Three dimensional medical ultrasonic diagnostic image of tissue texture and vasculature

US 5,720,291 A
Filed: 04/29/1996
Issued: 02/24/1998
Est. Priority Date: 03/22/1996
Status: Expired due to Term

First Claim

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1. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:

an ultrasonic transducer for receiving ultrasonic echoes from a volumetric region of the body;

an image processor for processing ultrasonic echoes to produce B mode display information of said volumetric region;

a Doppler processor for processing ultrasonic echoes to produce Doppler display information of said volumetric region; and

a three dimensional image processor for processing said B mode and said Doppler display information together to render a three dimensional image of both flow or motion and structure in said volumetric region, including separate processing parameters for said B mode and Doppler display information.

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Abstract

A medical diagnostic ultrasound system is described in which ultrasonic B mode tissue information and Doppler flow information is acquired from a volumetric region of the body and processed together to render a three dimensional image. The three dimensional rendering processes the B mode and Doppler flow information as a function of the spatial location of B mode and Doppler pixels in the volumetric region. The rendering utilizes separate three dimensional rendering parameters for the tissue and flow information, respectively.

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19 Claims

1. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:
- an ultrasonic transducer for receiving ultrasonic echoes from a volumetric region of the body;
  
  an image processor for processing ultrasonic echoes to produce B mode display information of said volumetric region;
  
  a Doppler processor for processing ultrasonic echoes to produce Doppler display information of said volumetric region; and
  
  a three dimensional image processor for processing said B mode and said Doppler display information together to render a three dimensional image of both flow or motion and structure in said volumetric region, including separate processing parameters for said B mode and Doppler display information.
- View Dependent Claims (2)
- - 2. The medical diagnostic ultrasound system of claim 1, wherein said three dimensional image processor comprises means for processing B mode and Doppler display information together as a function of the relative spatial location of the information.

3. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:
- an ultrasonic transducer for receiving ultrasonic echoes;
  
  an image processor for processing ultrasonic echoes to produce B mode display information;
  
  a Doppler processor for processing ultrasonic echoes to produce Doppler display information; and
  
  a three dimensional image processor for processing said B mode and said Doppler display information together to form a three dimensional image, including separate processing parameters for said B mode and Doppler display information,wherein said separate processing parameters comprise a first opacity control parameter for B mode information and a second opacity control parameter for Doppler information.
- View Dependent Claims (4, 5)
- - 4. The medical diagnostic ultrasound system of claim 3, wherein said opacity control parameters permit a greater opacity contribution for Doppler information than for B mode information.
  - 5. The medical diagnostic ultrasound system of claim 4, wherein said second opacity control parameter permits a fully opaque maximum opacity level for Doppler information, and said first opacity control parameter permits a semi transparent maximum opacity level for B mode information.

6. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:
- an ultrasonic transducer for receiving ultrasonic echoes;
  
  an image processor for processing ultrasonic echoes to produce B mode display information;
  
  a Doppler processor for processing ultrasonic echoes to produce Doppler display information; and
  
  a three dimensional image processor for processing said B mode and said Doppler display information together to form a three dimensional image, including separate processing parameters for said B mode and Doppler display information,wherein said three dimensional image processor comprises means for processing B mode and Doppler display information together as a function of the relative spatial location of the information, andwherein said three dimensional image processor processes B mode and Doppler display information to form three dimensional display pixels P_3D in accordance with ##EQU2## where P_t and P_b are tissue and blood flow pixel information, a_t and a_b are opacity weighting coefficients for tissue and blood flow, a_d is a depth weighting coefficient, and v is a vector of P_t and P_b.

7. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:
- an ultrasonic transducer for receiving ultrasonic echoes from a volumetric region;
  
  means for processing ultrasonic echoes to produce B mode display information over said volumetric region;
  
  means for processing ultrasonic echoes to produce Doppler display information from said volumetric region; and
  
  rendering means for processing B mode and Doppler display information together as a function of relative location in said volumetric region to form a three dimensional image of said volumetric region in which both flow or motion and structure are visible, including means for separately controlling the opacity of B mode and Doppler information.

8. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:
- an ultrasonic transducer for receiving ultrasonic echoes from a volumetric region;
  
  means for processing ultrasonic echoes to produce B mode display information;
  
  means for processing ultrasonic echoes to produce Doppler display information; and
  
  rendering means for processing B mode and Doppler display information together as a function of relative location in said volumetric region to form a three dimensional image, including means for separately controlling the opacity of B mode and Doppler information,wherein said opacity controlling means permits a greater opacity contribution for Doppler information than for B mode information.
- View Dependent Claims (9)
- - 9. The medical diagnostic ultrasound system of claim 8, wherein said opacity controlling means permits a fully opaque maximum opacity level for Doppler information, and a semi transparent maximum opacity level for B mode information.

10. A medical diagnostic ultrasound system which develops three dimensional images of flow or motion and structure comprising:
- an ultrasonic transducer for receiving ultrasonic echoes from a volumetric region;
  
  means for processing ultrasonic echoes to produce B mode display information;
  
  means for processing ultrasonic echoes to produce Doppler display information; and
  
  rendering means for processing B mode and Doppler display information together as a function of relative location in said volumetric region to form a three dimensional image, including means for separately controlling the opacity of B mode and Doppler information,wherein said rendering means comprises means for processing B mode and Doppler display information to form three dimensional display pixel information P_3D in accordance with ##EQU3## where P_t and P_b are tissue and blood flow pixel information, a_t and a_b are opacity weighting coefficients for tissue and blood flow, a_d is a depth weighting coefficient, and v is a vector of P_t and P_b.

11. A method of producing three dimensional ultrasonic images of flow or motion anti structure comprising the steps of:
- a. insonifying a volumetric region of the body with ultrasound;
  
  b. receiving ultrasonic echo information from said volumetric region;
  
  c. processing said ultrasonic echo information to produce spatially distinct ultrasonic signals of structure and motion within said volumetric region; and
  
  d. processing said ultrasonic structure and motion signals together as of function of their spatial properties to render a three dimensional ultrasonic image in which both structure and motion are three dimensionally displayed, including the use of separate rendering parameters for said structure and motion ultrasonic signals.
- View Dependent Claims (12)
- - 12. The method of claim 11, wherein said processing of step c comprisesprocessing said ultrasonic echo information with a B mode processor and a Doppler processor to produce spatially distinct B mode signals of structure and Doppler signals of motion.

13. A method of producing three dimensional ultrasonic images of flow or motion and structure comprising the steps of:
- a. insonifying a volumetric region of the body with ultrasound;
  
  b. receiving ultrasonic echo information from said volumetric region;
  
  c. processing said ultrasonic echo information to produce spatially distinct ultrasonic signals of structure and motion within said volumetric region; and
  
  d. processing said ultrasonic structure and motion signals together as of function of their spatial properties to render a three dimensional ultrasonic image, including the use of separate rendering parameters for said structure and motion ultrasonic signals,wherein said separate rendering parameters of step d comprise separate opacity rendering parameters.
- View Dependent Claims (14)
- - 14. The method of claim 13, wherein said separate opacity rendering parameters for said structure and motion ultrasonic signals permit a greater opacity contribution for motion ultrasonic signals than for structure ultrasonic signals.

15. A method of producing dimensional ultrasonic images of flow or motion and structure comprising the steps of:
- a. insonifying a volumetric region of the body with ultrasound;
  
  b. receiving ultrasonic echo information from said volumetric region;
  
  c. processing said ultrasonic echo information to produce spatially distinct ultrasonic signals of structure and motion within said volumetric region; and
  
  d. processing said ultrasonic structure and motion signals together as of function of their spatial properties to render three dimensional ultrasonic image, including the use of separate rendering parameters for said structure and motion ultrasonic signals,wherein said processing of said ultrasonic structure and motion signals together comprises forming three dimensional display pixels P_3D in accordance with ##EQU4## where P_t and P_b are structure and motion pixel information, a_t and a_b are opacity weighting coefficients for structure and motion, a_d is a depth weighting coefficient, and v is a vector of P_t and P_b.

16. A method of producing three dimensional ultrasonic images of flow or motion and structure comprising the steps of:
- a. insonifying a volumetric region of the body with ultrasound;
  
  b. receiving ultrasonic echo information from said volumetric region;
  
  c. processing said ultrasonic echo information with a B mode processor and a Doppler processor to produce spatially distinct B mode signals of structure and Doppler signals of motion within said volumetric region; and
  
  d. processing said B mode and Doppler signals together as of function of their spatial properties to render a three dimensional ultrasonic image, including the use of separate opacity rendering parameters for said B mode and Doppler ultrasonic signals which permit a greater opacity contribution for Doppler ultrasonic signals than for B mode ultrasonic signals.

17. A medical diagnostic ultrasound system which develops three dimensional images of pulsatile flow or motion and structure within the body comprising:
- an ultrasonic transducer for receiving ultrasonic echoes from a volumetric region of the body;
  
  an image processor for processing ultrasonic echoes gated to a phase of the heart cycle to produce B mode display information;
  
  a Doppler processor for processing ungated ultrasonic echoes to produce Doppler display information; and
  
  a three dimensional image processor for processing said gated B mode and said ungated Doppler display information as a function of their spatial properties in the volumetric region to form a three dimensional image of both tissue structure and fluid flow within said volumetric region.
- View Dependent Claims (18, 19)
- - 18. The medical diagnostic ultrasound system of claim 17, wherein ultrasonic echoes for said Doppler processor are acquired in intervals between the heart gated echoes.
  - 19. The medical diagnostic ultrasound system of claim 17, further comprising means for temporally averaging said Doppler display information.

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Current Assignee
Advanced Technology Materials, Inc. (Entegris Incorporated)
Original Assignee
Advanced Technology Laboratories Inc (Koninklijke Philips N.V.)
Inventors
Schwartz, Gary Allen
Primary Examiner(s)
MANUEL, GEORGE C

Application Number

US08/638,710
Time in Patent Office

666 Days
Field of Search

128/661.07, 128/660.04, 128/660.05, 128/661.08, 128/661.09, 128/661.1, 128/916, 73/861.25
US Class Current

600/456
CPC Class Codes

A61B 8/06   Measuring blood flow measur...

A61B 8/13   Tomography A61B8/10, A61B8/...

A61B 8/463   characterised by displaying...

A61B 8/483   involving the acquisition o...

A61B 8/543   involving acquisition trigg...

G01S 15/8979   Combined Doppler and pulse-...

G01S 15/8993   Three dimensional imaging s...

Y10S 128/916   Ultrasound 3-D imaging

Three dimensional medical ultrasonic diagnostic image of tissue texture and vasculature

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Three dimensional medical ultrasonic diagnostic image of tissue texture and vasculature

First Claim

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Abstract

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19 Claims

Specification

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Solutions

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