Shielding assemblies for infusion systems
A shielding assembly for an infusion system includes a plurality of compartments and a door for each compartment, and provides a radioactive radiation barrier for the compartments. One of the compartments contains a radioisotope generator of the infusion system and another of the compartments may contain a waste bottle of the infusion system. An opening into each of the generator and waste bottle compartments may be oriented upward, and the opening into the latter may be at a higher elevation than the opening into the former, for example, to facilitate independent removal and replacement of each. A door of at least one of the compartments, other than the generator compartment, when closed, may prevent the door of the generator compartment from being opened. A cabinet structure for the infusion system may enclose the shielding assembly and secure the generator.
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The present application is related to the following commonly assigned utility patent applications, all of which are filed concurrently herewith and all of which are hereby incorporated by reference in their entireties: Ser. No. 12/137,363, entitled: INFUSION SYSTEM CONFIGURATIONS; Ser. No. 12/137,364, entitled: INFUSION SYSTEMS INCLUDING COMPUTER-FACILITATED MAINTENANCE AND/OR OPERATION; and Ser. No. 12/137,377, entitled: CABINET STRUCTURES SUPPORTING INFUSION SYSTEMS.
TECHNICAL FIELDThe present invention pertains to systems that generate and infuse radiopharmaceuticals, and, more particularly, to shielding assemblies thereof.
BACKGROUNDNuclear medicine employs radioactive material for therapy and diagnostic imaging. Positron emission tomography (PET) is one type of diagnostic imaging, which utilizes doses of radiopharmaceutical, for example, generated by elution within a radioisotope generator that are injected, or infused into a patient. The infused dose of radiopharmaceutical is absorbed by cells of a target organ, of the patient, and emits radiation, which is detected by a PET scanner, in order to generate an image of the organ. An example of a radioactive isotope, which may be used for PET, is Rubidium-82 (produced by the decay of Strontium-82); and an example of a radioisotope generator, which yields a saline solution of Rubidium-82, via elution, is the CardioGen-82® available from Bracco Diagnostics Inc. (Princeton, N.J.).
Whether the half-life of a particular radioactive isotope, employed by a radiopharmaceutical, is relatively short or long, a patient undergoing a nuclear imaging procedure is not typically exposed to a significant amount of radiation. However those personnel, whose job it is to set up and maintain radiopharmaceutical infusion systems, and to administer doses therefrom, are subject to more frequent exposures to radiation. Therefore, shielding assemblies, which provide a radiation barrier to protect these personnel from excessive exposure to radiation sources, are an important component of radiopharmaceutical generators and infusion systems. These shielding assemblies are typically formed with lead sidewalls, the bulk and weight of which can pose difficulties for the personnel who regularly set up, maintain and use the systems. Thus, there is a need for improved shielding assemblies employed by systems that generate and infuse radiopharmaceuticals.
The following drawings are illustrative of particular embodiments of the present invention and therefore do not limit the scope of the invention. The drawings are not to scale (unless so stated) and are intended for use in conjunction with the explanations in the following detailed description. Embodiments of the present invention will hereinafter be described in conjunction with the appended drawings, wherein like numerals denote like elements.
The following detailed description is exemplary in nature and is not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the following description provides practical illustrations for implementing exemplary embodiments. Utilizing the teaching provided herein, those skilled in the art will recognize that many of the examples have suitable alternatives that can be utilized.
Turning now to
According to the illustrated embodiment, circuit 300 includes an eluant reservoir 15, for example, a bag, bottle or other container, containing saline as the eluant, which is shown hanging from a post, or hanger 141 above upper surface 131 of shell 13 in
With further reference to
When maintenance of system 10 requires the emptying waste bottle 23, relatively easy access to waste bottle 23 is provided through opening 139 in top surface 131 of shell 13. It should be noted that technical personnel are preferably trained to empty waste bottle 23 at times when the eluate, contained in waste bottle 23, has decayed sufficiently to ensure that the radioactivity thereof has fallen below a threshold to be safe. Opening 139 is preferably located at an elevation of between approximately 2 feet and approximately 3 feet; for example, opening 139 may be at an elevation of approximately 24 inches, with respect to a lower surface of platform 113, or at an elevation of approximately 32 inches, with respect to a ground surface upon which wheels 121, 122 rest. According to the illustrated embodiment, opening 139 is accessed by lifting panel 134; just within opening 139, a shielded lid or door 223 (
According to the illustrated embodiment, doors 221, 225 are hinged to open in an upward direction, per arrows D and C, and, with reference back to
With further reference to
According to the illustrated embodiment, an end 404A, of eluant line 304, and an end 403, of by-pass line 303 extend from third side 393 of frame 39 to couple with divergence valve 35BG and an upstream section of eluant tubing line 302.
As previously mentioned, when generator 21 is replaced, it is typically desirable to also replace those portions of circuit 300 which are shielded behind lid 223 and doors 227, 225, and, in those instances wherein system 10 is moved to a new site each day, these portions may be replaced daily. Thus, according to the illustrated embodiment, these portions are conveniently held together by frame 39, as subassembly 390, in order to facilitate relatively speedy removal and replacement, while assuring a proper assembly orientation, via registration with features formed in sidewall 205 (
With further reference to
Turning now to
According to some preferred embodiments, computer 17 is pre-programmed to guide the user, via monitor 172, through procedures necessary to maintain system 10, to perform quality control tests on system 10, and to operate system 10 for patient infusions, as well as to interact with the user, via the touch-screen capability of monitor 172, according to preferred embodiments, in order to track volumes of eluant and eluate contained within system 10, to track a time from completion of each elution performed by system 10, to calculate one or more system parameters for the quality control tests, and to perform various data operations. It should be understood that screen shots shown in
If the user determines that the volume of eluant/saline is insufficient, the user selects a menu item 573, to replace the saline bag, which leads computer 17 to prompt the user to enter a quantity of saline contained by the new saline bag, via a screen 574. Thus, computer 17 uses either the confirmed eluant/saline volume, via screen 571, or the newly entered eluant/saline volume, via screen 574, as a baseline from which to track depletion of reservoir volume, via activations of pump 33, in the operation of system 10. With reference to
In addition to tracking the volume of eluant in reservoir 15, computer 17 also tracks a volume of the eluate which is discharged from generator 21 into waste bottle 23. With reference to
In addition to the above maintenance steps related to eluant and eluate volumes of system 10, the user of system 10 will typically perform quality control tests each day, prior to any patient infusions. With reference to
Once the appropriate amount of time has lapsed, after the elution process of generator column wash, a first quality control test may be performed. With reference to
Upon completion of the elution process for breakthrough testing, computer 17 presents a screen 777, shown in
After the data is entered by the user, computer 17 presents screen 779, from which the user moves back to main menu 470 to perform a system calibration, for example, as will be described in conjunction with
With reference to
With reference to
With reference to
With reference to
Printer 117 (
Turning now to
According to preferred embodiments, once the user has followed the instructions presented in screens 983 and 984 and selects to start the air purge, for example, via screen 985, computer 17 directs the controller of system 10 to carry out a complete air purge, in which pump 33 and divergence valves 35BG and 35WP are automatically controlled. The automated air purge preferably includes the following steps, which may be best understood with reference to tubing circuit 300 in
The purge operations, which are facilitated by selecting item 981 from main menu 470, may also be accessed via the selection of an item 991 for generator setup. When the user selects item 991, computer 17 may present an option for guidance in removing an old, depleted, generator and a set of tubing lines, prior to installing the new generator, or an option to just be guided in the installation of the new generator.
In the foregoing detailed description, the invention has been described with reference to specific embodiments. However, it may be appreciated that various modifications and changes can be made without departing from the scope of the invention as set forth in the appended claims.
Claims
1. A shielding assembly for an infusion system, the shielding assembly being mounted within a cabinet structure, and the shielding assembly comprising:
- a plurality of compartments having sidewalls providing barriers to radioactive radiation for the compartments;
- a corresponding plurality of doors, each door, when open, providing access to the corresponding compartment via an opening in its sidewall, and, when closed, providing further barrier to radioactive radiation for the corresponding compartment;
- a first compartment of the plurality of compartments enclosed by a first sidewall of the sidewalls and sized to contain a radioisotope generator of the infusion system, the first sidewall including a first sidewall opening oriented upward and aligned with a first upper opening through a shell of the cabinet structure, an upper surface of the shell being located at an elevation with respect to a lowermost portion of the cabinet structure substantially greater than the first sidewall opening and the first upper opening.
2. The shielding assembly of claim 1, wherein the lowermost portion of the cabinet structure is at approximately ground level, the first sidewall opening is at an elevation of between approximately 12 inches and approximately 24 inches with respect to the lowermost portion of the cabinet.
3. The shielding assembly of claim 2, wherein the upper surface of the shell is at an elevation of between approximately 24 inches and 36 inches with respect to the lowermost portion of the cabinet structure.
4. The shielding assembly of claim 1, further comprising a second compartment of the plurality of compartments enclosed by a second sidewall of the sidewalls and sized to contain a waste bottle of the infusion system, the second sidewall including a second sidewall opening oriented upward and aligned with a second upper opening through the shell of the cabinet structure, the second upper opening being an opening in the upper surface of the shell.
5. A shielding assembly for an infusion system, the shielding assembly being mounted within a cabinet structure, and the shielding assembly comprising:
- a first compartment sized to contain a radioisotope generator of the infusion system, the first compartment being enclosed by a first sidewall that forms a barrier to radioactive radiation, the first sidewall including an opening extending therethrough and a lid, the lid mating with the opening to alternately enclose the first compartment and provide access to the first compartment, via the opening, and the opening being oriented upward and located at a first elevation with respect to a lowermost portion of the cabinet structure;
- a second compartment sized to contain a portion of an infusion tubing circuit of the infusion system that is downstream of the generator, the second compartment being enclosed by a second sidewall that forms a barrier to radioactive radiation, the second sidewall including a base portion and a lid portion, the lid portion mating with the base portion to alternately enclose the second compartment and provide access to the second compartment; and
- a third compartment sized to contain a waste bottle of the infusion system, the third compartment being enclosed by a third sidewall that forms a barrier to radioactive radiation, the third sidewall including an opening, extending through the third sidewall, and a lid, the lid of the third sidewall mating with the opening of the third sidewall to alternately enclose the third compartment and provide access to the third compartment, via the opening of the third sidewall, the opening of the third sidewall being oriented upward and located at a second elevation with respect to the lowermost portion of the cabinet structure, and the second elevation being greater than the first elevation of the opening of the first sidewall.
6. The shielding assembly of claim 5, wherein the opening of the first sidewall is aligned with a first upper opening through a shell of the cabinet structure and the opening of the third sidewall is aligned with a second upper opening through the shell of the cabinet structure, the second upper opening being located at a greater elevation with respect to the lowermost portion of the cabinet structure than the first upper opening.
7. The shielding assembly of claim 5, wherein an opening through a shell of the cabinet structure provides access to both the lid of the first sidewall and to the lid portion of the second sidewall.
8. The shielding assembly of claim 5, wherein the lowermost portion of the cabinet structure is at approximately ground level and the first elevation is between approximately 12 inches and approximately 24 inches.
9. The shielding assembly of claim 5, wherein the lowermost portion of the cabinet structure is at approximately ground level and the second elevation is between approximately 24 inches and approximately 36 inches.
10. The shielding assembly of claim 5, further comprising:
- a fourth compartment sized to contain another portion of the infusion tubing circuit of the infusion system downstream from the generator, the fourth compartment being enclosed by a portion of the third sidewall and a door that forms a barrier to radioactive radiation, the door mating with the portion of the third sidewall to alternately enclose the fourth compartment and provide access to the fourth compartment; and
- wherein the fourth compartment is immediately adjacent to the second compartment;
- the portion of the infusion tubing circuit contained in the second compartment includes an eluate line, extending from the generator, a patient line, being coupled to the eluate line, and a waste line, being coupled to the eluate line; and
- the other portion of the infusion tubing circuit contained in the fourth compartment includes an extension of the patient line, from the second compartment, and an extension of the waste line, from the second compartment.
11. The shielding assembly of claim 10, wherein the fourth compartment extends approximately vertically along the portion of the third sidewall, on an opposite side of the third sidewall from the third compartment.
12. The shielding assembly of claim 11, wherein the fourth compartment includes a retaining member to hold the extension of the patient line and the extension of the waste line in place within the fourth compartment.
13. The shielding assembly of claim 10, wherein the lid of the third sidewall, when mated with opening of the third sidewall, prevents the door of the fourth compartment from opening to provide access to the fourth compartment.
14. The shielding assembly of claim 13, wherein the door of the fourth compartment, when mated with the portion of the third sidewall, prevents the lid portion of the second sidewall from opening to provide access to the second compartment.
15. The shielding assembly of claim 14, wherein the lid portion of the second sidewall, when mated with the base portion of the second sidewall, prevents the lid of the first sidewall from opening to provide access to the first compartment.
16. The shielding assembly of claim 10, wherein the door of the fourth compartment, when mated with the portion of the third sidewall, prevents the lid portion of the second sidewall from opening to provide access to the second compartment.
17. The shielding assembly of claim 5, wherein the lid portion of the second sidewall, when mated with the base portion of the second sidewall, prevents the lid of the first sidewall from opening to provide access to the first compartment.
18. The shielding assembly of claim 5, wherein the lid of the first sidewall is hinged to open in an upward direction; and further comprising a latch component, mounted within the cabinet structure, to hold the lid of the first sidewall in an open position.
19. The shielding assembly of claim 5, wherein the lid portion of the second sidewall is hinged to open in an upward direction; and further comprising a latch component, mounted within the cabinet structure, to hold the lid portion of the second sidewall in an open position.
20. A method for setting up an infusion system, the method comprising:
- opening a first door of a shielding assembly of the infusion system to access a first compartment of the assembly and to allow for a second door of the shielding assembly to be opened, wherein the first door defines a first door edge, the second door defines a second door edge, and the first door edge overlaps the second door edge so as to prevent the second door from being opened if the first door is not open; and
- opening the second door, after opening the first door, to access a second compartment of the shielding assembly, the second compartment being separate from, and outside of, the first compartment;
- placing a radioisotope generator into the second compartment and connecting the generator to an infusion tubing circuit;
- placing a portion of the infusion tubing circuit into the first compartment;
- closing the second door to enclose the generator within the second compartment; and
- closing the first door, after closing the second door, to enclose the portion of the infusion tubing circuit within the first compartment.
21. The method of claim 20, further comprising unlocking and removing an access panel from a shell of a cabinet structure, which encloses the shielding assembly, to access the first door and the second door of the shielding assembly.
22. The method of claim 20, further comprising:
- opening a third door, prior to opening the first door, to access a third compartment of the shielding assembly and to allow for the first door to be opened;
- placing another portion of the infusion tubing circuit into the third compartment; and
- closing the third door, after closing the first door, to enclose the other portion of the infusion tubing circuit within the third compartment.
23. The method of claim 22, further comprising unlocking and removing an access panel from a shell of a cabinet structure, which encloses the shielding assembly, to access the first door, the second door and the third door of the shielding assembly.
24. The method of claim 22, further comprising:
- opening a fourth door, prior to opening the third door, to access a fourth compartment of the shielding assembly and to allow for the third door to be opened;
- connecting a waste line of the infusion tubing circuit to a waste bottle;
- placing the waste bottle into the fourth compartment; and
- closing the fourth door, after closing the third door, to enclose the waste bottle within the fourth compartment.
25. The method of claim 20, further comprising securing at least one of the first and second doors in an open position.
26. A shielding assembly for an infusion system, the shielding assembly comprising a plurality of compartments and providing a radioactive radiation barrier for the compartments, the assembly further comprising:
- a first door to alternately enclose and provide access to a first compartment of the plurality of compartments, the first compartment sized to contain a radioisotope generator of the infusion system; and
- a second door to alternately enclose and provide access to a second compartment of the plurality of compartments, the second compartment being separate from, and outside of, the first compartment, the second compartment being sized to contain a portion of an infusion tubing circuit of the infusion system that is downstream of the generator, and the second door, when enclosing the second compartment, preventing the first door from opening to provide access to the first compartment,
- wherein the first door defines a first door edge, the second door defines a second door edge, and the first door edge overlaps the second door edge so as to prevent the first door from being opened if the second door is not open.
27. The shielding assembly of claim 26, further comprising a third door to alternately enclose and provide access to a third compartment of the plurality of compartments, the third compartment sized to contain another portion of the infusion tubing circuit of the infusion system downstream from the generator, the third door, when enclosing the third compartment, preventing the second door from opening to provide access to the second compartment.
28. The shielding assembly of claim 27, further comprising a fourth door to alternately enclose and provide access to a fourth compartment of the plurality of compartments, the fourth compartment being sized to contain a waste bottle of the infusion system, the fourth door, when enclosing the fourth compartment, preventing the third door from opening to provide access to the third compartment.
29. The shielding assembly of claim 28, wherein the third compartment shares a sidewall with the fourth compartment and extends approximately vertically along the shared sidewall.
30. The shielding assembly of claim 29, wherein the third compartment includes a retaining member attached to the shared sidewall to hold the other portion of the infusion tubing circuit in place along the shared sidewall.
31. An infusion system comprising:
- a cabinet structure including a shell defining an interior space thereof, the shell including a first opening, a second opening and an access panel, the access panel mating with the second opening and being removable therefrom;
- a lock reversibly engaging the access panel to secure access to the interior space of the cabinet structure;
- an eluant source;
- a shielding assembly located within the interior space of the cabinet structure, the shielding assembly including a sidewall defining a plurality of compartments and providing a barrier to radioactive radiation for the compartments, the shielding assembly further including a corresponding plurality of doors, each door, when open, providing access to the corresponding compartment via an opening in the sidewall, and, when closed, providing further barrier to radioactive radiation for the corresponding compartment;
- a radioisotope generator contained within a first compartment of the plurality of compartments of the shielding assembly and being accessible through the second opening of the shell of the cabinet structure, when the access panel is unlocked, and when a first door of the plurality of doors, which corresponds to the first compartment, is open;
- an eluant line coupled to the eluant source and to the generator;
- an eluate line coupled to the generator; and
- a patient line coupled to the eluate line and extending out from the interior space of the cabinet structure through the first opening of the shell.
32. The assembly of claim 31, wherein the first door is hinged to open in an upward direction; and further comprising a latch component, mounted within the cabinet structure, to hold the first door in an open position.
33. The system of claim 31, further comprising:
- a waste bottle contained within a second compartment of the plurality of compartments of the shielding assembly; and
- a waste line coupled to the eluate line and to the waste bottle;
- wherein the shell of the cabinet structure further includes a third opening; and
- a second door of the plurality of doors, which corresponds to the second compartment, is aligned with the third opening of the shell, for access thereto, and is located at a higher elevation, with respect to a lowermost surface of the cabinet structure, than that of the second door.
34. The system of claim 31, further comprising:
- a waste bottle contained within a second compartment of the plurality of compartments of the shielding assembly; and
- a waste line coupled to the eluate line and to the waste bottle;
- wherein a second door of the plurality of doors, which corresponds to the second compartment, when closed, prevents the first door from opening to provide access to the first compartment.
35. The system of claim 31, wherein:
- the eluate line and at least a portion of the patient line are contained in a second compartment of the plurality of compartments of the shielding assembly; and
- a second door of the plurality of doors, which corresponds to the second compartment, when closed, prevents the first door from opening to provide access to the first compartment.
36. The system of claim 35, wherein the second door is accessible only through the second opening of the shell of the cabinet structure, when the access panel is unlocked.
37. The system of claim 35, wherein the first door and the second door are both hinged to open in an upward direction; and further comprising at least one latch component, mounted within the cabinet structure, to hold the first door and the second door in an open position.
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Type: Grant
Filed: Jun 11, 2008
Date of Patent: Sep 25, 2012
Patent Publication Number: 20090318745
Assignee: Bracco Diagnostics Inc. (Princeton, NJ)
Inventors: Charles R. Quirico (Warren, NJ), Ernest Balestracci (Iselin, NJ), Daniel Darst (Zimmerman, MN), Eric J. Krause (Big Lake, MN), Vishal N. Lokhande (Mountain View, CA), Jacob S. Childs (Minneapolis, MN), Peter B. Madson (Shanghai), Daniel V. Clements (Minneapolis, MN)
Primary Examiner: Samuel Gilbert
Attorney: Fredrikson & Byron, PA
Application Number: 12/137,356
International Classification: A61N 5/00 (20060101);