• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Set with at least one protective body (1) for introduction into a body cavity of a human or animal body for the protection of non-irradiated tissue and / or organs when performing radiotherapy, wherein the protective body (1) at least one absorber body (2) for absorbing radiation at least one curved and delimiting surface (3) and the absorber body (2) has a density at 20 ° C of at least 5 grams per cubic centimeter, preferably at least grams per cubic centimeter, the set in addition to the protective body (1) at least one Substitute body (9) from another, preferably radiation-permeable material, wherein the protective body (1) and the replacement body (9) at least partially, preferably completely, an identical outer contour (10) and the set additionally at least one, at least partially into the body cavity einbringbaren carrier body (11) is, on which and / or in which the protective body (1) and the replacement body (9) in an unambiguous position relative to the carrier body (11) can be arranged, preferably fixed, are.
    公开号:AT512730A1
    申请号:T354/2012
    申请日:2012-03-22
    公开日:2013-10-15
    发明作者:
    申请人:Koller;Lechner Helmut;Boehler;
    IPC主号:
    专利说明:

    24328/34 / ga 20120316 T +43 (0) 5522 73 137 F +43 (0) 5522 73 359 M office@vpat.at I www.vpat.at »♦ · · · · · ·
    Orf Thdhtas Pfethner * 6806 Feldkirch, Austria Egelseestr 65a, PO Box 61
    The present invention relates to a protective body for introduction into a body cavity of a human or animal body for the protection of tissue and / or organs not to be irradiated when radiotherapy is carried out.
    In medicine today is the radiotherapy in the treatment of cancer or. Tumor patients used in numerous embodiments. The aim is to irradiate the area to be irradiated, in particular the tumor, with a sufficiently high radiation dose, while the healthy, in particular adjacent to the tumor, tissue areas and organs should be damaged as little as possible or not at all by the radiation.
    From WO 2011/026662 A1 a tissue protector for use in the oral cavity is known. It is essentially a plastic part, which serves by its shape adapted to the patient to serve the tongue, the lips and other tissue out of the beam so that they get the lowest possible dose of radiation and thus the likelihood of damage the otherwise healthy tissue is as low as possible. Furthermore, WO 2011/026662 A1 also discloses that, if appropriate, lead plates, which are advantageously exchangeable, may additionally be attached to the tissue protector disclosed therein.
    Object of the present invention is to propose an alternative way of designing protective bodies of the type mentioned above.
    The invention provides for this purpose that the protective body has at least one absorber body for absorbing radiation with at least one curved and delimiting surface and the absorber body has a density at 20 ° C of
    at least 5 grams per cubic centimeter, preferably at least 10 grams per cubic centimeter.
    In the invention and its physical realization in the form of appropriate protective body thus another approach is chosen, as can not be irradiated tissue or organs before irradiation during radiotherapy can be protected. It is primarily no longer a question of a displacement of these tissue parts to be protected but rather of filling corresponding body cavities by means of the absorber body at the locations required for this radiation protection, so that this absorber body absorbs the radiation in the area in which the tissue not to be irradiated and / or not to be irradiated. In order to be able to perform this protective function, the absorber bodies must have at least one curved, delimiting surface, since practically no straight surfaces exist in the human and animal body. Furthermore, the absorber body must have a density of at least 5 grams per cubic centimeter, preferably at least 10 grams per cubic centimeter. This density is therefore to be determined at standard conditions at 20 ° Celsius.
    Protective bodies according to the invention can not only, as known from WO 2011/026662 A1, in the oral cavity but also in other natural body cavities, such as. the nasal cavity, the vagina and the anus or large intestine are used. However, it is equally possible to create surgically artificial body cavities in which appropriate protective bodies are used in order to prevent radiation and non-irradiation of tissue and / or organs from too high a radiation dose. By using protective bodies according to the invention, it is also possible to realize new beam paths in radiotherapy. In the sense of the best possible adaptation to the shape of the respective body cavity and / or the tissue and / or organ to be protected, the absorber body or the surface bounding it is formed anatomically curved.
    Protective bodies according to the invention can be used both in teletherapy and in brachytherapy. The radiation can thus act on the body of the patient from the outside, just as it is possible to use protective body according to the invention if the radiation source or the radiation sources are arranged in and / or directly on the body, in the case of teletherapy, ie during the irradiation from the outside , a relatively new development in the form of the so-called IMRT technique (Intensity Modulated Radiotherapy) is available in which a variety of sources or fields such 70-80 is irradiated. In particular, protective bodies according to the invention are also suitable for this purpose. In addition, protective bodies according to the invention can also be used in high-LET irradiation.
    Preferred embodiments of the invention provide that the protective body has a coating which covers the absorber body, preferably completely, which consists of a material other than the absorber body, preferably of at least one plastic or of aluminum or an aluminum alloy, or at least such another material having.
    In the case of toxic absorber materials of the absorber body, the coating may in particular serve to protect the body from a negative effect of the toxic absorber material. However, the coating may additionally or alternatively also serve to prevent or minimize backscatter electrons occurring during irradiation on the absorber body. The coating preferably consists of a non-toxic biocompatible, expediently radiation-permeable material. For this purpose, a variety of plastics are suitable. Examples include acrylics, methacrylates and many other polymers as well as monomers. Also coatings of aluminum or aluminum alloy are conceivable. The coatings should cover the absorber body as completely as possible. This at least to the extent that no toxic effect can emanate from the absorber body. In any case, materials which are particularly suitable for the coating in the case of an absorber body of lead, in an elution test, in particular according to EN ISO 11885, in which the eluate of the test specimen for 24 hours with the overhead shaking method with an eluent of 3% acetic acid and a weight ratio between eluent and Sample of 5: 1 after 24 hours at most 200pg lead in the eluate yield. The coating preferably has, preferably everywhere, a wall thickness of at least 1 * IΡ · * "" · · · ·ΡΡΡ «« «.
    Mm, preferably at least 2 millimeters, on. The absorption effect of different absorber body depends on the type of irradiation and on the nature of the absorber material. However, in order to achieve a correspondingly high absorption, it is generally favorable if the absorber body has, at least in some areas, a minimum diameter of 4 millimeters, preferably of 10 millimeters. In case of doubt, this minimum diameter is to be measured in the direction of the beam path.
    The protective body, in contrast to WO 2011/026662 A1, which mandatorily provides a viewing window, advantageously in the assembled state, no such opening for visual inspection of an operating area. This is with appropriate planning and arrangement also not necessary, on the contrary, the protective body is therefore not only postoperative or preoperative, but also in primary radiotherapy or primary chemoradiotherapy without surgery. Conveniently, the absorber body comprises a metal, preferably lead or mercury. He can also completely consist of it. The protective body or absorber body form in many embodiments in itself rigid, solid body. In another type of embodiment, however, it is also possible for the coating to encase at least one fillable volume of the protective body, with a liquid absorber material, preferably mercury, being able to be filled or filled into the volume in order to form the absorber body. The coating encloses in these embodiments, a cavity and thus a fillable volume of the protective body, in which a liquid absorbent material can be introduced to form the absorber body. It can thus be created a kind of catheter systems that can be brought through relatively small openings to the appropriate position in the body of the patient. Only when these catheter-like protective bodies reach their final position, the fillable volume in the coating is filled up by filling in the corresponding absorber material and thus obtains its contour, preferably predetermined by the shape of the coating, intended for the irradiation process. Before the removal of the catheter-like protective body, the absorber material can then be taken out of the cavity or volume again, so that the removal of the protective body of »·. »· ·· # ·» · · ....... * * * * * * * 4 4 4 * «* * # * * ····· * * · the human or animal body by a relatively small amount Body opening is possible.
    Another embodiment of the invention provides that at least the absorber body has an opening and closing device for opening and closing an opening passing through the absorber body, preferably through the protective body. These variants make it possible to leave open the opening in the absorber body by means of the opening and closing device for certain irradiation processes and to close in others. The opening and closing devices may be in particular lamellar or slider systems. It is preferably electrically actuated, optionally remotely controllable opening and closing devices. The hydraulic or pneumatic actuation via corresponding inlets and outlets is possible.
    Apart from the protective body itself, the invention also provides a set with at least one protective body according to the invention, wherein the set in addition to the protective body at least one replacement body of another, preferably radiation permeable, material, wherein the protective body and the replacement body at least partially, preferably completely, a have mutually identical outer contour. The replacement body may e.g. be made of the same material as the coating, so preferably made of plastic, aluminum or an aluminum alloy. Conveniently, the replacement body is formed at least for the most part of a substantially radiation-permeable material. Radiation permeability, as in the case of coating, can be based on the radiation transmission of the tissue of the human or animal body. The replacement bodies can then be used in particular for computed tomography examinations, which are necessary for the planning of the radiotherapy. Due to the identical outer contour, the spatial conditions resulting from the protective body can be exactly simulated by inserting the replacement body into the corresponding body cavity in the planning computer tomogram, so that an exact planning for the radiotherapy is possible.
    Further sets are preferably provided, which additionally have at least one, at least partially insertable into the body cavity carrier body on which and / or in which the protective body and optionally the replacement body in an unambiguous position relative to the carrier body can be arranged, preferably fixed, are. The carrier body can then be used so that the replacement body and possibly also the protective body can be brought exactly to the desired end position. It is advantageous in this case if the protective body and optionally also the replacement body in the end position on the carrier body in a releasable positive connection, for. are held by snapping. It is particularly advantageous, if it is a corresponding, accessible from the outside body cavity that the protective body and spare body can be removed from the outside of the carrier body and inserted into this again.
    Preferred embodiments provide, in the sense of an exact position specification during the irradiation, that the carrier body has at least one fixing device for fixing the carrier body in the body or outside the body. The fixation of such a carrier body in the body of the human or animal to be treated can e.g. via a corresponding attachment to a bone done. For this purpose, various possibilities, such as the screwing, gluing or other fastening options by means of tapes, straps or the like conceivable. A kind of fixation outside the body is also possible. This may be realized, for example, as shown in Figures 9 and 10 of WO 2011/026662 A1. Alternatively, such fixing devices, in all the above-mentioned embodiments, can also be provided directly on the protective body.
    Both on the protective body itself as well as on the carrier body and / or on the replacement body can be used for positioning in planning and / or radiotherapy marker center! be attached, e.g. from radiopaque material to obtain landmarks visible in the computerized tomogram.
    In order to monitor the radiation dose during the irradiation, radiation measuring means or devices can be provided on the protective body, on the carrier body and / or on the replacement body.
    conditions such as appropriate dosimeter films, detectors and the like may be arranged in order to be able to determine the appropriate radiation dose at certain points. Within the scope of the invention, it is possible to manufacture suitable protective bodies, carrier bodies and / or replacement bodies individually adapted to the respective needs in the radiotherapy of the respective patient. By appropriate measurements of the areas of the body to be treated, e.g. By means of computed tomography, a fully or partially automated production of the protective body can take place. From 10 the known absorber material, the known radiation paths and geometries of the shielded areas and the proposed radiation doses, the shape, size and Materialauswah! be determined automatically or semi-automated in the absorber material. Further features and details of various embodiments of the invention are explained in the following description of the figures with reference to various variants according to the invention. Show it:
    Fig. 1 to 7 a first embodiment of the invention; 20 shows FIGS. 8 to 14 a second embodiment of the invention;
    Fig. 15 to 19, a third embodiment of the invention;
    Fig..20 an auxiliary spoon
    21 to 23 a fourth embodiment of the invention;
    FIGS. 24 and 25 show a fifth embodiment of the invention; 25 shows FIGS. 26 and 27 a sixth embodiment according to the invention;
    Fig. 28 to 30 three further embodiments of the invention;
    31 and 32 two further embodiment and
    Fig. 33 and 34 yet another embodiment of the invention.
    The first exemplary embodiment according to FIGS. 1 to 7 shows a set comprising a protective body 1 according to the invention, a matching carrier body 11 and a replacement body 9 which has an identical outer contour 10 to the protective body 1.
    · · weist weist weist weist weist β β β β β β β β β β. This first embodiment of the invention is intended to be used in the oral cavity of the patient. The support body 11, which is preferably made of a similarly radiation-transmissive material as the human body, e.g. If the patient for whom this exemplary embodiment was produced bites the toothed parts 16 with his upper and lower jaw or their teeth, then the carrier body 11 is positioned exactly and uniquely in the oral cavity. An exact positioning in the carrier body 11 is achieved for the protective body 1, when this is inserted in the insertion direction 14 in the intended for him receiving opening 13 to the end-10 position. In the end position, the protective body 1 is positively held and positioned in its position. In the first embodiment, the insertion direction 14 and the receiving opening 13 are formed so that an insertion and removal of the protective body 1 through the mouth opening at the same time inserted carrier body 11 is possible. The Trä-15 gerkörper 11 can thus remain in the mouth of the patient when changing between the replacement body 9 and protective body 1. In order to grip the protective body 1 well, this, as well as the replacement body 9, a handle portion 15. FIGS. 2 and 3 show the protective body 1 in its pushed-in end position in the carrier body 11.
    Due to the positive locking in this final position an exact positioning he-20 is enough. Fig. 6 shows the protective body 1 of this first embodiment from a different perspective. Also marked is the section line BB. The section associated with this section line BB is shown in FIG. There it is easy to see how the absorber body 2, e.g. made of lead is completely encased by the coating 4. The surface 3 of the absorber body 2 is formed anatomically curved so that 25 of the protective body, so the absorber body 2 together with coating 4, the body cavity, so here the oral cavity, to the extent required fills. For the choice of material and thickness of the coating 4, the above applies. Furthermore, for the corresponding radiation absorption, the minimum diameter 5 mentioned here by way of example should also be observed at the corresponding points.
    FIG. 4 shows the replacement body 9, which can be inserted into the carrier body 11 in an identical manner when the planning computer tomogram is carried out, like the protective body 1. The outer contour 10 of the replacement body 9 is identical to the outer contour 10 of the protective body 1. Fig. 5 shows the section AA of FIG. 4. For the Materiaiwahl the replacement body 9 is the above. For example, it is thus possible to produce this replacement body 9 of the same material, in particular the same plastic as the carrier body 11, the coating 4,
    The second embodiment according to FIGS. 8 to 14 is also intended to be inserted in the oral cavity of the patient. Here, the protective body 1 and thus also the replacement body 9 but pushed from behind onto the support body 11, This means that in this embodiment, the support body 11 must be taken out to change between the protective body 1 and replacement body 9 from the mouth of the patient. In the sense of an exact positioning of this embodiment shows the support body 11, the fixing device 12, which can serve for fixing, as shown by way of example in Figs. 9 and 10 of WO 2011/026662 A1.
    In the second embodiments, a snap connection is provided for fastening the protective body and the replacement body in the respective end position in the carrier body 11, which is realized here by means of the snap lever 17. When reaching the end position grab both the protective body 1 and the replacement body 9 a. To release then the snap lever 17 must be pressed. Fig. 8 shows the carrier body 11 and the protective body 1 separated from each other and the insertion direction 14, in which the protective body 1 is inserted into the corresponding receiving opening 13 of the support body 11, Fig. 9 and 10 show the interconnected state of two different viewing directions. 11 again shows the replacement body 9. FIG. 12 shows the section along the section line CC from FIG. 11 through this replacement body 9. FIG. 13 shows the protection body 1 and the section line DD. The section associated with the section line DD is shown in FIG. For the coating 4 and for the formation of the absorber body 2 again applies to the first embodiment said.
    FIGS. 15 to 19 show a further embodiment of a carrier body 11, but here with two protective bodies 1 according to the invention. Here too, it is provided to insert the carrier body 11 together with the protective bodies 1 in the patient's mouth. The replacement bodies 9 possibly required for the planning computer tomogram are not shown here. But they can be provided as in the previously described embodiments and just in each case the same outer contour 10, as the respective protective body 1, which they are to replace the planning computer tomogram have. The fixing device 12 is also arranged on the carrier body 11 in this embodiment. It serves the same purpose as in the already described second embodiment. The protective bodies 1 also each have an inner absorber body 2, which is completely covered by a corresponding coating 4. In Fig. 15 is an exploded view is shown, in which the two protective body 1 are detached from the support body 11. 16 to 18 show different views, in which the protective body 1 are held in the carrier body 11 in a form-fitting manner in its end position.
    FIG. 19 shows a horizontal section along the section line EE from FIG. 18. This exemplary embodiment essentially shows that not just one protective body 1 but also a plurality of protective bodies 1 can be used, if this helps to protect the healthy tissue and / or organ areas a particular radiotherapy is necessary.
    FIG. 20 shows an auxiliary spoon 18 which, in embodiments of the invention according to the first three exemplary embodiments, serves to lift the patient's lips over the carrier body 11. It should also be noted that on the support body 11 and / or protective body 1 and / or replacement body 9 edges can be formed in order to better fix the patient's lips in their intended position can. This of course applies to a wide variety of applications in the mouth area.
    21 to 23 show a further Auführungsbeispiel the invention with a carrier body 11 with two protective bodies 1. The embodiment shown here is ·· ♦ «··
    • · Intended to be inserted into the vagina of a patient. The protective bodies 1 in turn, although not explicitly shown here, each have an inner absorber body 2, which is enclosed by a coating 4 in each case over the entire surface. The absorber body 2 may in turn, as in the other embodiments, also be lead or another suitable absorber material. The carrier body 11 may again be made of a corresponding plastic or other suitable material, in particular of the same material as the coating 4. Again, the above generally applies. 10
    Also in this fourth embodiment of the invention, the protective body 1 are held positively in the carrier body 11. If this is necessary for a planning computer tomogram, they can also be replaced by correspondingly provided with the same outer contour 10 spare body 9. By way of example, it is shown in this exemplary embodiment that in order to carry out a brachytherapy it can be provided that at least one radiation source is arranged directly in the carrier body 11. In the embodiment shown, the channels 19 are provided, can be introduced or inserted into the corresponding radiation sources. As an alternative to the radiation sources, radiation detectors can, of course, also be arranged in these channels 19 or generally in the carrier body 11 in order to measure the radiation dose at a specific location. These ideas are shown in this embodiment for explanation. But they can just as well be realized in all other embodiments with support bodies 11. 25
    The four previously described embodiments of the invention are all intended to be used in natural body cavities. Variants of the invention will be explained below by way of example, which are intended to be used, possibly or above all, surgically in an artificially created body cavity of the human or animal body.
    In the embodiment according to FIGS. 24 and 25, the protective body 1 has a cup-shaped design adapted to the kidney 20. As shown in Fig. 25, this cup-shaped protective body 1 is applied on one side to the kidney 20, so that it is protected accordingly from unnecessary radiation. The protection body 1 also consists of an inner absorber body 2 of suitable absorber material and a coating 4, even if this is not explicitly shown here.
    For the sake of completeness, it should be pointed out that even in such applications with artificially created body cavities, a carrier body 11 may be provided, which is then e.g. can be fixed to a bone or other body part to keep the protective body 1 in a defined end position. If appropriate, substitute bodies 9 can also be used here together with the carrier body 11 for a planning computer tomogram. 15
    Figs. 26 and 27 show another embodiment intended to be inserted into an artificial body cavity to be created by surgical intervention. This is a cross-sectionally U-shaped protective body 1, which e.g. used to protect the spine who can. Also, this protective body 1 preferably consists again of at least one absorber body 2 with a suitable coating 4, even if this is not explicitly shown again. FIG. 27 shows a highly schematic representation of the protective body 1 of FIG. 26 surgically introduced into the patient's body. The schematically illustrated tumor 21 to be treated by means of radiation therapy is located between the abdominal wall 22 and the vertebra 23. When carrying out a teletherapy from the ventral side 22, it is necessary to protect the vertebrae 23 located behind the tumor 21 and in particular the spinal cord 24 from irradiation. For this purpose, the shape of the body adapted to the shape of the vertebral body of the vortex 23 protective body 1 is placed around the vertebral body in the illustrated form. As a result, when the tumor 21 is irradiated on the abdomen, the vertebra 23, and in particular the spinal cord 24, is correspondingly protected. With 25 of schematically illustrated back of the patient is designated. * * * * * * * * • 4 '' 4 '' '' '' '' * 4 '' '' '' '' '' '' '*' '' '' '' '' '' '' ' 4 * * ♦ * I · · · · · · · Φ · · ♦
    FIGS. 28 to 30 schematically show embodiments of the invention in which the coating 4 encloses at least one fillable volume 6 of the protective body 1, wherein a liquid absorber material, preferably mercury, can be filled or filled into the volume ό to form the absorber body 2. The filling takes place in the embodiments shown here in each case via the connecting pieces 27 and the inlet and outlet hoses 26. To introduce this so-formed protective body 1, this type of catheter can be brought by the smallest possible body opening to the appropriate place in the human or animal body. Only then is the liquid absorbent material 2, e.g. Mercury, introduced via the connecting piece 27 and the inlet and outlet hose 26 in the fillable volume 6 in the coating 4. If the volume 6 is filled accordingly with absorber material, the radiation therapy can be carried out. To remove the catheter, it is then advisable to first suck the absorbent material out of the fillable volume 6 via the inlet and outlet tubes 26 and the connecting pieces 27 before the catheter is removed again through the correspondingly small body opening. The coating 4 is preferably a flexible balloon or hose-like body, which can be expanded and contracted accordingly by filling and removal with absorbent material. Of course, coatings 4 are conceivable in corresponding embodiments and applications, which form a rigid or at least partially or partially rigid cavity wall.
    The last two embodiments according to FIGS. 31 to 34 show variants of protective bodies 1 according to the invention, in which at least the absorber body 2, here in each case the entire protective body 1, an opening and closing device 7 for opening and closing a through the absorber body 2, here by the entire protective body 1, 8 have through opening. These variants of the invention can be used, in particular, when the protective body 1 has to be surgically inserted into an artificial cavity of the human or animal body and then radiation therapies are to be carried out in which certain radiation paths are to be permitted in certain radiation forms, those in other directions of irradiation should be closed. Again, although not explicitly shown, the protective bodies 1 are in each case constructed of an inner absorber body 2, which is provided with a corresponding coating 4. The opening and closing device 7 is in each case realized in the form of an arrangement of slides which, preferably remotely controlled from outside the body to be treated, can be moved between their closed and open positions. In the embodiments shown, it is even provided that each slide of the opening and closing device 7 can be controlled individually. The operation can be done electrically via appropriate 10 motors and batteries and a corresponding receiver in the protective body 1 and a remote control. FIG. 32 shows an alternative variant in which the actuation of the slides of the opening and closing device 7 can take place hydraulically or pneumatically via the hoses 28. 15 m · · · · <1 g · · · · · · · ** ·> 5 ** ·· '
    Key to the reference numbers: 1 protective body 5 2 absorber body 3 surface 4 coating 5 minimum diameter 6 fillable volume 10 7 opening and closing device 8 opening 9 replacement body 10 outer contour 15 11 support body 12 fixing device 13 receiving opening 14 insertion direction 15 handle 20 16 tooth part 17 snap lever 18 auxiliary spoon 19 Insertion channel 20 Kidney 25 21 Tumor 22 Abdominal wall 23 Vertebrae 24 Spinal cord 25 Back 30 26 Inlet and outlet hose 27 Connecting piece 28 Hose
    权利要求:
    Claims (10)
    [1]
    Fechner &quot; Patent Attorneys Hofmann Sc. "*" Im im «·, Pr. Gcjf HtftenanS Ϊ · Ör * Thomas Fechner * 6806 Feldkirch, Austria Egelseesti 65a, PO Box 61 T +43 (0) 5522 73 137 F +43 (0) 5522 73 359 M office@vpat.at I www.vpat.at 24328/34 / ga 20120314 16 Claims 1. Protective body (1) for insertion into a body cavity of a human or animal body for the protection of non-irradiated persons Tissue and / or organs when performing radiotherapy, characterized in that the protective body (1) at least one absorber body (2) for absorbing radiation with at least one curved and delimiting surface (3) and the absorber body (2) at a density 20 ° C of at least 5 grams per cubic centimeter, preferably of at least 10 grams per cubic centimeter,
    [2]
    2. Protection body (1) according to claim 1, characterized in that the protective body (1), the absorber body (2), preferably completely, sheathing coating (4), which of a different material than the absorber body (2), preferably made of at least one plastic or of aluminum or an aluminum alloy, or at least comprises such a different material.
    [3]
    3. Protection body (1) according to claim 2, characterized in that the coating, preferably everywhere, a wall thickness of at least 1 millimeter, preferably of at least 2 millimeters, having.
    [4]
    4. protection body (1) according to one of claims 1 to 3, characterized in that the absorber body (2) at least partially a minimum diameter (5) of 4 millimeters, preferably of 10 millimeters, having.
    [5]
    5. Protective body (1) according to one of claims 2 to 4, characterized in that the coating (4) at least a fillable volume (6) of the protective body (1) sheathed, wherein for forming the absorber body (2) a liquid ft «* ft.... *. *. *. *. *. * Absorber material, preferably mercury, into which volume (6) can be filled or filled.
    [6]
    6. Protection body (1) according to one of claims 1 to 5, characterized in that at least 5 the absorber body (2) has an opening and closing means (7) for opening and closing a through the absorber body (2), preferably by the protective body ( 1), having through opening (9).
    [7]
    7. Protection body (1) according to one of claims 1 to 6, characterized in that the absorber body (2) comprises or consists of a metal, preferably lead or mercury.
    [8]
    8. Set with at least one protective body (1) according to one of claims 1 to 7, characterized in that the set in addition to the protective body (1) at least a spare body (9) made of another, preferably radiation permeable, material, wherein the protective body (1) and the replacement body (9) at least partially, preferably completely, have an identical outer contour (10).
    [9]
    9. Set with at least one protective body (1) according to one of claims 1 to 7, in particular according to claim 8, characterized in that the set additionally comprises at least one, at least partially insertable into the body cavity carrier body (11), on and / or in which the protective body (1) and optionally the replacement body (9) in an unambiguous position relative to the 25 carrier body (11) can be arranged, preferably fixed, are.
    [10]
    10. Set according to claim 9, characterized in that the carrier body (11) has at least one fixing device (12) for fixing the carrier body (11) in the body or outside of the body.
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    同族专利:
    公开号 | 公开日
    CA2867854A1|2013-09-26|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5550383A|1995-04-17|1996-08-27|Haskell; Douglas A.|Remoldable thermoplastic radiation shield for use during radiation therapy|
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    US5190990A|1990-04-27|1993-03-02|American Dental Association Health Foundation|Device and method for shielding healthy tissue during radiation therapy|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA354/2012A|AT512730B1|2012-03-22|2012-03-22|Protective body for insertion into a body cavity|ATA354/2012A| AT512730B1|2012-03-22|2012-03-22|Protective body for insertion into a body cavity|
    PCT/AT2012/000320| WO2013138825A1|2012-03-22|2012-12-21|Protective body for insertion into a body cavity|
    US14/386,928| US9079024B2|2012-03-22|2012-12-21|Protective body for insertion into body cavity|
    EP12818467.8A| EP2827949A1|2012-03-22|2012-12-21|Protective body for insertion into a body cavity|
    CA2867854A| CA2867854A1|2012-03-22|2012-12-21|Protective body for insertion into a body cavity|
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