based on the second value of the blood flow characteristic; and
  
  outputting one or more of the first or second values of the blood flow characteristic, the modified three-dimensional geometrical model, the modified patient-specific model of blood flow, or the predicted effects, to an electronic storage medium or display.
- View Dependent Claims (16)
- - 16. The computer-implemented method of claim 15, wherein the blood flow characteristic includes at least one of blood pressure, blood velocity, blood flow rate, or fractional flow reserve within the plurality of blood vessels of the patient.

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Current Assignee
Heartflow Inc.
Original Assignee
Heartflow Inc.
Inventors
Taylor, Charles A., Choi, Gilwoo
Primary Examiner(s)
Roy, Baisakhi

Application Number

US14/541,642
Publication Number

US 20150073722A1
Time in Patent Office

1,831 Days
Field of Search
US Class Current
CPC Class Codes

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

A61B 2034/105   Modelling of the patient, e...

A61B 2034/107   Visualisation of planned tr...

A61B 2034/108   Computer aided selection or...

A61B 2090/374   NMR or MRI

A61B 2090/3762   using computed tomography s...

A61B 2090/3764   with a rotating C-arm havin...

A61B 2576/00   Medical imaging apparatus i...

A61B 2576/023   for the heart

A61B 34/10   Computer-aided planning, si...

A61B 34/25   User interfaces for surgica...

A61B 5/0035   adapted for acquisition of ...

A61B 5/004   adapted for image acquisiti...

A61B 5/0044   for the heart

A61B 5/02   Detecting, measuring or rec...

A61B 5/02007   Evaluating blood vessel con...

A61B 5/02028   Determining haemodynamic pa...

A61B 5/021   Measuring pressure in heart...

A61B 5/024   Detecting, measuring or rec...

A61B 5/026   Measuring blood flow A61B3/...

A61B 5/0263 : using NMR

A61B 5/029 : Measuring or recording bloo...

A61B 5/055 : involving electronic [EMR] ...

A61B 5/1075 : for measuring dimensions by...

A61B 5/1118 : Determining activity level

A61B 5/22 : Ergometry; Measuring muscul...

A61B 5/4848 : Monitoring or testing the e...

A61B 5/6852 : Catheters

A61B 5/6868 : Brain

A61B 5/7246 : using correlation, e.g. tem...

A61B 5/7275 : Determining trends in physi...

A61B 5/7278 : Artificial waveform generat...

A61B 5/745 : using a holographic display

A61B 6/03 : Computed tomography [CT] ec...

A61B 6/032 : Transmission computed tomog...

A61B 6/481 : involving the use of contra...

A61B 6/503 : for diagnosis of the heart

A61B 6/504 : for diagnosis of blood vess...

A61B 6/507 : for determination of haemod...

A61B 6/5205 : involving processing of raw...

A61B 6/5217 : extracting a diagnostic or ...

A61B 6/5229 : combining image data of a p...

A61B 8/02 : Measuring pulse or heart rate

A61B 8/04 : Measuring blood pressure

A61B 8/06 : Measuring blood flow measur...

A61B 8/065 : to determine blood output f...

A61B 8/481 : involving the use of contra...

A61B 8/5223 : for extracting a diagnostic...

A61B 8/5261 : combining images from diffe...

A61M 5/007 : for contrast media

G01R 33/5601 : involving use of a contrast...

G01R 33/5635 : Angiography, e.g. contrast-...

G01R 33/56366 : Perfusion imaging

G06F 17/10 : Complex mathematical operat...

G06F 18/10 : Pre-processing; Data cleansing

G06F 18/22 : Matching criteria, e.g. pro...

G06F 18/24 : Classification techniques

G06F 30/20 : Design optimisation, verifi...

G06F 30/23 : using finite element method...

G06F 30/28 : using fluid dynamics, e.g. ...

G06G 7/60 : for living beings, e.g. the...

G06T 11/00 : 2D [Two Dimensional] image ...

G06T 11/001 : Texturing; Colouring; Gener...

G06T 11/008 : Specific post-processing af...

G06T 11/20 : Drawing from basic elements...

G06T 11/60 : Editing figures and text; C...

G06T 15/10 : Geometric effects

G06T 17/00 : Three dimensional [3D] mode...

G06T 17/005 : Tree description, e.g. octr...

G06T 17/20 : Finite element generation, ...

G06T 2200/04 : involving 3D image data

G06T 2207/10012 : Stereo images

G06T 2207/10072 : Tomographic images

G06T 2207/10081 : Computed x-ray tomography [CT]

G06T 2207/10088 : Magnetic resonance imaging ...

G06T 2207/10104 : Positron emission tomograph...

G06T 2207/10108 : Single photon emission comp...

G06T 2207/20036 : Morphological image processing

G06T 2207/20124 : Active shape model [ASM]

G06T 2207/30016 : Brain

G06T 2207/30048 : Heart; Cardiac

G06T 2207/30104 : Vascular flow; Blood flow; ...

G06T 2210/41 : Medical

G06T 2211/404 : Angiography

G06T 7/0012 : Biomedical image inspection

G06T 7/0014 : using an image reference ap...

G06T 7/10 : Segmentation; Edge detectio...

G06T 7/11 : Region-based segmentation

G06T 7/12 : Edge-based segmentation

G06T 7/13 : Edge detection

G06T 7/149 : involving deformable models...

G06T 7/20 : Analysis of motion motion e...

G06T 7/60 : Analysis of geometric attri...

G06T 7/62 : of area, perimeter, diamete...

G06T 7/70 : Determining position or ori...

G06T 7/73 : using feature-based methods

G06T 7/74 : involving reference images ...

G06V 10/40 : Extraction of image or vide...

G06V 10/42 : Global feature extraction b...

G06V 10/44 : Local feature extraction by...

G06V 10/467 : Encoded features or binary ...

G06V 20/698 : Matching; Classification

G16B 45/00 : ICT specially adapted for b...

G16B 5/00 : ICT specially adapted for m...

G16H 10/40 : for data related to laborat...

G16H 10/60 : for patient-specific data, ...

G16H 30/20 : for handling medical images...

G16H 30/40 : for processing medical imag...

G16H 50/30 : for calculating health indi...

G16H 50/50 : for simulation or modelling...

G16H 50/70 : for mining of medical data,...

G16H 70/00 : ICT specially adapted for t...

Y02A 90/10 : Information and communicati...

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Method and system for patient-specific modeling of blood flow

First Claim

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Abstract

289 Citations

16 Claims

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Method and system for patient-specific modeling of blood flow

First Claim

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Accused Products

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Abstract

289 Citations

16 Claims

Specification

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Solutions

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