DE102010041580A1 - Magnetic resonance device for use with radiation therapy device during radiation therapy of patient, has coil arrangements with partial sections that are separated such that patient retainer radius is extended into region upto bore edge - Google Patents

Abstract

The device (1) has a base field magnet unit (2) with a cylindrical bore (3) in which a gradient coil arrangement (4) and a high frequency coil arrangement (5) are arranged in such a manner that a patient retainer (6) is retractable into a patient couch (8). The gradient and high frequency coil arrangements exhibit respective partial sections (4a, 4b, 5a, 5b), which are separated from each other in such a manner that a radius of the patient retainer is extended into a region (9) upto an edge of the bore, where the region consists of a plane of a patient support surface (7) of the patient couch.

Description

The invention relates to a magnetic resonance apparatus, comprising a basic field magnetic unit with a cylindrical bore, in which a gradient coil arrangement with a high frequency coil arrangement are arranged such that a patient accommodation is formed, in which a patient bed is retractable, and a combination system.

In order to enable improved adjustment and monitoring during or after radiotherapy, it has been proposed to use combination systems of a magnetic resonance device and a radiotherapy device. There are a variety of approaches known to realize such a combination system.

For example, it has been proposed to provide an almost field-free space by adapting the design of the gradient coils and the basic field magnet outside a magnetic resonance device, so that a linear accelerator can be mounted in this region in such a way that it can be guided around the patient on a circulating circle. However, this construction has the disadvantage that the field-free space arises at a certain distance outside the magnetic resonance device, so that a large space requirement arises when a ring on which the linear accelerator is to be moved to the magnetic resonance device to be arranged. Thus, the combination system can not be realized in a conventional irradiation bunker. Furthermore, significant disadvantages in terms of image quality are to be expected, in particular due to the necessary adjustments of the gradient coils. In this embodiment, the radiation has to penetrate through the entire steely body of the magnetic resonance device, which leads to a degradation of the beam profile and the radiation intensity. After all, the cost of such a system is very high.

Alternatively, it has been proposed to use, instead of a linear accelerator, one or more cobalt sources which do not require a field-free space. It was proposed to use three cobalt sources, which can also be rotated around the patient. In these cases, the space is considerably smaller and thus advantageous, but cobalt sources are only poorly positioned on the market, since they are perceived by the radiation therapists as a target group as an outdated technology.

In another alternative embodiment, it has been proposed to guide an electron beam along the main axis of the magnetic resonance device, wherein a rectangular deflection takes place on a target with a collimator in the patient recording of the magnetic resonance device. The advantage is that the linear accelerator is spatially decoupled from the magnetic resonance device. The disadvantage here is the space required for the guidance of the linear accelerator in the patient room, which also limited to the current state of knowledge, the need for the deflection by 90 °, the magnetic field strength of the magnetic resonance device to about 1.5 Tesla. Finally, the radiation field is limited to the head of a patient.

A major problem of all of these proposals, however, is that in order to be able to offer radiotherapy for all applications, there must be a lateral extension of the patient's admission of about 90 cm. The reason for this is that during radiation in the chest, ie in the upper torso area, the patient's arms must be angled and fixed laterally, for which space must be available. A similar problem occurs when the legs are spread and fixed. This requirement is not borne by usual patient admissions, which usually have a maximum diameter of about 70 cm. Since radiation in the thoracic region is one of the main applications in curative radiotherapy, the described combination system comprising a magnetic resonance device and a radiation therapy device consequently lacks an essential basic requirement.

The invention is therefore based on the object to design a magnetic resonance device such that in the patient recording a patient can be retracted even with angled, fixed arms or legs.

To solve this problem is provided according to the invention in a magnetic resonance device of the type mentioned above, that the gradient coil and the high-frequency coil assembly each comprise two separate sections, which are arranged such that the radius of the patient recording in a comprehensive the level of a patient support surface of the patient bed area, in particular to the edge of the hole, is extended.

It is therefore proposed to create a "storage space" for the extremities, especially the fixed arms of the patient, by dividing both the gradient coil arrangement and the radio-frequency coil arrangement into two spatially separated halves, which are spaced in the region of the lying surface of the patient bed a dent results as part of the patient recording, which can approach up to the basic field magnetic unit, the bore has, for example, a diameter of 90 cm.

Such split gradient coil arrangements and high-frequency coil arrangements are conceivable without problems, in particular when considering the analogy with the gradient field coils of an open magnetic resonance apparatus whose design or calculation is described, for example, in the book by Jianming Jin, "Electromagnetic Analysis and Design in Magnetic Resonance Imaging", CRC Press, 1998, cf. Chapter 3.9 , Mainly the design of the gradient coils for the Z-direction has to be adjusted. In the field of high-frequency coils approaches are already known to build them from different antenna elements, so that an embodiment in an upper and a lower half is also possible here. In the specific embodiment of the gradient coil arrangement and the high-frequency coil arrangement, which can be carried out, for example, as usual by an appropriate software, it is important to note that the imaging area in the patient accommodation meets the usual homogeneity requirements.

Ultimately, therefore, it is proposed to realize an adapted cross-sectional opening of the patient receiving, so that a fixation of the arms and / or the legs is made possible in an angled form. The patient can also be retracted into the system in this state, which offers sufficient space on both sides in the relevant area. Thus, a combination system comprising a radiotherapy device and a magnetic resonance device can be provided in this geometry, which can be used without restriction for all applications.

In a particularly expedient embodiment of the present invention can be provided that the lying surface of the patient bed extends into the extended area of the patient's admission. The lying surface of the patient bed can also be adjusted so that, for example, spread limbs can be placed on it. In particular, the patient bed may already include fixation means in its section projecting into the extended area, with which arms and / or legs of a patient can be fixed in preparation for a radiation therapy treatment. It should also be noted at this point that it can of course be provided that the thickness of the patient bed in the extended area is smaller than the thickness of the patient bed in the central area of the patient seat.

The extended region may have an extent of 10 to 30 cm in the circumferential direction of the bore and / or be dimensioned to receive an angled extremity of a patient positioned on the patient couch. Preferably, the indentation, so the extended area, dimensioned so that it has, for example, a height of about 15 to 20 cm, so that a sufficiently large storage space for the extremities is given.

In a further embodiment of the magnetic resonance device according to the invention it can be provided that at least the base field unit is designed to be split in the longitudinal direction to form a gap. Thus, a separation can also be provided in the longitudinal direction, so that, for example, a linear accelerator of a radiotherapy device can irradiate there into the patient support area without the entire basic field magnet unit having to be irradiated with deterioration of the radiation properties. Expediently, the gradient coil arrangement and / or the high-frequency arrangement can also be designed to be divided in the longitudinal direction, so that radiation can be guided essentially without weakening until the patient is positioned on the patient couch.

However, it should be noted at this point that other embodiments of the magnetic resonance device, which simplify or enable the use of a radiation therapy device, can be provided, reference being made in particular to the options set out above. Thus, rotatable cobalt sources within the patient admission are just as conceivable as a positionable in the patient admission target.

In addition to the magnetic resonance device, the present invention also relates to a combination system comprising a magnetic resonance device according to the invention and a radiotherapy device. In this case, all embodiments of the embodiment of the magnetic resonance device can be analogously transferred to the combination system, wherein the magnetic resonance device according to the invention with a variety of configurations of radiotherapy devices in all applications allows radiotherapy with monitoring magnetic resonance imaging.

Further advantages and details of the present invention will become apparent from the embodiments described below and from the drawings. Showing:

1 a cross section through a magnetic resonance device according to the invention, and

2 a longitudinal section through a magnetic resonance device according to the invention.

1 shows a possible embodiment of a magnetic resonance device according to the invention 1 in a schematic diagram representing a cross-section. Obviously, the includes Magnetic resonance device as known a basic field magnetic unit 2 that a bore 3 which has a cylindrical shape and a diameter of 90 cm. In the hole 3 As is known, a gradient coil arrangement 4 and a high frequency coil assembly 5 arranged so that a patient admission 6 is defined. In this case, both the gradient coil arrangement and the high-frequency coil arrangement comprise spatially separated, ie spaced, subsections 4a . 4b . 5a . 5b so that laterally in the area of the lying surface 7 one in the patient admission 6 retractable patient bed 8th extended ranges 9 (Indentations) of the patient admission 6 arise in the present example a. Height of about 20 cm.

So while the patient intake 6 in the field of sections 4a . 4b . 5a . 5b only has a diameter of 60 to 70 cm, the diameter is in the ranges 9 on the 90 cm of the hole 3 extended.

Visible is the patient bed 8th designed so that the lying surface 7 to the areas 9 extends. Thus, it is possible to fix a patient with angled arms and / or legs, and still, despite having a width greater than 60 to 70 am, still in the patient admissions 6 retract to allow radiation therapy with a radiotherapy device not shown here.

2 shows a longitudinal section through a possible embodiment of the magnetic resonance device according to the invention 1 , in the longitudinal direction (Z-direction), both the basic field magnetic unit 2 as well as the sections 4a . 5a . 4b . 5b , the gradient coil arrangement 4 and de radio frequency coil assembly 5 Split are executed, leaving a gap 10 arises. This gap 10 makes it possible with an in 2 only indicated radiotherapy device 11 , for example, a linear accelerator 12 may include, without degradation of the radiation on the patient bed 8th with fixed extremities, which are in the expanded areas 9 located to irradiate patients.

It should be noted at this point that it is next to the in 2 Possibility also presented other possibilities to realize a combination system, which also includes a radiotherapy device, with a magnetic resonance device according to the invention. It is essential that in the present invention, the configuration of the gradient coil assembly and the radio frequency coil assembly is selected so that an extended area is created, thus the cross section of the patient receiving is adapted such that a lateral extension of the lying surface taking advantage of the full diameter of the bore of the basic field magnetic unit is possible, so that spread limbs can be absorbed and thus all applications are opened up for a combination system.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• Jianming Jin, "Electromagnetic Analysis and Design in Magnetic Resonance Imaging", CRC Press, 1998, cf. Chapter 3.9 [0010]

Claims (6)

Magnetic resonance device ( 1 ) comprising a basic field magnet unit ( 2 ) with a cylindrical bore ( 3 ) in which a gradient coil arrangement ( 4 ) and a high-frequency coil arrangement ( 5 ) are arranged such that a patient admission ( 6 ), in which a patient couch ( 8th ) is retractable, characterized in that the gradient coil arrangement ( 4 ) and the radio-frequency coil arrangement ( 5 ) each two separate subsections ( 4a . 4b . 5a . 5b ), which are arranged such that the radius of the patient admission ( 6 ) in a plane of a patient support surface ( 7 ) of the patient couch ( 8th ) ( 9 ), in particular to the edge of the bore ( 3 ), is extended. Magnetic resonance device according to claim 1, characterized in that the lying surface ( 7 ) of the patient couch ( 8th ) to the extended area ( 9 ) of patient admission ( 6 ). Magnetic resonance device according to claim 1 or 2, characterized in that the extended region ( 9 ) has an extent of 10 to 30 cm in the circumferential direction and / or for receiving an angled limb of a patient on the bed ( 8th ) positioned patient is dimensioned. Magnetic resonance device according to one of the preceding claims, characterized in that at least the basic field magnetic unit ( 2 ) in the longitudinal direction to form a gap ( 10 ) is executed shared. Magnetic resonance device according to claim 4, characterized in that the gradient coil arrangement ( 4 ) and / or the high frequency arrangement ( 5 ) are also designed to be split in the longitudinal direction. Combination system comprising a radiotherapy device ( 11 ) and a magnetic resonance device ( 1 ) according to one of the preceding claims.

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