Immobilization device for radiotherapy (Machine-translation by Google Translate, not legally binding

专利摘要:
The invention describes an immobilization device (1) for radiotherapy comprising: a plate (2) inclined to support the back of a patient, where said plate (2) is inclined in a longitudinal direction and has one end (2i) lower and one upper end (2s); and a lower platform (3) for supporting the patient's buttocks, wherein said lower platform (3) is engageable with the lower end (2a) of the inclined plate (2), where the lower platform (3) is rotatable to facilitate the placement of the patient in the device (1). The lower platform may also comprise a protuberance (4) for supporting the patient's perineum and plates (5) to immobilize his hips. (Machine-translation by Google Translate, not legally binding)
公开号:ES2681118A1
申请号:ES201730166
申请日:2017-02-10
公开日:2018-09-11
发明作者:Santiago VELÁZQUEZ MIRANDA；Mónica ORTIZ SEIDEL
申请人:Servicio Andaluz de Salud；
IPC主号:

专利说明:

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DESCRIPTION
Radiation therapy immobilization device OBJECT OF THE INVENTION
The present invention belongs in general to the field of medicine, and more specifically to the treatment of cancer by radiotherapy.
The object of the present invention is a novel device designed to immobilize a patient during a radiotherapy treatment.
BACKGROUND OF THE INVENTION
A radiation therapy treatment involves the application of high doses of radiation to an organ or tissue affected by cancer with the purpose of destroying cancer cells. Body movements, such as due to changes in posture or the patient's own breathing, make it difficult to concentrate the radiation in the target volume to be irradiated. To solve this problem, there are currently various types of immobilization devices whose objective is to immobilize as much as possible the area of the patient on which the radiotherapy treatment is to be performed. Among these immobilization devices are those designed for the treatment of the chest area or the breasts of a supine patient.
As an example, Figs. 1 and 2 show two examples of devices of this type known today. Specifically, Fig. 1 corresponds to an immobilization device described in US2005085722 and Fig. 2 corresponds to an immobilization device described in document KR20130090069. There are also multiple commercial products of this type, such as the C-Qual Breast Board, from the Civco company, or the MammoRX Breast Board, from the Orfit company, among many others. As can be seen, these currently known devices are mainly formed by an inclined plate, intended for the support of the patient's back, which is connected to a horizontal platform, intended for the support of the patient's buttocks. The inclined plate has a variable angle of inclination and is provided at its upper end with armrests and a headrest. The arm restraint elements serve to keep the patient's arms above
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of her head, outside the treatment area, while the headrest allows the patient to rest her head comfortably during treatment. The horizontal platform has a flange or step designed for the patient to support the buttocks and thus prevent it from slipping down.
Such devices provide sufficient patient immobilization for conventional radiotherapy treatments that are based on the application of very low doses of radiation distributed among a large number of radiotherapy sessions, since in these cases part of the radiation can be allowed impact outside the target volume. However, a new technique called Ionizing Radiation Stereotactic Ablation (SABR), also known as Stereotactic Body Radiation Therapy (SBRT, Stereotactic Body Radiation Therapy), is currently under development. This new technique consists mainly of the application of very high doses of radiation distributed in very few sessions of radiotherapy, ideally in a single session of radiotherapy. In this case, given the high intensity of the radiation, it is essential to minimize the amount of radiation received by the tissues surrounding the target volume. In this context, it is crucial to achieve a patient immobilization better than that provided by the currently known devices.
Therefore, there is a need in this field of technique not covered by immobilization devices capable of immobilizing a patient in a more precise and repeatable manner.
DESCRIPTION OF THE INVENTION
The object of the invention is a stereotactic immobilization device that allows to increase reproducibility of the location of breast tumors with respect to the radiation treatment machines (linear electron accelerators) and image acquisition machines (CT, PET and RM). That is, the same patient must move between different machines and for all of them the tumor must have the same coordinates. It consists essentially of a rotating platform of pelvic support that can be connected to a truncated inclined plane for back support and a support arm for arm support.
In this document, the “longitudinal direction of immobilization refers, unless
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that the opposite is explicitly stated, to a direction parallel to the long side of the inclined plate, which coincides with the craniocaudal direction of the patient when he is resting on the inclined plate.
In this document, the "transverse direction of the fixed asset ^ refers, unless explicitly stated otherwise, to a direction perpendicular to the anterior longitudinal direction, which coincides with the patient's lateral direction when it is supported on the inclined plate .
In this document, the "sides" of the lower platform or of the inclined plate refer to the edges along the longest side of the immobilization device. That is, they are the edges parallel to the longitudinal direction of the immobilizer.
In this document, the term "reproducibility" refers to the ability to accurately reproduce or replicate the position of a patient to ensure the location of the tumor during a given radiotherapeutic treatment both intra-treatment, that is during a specific treatment of a patient. same patient, as inter-treatment, that is, between different treatments performed on different radiation treatment machines (linear electron accelerators) and image acquisition machines (CT, PET and MRI).
In this document, the term "stereotactic device" is one that allows visually relating the external anatomy of the patient with marked coordinates on the device and with the lasers that orthogonally draw the reference planes of the different machines involved in the radiotherapeutic process, and Once the radiological image has been acquired, these coordinates remain visible in the latter, thus allowing the external configuration of the equipment to be related to the internal organs and tumors of the patient.
In this document, "the patient" is used at all times to refer to the user of the immobilization device. However, it should be interpreted that this term encompasses both male and female patients, especially considering that it is primarily intended for use in SBRT breast cancer treatments.
The present invention describes an immobilization device for radiotherapy, which essentially comprises:
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a) An inclined plate
It is a plate configured to support the patient's back that is inclined in a longitudinal direction, and has a lower end and an upper end. It is usually a flat plate that has an essentially rectangular shape inclined in the direction of its longest side, so that the patient can rest on it and rest on both her back and head. As mentioned earlier in this document, the longitudinal direction coincides with the craniocaudal direction of the patient when he is immobilized in the device of the invention. The craniocaudal inclination allows the breast to be positioned by gravity itself, thus helping the reproducibility of the position of the breast.
The inclined plate may also have an area intended to support the patient's head. This area can be provided, for example, with a head restraint or similar and with means that allow the head restraint to be moved up or down according to the longitudinal direction of the inclined plate depending on the patient's height.
b) A lower platform
The lower platform is designed to support the patient's buttocks configured to be placed adjacent to the lower end of the inclined plate. The patient can thus support the buttocks on the lower platform and rest on the inclined plate, being relatively immobilized and ready to receive certain radiotherapy treatments.
In preferred embodiments of the invention, the lower platform may be attachable to the lower end of the inclined plate. In this case, the coupling between the lower platform and the inclined plate can be carried out in any way known in the art, for example by screwing, pressure joints, tongue and groove joints, dovetails, etc. The purpose is to prevent the lower platform from sliding away from the lower end of the inclined plate as a result of the solicitations that occur when a patient rests on the immobilization device. More preferably, the
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coupling between the lower platform and the inclined plate may be of variable length, so that the distance between the two elements can be modified. This will allow the lower platform to be moved away from the lower end of the inclined plate in the case of patients of greater stature, and inversely to bring the lower platform closer to the lower end of the inclined plate in the case of patients of smaller stature. For example, the coupling can be carried out with the help of a pair of toothed stems arranged in one of the two elements that fit like a ratchet in corresponding holes arranged in the other element.
Alternatively, the lower platform may constitute a separate element and not attachable to the lower end of the inclined plate. In this way, it can be arranged at the distance of said lower end of the inclined plate that is necessary for each patient. In addition, in this case the lower platform may have fixing means to the stretcher of the apparatus on which it is arranged.
These elements are equivalent to those usual in currently known immobilization devices. However, the device of the present invention is characterized in that the lower platform is rotatable to facilitate the placement of the patient in the device. This turntable can have a circularly rotating portion with a radius of preferably between 20 cm and 30 cm, more preferably about 25 cm.
In fact, the currently known devices have a fixed lower platform to which the patient must climb to be placed in the device. Note that the immobilization device described normally will be, during use, placed on the couch of a linear accelerator. Therefore, to be placed in a conventional immobilization device, the patient must first sit on the lower platform according to a transverse orientation, that is, with the legs protruding from the lateral edge of the lower platform (and therefore also by the lateral edge of the linear accelerator couch). Next, the patient should lift her legs and, leaning on her buttocks and with the help of her hands, make a turn that places her aligned with the longitudinal direction of the device. The legs are currently resting on the bottom of the linear accelerator couch on which the immobilization device is placed. Finally, the patient must move, "crawling" with the help of the hands, until the buttocks are placed against the flange or step arranged on the lower platform. Finally, the patient rests to rest his back against the inclined plate.
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This procedure is disadvantageous in several ways. First, some patients do not have sufficient mobility to carry out these steps easily, for example due to overweight, advanced age, extreme weakness, etc. This obliges the medical staff to help the patient, with the consequent effort and associated loss of time. On the other hand, the need for the patient to have to perform various movements supported on the buttocks and hands, "crawling" to the appropriate position, either with or without help, implies serious deficiencies in the reproducibility of the position final. It can be said that every time the patient is placed in the device, they do so in a different position from the previous one. Note that, in the context of the reproducibility of the results of the positioning of a patient, it is known that the greater the need for collaboration by the patient, the worse the results.
The arrangement of the turntable solves these problems, since the patient can sit on the lower platform sideways in a transverse direction, with the legs protruding from the side edge of the lower platform, and it will be the platform itself that carries out a 90 ° rotation to place it according to the longitudinal direction. Therefore, the only action that the patient must perform is essentially sitting in a certain position on the lower platform. Since the stretcher of a linear accelerator on which the immobilization device is normally arranged can be lowered, it is an action within the reach of almost any patient. Once the patient has sat in the desired position, the medical staff can lift their legs and rotate the turntable 90 ° to align the craniocaudal direction of the patient with the longitudinal direction of the device. The patient only then has to rest to rest on the inclined plate, without needing to do anything else, without altering their position with the loss of supports that raise the legs, since the pelvis is already fitted to the platform. The present device, therefore, allows patients with reduced mobility to be placed in the device much easier and faster. In addition, the reproducibility of the final position is improved because it is much easier for the patient to sit directly in a certain position than to drag with the hands to said position on a horizontal surface.
In this document, it will be referred to as "initial orientation" to an orientation of the rotating lower plate designed so that the patient feels according to the transverse direction at the beginning of the immobilization procedure. The orientation of the lower rotating plate will be called "use orientation" which, after a 90 ° rotation in relation to the initial orientation, allows aligning the craniocaudal direction of the patient sitting on it with the
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longitudinal direction
Additionally, the inventor of the present application has also discovered that the transverse flange or step intended to support the patient's buttocks in known immobilization devices does not constitute a suitable immobilization element. Indeed, the patient's gluteal area does not constitute a firm supportive zone because it has a large amount of soft tissues, such as fat and muscle, that can move position depending on the position taken by the patient. As a consequence, a patient can adopt multiple positions despite having the buttocks firmly supported on a transverse flange or step as used in prior art devices, depending on the particular configuration adopted by the fat and muscle of his buttocks.
To solve this problem, in another preferred embodiment of the present invention the lower platform comprises a protrusion that protrudes vertically and that is transversely centered relative to the inclined plate when in the orientation of use. This protuberance is configured so that it can be inserted between the patient's legs so that it supports the perineum, thus preventing the patient's sliding and ensuring its position in a more precise way than the usual flange. In this context, the expression "protrudes vertically" means that the protuberance rises above the surface of the lower platform, although it is not essential that it be a strictly vertical element in the sense of forming 90 ° in relation to said As for its position, the protuberance should be centered transversely in relation to the lateral edges of the inclined plate when the lower rotating platform is connected to said inclined plate and adopts the orientation of use, however, it is important to note that no it is necessary that the protuberance be in the center of rotation of the lower platform, for example, the protuberance may be located at a distance between 6 cm and 12 cm from the center of rotation, more preferably about 9 cm. immobilize the patient against displacements in the longitudinal direction of the immobilization device of u In a much more precise way, as the crotch is an area with much less fat than the buttocks. The support is firmer, and therefore the resulting position much more reproducible. The protuberance may in principle take any suitable form to provide comfortable support in the patient's crotch, although preferably it has a cross section of smooth curves lacking edges to avoid causing damage to the patient, for example circular, elliptical, or oval .
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In accordance with another preferred embodiment of the device of the present invention, the lower platform further comprises in a lateral areas according to the orientation of use, on both sides of the support protrusion for the perineum, a pair of plates that project vertically. These plates are configured to compress the hips and further strengthen the patient's position and thus avoid lateral movements of the pelvis and unwanted slips. These plates will adopt symmetrical positions in relation to a longitudinal vertical plane of the immobilizer when the turntable is in its orientation of use. The vertical plates limit the lateral movements of the patient's hips, further improving the reproducibility of the immobilization, and also provide a place of attachment to better accommodate. Note that it is not essential that these plates protrude strictly in the vertical direction, being able to form a small angle in relation to the lower platform. The distance between the plates will be selected taking into account anatomical parameters of type patients, although preferably it can be between 35 cm and 50 cm, more preferably approximately 40 cm. The plates preferably have a length of between 10 and 15 cm, more preferably about 12 cm, and their height may be between 10 cm and 20 cm, more preferably about 15 cm.
Thanks to these plates, once the patient sits on the turntable it is completely “embedded” and without the possibility of lateral movement. In combination with the central bulge, complete immobilization of the patient's pelvis is achieved, which translates into greater reproducibility of the position of the entire upper trunk.
The inventor of the present application has verified that another cause of the poor results obtained with the current immobilization devices is related to the movements of the patient's trunk, since these are not limited in any way given that the inclined plates used in the art Above are completely flat. To solve this problem, in another preferred embodiment of the invention the inclined plate is formed by two V-shaped side sub-plates which are additionally inclined in the transverse direction of the device in order to make it difficult for the patient to turn. That is, the plate is not only inclined in the longitudinal direction, but also is formed by two flat lateral portions that are additionally inclined in the transverse direction, that is, in the direction of the central longitudinal line of the inclined plate itself, thus adopting the An inclined plate is essentially a V-shape. Thus, it is very difficult for the patient to turn to either side. For example, the angle of transverse inclination can be between approximately 10-20 °.
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In accordance with yet another preferred embodiment of the invention, the inclined plate further comprises two lateral retaining walls that protrude essentially vertically to closely accommodate the patient and further hinder their movement. The patient's trunk is thus completely constricted between the two lateral walls, further improving the reproducibility of immobilization. The distance between these two walls will be selected according to distances of type patients, although preferably it will be between 35 cm and 50 cm, more preferably approximately 42 cm. The height of the retaining walls will preferably be between 7 and 15 cm, being more preferably about 9 cm.
In another preferred embodiment of the invention, the inclined plate comprises a central longitudinal recess to facilitate the positioning of the patient's spinous process. This gap prevents discomfort when the patient rests on the inclined plate, also facilitates that her back is properly centered on the inclined plate and improves the immobilization and reproducibility of the patient's position. For example, if the plate is formed by two sub-plates inclined additionally in the transverse direction as described above, the central longitudinal gap may constitute the separation between both sub-plates. That is, the longitudinal gap would be at the apex of a V-shape formed by the cross section of both sub-plates. The width of the central longitudinal gap is preferably between 4 cm and 8 cm, more preferably about 6 cm.
As for the inclination of the inclined plate, so far known immobilization devices have means to modify the inclination according to each particular case. However, the inventor of the present application has discovered that this constitutes one more reason for lack of reproducibility in the immobilization and that it is really not essential that the inclination is modifiable. For that reason, according to another preferred embodiment of the present invention, the inclined plate is configured so that its angle of inclination is fixed and not modifiable. This angle may preferably be between 0 ° and 45 °, more preferably between 5 ° and 15 °, and even more preferably it may be approximately 10 °.
The inventor of the present application has also discovered that another cause of lack of reproducibility in the immobilization of patients is related to the discomfort of the position in which the prior art devices perform immobilization of the arms. In fact, in the known devices the arms are immobilized in a position
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in which the patient's hands are in a position located longitudinally above his head. This position is very uncomfortable, and as a consequence patients move more than would be convenient.
To solve this problem, according to a still further preferred embodiment of the invention, the inclined plate comprises at its upper end an arm support means comprising a support element. The holding element is movable between a retracted position located longitudinally higher than a support position of the patient's head, and an extended position located longitudinally at the height of the support position of the patient's head. Furthermore, in the extended position the lower end of the clamping element is perpendicularly separated from the inclined plate a sufficient distance to allow the patient's head to rest on said support position of the patient's head. For example, the distance between the plate and the lower end of the fastener when said fastener is in the extended position is preferably between 20 cm and 30 cm, more preferably between 24 and 28 cm, and even more preferably about 26 cm
Thanks to this configuration, the patient first supports the head in a head support position with the holding element in the retracted position. In this position, the clamping element does not constitute an obstacle for placing the patient's head on the support position because it is in a position longitudinally higher than said support position of the patient's head. As mentioned earlier in this document, the head support position may include a headrest. In addition, the head restraint can be sliding in the longitudinal direction along the inclined plate, so that it can be placed in the position most appropriate to the height of each patient. Once the patient's head has been positioned on the support position of the inclined plate, the arm support element is passed from the retracted position to the extended position. In the extended position, the arm support element is at the height of the patient's head, for example at the height of his eyes or his forehead, and at a certain distance therefrom according to a direction perpendicular to the inclined plate. The patient can then place the arms on the arm support element in a much more comfortable position than in the prior art. In addition, the elbows protrude less from the trunk, which implies that the patients operated on the armpits reduce the discomfort and also reduce the possible collisions with the gantrys of the image acquisition machines (CT, PET, RM) or treatment ( linear accelerators).
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In principle, the movement of the clamping element between the retracted and extended positions can be performed in any way known in the art. For example, it would be possible to design a rotating mechanism, or with a combination of rotational and translational movements, capable of moving from the retracted position to the extended position along a circular displacement line. However, in a particularly preferred embodiment of the invention the clamping element is sliding between the retracted position and the extended position. More specifically, in yet another preferred embodiment of the invention, the clamping element is sliding between the retracted position and the extended position parallel to the longitudinal direction of the inclined plate.
More preferably, the arm support means comprises a support arranged at the upper end of the inclined plate that protrudes vertically above it and to which the fastener element slides in a longitudinal direction. The sliding element can have several intermediate positions between the extended position and the retracted position. For example, the coupling between the support and the clamping element could be carried out through a rack rod so that the arm clamping element can be fixed at any intermediate point between the extended and retracted positions.
The inventor has also discovered that the means of fixing the patient's arms in the prior art devices constitute a further cause of lack of reproducibility in the immobilization results. In fact, the commonly used arm restraint means simply consist of support elements or grip elements of the patient's arms. When the patient has been immobilized in the same position for a long time, he becomes tired because a muscular effort is necessary on his part to keep the grip element or to keep the arms resting on the support elements without falling. Due to this fatigue, he tends to move his arms, which is a problem.
Preferably, in the present invention the clamping element has means for fixing the arms that actively support the patient's arms. In this context, "actively" holding the patient's arms means that the fixing means are configured in such a way that it is possible to fix the patient's arms, for example his wrists or his hands, to said fixing means. that the patient, if he gets tired of keeping his arms in a certain position, simply
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leave the dead arms, these being held by the fixing means without varying the flexion of the arm. In this way, the feeling of fatigue is avoided and therefore also the patient's need to move them. As a consequence, a further improvement in the reproducibility of immobilization is achieved. These fixing means can take any form, although according to another preferred embodiment of the present invention, the fixing means comprise wrist bands configured to immobilize the patient's wrists.
In accordance with yet another preferred embodiment of the invention, the immobilization device further comprises stereotactic marks arranged on the outer face of the lateral retaining walls. Additionally, the immobilization device of the present invention may comprise a stereotactic arc attachable to the inclined plate. These stereotactic marks and arch provide references to medical personnel to ensure the reproducibility of a patient's immobilization. In these embodiments, the device therefore becomes a stereotactic immobilization device according to the definition provided earlier in this document.
According to another embodiment of the present invention, the side plates and / or the stereotactic arc have a series of cavities that allow the visualization of the stereotactic coordinates. This allows to ensure the coincidence of the lasers that trace the orthogonal planes of the image acquisition and treatment machines on the device, and allow these same references to be seen in the radiological images. This configuration allows to relate the external anatomy of the patient, the equipment and its internal organs with the stereotactic coordinates made through the cavities at all times.
According to another preferred embodiment of the invention, the immobilization device comprises first fixing means located on the inclined plate for the antenna of an MRI equipment. These first means can be constituted by an antenna-holder support that protrudes through a lateral area of the inclined plate and which are provided with elements for the support of the antenna, thus avoiding the need for the patient himself to have to hold it.
According to another embodiment of the present invention, the device further comprises second fixing means on the inclined plate for a thermoplastic blanket of
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patient immobilization. Said thermoplastic blanket allows the control of the patient's respiratory movements to increase the accuracy of the radiotherapy treatment. These second fixing means can be configured, for example, as a groove or holes arranged in a lateral area of the inclined plate.
BRIEF DESCRIPTION OF THE FIGURES
Fig. 1 shows a perspective view of a first example of immobilization device according to the prior art.
Fig. 2 shows a perspective view of a second example of immobilization device according to the prior art.
Fig. 3 shows a perspective view of an immobilization device according to the present invention.
Figs. 4a, 4b and 4c respectively show a perspective view, a profile view and a plan view of a rotating lower platform according to the present invention.
Figs. 5a and 5b show side views of an inclined plate provided with an arm support means according to the present invention (the lower rotating platform has not been drawn for simplicity).
Figs. 6a-6f show different representative steps of a method of using the device according to the present invention.
PREFERRED EMBODIMENT OF THE INVENTION
Fig. 3 shows a general perspective view of the immobilization device (1) according to the present invention. This device (1) is basically formed by two elements: a lower platform (3) and an inclined plate (2). The longitudinal and transverse directions have been represented by two lines named respectively (DL) and (DT).
The lower platform (3) has the particularity in relation to the platforms used in
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the prior art devices shown in Figs. 1 and 2 of which is rotating. Specifically, as can be seen in greater detail in Figs. 4a-4c, this platform (3) is formed by a base (31) that in this example has a square shape, although the shape of the base (31) can in principle be any as long as it provides firm support to support the weight of the patient. Specifically, the base (31) is rotatably coupled to a rotating plate (32) on which the patient will sit. The rotating plate (32) in this example has a round shape, although this is also not essential and could take other forms if necessary. The rotating plate (32) is coupled to the base (31) through a rotating joint (33). As for its size, the turntable plate (32) of the platform (3) will have a size suitable for a patient to feel.
Fig. 3 also shows a protuberance (4) intended to be positioned between the patient's legs, resting against its perineum to prevent it from sliding down according to the longitudinal direction of the inclined plate (2). This protuberance (4), which is shown in greater detail in Figs. 4a-4c, has an edge-free shape for comfortable support in the patient's crotch. Specifically, in this example it has a cylindrical shape with the hemispherical upper end. The diameter of this protuberance (4) is configured to fit comfortably between the patient's legs, and can be for example between 8 cm and 15 cm. Its height will also be sufficient to prevent the patient from sliding over it, and can be for example between 10 cm and 20 cm. Regarding its position, it is important to note that it is not essential that it be exactly in the center of the rotating plate (32). However, when the rotating plate (32) is in the orientation of use, it is important that the protuberance (4) is centered transversely and at such a distance from the edge of the base (31) that it is coupled to the lower end (2i) of the inclined plate that allows to comfortably accommodate the patient's buttocks.
In Fig. 3 there is also a pair of parallel vertical plates (5) facing each other and located in the peripheral area of the circumference of the rotating plate (32). These plates (5) are separated by an approximate distance of 40 cm to constrict the patient's hips and prevent the patient from moving. The dimensions of the plates (5) are selected to constrict the patient's hips without damaging them with their edges, be they the lateral edges or the upper edge. In this example, the plates (5) are 10 cm long and 15 cm high cm. In addition, it is not essential that the plates (5) be flat, having a small curvature towards the inside of the rotating plate (32) to adapt more ergonomically to the patient's hips. Moreover, in regard to their position, it is not strictly necessary that they be arranged in positions
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diametrically opposed. It is also not essential that both plates (5) be aligned with the protuberance (4), since it may be slightly displaced in a direction perpendicular to said joint line between the plates (5) as necessary for maximum patient comfort.
The inclined plate (2) has an essentially rectangular shape and is arranged according to an inclination according to a longitudinal direction coinciding with the direction of its long side. The lower short side, located at its lower end (2i), is coupled to one side of the rotating platform (3) through any suitable means for this, such as a pressure joint, tongue and groove, or others. As mentioned previously, this coupling means can be of variable length. The highest short side, located at its upper end (2s), is supported by rigid legs that keep the angle of inclination fixed and unchanged at a value of approximately 10 °. An important feature of the inclined plate (2) described is that the surface on which the patient rests is not strictly flat, but is formed by two V-shaped sub-plates (21, 22) that have a small inclination towards the center of the plate (2). Each of the sub-plates (21) can have an essentially rectangular elongated shape whose ends are fixed to two support elements located at the lower and upper ends (2i, 2s) of said plate (2). This inclination helps to further immobilize the patient during the use of the device (1) of the invention.
The plate (2) also has essentially vertical retaining walls (23, 24) located along its lateral edges. In this example, these are two straight vertical walls (23, 24) that run through all of both side edges of the plate (2) and have an approximate height relative to the surface of the plate (2) of approximately 9 cm. The patient is thus embedded between these two walls (23, 24) with hardly any room for movement. The walls (23, 24) also have graduated stereotactic marks (7) on their outer face that allow precise positioning of the patient. They also have a series of holes and fixing elements intended for the coupling of various elements used during the radiotherapy treatment, such as for example the antenna for an MRI, a thermoplastic immobilization blanket, or the stereotactic arc (8) that has been described.
In Fig. 3 it can also be seen how the plate (2) has a central longitudinal gap (25) that separates both sub-plates (21, 22). This central longitudinal hollow (25) is intended for
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accommodating the patient's spinous process, not only is it more comfortable but also increases the accuracy during positioning. In this example, the width of the central longitudinal hole (25) is 6 cm.
The device (1) of the invention further comprises a means (6) for fixing the patient's arms. This fixing means (6) comprises a fastening element (61) to which the arms of the patient that is movable between a retracted position and an extended position are fixed. The fastener (61) in this example takes the form of an essentially flat plate to which fastener means in the form of wristbands (63) are attached. These wristbands (63) constitute an important advantage in relation to the fixation elements used in the currently known immobilization devices, since they allow to firmly hold the patient's wrists and in this way he does not have to make any effort to keep the arms still outside the treatment area.
The fixing means (6) further comprises a support plate (62) located at the upper end (2s) of the plate. This support plate (62) has a hole through which a rod slides at the end of which the fixing element (61) is arranged. Thus, as shown in Fig. 5a, when the fixing element (61) is in the retracted position it is adjacent to the support plate (62), in a position longitudinally above the support position (PA) of The patient's head. In this support position (PA) a headrest of the type conventionally used in this type of immobilization devices has been drawn. Therefore, when the fixation element (61) is in the retracted position, the patient can normally recline backwards until the head is placed in said support position (PA). Fig. 5b shows the fixing element (61) in the extended position. As can be seen, in the extended position the fixing element (61) is located according to the longitudinal direction at the height of the support position (PA) of the patient's head. In addition, the lower end of the fixing element (61) is sufficiently separated from the inclined plate (2) to leave enough space for the patient's head. In this example, the distance is 26 cm. Thanks to this configuration, in this device the patient's arms are immobilized in a much more comfortable position than in the previous devices, for example approximately in front of his eyes or his forehead.
Figs. 6a-6f show the different steps of a patient immobilization process using the device of the present invention. Fig. 6a shows the device
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(1) of immobilization of the invention placed on the couch of a linear accelerator. Fig. 6b shows a first step where the patient has sat on the lower platform (3). For this, previously the stretcher has descended from its initial height and also the rotating plate (32) of the platform (3) has been placed in the initial orientation. In this example, the initial orientation corresponds to that shown in Figs. 6a and 6b where the plates (5) are aligned according to the longitudinal direction. With this orientation of the rotating plate (32), the patient should only drop down to sit so that the protuberance (4) is between his legs and that his hips are fitted between the plates (5). Next, Fig. 6c shows the next step where the medical staff rotates the rotating plate (32) 90 ° from its initial position to its use position. In this example, the position of use is represented in Figs. 6c and following where the line joining the plates (5) is perpendicular to the longitudinal direction of the device (1). In order to perform this 90 ° rotation of the rotating plate (32) with the patient sitting on it, the patient's legs are raised. The result is that the patient is already aligned according to the longitudinal direction of the device. Then, as seen in Fig. 6d, the patient simply reclines until he leans on the inclined plate (2). The patient's spinous process is aligned in the central longitudinal hollow (25), and the rest of the back is supported by the subplates (21,22) inclined towards the central longitudinal line of the plate (2). The patient's shoulders are fitted against the lateral retaining walls (23, 24) of the inclined plate (2). In short, at the end of this stage the entire patient's trunk is constrained by the different elements of the inclined plate (2) and its pelvis and perineal area are also immobilized by the corresponding elements of the lower rotating platform (3). Fig. 6e shows the next step consisting of immobilization of the patient's arms. For this, the arm fixing element (61) slides from the retracted position shown in Fig. 6d to the extended position shown in Fig. 6e. The patient's arms are fixed to the arm fixing element (61) by means of the wrist bands (63). The result is that the patient's arms are fixed approximately in front of his eyes or in front, and in addition the patient can leave the "dead" arms so that they hang from the wristbands, thus avoiding any effort from which he can tire. completely immobilized and ready to begin treatment In a final step, Fig. 6f shows how the stereotactic arch (8) is fixed to the inclined plate (2).

权利要求:
Claims (20)
[1]
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1. Immobilization device (1) for radiotherapy, comprising:
- an inclined plate (2) for supporting a patient's back, where said plate (2) is inclined in a longitudinal direction and has a lower end (2i) and an upper end (2s); Y
- a lower platform (3) for the support of the patient's buttocks, where said lower platform (3) is configured to be arranged adjacent to the lower end (2a) of the inclined plate (2),
characterized in that the lower platform (3) is rotatable to facilitate the placement of the patient in the device (1).
[2]
2. Device (1) according to claim 1, wherein the lower platform (3) comprises a protrusion (4) that protrudes vertically and is transversely centered relative to the inclined plate (2) when in an orientation of use , where the protuberance (4) is configured so that it can be inserted between the patient's legs.
[3]
3. Device (1) according to claim 2, wherein the protuberance (4) has a cross section of smooth curves without edges to avoid causing damage to the patient.
[4]
4. Device (1) according to claim 3, wherein the protuberance (4) has a circular, elliptical, or oval cross section.
[5]
5. Device (1) according to any of claims 2-4, wherein the lower platform (3) further comprises, in lateral areas according to the orientation of use, a pair of plates (5) that protrude vertically and are configured to compress the patient's hips.
[6]
Device (1) according to any of the preceding claims, wherein the inclined plate (2) is formed by two V-shaped side sub-plates (21, 22) that are additionally inclined in the transverse direction for the purpose of prevent the patient from turning.
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[7]
7. Device (1) according to any of the preceding claims, wherein the inclined plate (2) further comprises two lateral retaining walls (23, 24) that project essentially vertically to closely accommodate the patient.
[8]
Device (1) according to any of the preceding claims, wherein the inclined plate (2) comprises a central longitudinal recess (25) to facilitate the positioning of the patient's spinous process.
[9]
9. Device (1) according to any of the preceding claims, wherein the inclined plate (2) is configured so that its angle of inclination is fixed and not modifiable.
[10]
10. Device (1) according to any of the preceding claims, wherein the inclined plate (2) comprises at its upper end (2s) an arm support means (6) comprising a fastening element (61), wherein said holding element (61) is movable between a retracted position located longitudinally higher than a support position (PA) of the patient's head, and an extended position located longitudinally at the height of the support position (PA) of the head of the patient, and where in the extended position the lower end of the clamping element (61) is perpendicularly separated from the plate (2) inclined a sufficient distance to fit the head of the patient resting on said support position (PA) .
[11]
11. Device (1) according to claim 10, wherein the distance between the inclined plate (2) and the lower end of the clamping element (61) when said clamping element (61) is in the extended position is between 20 cm and 30 cm.
[12]
12. Device (1) according to any of claims 10-11, wherein the clamping element (61) is sliding between the retracted position and the extended position.
[13]
13. Device (1) according to claim 12, wherein the arm support means (6) comprises a support (62) disposed at the upper end (2s) of the inclined plate that protrudes vertically above it to which the fastener (61) is slidably coupled in a longitudinal direction.
[14]
14. Device (1) according to any of claims 10-13, wherein the clamping element (61) has means (63) for fixing the arms that hold
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active way the patient's arms
[15]
15. Device (1) according to claim 14, wherein the arm fixing means (63) comprise wrist bands (63) configured to immobilize the patient's wrists.
[16]
16. Device (1) according to any of the preceding claims, which further comprises graduated stereotactic marks (7) arranged on the outer face of the lateral retaining walls (23, 24).
[17]
17. Device (1) according to any of the preceding claims, further comprising a stereotactic arc (8) attachable to the inclined plate (2).
[18]
18. Device (1) according to any of claims 16-17, wherein the lateral containment walls (23, 24) and / or the stereotactic arch (8) have a series of cavities that allow the visualization of stereotactic marks .
[19]
19. Device (1) according to any of the preceding claims, further comprising first fixing means located on the inclined plate (2) to support the antenna of an MRI equipment.
[20]
20. Device (1) according to any of the preceding claims, further comprising second fixing means located on the inclined plate (2) for a thermoplastic patient immobilization blanket.

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同族专利:

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公开号 | 公开日

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EP3581240A4|2020-08-12|

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US20190358467A1|2019-11-28|

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EP3581240B1|2021-12-01|

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EP3581240A1|2019-12-18|

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WO2018146367A1|2018-08-16|

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ES2681118B1|2019-07-31|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

JPH01153142A|1987-12-11|1989-06-15|Toshiba Corp|Bed apparatus|

---

JP3025791B2|1996-07-25|2000-03-27|直也 新井|Rotary dental care consultation chair|

---

FR2765487B1|1997-07-01|1999-08-20|Arplay|MODULATED INCLINED PLAN FOR RADIOTHERAPY OF A PATIENT IN INCLINED DORSAL DECUBITUS|

---

DE10025913A1|2000-05-26|2001-12-06|Schwerionenforsch Gmbh|Tumor patient positioning device for heavy-ion therapy chamber has mechanism holding tumor of sitting patient in isocentre of heavy-ion beam|

---

US7836890B2|2003-10-17|2010-11-23|Diacor, Inc.|Systems for immobilization of a patient for diagnosis and treatment of breast tissue|

---

EP1937109B1|2005-09-24|2015-03-25|Qfix Systems, LLC|Radiation therapy patient couch top compatible with diagnostic imaging|

---

NL1032453C1|2006-09-06|2008-03-07|Sinmed Holding Internat B V|Lounger with an adjustable backrest.|

---

US8374314B2|2008-05-22|2013-02-12|Vladimir Balakin|Synchronized X-ray / breathing method and apparatus used in conjunction with a charged particle cancer therapy system|

---

US8146599B2|2008-06-17|2012-04-03|Civco Medical Instruments Co., Inc.|Patient positioning system|

---

KR101297492B1|2012-02-03|2013-08-16|서울대학교산학협력단|Patient holder device for radiation treatment|

---

US9801782B2|2014-02-19|2017-10-31|Keith G. Lurie|Support devices for head up cardiopulmonary resuscitation|

---

CN204563326U|2015-02-05|2015-08-19|盖慧荣|A kind of tumor radiotherapy bed special|

---

CN204563327U|2015-02-13|2015-08-19|青岛市肿瘤医院|A kind of novel tumor radiation therapy bed|

---

CN105327458A|2015-12-04|2016-02-17|深圳先进技术研究院|Multi-degree-of-freedom radiotherapeutic bed|MX2019000006A|2016-06-23|2019-08-29|Servicio Andaluz De Salud|Compositions for the treatment of ischemic ulcers and stretch marks.|

---

CN112657071A|2020-12-31|2021-04-16|陈涛|Automatic adjusting and supporting device for tumor radiotherapy equipment and radiotherapy equipment|

法律状态:
2018-09-11| BA2A| Patent application published|Ref document number: 2681118 Country of ref document: ES Kind code of ref document: A1 Effective date: 20180911 |

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2020-01-09| FA2A| Application withdrawn|Effective date: 20200102 |

优先权:

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申请号 | 申请日 | 专利标题

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ES201730166A|ES2681118B1|2017-02-10|2017-02-10|Radiation therapy immobilization device|ES201730166A| ES2681118B1|2017-02-10|2017-02-10|Radiation therapy immobilization device|

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PCT/ES2018/070099| WO2018146367A1|2017-02-10|2018-02-12|Immobilisation device for radiotherapy|

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EP18751638.0A| EP3581240B1|2017-02-10|2018-02-12|Immobilisation device for radiotherapy|

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US16/484,792| US20190358467A1|2017-02-10|2018-02-12|Immobilisation device for radiotherapy|