Abstract: A system for determining the spatial distribution of magnetic particles in an examination area. Magnetic field generator generates a spatially inhomogeneous gradient magnetic field with at least one region with a low field strength in which the magnetization of the particles is in a state of non-saturation, whereas they are in a state of saturation in the remaining region. By an arrangement to shift the area with a low field strength within the examination area, a change in the magnetization of the magnetic particles is brought about which can be detected from outside by a detector. At least one of the magnetic field generator, the arrangement and the detector are arranged at least partially on a medical instrument.

Abstract: An arrangement (10) and a method for imaging an object including a vessel (400), using magnetic particle imaging is provided. An image of the vessel (400) is reconstructed based on a known concentration of the magnetic particles (100) within the vessel (400) and on vessel tree data about the progression of said vessel (400). The reconstruction comprises defining cylinder elements (440) around an approximated image and stepwise and separately adapting the radii of the cylinder elements by integrating over the signal intensity of the cylinder elements, wherein the radii are adapted such that the integrated signal intensity over the cylinder elements equals the intensity expected from the known concentration of the magnetic particles in the vessel.

Abstract: In Magnetic Particle Imaging (MPI) the reconstruction requires the knowledge of a so called system function. This function describes the relation between spatial position and frequency response. For reasonable resolutions and field of views the system function becomes quite large, resulting in large acquisition times for the system function and high memory demand during reconstruction. The present invention proposes to reduce the size of the system function matrix by making use of structural properties of the matrix. Such properties are, for instance, spatial symmetries reducing the number of columns and identical responses at different frequencies reducing the number of rows. In other embodiments the matrix can be transformed to a sparse representation using appropriate base functions.

Abstract: The present invention relates to a device for determining mechanical, particularly elastic, parameters of an examination object, comprising a) at least one arrangement for determining the spatial distribution of magnetic particles in at least one examination area of the examination object, comprising a means for generating a magnetic field with a spatial profile of the magnetic field strength such that there is produced in at least one examination area a first part-area having a low magnetic field strength and a second part-area having a higher magnetic field strength, a means for detecting signals which depend on the magnetization in the examination object, particularly in the examination area, that is influenced by a spatial change in the particles, and a means for evaluating the signals so as to obtain information about the, in particular temporally changing, spatial distribution of the magnetic particles in the examination area; and b) at least one means for generating mechanical displacements, in particu

Abstract: An arrangement and a method for influencing and/or detecting magnetic particles in a region of action is disclosed, which arrangement comprises: —selection means for generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action, —drive means for changing the position in space of the two sub-zones in the region of action by means of a magnetic drive field so that the magnetization of the magnetic particles changes locally, —receiving means for acquiring signals, which signals depend on the magnetization in the region of action, which magnetization is influenced by the change in the position in space of the first and second sub-zone, wherein the selection means and/or the drive means and/or the receiving means comprises at least partially a litz wire/stranded wire.

Abstract: An arrangement and a method for influencing and/or detecting magnetic particles in a region of action includes a selector for generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action. A driver is provided for changing the position in space of the two sub-zones in the region of action by a magnetic drive field so that the magnetization of the magnetic particles changes locally. A receiver is also provided for acquiring signals, which signals depend on the magnetization in the region of action, which magnetization is influenced by the change in the position in space of the first and second sub-zone. Further, a coil arrangement is provided including a surrounding coil and a magnetic field generator such that the surrounding coil almost completely surrounds the magnetic field generator.

Abstract: An arrangement and a method for influencing and/or detecting and/or locating magnetic particles in a region of action include a driver generating a magnetic drive field so that magnetization of the magnetic particles changes. The magnetic particles include first and second magnetic particles. The arrangement further include a receiver having a first receiving probe providing a first signal and a second receiving probe providing a second signal. A detector determines signal features arising from the first particle in the first signal and in the second signal.

Abstract: An arrangement for influencing and/or detecting magnetic particles includes a selector for generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action. A driver changes the position in space of the two sub-zones in the region of action by a magnetic drive field so that the magnetization of the magnetic particles changes locally, and a receiver acquires signals. The signals depend on the magnetization in the region of action, and the magnetization is influenced by the change in the position in space of the first and second sub-zone. The receiver has first and second compensators, each including a compensation coil.

Abstract: An arrangement and a method for influencing and/or detecting magnetic particles in a region of action includes a generator for generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action. A driver is configured to change the position in space of the two sub-zones in the region of action by means of a magnetic drive field so that the magnetization of the magnetic particles changes locally. The generator includes at least one permanent magnet which is at least partially shielded by an electrically high conductive shielding.

Abstract: A method for influencing and/or detecting magnetic particles in a region of action includes generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action. The method further includes changing the position in space of the two sub-zones in the region of action by means of a magnetic drive field so that the magnetization of the magnetic particles change locally, and acquiring signals that depend on the magnetization in the region of action. The magnetization is influenced by the change in the position in space of the first and second sub-zone. The magnetic drive vector of the magnetic drive field is rotated in at least one rotation plane.

Abstract: An arrangement (10) and a method for imaging an object including a vessel (400), using magnetic particle imaging is provided. An image of the vessel (400) is reconstructed based on a known concentration of the magnetic particles (100) within the vessel (400) and on vessel tree data about the progression of said vessel (400). The reconstruction comprises defining cylinder elements (440) around an approximated image and stepwise and separately adapting the radii of the cylinder elements by integrating over the signal intensity of the cylinder elements, wherein the radii are adapted such that the integrated signal intensity over the cylinder elements equals the intensity expected from the known concentration of the magnetic particles in the vessel.

Abstract: An arrangement for influencing and/or detecting magnetic particles, and/or calibrating such an arrangement includes generating a magnetic selection field having a magnetic field strength pattern such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action. A driver changes the position in space of the two sub-zones in the region of action by magnetic drive field so that the magnetization of the magnetic particles changes locally. The arrangement includes a drive signal chain, a detection signal chain, and a receiver for acquiring detection signals that depend on the magnetization in the region of action. The magnetization is influenced by the change in the position in space of the first and second sub-zones. A compensation controller provides a compensation signal to the drive signal chain and/or to the detection signal chain by a coupler.

Abstract: The present invention relates to an arrangement (10) and a corresponding method for measuring the local velocity of a liquid containing a magnetic material (100) in a vessel within a region of action (300), which are particularly suitable to measure the local velocity of the blood in the coronary arteries. This is achieved by following fluctuations of the liquid (containing magnetic particles) in a bolus.

Abstract: In Magnetic Particle Imaging (MPI) the reconstruction requires the knowledge of a so called system function. This function describes the relation between spatial position and frequency response. For reasonable resolutions and field of views the system function becomes quite large, resulting in large acquisition times for the system function and high memory demand during reconstruction. The present invention proposes to reduce the size of the system function matrix by making use of structural properties of the matrix. Such properties are, for instance, spatial symmetries reducing the number of columns and identical responses at different frequencies reducing the number of rows. In other embodiments the matrix can be transformed to a sparse representation using appropriate base functions.

Abstract: The invention relates to an arrangement and a method for determining the spatial distribution of magnetic particles in an examination area. Magnetic field means are used to generate a spatially inhomogeneous gradient magnetic field with at least one region with a low field strength, in which the magnetization of the particles is in a state of non-saturation, whereas they are in a state of saturation in the remaining region. By using change means to shift the area with a low field strength within the examination area, a change in the magnetization of the magnetic particles is brought about which can be detected from outside by detection means and contains information about the spatial distribution of the magnetic particles in the examination area. The magnetic field means or the change means or the detection means or a combination of these means are arranged at least partially on a medical instrument.

Abstract: A separator system with a separator column and a method of fractionating magnetic particles, preferably using field-flow fractionation is proposed, which allows for more effective fractionation of magnetic particles with respect to their dynamic magnetic response in a wide frequency and amplitude range of an applied magnetic field, in particular relevant for magnetic particle imaging (MPI).

Abstract: The invention relates to a method and an apparatus for influencing magnetic particles in a region of action. With the help of an arrangement that has means for generating magnetic fields, a spatially inhomogeneous magnetic field is generated that has at least one zone (301) in which the magnetization of the particles is in a state of non-saturation, whereas it is in a state of saturation in the remaining zone. By displacing the said zone within the region of action, a change in magnetization is produced that can be detected from outside and that gives information on the spatial distribution of the magnetic particles in the region of action. Alternatively, the displacement may also be repeated so frequently that the region of action heats up. To improve the accessibility of the region of action, the said region is situated outside the arrangement having means for generating magnetic fields.

Abstract: A method and an arrangement for influencing and/or detecting magnetic particles in a region of action is disclosed, which method comprises the steps of: —generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action—changing the position in space of the two sub-zones in the region of action by means of a magnetic drive field so that the magnetization of the magnetic particles change locally, —acquiring signals, which signals depend on the magnetization in the region of action, which magnetization is influenced by the change in the position in space of the first and second sub-zone, wherein a magnetic drive vector of the magnetic drive field is rotated in at least one rotation plane.

Abstract: An arrangement for influencing and/or detecting magnetic particles, a method for adjusting such an arrangement and a method for influencing and/or detecting magnetic particles in a region of action is disclosed, which arrangement comprises selection means for generating a magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action, drive means for changing the position in space of the two sub-zones in the region of action by means of a magnetic drive field so that the magnetization of the magnetic particles changes locally, receiving means for acquiring signals, which signals depend on the magnetization in the region of action, which magnetization is influenced by the change in the position in space of the first and second sub-zone, wherein the receiving means comprises a first compensation means and a second compensation means t

Abstract: A method and an arrangement for influencing and/or detecting magnetic particles in a region of action of an examination object is disclosed, which method comprises the steps of: generating a magnetic selection field by means of selection means, the magnetic selection field having a pattern in space of its magnetic field strength such that a first sub-zone having a low magnetic field strength and a second sub-zone having a higher magnetic field strength are formed in the region of action, changing the position in space of the two sub-zones in the region of action by means of a magnetic drive field generated by drive means so that the magnetization of the magnetic particles change locally, acquiring signals by means of receiving means, which signals depend on the magnetization in the region of action, which magnetization is influenced by the change in the position in space of the first and second sub-zone, wherein the selection means and/or the drive means and/or the receiving means are provided at least partly