CS214861B2 - Generator of the radioactive material - Google Patents

Abstract

1473236 Separating radioisotopes E R SQUIBB & SONS Inc 1 May 1974 [4 May 1973] 19153/74 Heading G6R In a radioactive liquid generator comprising a column containing an electable radioactive material, the column is provided with inlet and outlet conduits fitted with pierceable closure caps 30, the column and conduits are enclosed in a radiation-shielding casing 42 which leaves the closure caps free to be pierced, and a fitting 100 designed to be joined to the casing is provided with closure piercing means 132, 138 and with connections for attachment to containers for the eluent and the eluate. In use, a container of eluent is inserted upside down in the holder 134 so that the needles 136, 138 pierce a sealing diaphragm of the container; an evacuated container is placed upside down in holder 130 so that needle 132 pierces its sealing diaphragm. Eluent passes through the generator column and eluate is collected in the container in holder 130. The casing 42 may be made of lead and constructed in two interfitting pieces. In a modified generator, Figs. 7-10 (not shown), the fitting 100 is in two parts and a plate is provided for the eluate leaving the generator. The generator is suitable for the elution of Tc 99m, for use in medicine, from Mo 99 supported on alumina, using saline or dilute HCl as the eluent.

Description

The invention relates to a hollow-column radioactive material generator comprising an elutable radioactive material.

The use of radioisotopes in medicine, both for diagnosis and treatment, is well known and is increasingly widespread. Usually, the isotope solution is eluted from the generator of the radioactive material whenever the material is to be used. The reason for this procedure is that the daughter isotope usually has an extremely short half-life and must be prepared as soon as possible at the time of use. To meet this requirement, numerous systems have been developed to allow the physician to assemble the various components of the generator and then elute the usable solution.

Radioactive generators are usually of the type given in US Pat. U.S. Pat. No. 3,440,423. According to this specification, the generator comprises radioactive material, such as an alumina column impregnated with Mo. Daughter isotope, in the case of Tc tctoto ^m is taken from the generator with physiological saline solution or dilute hydrochloric acid. The aluminum oxide is housed in a plastic casing and, of course, aids must be provided for introducing the eluent and for removing the isotope.

In earlier embodiments, these devices consist of pierceable plugs through which liquids are introduced and removed by means of hypodermic needles. In more recent embodiments, supply and discharge lines are similarly closed by pierceable plugs.

In all earlier embodiments, it was necessary to use clumsy and complex protective devices to protect personnel from generator emissions. These various protective devices required the physician to assemble heavy components and fit different vials, thus requiring him to perform very many tasks. The invention therefore provides an extension which makes the use of the generator very simple, eliminates unnecessary operations while providing complete protection against radioactive emission.

The above-mentioned drawbacks do not have a generator according to the invention provided with a hollow column comprising an elutable radioactive rimaterial, characterized in that the hollow column is provided with an eluate feed line and an eluate withdrawal line, the supply line terminating below the first movable sealing cap and the removal of the conduit terminates below the second pierceable closure cap, the hollow column together with the supply line, the removal conduit, the first pierceable closure cap, and the second pierceable closure cap, are housed in a housing having a mountable on it which protrudes with a guide segment guiding members connected to the housing and carrying the collection container holder, as well as needles for piercing the first closure cap and the second closure cap.

According to a preferred embodiment of the invention, the housing is vertically split into sections within which recesses are provided for receiving the supply line, the removal line and the hollow column.

The housing sections are expediently provided with spaced internal ribs and grooves which are aligned in a single position.

According to another embodiment of the invention, the eluent storage container is connectable to the air by a needle.

An advantage of the generator according to the invention is that it provides simple and at the same time perfect protection against radioactive radiation.

The eluent supply and generator withdrawal devices are arranged such that an eluent well and a depleted container can be placed therein to withdraw the desired solution from the generator.

To ensure proper assembly of the attachment and housing, the attachment is provided on the underside. a plug or protrusion of generally circular shape (the diameter is the same as the diameter of the arch of each inner platform). The projection is flush with one of the sides and includes a guide section adjacent to the side of the other platform and having the same arc contour. The groove eliminates the possibility of the attachment being improperly fitted to the housing.

The invention will be described with reference to the drawings in which: FIG. Fig. 1 is an oblique projection of an extension with a detailed structure of its bottom; Fig. 3 is a cross-sectional elevational view of the attachment and illustrates the needles contained therein; Fig. 4 shows an oblique view of a generator partially exposed to illustrate the withdrawal needle; Fig. 5 shows the interior of exploded housing parts side by side; the housing in partial cut to see the needles piercing the closure caps.

The generator 10 of the present invention is shown in FIG. 4. This generator is similar to the generator shown and described in U.S. Pat. No. 3,440,423 in the description of the invention. The generator 10 consists of a hollow column 12 in which a chromatographic column of alumina impregnated with MoP ⁹ is suspended. A solution containing Tc ⁹⁹ is taken from the generator 10 by means of an eluent, which may be saline, dilute hydrochloric acid, or other suitable solutions. A system for removing the solution from the generator and for introducing the eluent will be described in more detail below.

The generator 10 is closed at the top at the top 14 and at the bottom 16 by plugs 17 which may be pierced by hypodermic needles. In most prior art generators in which the top and bottom are closed with pierceable plugs, the eluent was fed and the formulation was discharged through the plugs. The genierator 10 of the present invention is provided with a lead-in line 18 for introducing the gel and for removal of the eluate by a take-off line 20. In the illustrated embodiment, these lines consist of ⁹ separate balls encapsulated in protrusions 22, 24 forming a unit with column 12. It will be appreciated that the feed line 18 and the take-off line 20 may form a single body by a hollow column 12, the entire unit being formed of a cast plastic. The outer ends of the supply line 18 and the removal line 20 are closed. The supply line 18 is closed by the first pierceable closure cap 26 and the removal line 20 is closed by the second pierceable closure cap 28. The hats 26, 28 consist of a cast cup 30, provided with a stem 32, in which the upper end of the supply line is encapsulated. However, the open ends of the guides 18, 20 are not blocked by the cup 30, but open into the cup chamber. In the cup 30, a pierceable slide 34, made of silicone or neoprene, for example, is held in place and held in place by a flexible metal ring 33 that is bent around the cup 30 and slide 34. The components forming the second cap 28 are the same as described above. of the first cap 26.

As shown, the eluent is injected into the generator 10 by passing the cap 34 to the cup 30 and thence to the conduit 18. By inducing a pressure drop in the second cap 28, the eluent is sucked through the column 10, it passes through the alumina bed, where it collects Tc ⁹⁹ , into the lower chamber 38 and into the lower end 40 of the removal line 20. The spent container withdraws liquid from the cup 30 in the second cap 28, whereupon the liquid may be injected into the patient.

The generator 10 described above must be suitably shielded so that the physician and the patient are not unnecessarily exposed to its emission. For this reason, a lead box 42 is provided which includes the entire generator 10. As shown in Figures 2 and 5, the box 42 is vertically split into two sections 44, 46. The mating inner surfaces that form the interface of the two sections 44, 46 they have suitable contours so that the generator 10 and the feed line 18 and the take-off line 20 can be received therein. To this end, each section is provided with a central recess 48 into which the cylindrical column 12 is tightly inserted. 20, the channels 50, 52 are provided. The part 44 can be made thicker than the part 46, so that the generator 10 and the supply line 18 as well as the take-off line 20 fit deeper into it. In this way, channels 44 are formed in section 44, while only small recesses 54, 56 will be provided in section 46 to complement the channels 50, 52. Recesses 58 are provided at various locations to accommodate protrusions 22, 24 and shafts 32. Inside surfaces of sections 44, 46 they are provided with ribs and grooves to ensure proper assembly of these parts.

As shown in Fig. 2, the housing 42 resembles an aircraft with wings 62, 64 after assembly of the fuselage sections 44, 4 #. The sections 44, 46 are connected by bolts (not shown) located in apertures 68 and nuts (not shown) in opposing apertures in one from both sections, ensuring a reliable connection. The wings 62, 64 terminate in the gaming flat surfaces 70, 72 that pass into the fuselage 60. The surfaces 70, 72 pass into platforms 74, 76 that are stepped and also flat. It is important to note the formation of respective side walls of said steps forming the guide panels 78, 80. Each guide panel 78, 80 has an arcuate shape and is substantially parallel.

This configuration creates a wedge and groove connection, the function of which will be described below. When the generator 10 is enclosed in the housing 42, the closure caps 26, 28 are positioned above the platforms 74, 76 to be accessible to supply the eluent and remove the drag mechanism prior to attachment.

Referring to Figures 1, 3 and 6, the eluent and withdrawal device are provided as a single unit and concentrated into the extension 100. The main component of the extension 100 is a rectangular lead rod 102 which is provided with apertures 104, 106 at its ends. 102 protrudes a protrusion or disc member 108, which can be integrally formed with the rod 102. The disc 108 has a diameter sufficient to completely cover the area between the platforms 74, 76. The disc is provided with a guide half 110 having the same contour as the guide 78. It is clear that the guide segment 110 aligns only with the guide 78 and not with guide; This ensures that when the adapter 100 is placed on the housing 42, the two components are correctly aligned with each other.

To the upper surface of the rod 102 is attached a solid cast plastic holder 112 with the aid of flanges 114, 116 which fit into recesses 118, 120 in the rod side 122, 124 and are bent around the ribs 126, 128. exhausted collection container. The collection container holder 130 extends into the aperture 106 and protrudes above the upper surface of the holder 112. The collection container holder 130 is closed on both the top and bottom of the rod 102, except for the central portion that carries the subcutaneous needle 132 at two ends.

The needle 112 is also connected to the eluent reservoir holder 134, and the holder 134, like the collector receptacle holder 130, extends into the rod 102 and protrudes above it. The holder 134 is likewise closed and carries subcutaneous needles 136, 138. The needle 138 is similar to the needle 132, has two ends and serves to guide the liquid into ^; generator. 10. The needle X36 ' does not protrude below the top surface of the rod 102 and serves only as air inlet to the eluent reservoir. A guide 142 connects the needle 136 to the atmosphere. A filter (not shown) may be inserted into the lower portion of the receptacle holder 130 to remove any particles that may enter the needle 132.

The generator 10 according to the invention is used in such a way that the physician assembles the individual components of the system in a crisp manner before use. The generator 10 enclosed in the housing 42 may initially be housed in a lead block for further emission protection. The extension 100 is then fitted to the housing 42 by properly aligning the disc 108 and pressing onto the extension until the needles 132, 138 have pierced the respective caps.

The eluent reservoir is fitted with the top side down onto the holder 134 into which its throat penetrates; needles 136, 138 pierce the occluding meibran on this vial. Now, the inlet path is connected to the interior of the generator 10. Similarly, a depleted container is placed on the holder 130 and the needle 132 pierces its membrane. The pressure difference created by the wells draws the eluent through the needle 138 through the closure 34 through the feed line 18 and the alumina colloid where it collects Tc. Thereafter, the fluid is drawn into the lower chamber 38, from where it passes into the take-off line 20. Then it is withdrawn from the needle 132 and into the container. This system is never exposed to contaminants and also does not allow the release of emitting liquids. The system is easy to assemble and there is no mistake in handling individual parts.

All active components are suitably protected from emission until the product is withdrawn for injection to the patient.

However, the invention is not limited to the embodiment described and illustrated.

Claims (4)

SUBJECT A radioactive material generator, with a hollow column comprising an elutable radioactive material, characterized in that the hollow column (12) is provided with a feed; an eluate (18) for collecting and withdrawing an eluate (20) for withdrawing the eluate, wherein the supply line (18) terminates below the first pierceable cap (26) and the collection line (20) terminates below the second pierceable cap (28), hollow the column (12), together with the supply line (18), the removal line (20), the first pierceable closure cap (26) and the second pierceable closure cap (28), are housed in a housing (42) onto which the insert (100) can be attached; which, with its projection (108) provided with the guide segment (110), fits with the guide members (78, 80) connected to the housing OF THE INVENTION (42) and which carries a holder (130) of the collection container as well as needles (132, 138) for piercing the first closure cap (26) and the second closure cap (28). Generator according to Claim 1, characterized in that the housing (42) is vertically split into sections (44, 46) within which recesses are provided for receiving the supply line (18) and the removal line (20) and the hollow column (44). 12). Generator according to Claim 2, characterized in that the sections (44, 46) of the housing (42) are provided with spaced apart internal ribs and grooves which are aligned in a single position. 4. Generator according to claim 1, characterized in that the eluent reservoir is connectable to the air by a needle (136).