Integrated strontium-rubidium radioisotope infusion systems

DC CAFC

US 9,750,870 B2
Filed: 04/18/2017
Issued: 09/05/2017
Est. Priority Date: 06/11/2008
Status: Active Grant

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1. A method of using an infusion system on-board a cart to deliver a rubidium radioactive eluate comprising:

installing a saline reservoir on the infusion system, wherein the infusion system comprises a platform and an exterior shell extending upwardly above the platform, and wherein the platform and the exterior shell collectively define an interior space of a cabinet structure;

placing the saline reservoir in fluid communication through a saline tubing line with an inlet tubing port of a strontium-rubidium radioisotope generator located in a first shielding compartment in the interior space of the cabinet structure, wherein the strontium-rubidium radioisotope generator further comprises an outlet tubing port configured to discharge the rubidium radioactive eluate, and wherein the first shielding compartment has a first opening facing vertically upwardly;

inserting a waste bottle into a second shielding compartment on-board the cart, wherein the second shielding compartment on-board the cart has a second opening facing vertically upwardly and being at a higher elevation than the first opening;

placing the waste bottle in fluid communication with the outlet tubing port of the strontium-rubidium radioisotope generator through an eluate tubing line, wherein a computer on-board the cart is configured to control the fluid communication between the waste bottle and the outlet tubing port, and wherein the computer has a touch screen display mounted on a vertical post with a top end extending above the cabinet structure;

inserting an eluate reservoir in a shielded well on-board the cart;

placing the eluate reservoir in fluid communication with the eluate tubing line, wherein the computer is further configured to control the fluid communication between the eluate reservoir and the eluate tubing line;

pumping a sample of the rubidium radioactive eluate into the eluate reservoir in the shielded well on-board the cart;

measuring a radioactivity of the sample of the rubidium radioactive eluate flowing through the eluate tubing line with a radioactivity detector on-board the cart while the sample of the rubidium radioactive eluate is flowing through the eluate tubing line;

measuring a calibration radioactivity of the sample pumped into the eluate reservoir in the shielded well on-board the cart while the eluate reservoir remains in the shielded well on-board the cart;

comparing the radioactivity of the sample of the rubidium radioactive eluate flowing through the eluate tubing line measured by the radioactivity detector on-board the cart while the sample of the rubidium radioactive eluate is flowing through the eluate tubing line with the calibration radioactivity of the sample pumped into the eluate reservoir in the shielded well on-board the cart; and

determining a strontium breakthrough test result on the sample pumped into the eluate reservoir in the shielded well on-board the cart while the eluate reservoir remains in the shielded well on-board the cart, wherein the computer of the infusion system is further configured to not allow a patient infusion if the strontium breakthrough test result is greater than or equal to an allowed limit.

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Abstract

Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer may include pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging.

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30 Claims

1. A method of using an infusion system on-board a cart to deliver a rubidium radioactive eluate comprising:
- installing a saline reservoir on the infusion system, wherein the infusion system comprises a platform and an exterior shell extending upwardly above the platform, and wherein the platform and the exterior shell collectively define an interior space of a cabinet structure;
  
  placing the saline reservoir in fluid communication through a saline tubing line with an inlet tubing port of a strontium-rubidium radioisotope generator located in a first shielding compartment in the interior space of the cabinet structure, wherein the strontium-rubidium radioisotope generator further comprises an outlet tubing port configured to discharge the rubidium radioactive eluate, and wherein the first shielding compartment has a first opening facing vertically upwardly;
  
  inserting a waste bottle into a second shielding compartment on-board the cart, wherein the second shielding compartment on-board the cart has a second opening facing vertically upwardly and being at a higher elevation than the first opening;
  
  placing the waste bottle in fluid communication with the outlet tubing port of the strontium-rubidium radioisotope generator through an eluate tubing line, wherein a computer on-board the cart is configured to control the fluid communication between the waste bottle and the outlet tubing port, and wherein the computer has a touch screen display mounted on a vertical post with a top end extending above the cabinet structure;
  
  inserting an eluate reservoir in a shielded well on-board the cart;
  
  placing the eluate reservoir in fluid communication with the eluate tubing line, wherein the computer is further configured to control the fluid communication between the eluate reservoir and the eluate tubing line;
  
  pumping a sample of the rubidium radioactive eluate into the eluate reservoir in the shielded well on-board the cart;
  
  measuring a radioactivity of the sample of the rubidium radioactive eluate flowing through the eluate tubing line with a radioactivity detector on-board the cart while the sample of the rubidium radioactive eluate is flowing through the eluate tubing line;
  
  measuring a calibration radioactivity of the sample pumped into the eluate reservoir in the shielded well on-board the cart while the eluate reservoir remains in the shielded well on-board the cart;
  
  comparing the radioactivity of the sample of the rubidium radioactive eluate flowing through the eluate tubing line measured by the radioactivity detector on-board the cart while the sample of the rubidium radioactive eluate is flowing through the eluate tubing line with the calibration radioactivity of the sample pumped into the eluate reservoir in the shielded well on-board the cart; and
  
  determining a strontium breakthrough test result on the sample pumped into the eluate reservoir in the shielded well on-board the cart while the eluate reservoir remains in the shielded well on-board the cart, wherein the computer of the infusion system is further configured to not allow a patient infusion if the strontium breakthrough test result is greater than or equal to an allowed limit.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
- - 2. The method of claim 1, further comprising:
    - placing the eluate tubing line in fluid communication with a patient, wherein the computer is further configured to control the fluid communication between the eluate tubing line and the patient;
      
      pumping a dose of the rubidium radioactive eluate to the patient; and
      
      flushing the rubidium radioactive eluate remaining in at least a portion of the eluate tubing line into the patient by pumping saline from the saline reservoir to the eluate tubing line through a by-pass line that by-passes the strontium-rubidium radioisotope generator, wherein the computer is further configured to control fluid communication via the by-pass line.
  - 3. The method of claim 2, further comprising:
    - logging into the computer by entering a user login credential on the touch screen display,transferring a patient infusion record via a USB port, andprinting a document concerning the patient infusion or a quality control test result via a printer.
  - 4. The method of claim 2, further comprising:
    - initiating a purging process through the touch screen display to purge a patient tubing line of air, wherein the patient tubing line is in fluid communication with the eluate tubing line.
  - 5. The method of claim 2, wherein the computer of the infusion system is further configured to present on the touch screen display a screen reminding a user to insert the eluate reservoir in the shielded well on-board the cart.
  - 6. The method of claim 2, wherein the computer of the infusion system is further configured to present on the touch screen display a screen for starting the patient infusion by touching a button on the touch screen display.
  - 7. The method of claim 2, wherein the computer of the infusion system is further configured to present on the touch screen display a screen indicating that the patient infusion is in process, wherein the screen indicating that the patient infusion is in process displays a stop button to abort the patient infusion.
  - 8. The method of claim 2, wherein the computer of the infusion system is further configured to:
    - present on the touch screen display a screen for starting the patient infusion by touching a button on the touch screen display;
      
      present on the touch screen display a screen reminding a user to insert the eluate reservoir in the shielded well on-board the cart;
      
      present on the touch screen display a screen indicating that the patient infusion is in process, wherein the screen indicating that the patient infusion is in process displays a stop button to abort the patient infusion; and
      
      present on the touch screen display the strontium breakthrough test result.
  - 9. The method of claim 8, further comprising:
    - logging into the computer by entering a user login credential on the touch screen display,entering a patient ID on the touch screen display,entering a patient dose on the touch screen display, andentering a flow rate on the touch screen display.
  - 10. The method of claim 9, wherein the computer of the infusion system is further configured to:
    - track a volume of saline remaining in the saline reservoir,provide an alert via the touch screen display when the volume of saline remaining in the saline reservoir is below a predetermined volume threshold,andpresent on the touch screen display a screen reminding the user to empty the waste bottle.
  - 11. The method of claim 10, further comprising:
    - initiating a generator column wash through the touch screen display, wherein a predetermined amount of saline is pumped through the strontium-rubidium radioisotope generator and directed to the waste bottle during the generator column wash, andinitiating a purging process through the touch screen display to purge a patient tubing line of air, wherein the patient tubing line is in fluid communication with the eluate tubing line.
  - 12. The method of claim 11, wherein the saline tubing line and the eluate tubing line are routed through two tubing passageways formed in a perimeter surface of the first opening, wherein each of the two tubing passageways has a depth configured to prevent pinching or crushing of a corresponding tubing line routed therethrough when a first door is closed over the first opening.
  - 13. The method of claim 12, wherein the infusion system further comprises:
    - a handle configured for the user to grasp in order to move the infusion system, andfour wheels mounted to an underside of the platform of the cabinet structure.
  - 14. The method of claim 13, wherein the computer of the infusion system is further configured to:
    - project a first light signal from a light projector mounted on the top end of the vertical post extending above the cabinet structure to indicate that an elution is taking place, andproject a second light signal from the light projector to indicate that a peak bolus of radioactivity is detected.
  - 15. The method of claim 14, whereinthe cabinet structure has a lowermost portion and the platform has a lower surface,the first opening is at a first elevation,the second opening is at a second elevation,the first elevation is between approximately 1 foot and approximately 2 feet, with respect to the lowermost portion of the cabinet structure, andthe second elevation is between approximately 2 feet and approximately 3 feet, with respect to the lower surface of the platform.
  - 16. The method of claim 13, wherein the infusion system further comprises a dose calibrator in the shielded well on-board the cart and in communication with the computer to determine the strontium breakthrough test result.
  - 17. The method of claim 16, whereinthe cabinet structure has a lowermost portion and the platform has a lower surface,the first opening is at a first elevation,the second opening is at a second elevation,the first elevation is between approximately 1 foot and approximately 2 feet, with respect to the lowermost portion of the cabinet structure, andthe second elevation is between approximately 2 feet and approximately 3 feet, with respect to the lower surface of the platform.
  - 18. The method of claim 1, wherein the computer of the infusion system is further configured to present on the touch screen display the strontium breakthrough test result.
  - 19. The method of claim 1, whereinthe cabinet structure has a lowermost portion and the platform has a lower surface,the first opening is at a first elevation,the second opening is at a second elevation,the first elevation is between approximately 1 foot and approximately 2 feet, with respect to the lowermost portion of the cabinet structure, andthe second elevation is between approximately 2 feet and approximately 3 feet, with respect to the lower surface of the platform.
  - 20. The method of claim 1, wherein the saline tubing line and the eluate tubing line are routed through two tubing passageways formed in a perimeter surface of the first opening, wherein each of the two tubing passageways has a depth configured to prevent pinching or crushing of a corresponding tubing line routed therethrough when a first door is closed over the first opening.
  - 21. The method of claim 1, wherein the infusion system further comprises a dose calibrator in the shielded well on-board the cart, wherein the dose calibrator is in communication with the computer to determine the strontium breakthrough test result.
  - 22. The method of claim 1, wherein the computer of the infusion system is further configured to:
    - track a volume of saline remaining in the saline reservoir, andprovide an alert via the touch screen display when the volume of saline remaining in the saline reservoir is below a predetermined volume threshold.
  - 23. The method of claim 1, wherein the computer of the infusion system is further configured to:
    - track a volume of the rubidium radioactive eluate discharged from the strontium-rubidium radioisotope generator to the waste bottle, andpresent on the touch screen display a screen reminding a user to empty the waste bottle.
  - 24. The method of claim 1, wherein the computer of the infusion system is further configured to:
    - project a first light signal from a light projector mounted on the top end of the vertical post extending above the cabinet structure to indicate that an elution is taking place, andproject a second light signal from the light projector to indicate that a peak bolus of radioactivity is detected.
  - 25. The method of claim 1, wherein the computer of the infusion system is further configured to pump saline through the strontium-rubidium radioisotope generator at a rate less than approximately 70 ml/min.
  - 26. The method of claim 1, further comprising:
    - initiating a generator column wash through the touch screen display, wherein a predetermined amount of saline is pumped through the strontium-rubidium radioisotope generator and directed to the waste bottle during the generator column wash.
  - 27. The method of claim 1, wherein the computer of the infusion system is further configured to track time passed from completion of pumping the sample of the rubidium radioactive eluate into the eluate reservoir to determining the strontium breakthrough test result.
  - 28. The method of claim 1, further comprising:
    - entering a patient ID on the touch screen display,entering a patient dose on the touch screen display, andentering a flow rate on the touch screen display.
  - 29. The method of claim 1, wherein the saline reservoir is located outside of the interior space of the cabinet structure.
  - 30. The method of claim 1, wherein the infusion system further comprises:
    - a handle configured for a user to grasp in order to move the infusion system, andfour wheels mounted to an underside of the platform of the cabinet structure.

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Litigation Data

Current Assignee
Bracco Diagnostics Incorporated (Bracco SPA)
Original Assignee
Bracco Diagnostics Incorporated (Bracco SPA)
Inventors
Hidem, Stephen E., Fontaine, Aaron M., Gelbach, Janet L., McDonald, Patrick M., Hunter, Kathryn M., Swenson, Rolf E., Zodda, Julius P.
Primary Examiner(s)
Marmor, II, Charles A
Assistant Examiner(s)
Dorna, Carrie R

Application Number

US15/490,484
Publication Number

US 20170224908A1
Time in Patent Office

140 Days
Field of Search
US Class Current
CPC Class Codes

A61B 2050/105   Cabinets

A61B 2090/392   Radioactive markers

A61B 50/13   Trolleys, e.g. carts

A61B 6/037   Emission tomography

A61B 6/107   Protection against radiatio...

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

A61B 6/507   for determination of haemod...

A61B 90/39   Markers, e.g. radio-opaque ...

A61K 51/00   Preparations containing rad...

A61M 2005/1403   Flushing or purging

A61M 2205/18   with alarm

A61M 2205/276   preventing unwanted use

A61M 2205/3375   Acoustical, e.g. ultrasonic...

A61M 2205/50   with microprocessors or com...

A61M 2205/505   Touch-screens; Virtual keyb...

A61M 2205/52   with memories providing a h...

A61M 2205/584   having a color code

A61M 2205/587   Lighting arrangements

A61M 2205/6009   for matching patient with h...

A61M 2205/6054   Magnetic identification sys...

A61M 2205/6072 : Bar codes

A61M 2205/70 : with testing or calibration...

A61M 2205/75 : with filters

A61M 2209/084 : Supporting bases, stands fo...

A61M 5/007 : for contrast media

A61M 5/14 : Infusion devices, e.g. infu...

A61M 5/1409 : in series, e.g. first subst...

A61M 5/142 : Pressure infusion, e.g. usi...

A61M 5/1452 : pressurised by means of pis...

A61M 5/158 : Needles for infusions; Acce...

A61M 5/16854 : by monitoring line pressure

A61M 5/16881 : Regulating valves on-off va...

A61M 5/365 : Air detectors A61M5/1684 ta...

A61N 2005/1021 : Radioactive fluid

A61N 2005/1022 : Generators, e.g. X-ray tubes

A61N 2005/1074 : Details of the control syst...

A61N 2005/1094 : Shielding, protecting again...

A61N 5/1001 : using radiation sources int...

A61N 5/1007 : Arrangements or means for t...

A61N 5/1075 : for testing, calibrating, o...

B62B 3/005 : Details of storage means, e...

G06F 21/31 : User authentication

G16H 20/17 : delivered via infusion or i...

G16Z 99/00 : Subject matter not provided...

G21F 3/00 : Shielding characterised by ...

G21F 7/00 : Shielded cells or rooms

G21G 1/0005 : Isotope delivery systems us...

G21G 1/001 : Recovery of specific isotop...

G21G 2001/0031 : Rubidium

G21G 4/08 : specially adapted for medic...

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Integrated strontium-rubidium radioisotope infusion systems

First Claim

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Abstract

161 Citations

30 Claims

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Integrated strontium-rubidium radioisotope infusion systems

First Claim

1 Assignment

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Accused Products

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Abstract

161 Citations

30 Claims

Specification

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