Multi-planar X-ray fluoroscopy system using radiofrequency fields

US 5,265,610 A
Filed: 09/03/1991
Issued: 11/30/1993
Est. Priority Date: 09/03/1991
Status: Expired due to Term

First Claim

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1. A tracking and imaging system adapted for following a location of at least one invasive device within a subject, comprising:

a) an invasive device;

b) an electromagnetic (EM) field creation means adapted for creating an electromagnetic field of known geometry within the subject attached to the invasive device;

c) a radiofrequency (RF) receiver means adapted for detecting the electromagnetic field at a plurality of M selected locations;

d) a tracking means adapted for computing a position and an orientation of the EM field creation means at the M selected locations, responsive to the detected electromagnetic field;

e) an imaging means adapted for acquiring at least two medical diagnostic images each at selected view angles with respect to the invasive device;

f) superposition means adapted for superimposing a symbol at the computed position representing the EM field creation means on each of the at least two medical diagnostic images resulting in superimposed images; and

g) a plurality of display means each display means adapted for displaying a different view of the superimposed images of the invasive device allowing for determination of depth of the invasive device within said subject.

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Abstract

During an X-ray fluoroscopy procedure, the position and orientation of an invasive device, such as a catheter, are measured with radiofrequency fields. The invasive device has a transient coil attached near its end and is driven by a low power RF source to produce a dipole electromagnetic field that can be detected by an array of receive coils distributed around a region of interest of the subject. Multiple views of the instantaneous position of the invasive device are displayed by superposition of graphic symbols on multiple static X-ray images obtained at multiple view angles. Each view angle is displayed upon a different display means. The X-ray images are obtained only when deemed necessary by the operator to minimize X-ray dose. A single X-ray source and detector may be implemented since it is not necessary to obtain the X-ray images simultaneously.

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17 Claims

1. A tracking and imaging system adapted for following a location of at least one invasive device within a subject, comprising:
- a) an invasive device;
  
  b) an electromagnetic (EM) field creation means adapted for creating an electromagnetic field of known geometry within the subject attached to the invasive device;
  
  c) a radiofrequency (RF) receiver means adapted for detecting the electromagnetic field at a plurality of M selected locations;
  
  d) a tracking means adapted for computing a position and an orientation of the EM field creation means at the M selected locations, responsive to the detected electromagnetic field;
  
  e) an imaging means adapted for acquiring at least two medical diagnostic images each at selected view angles with respect to the invasive device;
  
  f) superposition means adapted for superimposing a symbol at the computed position representing the EM field creation means on each of the at least two medical diagnostic images resulting in superimposed images; and
  
  g) a plurality of display means each display means adapted for displaying a different view of the superimposed images of the invasive device allowing for determination of depth of the invasive device within said subject.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The tracking and imaging system of claim 1, wherein the EM field creation means comprises:
    - a) a master oscillator for setting a standard timing signal;
      
      b) a control computer coupled to the master oscillator and responsive to the standard timing signal; and
      
      c) a plurality of N transmit branches, wherein N ≧
      
      1, each of the transmit branches comprising;
      
      i. transmit frequency offset means adapted for creating an RF transmit signal of a frequency determined by the control computer based upon the standard timing signal,ii. a gating means coupled to the transmit frequency offset means and responsive to the control computer adapted for passing or not passing the RF transmit signal,iii. an amplifier means responsive to the control computer adapted for receiving the RF transmit signal from the gating means and amplifying the signal with a gain determined by the control computer, andiv. a transmit coil coupled to the amplifier means adapted for creating the electromagnetic field from the RF transmit signal.
  - 3. The tracking and imaging system of claim 2, wherein the invasive device is one of the group consisting of a guide wire, a catheter, an endoscope, a laparoscope, and a biopsy needle.
  - 4. The tracking and imaging system of claim 2, wherein the invasive device is a surgical device.
  - 5. The tracking and imaging system of claim 2, wherein the invasive device is a therapeutic device.
  - 6. The tracking and imaging system of claim 2, wherein the gating means is adapted to permit only a selected one of the transmit branches to create the electromagnetic field at any given instant in time.
  - 7. The tracking and imaging system of claim 2, wherein the gating means is adapted to permit the N transmit branches to simultaneously create N electromagnetic fields for detection by the RF receiver means, and the tracking means is responsive to the N electromagnetic fields for computing N positions and orientations.
  - 8. The tracking and imaging system of claim 2, wherein the gating means is adapted for permitting the plurality of the N transmit branches to create electromagnetic fields of different RF frequencies at a given instant, and the RF receiver means is adapted for detecting each of the electromagnetic fields of the different RF frequencies.
  - 9. The tracking and imaging system of claim 1, wherein the EM field creation comprises means adapted for generating an electromagnetic dipole.
  - 10. The tracking and imaging system of claim 1, wherein the RF receiver means comprises:
    - a) receive frequency offset means adapted for generating a reference frequency signal; and
      
      b) a plurality of M receive branches, each of the branches comprising;
      
      i. a receive coil adapted for sensing the electromagnetic field,ii. an amplifier coupled to the receive coil adapted for producing an amplified signal in response to the receive coil sensing the electromagnetic field,iii. a quadrature phase detector means coupled to the amplifier and the receive frequency offset means adapted for sampling the amplified signal to create a sampled signal having high frequency components and low frequency components, and comparing the sampled signal to the reference frequency signal,iv. a filter means adapted for filtering out the high frequency components and passing the low frequency components of the sampled signal, andv. an A/D converter coupled to the filter means adapted for creating a digital signal representing the electromagnetic field within the subject as detected by the receive coil.
  - 11. The tracking and imaging system of claim 10, wherein the gating means is adapted for permitting the M receive branches to simultaneously detect N electromagnetic fields from the EM field creation means, and the tracking means is responsive to said N electromagnetic fields for computing N positions and orientations.
  - 12. The tracking and imaging system of claim 11, wherein the tracking means incorporates a demultiplexing algorithm comprising one of the group consisting of a Fourier transform and a Hadamard transform.
  - 13. The tracking and imaging system of claim 1, wherein the imaging means comprises an X-ray imaging system.
  - 14. The tracking and imaging system of claim 13, wherein the X-ray system includes means for providing a plurality of selected X-ray images from a fluoroscopic sequence as the medical diagnostic images.
  - 15. The tracking and imaging system of claim 1, wherein the imaging means comprises a Magnetic Resonance imaging system.
  - 16. The tracking and imaging system of claim 1, wherein the imaging means comprises a Positron Emission Tomography imaging system.

17. A tracking and imaging system adapted for following a location of at least one invasive device within a subject, comprising:
- a) an invasive device;
  
  b) an electromagnetic (EM) field creation means adapted for creating an electromagnetic field of known geometry within the subject;
  
  c) a radiofrequency (RF) receiver means attached to the invasive device adapted for detecting the electromagnetic field at a plurality of M selected locations;
  
  d) a tracking means adapted for computing a position and an orientation of the EM field creation means at the M selected locations, responsive to the detected electromagnetic field;
  
  e) an imaging means adapted for acquiring at least two medical diagnostic images each at selected view angles with respect to the invasive device;
  
  f) superposition means adapted for superimposing a symbol at the computed position representing the EM field creation means on each of the at least two medical diagnostic images resulting in superimposed images; and
  
  g) a plurality of display means each display means adapted for displaying a different view of the superimposed images of the invasive device allowing for determination of depth of the invasive device within said subject.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Dumoulin, Charles L., Darrow, Robert D.
Primary Examiner(s)
Cohen, Lee S.
Assistant Examiner(s)
ZELE, KRISTA MICHELLE

Application Number

US07/753,566
Time in Patent Office

819 Days
Field of Search

128/653.1, 128/897-899, 128/653.2, 128/653.5, 378/63, 378/62
US Class Current

600/410
CPC Class Codes

A61B 2034/2051   Electromagnetic tracking sy...

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

A61B 5/062   using magnetic field

A61B 6/12   Arrangements for detecting ...

A61B 6/463   characterised by displaying...

H05G 1/26   Measuring, controlling or p...

Multi-planar X-ray fluoroscopy system using radiofrequency fields

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Multi-planar X-ray fluoroscopy system using radiofrequency fields

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