WO1996034656A1 - Delayed loading source projector for curietherapy - Google Patents

Abstract

An apparatus has a radioactive source projector connected to a source locator (10) by a plurality of radioactive source transfer tubes (15). The locator has two sides (11, 12), the first of which comprises connecting means (13) for connecting the side (11) to the transfer tube (15), and the second side (12) comprising means (14) for connecting this side (12) to second tubes (16) extending to a patient. Each connecting means (13) has a stop (17) for locating a source holding carrier in a predetermined position.

Description

 DELAYED LOADING SOURCE PROJECTOR FOR

CURIETHERAPY

The present invention is in the field of interstitial, endocavitary or endoluminal radiotherapy.

It relates more particularly to projectors of radioactive sources for interstitial, endocavitary or endoluminal brachytherapy and in particular, a positioner of sources with deferred loading.

Brachytherapy involves treating tumors by implanting radioactive sources in or near the tumor itself. This technique makes it possible to give larger doses to the tumor and to spare the surrounding critical healthy organs. Recently, deferred loading systems have appeared which have the advantage of being able to increase the flexibility of implantation methods and reduce the exposure of operators and nursing staff to radiation.

The delayed loading technique consists of the implantation of several flexible or rigid channels in which radioactive sources are placed for a period varying according to the doses and the therapeutic locations. Once the treatment is finished, the sources are restocked and the vectors removed. Source projectors are known, which store the radioactive sources and transfer them under control in the channels with a position control. sources in order to dose the irradiation and modulate the volume to be irradiated.

Accurate positioning of sources in a delayed load system is of paramount safety importance.

The known delayed load source projectors are mobile devices which remain close to the patient for the duration of the treatment. The source projector is connected to an applicator which is fixed on or in the patient's body. The disadvantage of this system is that it requires the continuous presence of the projector in the patient's room and that the projector of radioactive sources must be moved continuously by the nursing staff, thus exposing the latter very often to radiation even if the radioactive sources are enclosed in protected enclosures. The fact remains that the hospital environment is permanently exposed to a level of radioactivity at least appreciably constant.

The invention aims to keep the projector away from sources in the patient's room and to avoid incessant manipulation of the projector by the nursing staff. This requires the development of an automatic and precise remote positioning system for the radioactive sources projected from a source projector which can be placed far away from the patient as well as a reliable return of the sources to the projector dis¬ at the end of a treatment.

This objective is achieved, thanks to the invention, by a source projector comprising a source positioner as defined in the claims. More particularly, the source positioner according to the invention consists of a body having two faces, the first face comprising first connection means for connecting the tubes coming from the source projector, each connection means being provided with abutment means for stopping the source carrier vector projected by the source projector in a predetermined position, and the second face of the body includes second connection means for connecting several second tubes extending to a patient, each second tube being positioned opposite a des¬ said first tubes so as to extend the corresponding transfer channel.

The invention is explained in more detail below with the aid of the accompanying drawings.

Figure 1 is an elevational view showing the assembly of a source positioner according to the invention. Figure 2 is a partial section in the positioner of Figure 1, showing the connection of a transfer channel.

Figure 3 is an enlarged view showing a shuttle on which are fixed two pistons head to tail in accordance with the invention.

Figure 4 shows a flexible tube connecting the posi¬ tionneur to the patient.

Referring to Figure 1 there is shown a source positioner according to the invention which is intended to be connected to a projector of radioactive sources (known per se) used for the treatment of tumors by interstitial brachytherapy. As shown in Figures 1 and 2, the source positioner according to the invention consists of a body 10 consisting of two flanges 11 and 12 forming between them an airtight interior chamber 19. The flange 11 is pierced with several orifices serving as housings for quick connectors 13. In each connector 13 is tightened a guide guide 17 on which is fixed a end of a flexible tube 15 going towards the projector of radioactive sources. The flange 12 is also pierced with several orifices serving as housings for quick couplings 14 on each of which is fixed one end of a flexible tube 16 which goes towards a patient.

When the flanges 11 and 12 are assembled, each connector 14 is located coaxially in the extension of a connector 13 so that each flexible tube 16 forms a conduit which extends the conduit formed by a flexible tube 15. The conduit of each tube 15 and the conduit of the corresponding tube 16 form a transfer channel by compressed air for a radioactive source carrier vector projected by a source projector.

According to one aspect of the invention, the source carrier vector consists of an elongated flexible shuttle of a predetermined length, at an anterior end of which is fixed a source holder intended to receive a radioactive source (by example an iridium 192 wire) or a train of sources (iridium 192, cé¬ sium 137 or others). As illustrated by way of example in FIG. 3, the flexible shuttle 21 is advantageously made up of a spring surrounding a central core 22. At a predetermined distance from the end carrying the radioactive source, the shuttle 21 carries at least a piston 23. Preferably, two pistons are mounted head to tail on each shuttle. The first is used to launch the shuttle to the distributor, the second is used to return the shuttle to the source projector. Each stop guide 17 is intended to stop the source carrier vector projected into the transfer channel 15 by the source projector. Each abutment guide 17 has its anterior free end 18 which projects into the interior of the chamber 19. Opposite the abutment guide 17 in the chamber 19 comes a flexible tube 24 which extends to the interior of each flexible tube 16. The free end 25 of each tube 24 advances inside the chamber 19 so as to come to be positioned at a short distance d from the ante¬ end lower 18 of a stop guide 17. This distance between the ends of the tubes 24 and the stop guides 17, which face each other, allows the compressed air which projects the pistons 23 fixed on the shuttles 21 towards the position- neur 10 to escape by an additional tube 15 ′ returning to the source projector but not carrying any shuttle so that the pistons can thus be returned to the aforementioned source projector at the end of the treatment.

When a shuttle 21 is projected by the source projector into the channel of a tube 15, the front piston 23 stops against the stop guide 17 as shown diagrammatically in FIG. 5, thus positioning the shuttle 21 at a precise distance from the patient, whatever the length of the transfer channel between the source projector and the stop guide 17. The front section of the shuttle 21 extends in the corresponding flexible tube 24. At the free end of each tube 24, that is to say the end intended to go towards the patient, a third flexible tube 26 (FIG. 4) is slidably mounted inside the tube 24 in order to allow a adjustment of the length of the transfer channel between the positioner and the patient beyond a nozzle 27 screwed onto the tube 16 and also an adjuster ment of the position of the radioactive source in the implanted vector. The presence of the stop guide 17 in the transfer channels makes it possible, via a positioning detector, to correctly reposition the source in the vector if, during the treatment, any backward movement occurs. ¬ to reduce. This advantage constitutes an interesting feature of the invention.

In addition, two tubes 16 can be connected at Y, which allows the use of a vector for the sequential positioning of two different radioactive sources and the length and position modulation of the distribution of doses to the patient.

Claims

1. Delayed loading source projector apparatus for interstitial, endocavitary or endoluminal brachytherapy comprising a radioactive source projector and several tubes (15) each forming a transfer channel for a vector carrying a radioactive source, characterized in that it comprises a source positioner consisting of a body (10) having two faces (11, 12), the first face (11) comprising first connection means (13) for connecting the tubes (15) coming from the source projector, each connection means (13) being provided with stop means (17) for stopping the source carrier vector in a predetermined position, and the second face (12) of the body (10) comprises second connection means (14) for connecting several second tubes (16) extending to a patient, each second tube being positioned opposite one of said first tubes (15) so as to extend the corresponding transfer channel.

2. Apparatus according to claim 1, characterized in that the body (10) of the source positioner comprises an interior chamber (19), each stop means (17) consists of a stop guide fixed in a connector (13 ) and extending to the interior of said interior chamber (19).

3. Apparatus according to claim 2, characterized in that each second tube (16) is fixed in a fitting (14) so as to extend an end element inside said interior chamber (19) up to a short distance from the end (18) of a stop guide (17).

4. Apparatus according to any one of the preceding claims, characterized in that the source carrier vector consists of an elongated flexible shuttle (21) of predetermined length, one end of which carries a source carrier device, said flexible elongated shuttle comprising at least one piston (23) fixed on the shuttle at a predetermined distance from its source holder end.

5. Apparatus according to claim 4, characterized in that the flexible elongated shuttle (21) carries two pistons (21) mounted head to tail.

6. Apparatus according to claim 4 or 5, characterized in that the flexible elongated shuttle is consti¬ killed by a spring surrounding a central core (22).

7. Apparatus according to any one of the preceding claims, characterized in that the body (10) of the positioner comprises on its first face (11) an additional connection means for a tube for returning compressed air to the projector. sources, said additional tube carrying no source carrier shuttle.

8. Source positioner as defined in any one of the preceding claims.