Tracking system to monitor the position and orientation of a device using magnetic resonance detection of a sample contained within the device

US 5,271,400 A
Filed: 04/01/1992
Issued: 12/21/1993
Est. Priority Date: 04/01/1992
Status: Expired due to Term

First Claim

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1. A magnetic resonance (MR) tracking system comprising:

a) an invasive device adapted to be inserted into a subject;

b) an MR active sample incorporated into the invasive device;

c) static magnetic field means adapted for applying a homogeneous magnetic field having substantially uniform amplitude over the subject;

d) radiofrequency (rf) transmitter means adapted for transmitting rf energy of a selected duration, amplitude and frequency into the subject to cause nutation of a selected ensemble of spins within the subject and the MR active sample;

e) gradient means for varying the amplitude of the magnetic field in at least one spatial dimension over the subject and the MR active sample over time causing the selected ensemble of spins to emit an MR response signal;

f) detection means attached to the invasive device adapted for detecting an MR response signal from the selected ensemble of spins;

g) calculation means adapted for calculating a location of the invasive device from the detected MR response signal;

h) controller means coupled to the rf transmitter means, the detection means, the calculation means and the gradient means adapted for activating the rf transmitter means, the detection means, the calculation means and the gradient means according to a desired magnetic resonance sequence; and

i) display means responsive to the calculation means adapted for displaying the location of the invasive device to an operator.

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Abstract

A tracking system employs magnetic resonance signals to monitor the position and orientation of a device, such as a catheter, within a subject. The device has an MR active sample and a receiver coil which is sensitive to magnetic resonance signals generated by the MR active sample. These signals are detected in the presence of magnetic field gradients and thus have frequencies which are substantially proportional to the location of the coil along the direction of the applied gradient. Signals are detected responsive to sequentially applied mutually orthogonal magnetic gradients to determine the device'"'"'s position in several dimensions. The position of the device as determined by the tracking system is superimposed upon independently acquired medical diagnostic images. One or more devices can be simultaneously tracked.

434 Citations

16 Claims

1. A magnetic resonance (MR) tracking system comprising:
- a) an invasive device adapted to be inserted into a subject;
  
  b) an MR active sample incorporated into the invasive device;
  
  c) static magnetic field means adapted for applying a homogeneous magnetic field having substantially uniform amplitude over the subject;
  
  d) radiofrequency (rf) transmitter means adapted for transmitting rf energy of a selected duration, amplitude and frequency into the subject to cause nutation of a selected ensemble of spins within the subject and the MR active sample;
  
  e) gradient means for varying the amplitude of the magnetic field in at least one spatial dimension over the subject and the MR active sample over time causing the selected ensemble of spins to emit an MR response signal;
  
  f) detection means attached to the invasive device adapted for detecting an MR response signal from the selected ensemble of spins;
  
  g) calculation means adapted for calculating a location of the invasive device from the detected MR response signal;
  
  h) controller means coupled to the rf transmitter means, the detection means, the calculation means and the gradient means adapted for activating the rf transmitter means, the detection means, the calculation means and the gradient means according to a desired magnetic resonance sequence; and
  
  i) display means responsive to the calculation means adapted for displaying the location of the invasive device to an operator.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The MR tracking system recited in claim 1, wherein the MR active sample comprises a material which produces a measurable MR signal being other than a material that is commonly found in the subject.
  - 3. The MR tracking system recited in claim 1 further comprising:
    - a) imaging means for acquiring a medical diagnostic image of the subject; and
      
      b) superposition means for superimposing a symbol on the medical diagnostic image at a position representing the calculated location of the invasive device.
  - 4. The MR tracking system recited in claim 3, wherein the imaging means for acquiring a medical diagnostic image is an X-ray imaging means.
  - 5. The MR tracking system recited in claim 3, wherein the imaging means for acquiring a medical diagnostic image is an MR imaging means.
  - 6. The MR tracking system recited in claim 3, wherein the imaging means for acquiring a medical diagnostic image is an Ultrasound imaging means.
  - 7. The MR tracking system recited in claim 1, wherein the detection means comprises:
    - a) an rf coil within the invasive device for receiving the MR response signal; and
      
      b) receiver means connected to the rf coil for processing the received MR response signal.
  - 8. The MR tracking system recited in claim 1, wherein the invasive device is one of the group consisting of a guide wire, a catheter, an endoscope, a laparoscope and a biopsy needle.
  - 9. The MR tracking system recited in claim 1, wherein the invasive device is a surgical device.
  - 10. The MR tracking system recited in claim 1, wherein the invasive device is a therapeutic device.

11. A method for tracking a location of an invasive device within a subject employing magnetic resonance (MR) comprising the steps of:
- a) attaching a MR active sample to said invasive device;
  
  b) applying a homogeneous magnetic field having substantially uniform amplitude over said subject;
  
  c) transmitting radiofrequency (rf) energy of a selected duration, amplitude and frequency into the MR active sample and said subject to cause nutation of a selected ensemble of spins in said subject and the MR active sample;
  
  d) varying the amplitude of the magnetic field in at least one spatial dimension over time causing the ensemble of spins within the MR active sample to emit an MR response signal;
  
  e) detecting the emitted MR response signal from the MR active sample;
  
  f) processing the detected MR response signal;
  
  g) calculating a location of the MR active sample and said invasive device from the processed MR response signal; and
  
  h) displaying the location of said invasive device to an operator.
- View Dependent Claims (12, 13, 14)
- - 12. The method for tracking as recited in claim 11 further comprising the steps of:
    - a) acquiring a medical diagnostic image of said subject; and
      
      b) superimposing a symbol on the medical diagnostic image at a position representing the calculated location of said invasive device.
  - 13. The method for tracking as recited in claim 11, wherein the step of detecting the MR response signal occurs simultaneously with the step of varying the amplitude of the magnetic field.
  - 14. The method for tracking as recited in claim 11, wherein the step of calculating a location of said invasive device further includes the step of performing a Fourier transformation on the MR response signal transforming time dependency to a frequency dependency, and converting the frequency dependency to a location of said invasive device.

15. A magnetic resonance (MR) tracking system comprising:
- a) an invasive device adapted to be inserted into a subject;
  
  b) an MR active sample incorporated into the invasive device;
  
  c) static magnetic field means adapted for applying a homogeneous magnetic field having substantially uniform amplitude over the subject;
  
  d) radiofrequency (rf) transmitter means attached to the invasive device adapted for transmitting rf energy of a selected duration, amplitude and frequency into the subject and the MR active sample to cause nutation of a selected ensemble of spins within the subject and the MR active sample;
  
  e) gradient means adapted for varying the amplitude of the magnetic field in at least one spatial dimension over the subject and the MR active sample over time;
  
  f) detection means adapted for detecting an MR response signal from the selected ensemble of spins;
  
  g) calculation means adapted for calculating a location of the invasive device from the detected MR response signal;
  
  h) controller connected to the rf transmitter means, the detection means, the calculation means and the gradient means adapted for activating the rf transmitter means, the detection means, the calculation means and the gradient means according to a desired MR sequence; and
  
  i) display means connected to the calculation means adapted for displaying the location of the invasive device to an operator.
- View Dependent Claims (16)
- - 16. The MR tracking system recited in claim 15 wherein the detection means comprises an rf coil attached to the invasive device for receiving the MR response signal.

Specification

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Dumoulin, Charles L., Darrow, Robert D., Souza, Steven P.
Primary Examiner(s)
Cohen, Lee S.
Assistant Examiner(s)
Casler, Brian L.

Application Number

US07/861,662
Time in Patent Office

629 Days
Field of Search

128/653.2, 128/653.5, 128/899, 128/658
US Class Current

600/410
CPC Class Codes

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

A61B 5/06   Devices, other than using r...

G01R 33/285   Invasive instruments, e.g. ...

G01R 33/5617   using RF refocusing, e.g. RARE

G01R 33/563   of moving material, e.g. fl...

Tracking system to monitor the position and orientation of a device using magnetic resonance detection of a sample contained within the device

First Claim

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Abstract

434 Citations

16 Claims

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Tracking system to monitor the position and orientation of a device using magnetic resonance detection of a sample contained within the device

First Claim

1 Assignment

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Abstract

434 Citations

16 Claims

Specification

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