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Deformable imaging phantom for 4D motion tracking with scintillator radiation detector

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  • Publication Date:
    November 19, 2024
  • معلومة اضافية
    • Patent Number:
      12146,934
    • Appl. No:
      18/110974
    • Application Filed:
      February 17, 2023
    • نبذة مختصرة :
      A deformable phantom, according to the present invention, has a housing made of a MRI invisible material enclosing a sealed reservoir filled with a MRI signal producing material, a piston slidably mounted within a sleeve and extending into the sealed reservoir, wherein the sleeve is slidably mounted to the housing and extends into the sealed reservoir, a deformable structure within the sealed reservoir, and one or more point dosimeters located on or within the deformable structure. The piston and sleeve move opposite to one another to conserve a constant fluid volume within the sealed reservoir as the piston moves in and out of the sealed reservoir to cause motion and/or deformation of the deformable structure.
    • Inventors:
      MODUS MEDICAL DEVICES INC. (London, CA)
    • Assignees:
      Modus Medical Devices Inc. (London, CA)
    • Claim:
      1. A deformable phantom, comprising: a housing made of a MRI invisible material enclosing and defining a first boundary of a sealed reservoir filled with a MRI signal producing material; a sleeve reciprocatingly mounted to the housing, extending into the housing, and defining a second boundary of the sealed reservoir; a piston reciprocatingly mounted within the sleeve, extending into the housing, and defining a third boundary of the sealed reservoir; a deformable structure within the boundaries of the sealed reservoir; and one or more point dosimeters located on or within the deformable structure.
    • Claim:
      2. The deformable phantom of claim 1 , wherein the piston and sleeve are configured to move in opposite directions as they move in and out of the housing.
    • Claim:
      3. The deformable phantom of claim 2 , wherein the one or more point dosimeters comprise one or more scintillators.
    • Claim:
      4. The deformable phantom of claim 3 , wherein the deformable structure comprises a deformable target within the deformable structure, having a different proton or electron density from the deformable structure; and wherein the one or more scintillators are located on or within the deformable target.
    • Claim:
      5. The deformable phantom of claim 4 , wherein the deformable target is ellipsoidal in shape and positioned off-centre within the deformable structure; and wherein the one or more scintillators are positioned on cardinal planes of the deformable target.
    • Claim:
      6. The deformable phantom of claim 3 , wherein each of the one or more scintillators is connected to a respective optical fibre which extends out of the housing.
    • Claim:
      7. The deformable phantom of claim 6 , wherein the optical fibre of each of the one or more scintillators is joined together into a single optical fibre; and wherein each of the one or more scintillators is configured to emit light on a different wavelength.
    • Claim:
      8. The deformable phantom of claim 3 , wherein the housing has a cylindrical shape with a continuous sidewall and opposing first and second end caps; and wherein the first end cap has an annular shape, defining an aperture, and wherein the piston and sleeve are reciprocatingly mounted concentrically within the first end cap and extend into the housing through the aperture in the first end cap.
    • Claim:
      9. The deformable phantom of claim 8 , wherein the deformable structure is shaped to provide flow channels between the deformable structure and the sidewall of the housing.
    • Claim:
      10. The deformable phantom of claim 3 , wherein the piston has a piston head located within the housing, having one or more apertures therethrough; and wherein the deformable structure is attached to the piston head.
    • Claim:
      11. The deformable phantom of claim 3 , wherein the piston is connected to a motion assembly to drive the motion of the piston relative to the housing.
    • Claim:
      12. The deformable phantom of claim 11 , wherein the motion assembly is configured to provide one or both of linear and rotational motion to the piston.
    • Claim:
      13. The deformable phantom of claim 3 , wherein the deformable phantom is configured for use as an insert in a second phantom.
    • Claim:
      14. The deformable phantom of claim 4 , wherein one or both of the deformable structure and the deformable target are deformable dosimeters.
    • Claim:
      15. The deformable phantom of claim 14 , wherein the deformable dosimeters comprise one or more radiation indicators, selected from the group consisting of: acrylamide and bis-acrylamide monomers, which are susceptible to radiation-induced polymerization; radiochromic dyes; and silicone or urethane rubbers doped with additives, which are susceptible to radiation-induced cross-linking.
    • Claim:
      16. A deformable phantom, comprising: a housing made of a MRI invisible material enclosing and defining a first boundary of a sealed reservoir filled with a MRI signal producing material, wherein the sealed reservoir has a first volume portion and a second variable volume portion in fluid communication therewith; a piston reciprocatingly mounted to the housing, extending into the housing, and defining a second boundary of the sealed reservoir; a deformable structure within the boundaries of the sealed reservoir and not exposed to an exterior of the sealed reservoir; and one or more point dosimeters located on or within the deformable structure; wherein the second variable volume portion varies to accommodate displacement of the fluid MRI signal producing material caused by the movement of the piston.
    • Claim:
      17. The deformable phantom of claim 16 , wherein the one or more point dosimeters comprise one or more scintillators.
    • Claim:
      18. The deformable phantom of claim 17 , wherein the deformable structure comprises a deformable target within the deformable structure, having a different proton or electron density from the deformable structure; and wherein the one or more scintillators are located on or within the deformable target.
    • Claim:
      19. The deformable phantom of claim 18 , wherein the deformable target is ellipsoidal in shape and positioned off-centre within the deformable structure; and wherein the one or more scintillators are positioned on cardinal planes of the deformable target.
    • Claim:
      20. The deformable phantom of claim 17 , wherein each of the one or more scintillators is connected to a respective optical fibre which extends out of the housing.
    • Claim:
      21. The deformable phantom of claim 20 , wherein the optical fibre of each of the one or more scintillators is joined together into a single optical fibre; and wherein each of the one or more scintillators is configured to emit light on a different wavelength.
    • Claim:
      22. The deformable phantom of claim 17 , wherein the deformable structure is shaped to provide flow channels between the deformable structure and a sidewall of the housing.
    • Claim:
      23. The deformable phantom of claim 17 , wherein the piston has a piston head located within the housing, having one or more apertures therethrough; and wherein the deformable structure is attached to the piston head.
    • Claim:
      24. The deformable phantom of claim 17 , wherein the piston is connected to a motion assembly to drive the motion of the piston relative to the housing; and wherein the motion assembly is configured to provide one or both of linear and rotational motion to the piston.
    • Claim:
      25. The deformable phantom of claim 17 , wherein the deformable phantom is configured for use as an insert in a second phantom.
    • Claim:
      26. The deformable phantom of claim 18 , wherein one or both of the deformable structure and the deformable target are deformable dosimeters.
    • Claim:
      27. The deformable phantom of claim 26 , wherein the deformable dosimeters comprise one or more radiation indicators, selected from the group consisting of: acrylamide and bis-acrylamide monomers, which are susceptible to radiation-induced polymerization; radiochromic dyes; and silicone or urethane rubbers doped with additives, which are susceptible to radiation-induced cross-linking.
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      8535061 September 2013 Boutchko et al.
      20130218001 August 2013 Uhlemann
      20160133159 May 2016 Saloux et al.
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    • Other References:
      Chang, Jina et al. “Development of a deformable lung phantom for the evaluation of deformable registration.” Journal of applied clinical medical physics vol. 11,1 3081. Jan. 28, 2010 (Year: 2010). cited by examiner
      Matrosic CK, Hull J, Palmer B, Culberson W, Bednarz B. Deformable abdominal phantom for the validation of real-time image guidance and deformable dose accumulation. J Appl Clin Med Phys. Aug. 2019;20(8):122-133 (Year: 2019). cited by examiner
    • Primary Examiner:
      Miller, Daniel R
    • الرقم المعرف:
      edspgr.12146934