Abstract: A structural support component such as a head clamp for use in imaging of a part of a patient using Magnetic Resonance and X-ray imaging is formed of different materials each of which has an Aluminum equivalence factor of less than 10 mm and generally less than 6 mm and is arranged such that the presence of the structural support component in an imaging zone of a magnetic resonance imaging system when generating the image does not generate any visually determinable distortion in the image. The materials can be epoxy resin combined with a glass fiber substrate for easily machined parts, polyphenylene sulphide with random fiber reinforcement using glass fibers for high wear parts and polyurethane foam or Polymethacrylimide foam shaped to form a required member and covered on its outer surface with a layer formed from aramid fibers for elongate parts.

Abstract: Method for delivering a stent coupled with a catheter, to a selected position within a lumen of the body of a patient, the method includes the procedures of: selecting a single image of the lumen, among a plurality of images of an image sequence of the lumen, receiving a position input associated with the selected image and respective of the selected position, the position input is defined in a coordinate system respective of a medical positioning system (MPS), detecting the current position of the stent in the coordinate system, according to position data acquired by an MPS sensor attached to the catheter in the vicinity of the stent, superimposing on at least one maneuvering associated image of the lumen, at least one stent representation respective of the current position, and at least one marking representation respective of the position input, according to a real-time organ timing signal of an inspected organ of the body, maneuvering the catheter through the lumen, toward the selected position, according

Abstract: A blood rheology measurement device and a blood rheology measurement method which detect a fingerprint or a vein to thereby measure a positional relation between an artery in a living body and a sensor on the same conditions for each subject during non-invasive measurement and which correctly evaluate a change of blood rheology with elapse of time. A vein pattern or a fingerprint pattern peculiar to a subject is detected, recognized, and stored, a position of a sensor is adjusted so that the detected vein pattern or fingerprint pattern agrees with the stored vein pattern or fingerprint pattern every measurement, and a blood rheology index value indicating blood fluidity (fluidity/viscosity) is measured.

Abstract: An actuator comprises an input shaft (42), a turbine system (38) coupled to the input shaft, air inlet means (32, 34) arranged to direct air flowing through it towards the turbine system to rotate the input shaft, an output shaft (50), and a gearing system (48) connecting the input shaft (42) to the output shaft (50) so that the turbine system (38) can drive the output shaft (50) via the gearing system (48). The air inlet means defines two different flow paths for air whereby the output shaft (50) can be driven in both directions.

Abstract: A system, apparatus, and method for determining a position of an orthopaedic prosthesis includes a patient support platform, a sensor array coupled to the patient support platform, and a controller electrically coupled to the sensor array. The sensor array is configured to generate data signals in response to an output signal of a signal source(s) coupled to the orthopaedic prosthesis and/or a bone of the patient. The controller is configured to determine a position of the orthopaedic prosthesis and/or the bone of the patient based on the data signals.

Abstract: MRI echo data is acquired by performing selective-excitation on regions composed of multi-slices of an object, while the object is moved continuously. The positions of the multi-slices are moved within a predetermined imaging range fixedly determined by an MRI system, according to object movement. This allows positions of the multi-slices to be changed in compliance with the moved object, so that the multi-slices positionally track with the object within the imaging range. Accordingly, a multi-slice imaging technique can be provided, which is executable during even continuous movement of the object.

Abstract: In a high field magnetic resonance imaging apparatus and a method for obtaining signals having a high signal-to-noise ratio with the receiving coil thereof, the apparatus has at least a basic magnet and a receiving coil, the basic magnet generating a basic magnetic field, and the receiving coil being disposed within the basic magnetic field and forming an accommodating cavity. The accommodating cavity of the receiving coil is perpendicular to the direction of the basic magnetic field and is positioned in the field of view of the apparatus. The receiving coil is a loop type coil. The apparatus can further have a bracket for fixing the receiving coil. In the method, a receiving coil is used to receive signals in a magnetic field, wherein the receiving coil is perpendicular to the direction of the magnetic field. By using the apparatus and the corresponding method since the receiving coil can have a loop type design, the signal-to-noise ratio is increased.

Abstract: The present invention includes a method and apparatus for high sensitivity whole body scanning using MR imaging. The invention includes acquiring MR data as the patient moves through the iso-center of the magnet while providing interactive control for the operator to change scan parameters and table motion and direction. The technique allows efficient whole body scanning for fast screening of abnormalities while allowing operator control during the screening process to interrupt table motion and redirect the speed and direction of the table while also allowing control over the acquisition plane, number of sections imaged, inter-section spacing, and the scan location.

Abstract: The present invention is a technique of, and system for, imaging vascular anatomy over distance considerably greater than the maximum practical field of view of a magnetic resonance imaging system while using substantially one contrast agent injection. The technique and system of the present invention acquires image data of a plurality of image volumes which are representative of different portions of the patient's body. The image data of each image volume includes image data which is representative of the center of k-space. The acquisition of image data which is representative of the center of k-space is correlated with a concentration of contrast agent in the artery(ies) residing in the image volume being substantially greater than the concentration of contrast agent in veins and background tissue adjacent to the artery(ies).

Abstract: An apparatus for MRI (Magnetic Resonance Imaging) includes a scanner, a support for a patient, and a supporting bench for the scanner and for the patient support, wherein the scanner and said patient support are mounted on the supporting bench such that a position of at least one of the scanner and the patient support can be changed with respect to the other of the scanner and the patient support.

Abstract: A number of C-FRP molded material sections that are elongated and made from a carbon fiber reinforced plastic are placed parallel to each other. The C-FRP molded material sections are insulated from each other by honeycomb material sections that are made from an insulating and nonmagnetic material. The C-FRP molded material sections and the honeycomb material sections are maintained by a glass fiber layer into a sheet plate shape.

Abstract: A localization mechanism, or fixture, is used in conjunction with a breast coil for breast compression and for guiding a core biopsy instrument during prone biopsy procedures in both open and closed Magnetic Resonance Imaging (MRI) machines. The localization fixture includes a three-dimensional Cartesian positionable guide for supporting and orienting an MRI-compatible biopsy instrument, and, in particular, a sleeve to a biopsy site of suspicious tissues or lesions. A z-stop enhances accurate insertion, prevents over-insertion or inadvertent retraction of the sleeve. The sleeve receives a probe of the MRI-compatible biopsy instrument and may contain various features to enhance its imagability, to enhance vacuum and pressure assist therethrough, etc.

Abstract: Apparatus, system and method for immobilizing a patient's head during imaging. The apparatus includes two substantially C-shaped members that are pivotably mounted to each other. One C-shaped member includes at least one adjustable positioning rod for securing the patient's head during imaging. The apparatus is attached to a magnet resonance imaging apparatus to form a system. The system is used for imaging a patient whose head and neck is immobilized by the apparatus.

Abstract: Medical imaging and navigation system including a processor, a display unit, a database, a medical positioning system (MPS), a two-dimensional imaging system, an inspected organ monitor interface, and a superimposing processor, the MPS including a transducer MPS sensor and a surgical tool MPS sensor, the two-dimensional imaging system including an imaging transducer, the processor being connected to the display unit, to the database, to the MPS, to the two-dimensional imaging system, to the inspected organ monitor interface, and to the superimposing processor, the inspected organ monitor interface being connected to an organ monitor, the surgical tool MPS sensor being firmly attached to a surgical tool, the transducer MPS sensor being firmly attached to the imaging transducer, the organ monitor monitoring an organ timing signal associated with an inspected organ.

Abstract: A positioning system for an MRI system. One aspect includes a support member for moving a patient in a non-horizontal direction within a scanning area of the MRI system, a drive member for driving the support member, and a controller for controlling the drive member to position the patient at a desired location within the scanning area. One aspect includes a guide member attached to a floor beneath the scanning area for guiding a platform member along a first linear axis generally parallel to the floor and perpendicular to a magnetic field axis of a magnet of the MRI system. A controller controls a drive member to position the patient at a desired horizontal location within the scanning area. One aspect includes a frame, a platform member rotatably coupled to the frame. A controller controls a drive member to rotate the platform member and position the patient at a desired angle within the scanning area.

Abstract: When multiple types of imaging are performed while moving a table on which a subject to be examined is placed, an imaging efficiency is improved and a high-quality image is obtained within a short time. Therefore, within a predetermined time interval such as an identical period of a periodic living body motion, a predetermined number of echo signals from each of the multiple types of imaging sequences are acquired and the table on which the subject to be examined is placed is moved. Along with the movement of the table, data items within the same range in the Ky-direction as to each of the imaging sequences are acquired, the moving speed of the table is controlled in such a manner that the acquired data items become continuous in the x-direction, and images are reconstructed based on the data items obtained respectively from the imaging sequences.

Abstract: A medical device includes a sensor for sensing for an MRI gradient magnetic field and a microprocessor for responding to the detected gradient magnetic field by switching from a first electrical signal processing mode to a second electrical signal processing mode, such that electrical signals induced by the gradient magnetic field and an associated RF burst are not counted as cardiac events.

Abstract: A fixture such as a local receiver coil is secured to the patient support of a magnetic resonance imaging system so that the fixture remains in position relative to the support even when the support is in a vertical orientation. The positioning apparatus is arranged to allow adjustment of the fixture position, but to limit such adjustment so that the fixture cannot interfere with the poles or other elements defining the patient-receiving gap of the magnet during movement of the patient support.

Abstract: A method and apparatus for designing and fabricating a pantomesh. The pantomesh includes a plurality of pantomesh elements each including a pairs of links connected to one another by a revolute joint at points between their ends. Each of a plurality of the pantomesh elements is connected using spherical joints to a plurality of neighboring pantomesh elements, wherein a first line that extends along one side of a first pantomesh element forms a first variable angle with a second line that extends along an opposite side of the first pantomesh element. In some embodiments, at least some of the pantomesh elements of the pantomesh are not isosceles trapezoidal elements. In some embodiments, the pantomesh is used to compress breast tissue during an MRI procedure. In some embodiments, the pantomesh is connected to one or more actuators that facilitate remote control of the amount of compression provided.

Abstract: The method includes positioning a patient within a receiving space of a stand-up MRI apparatus and imaging the region of interest of the patient while the patient moves the region of interest. Further in accordance with the method the patient may be positioned such that the patient faces a pole face of a magnet of the MRI apparatus. The apparatus comprises a patient support which allows imaging of a patient's spine with a gravitational load on the spinal system.

Abstract: A medical imaging system having a patient support apparatus is provided. The medical imaging system includes a framework portion and a kit of rigid modular patient support panels, constructed of material having a radiation attenuation coefficient less than that of metals. The panels in sub-combination are removably mounted to and supported by the framework portion. The panels are selectively assembled to define varying surface profiles, including selective gaps there between, that are capable of conforming a patient in contact with the surface profile in a range of supported body positions from supine to seated.

Abstract: A position landmarking system operative with respect to an object includes an operative device including a reference point and configured for movement in a direction relative to the object. The position landmarking system also includes a sensor configured for detecting a stimulus at a location on the sensor and to be disposed relative to the object and corresponding to the direction of movement of the operative device. In response to the stimulus, the reference point of the operative device and the location on the sensor are aligned with each other via movement of the operative device relative to the object. The operative device may be configured for performing an operation relative to a base, the operative device and the base configured for movement relative to each other. The sensor may be configured for communication with the operative device, the base or both.

Abstract: A patient positioning couch includes an illumination apparatus having at least one light source that is arranged in the patient positioning couch. The patient positioning couch is capable of being placed in an examination area of a medical device. Through the arrangement of the at least one light source of the illumination apparatus of the patient positioning couch, it is always ensured that the illumination does not lose its location relative to a patient or another object positioned on the patient positioning couch, even if the position of the patient positioning couch changes, e.g. if the patient positioning couch is moved into or out of the examination area. At the same time an especially space-saving illumination of the examination area can thus be achieved.

Abstract: Interventional immobilization devices used to immobilize a body part and then, during a medical procedure, orient a medical device to treat located tissue within the body part are provided. The devices are designed to immobilize body tissue while preserving, or substantially preserving, the three-dimensional or volumetric integrity of the immobilized tissue. The device enables real time (RT) imaging-guided interventional (IGI) capabilities when the devices are coupled with medical imaging systems, such as magnetic resonance imaging (MRI) systems.

Abstract: A magnetic resonance imaging (MRI) apparatus provides a belt-tension varying unit including a belt winding mechanism that performs reeling and unreeling a belt, a belt driving unit that drives the belt winding mechanism, and belt controlling unit that varies a tension of the belt corresponding to any one of a body length, a body weight, and a part to be imaged of a subject. The belt controlling unit varies the tension of the belt in such a manner that the belt controlling unit makes the tension of the belt large under a circumstance having high possibility where the subject moves, and makes the tension of the belt small under a circumstance having low possibility where the subject moves.

Abstract: A patient transport apparatus having a table configured to support a patient, a base attached to the table, a docking system attached to the base, the docking system configured to couple to a mating docking system of an MR imaging system, and a plurality of bays formed in the base, with each bay configured to receive a patient care module therein. The patient transport apparatus further includes a control system configured to be electrically coupled to each patient care module received within the plurality of bays and configured to centrally control each patient care module.

Abstract: The present invention provides a method for positioning an electromagnetic tracking sensor. The method includes attaching a sensor to an anatomy, obtaining an image of the anatomy, indicating a size of each of a plurality of volumes on the image, where the volumes include a smaller and larger volume, and making a determination of whether a region of interest is encompassed by one or more of the volumes. The present invention also provides a system for positioning an electromagnetic tracking sensor. The system includes a sensor attached to a patient anatomy, an imaging modality obtaining an image of the anatomy, an image processor indicating a size of each of a plurality of volumes on the image, where the plurality of volumes includes a smaller and larger volume, and an operator making a determination of whether a region of interest is encompassed by one or more of the volumes.

Abstract: Anti-pinch point device for imaging platforms are disclosed. The stationary imaging platform includes a slidable cradle and fixed shroud adjacent both sides of the slidable cradle. An inventive overlay is configured for mounting on a slidable cradle. The inventive overlay moves with the slidable cradle. Elongated perimeter regions of the inventive overlay have elongated ridges formed on the underside thereof adjacent the outer edges of the elongated perimeter regions. The elongated ridges serve to prevent objects from becoming pinched between the inventive overlay and the fixed shroud.

Abstract: An imaging table is disclosed which allows for proper positioning of patients in a face down prone position. The table top includes an access hole towards the head of the table. Various modular components may be positioned within the access hole. The modular components are designed to fit with in the access hole so that a support surface may be above or below the top of the table. A modular component may be reversible, providing a support surface above the table in one position and below the table in another position. A hole may be formed in a support surface to fit the patient's face to ease breathing. A modular component is designed to be inserted into the table top access hole in order to use the table with a continuous, flat surface for treatment and/or imaging procedures in which a face down, prone position is not required.

Abstract: A patient table for a common imaging system including Magnetic Resonance and X-ray retains the patient stationary in position prior to, during and subsequent to the imaging and includes a base, a patient support portion cantilevered from the base and a mattress. The RF posterior coil portions for the head and for the chest can be inserted into and removed from an operating position underneath the head and chest of the patient while patient remains supported. The chest coil is inserted from one edge in a cavity in the mattress which is reinforced by a sleeve. The signal communication cable from the chest coil is routed in front of the mattress and over the mattress so as to not to be exposed at the sides. The head coil is carried on a base plate of the patient support alongside the head support which remains in place.

Abstract: A patient table for a common imaging system including Magnetic Resonance and X-Ray retains the patient stationary in position prior to, during and subsequent to the imaging and includes a base, a patient support portion cantilevered from the base and a mattress. A safety system is provided for controlling the operation of the magnet and MR system and the X-Ray systems to allow effective safe operation and controls the movement of the magnet to the table and the movement of the X-Ray imaging systems to and from the table to locations where they do not interfere with the MR imaging.

Abstract: The present invention includes a system that allows for the easy substitution of imaging elements attached to an anatomical positioning device. One or more imaging elements may be mounted to the anatomical positioning device in such a way that the placement of the imaging elements in relation to the anatomical positioning device and the subject can be easily controlled by the operator.

Abstract: A method of examining a patient is provided. The method includes aligning a patient table with a first examination axis, and rotating the patient table around a substantially fixed pivot axis from the first examination axis to a second examination axis using a predetermined angular velocity profile.

Abstract: Magnetic resonance device comprises a patient support table and a main field magnet. The main field magnet is supported so that it can be rotated around at least one axis. The patient support table is able to be rotated around an axis essentially perpendicular in respect of its table surface.

Abstract: MRA data is acquired from an extended field of view by translating the patient through the bore of the MRI system as three-dimensional MRA data sets are acquired and time-resolved images reconstructed. The leading edge of a contrast bolus can be tracked in these images and parameters such as bolus velocity and bolus arrival time can be calculated to provide functional information in addition to anatomical information. Temporal resolution is improved by undersampling peripheral k-space and sampling the center of k-space at a higher temporal rate.

Abstract: A system and method for immobilization of the human breast in a prone position during imaging and radiotherapy. The system includes a vacuum-assisted breast immobilization cup comprising two layers joined together with an air space between. The inner layer has densely perforated holes while the outer layer is airtight. When a negative vacuum is applied to the intermediate airspace the breast tissue is sucked against the mesh wall of the inner layer to preventing sliding. In addition, the cup assembly is locked into a fixed position against the patient torso via a body fixture, as well as against the patient support structure. The established geometric relationship among the cup, chest wall, imaging/treatment table or couch may be accurately repeated. The system further includes a three-dimensional localization system to uniquely place the breast in a coordinate system having fixed geometric relationship with the breast immobilization cup.

Abstract: A neonate imaging system is provided. The neonate imaging system includes a neonate magnetic resonance imaging system and a mobile neonate incubator system adapted for connection to the neonate magnetic resonance imaging system. The mobile neonate incubator system has an extendable and retractable carriage configured to shuttle the neonate between the mobile neonate incubator system and the neonate magnetic resonance imaging system. A neonate magnetic resonance imaging system is also provided. The neonate magnetic resonance imaging system includes a cylindrical magnet. The cylindrical magnet has a bore with dimensions that approximate dimensions of the neonate. A mobile neonate incubator system is further provided. The mobile neonate incubator system has an extendable and retractable neonate shuttling carriage.

Abstract: A patient support structure for positioning a selected anatomy of interest for imaging in a magnetic resonance imaging scanner is disclosed. The structure includes a receptacle for receiving a removable tray that includes connectors for connecting local RF coils housed in the array to the MRI scanner, and connectors for positioning the local RF coils adjacent an area of interest to be imaged. A structure for elevating the patient support is also disclosed.

Abstract: In the continuous moving table imaging, high-speed imaging such as the echo planar method is implemented without deteriorating image quality, realizing a high-speed table movement, namely, high-speed imaging. In the magnetic resonance imaging apparatus, an imaging control means for controlling a magnetic field generation means, a transfer means, and a signal processing means executes an imaging sequence for applying multiple readout gradient magnetic fields to measure multiple nuclear magnetic resonance signals, after one-time application of an exciting RF pulse, while moving the transfer means. On this occasion, a positional deviation of the readout gradient magnetic fields given to the multiple nuclear magnetic resonance signals, caused by the movement of the transfer means, is calculated in advance as correction data, so that the measured nuclear magnetic resonance signals are corrected by the correction data.

Abstract: The present invention includes a technique for use with magnetic resonance imaging that includes the application of a non-linear, higher-order gradient field in the presence of a moving object to be scanned. MR data is acquired as the object moves through the non-linear gradient field. Resulting images are contiguous and do not require the patching together of data in either k-space or image space and result in an image with expanded FOV in a longitudinal direction of the moving object.

Abstract: A fixture such as a local receiver coil is secured to the patient support of a magnetic resonance imaging system so that the fixture remains in position relative to the support even when the support is in a vertical orientation. The positioning apparatus is arranged to allow adjustment of the fixture position, but to limit such adjustment so that the fixture cannot interfere with the poles or other elements defining the patient-receiving gap of the magnet during movement of the patient support.

Abstract: A releasable coupling includes a male coupling portion having a frustoconical male plug portion, and a female coupling portion having a frustoconical female socket portion. The male and female coupling portions are locked together and unlocked by a bidirectional rotatable cam ring which drives one or more balls between the male and female coupling portions.

Abstract: The present invention relates to a housing for a radiofrequency receive coil for magnetic resonance imaging. The housing is designed for a coil wherein the patient lies on top of the coil in the prone position. The housing includes a base portion, a body portion and at least two wing portions. The base and body portions are generally constructed from a rigid material, while the wing portions are constructed from a flexible material. The wing portions may be connected using a connection strap, that applies tension to the wing portions to flex the wing portions in closer vicinity to the patient's body for optimal imaging.

Abstract: An assembly, system, and method particularly adapted for a magnetic resonator apparatus in a magnetic resonance imaging (MRI) scanning system. Provided is a restraining assembly supportable by the supporting assembly and including at least a system that is selectively operable for positioning and restraining at least a portion of the body to be imaged, thereby optimizing image quality.

Abstract: A system to generate a radiological image of a subject from multiple directions is provided. The system comprises a first drive to move the gantry and detector about a vertical axis, a second drive to move the gantry and detector about a horizontal axis, and a handle assembly coupled to the gantry in mobile support of the detector. The handle assembly includes a sensor operable to generate a signal representative of a direction of deflection of a header. The system also includes a controller having instructions generally representative of the steps that include translating the signal from the sensor in the direction of deflection of the header, generating a signal to instruct the first and second drives to move the gantry in the direction of deflection, and moving the gantry in the direction of deflection of the header via the first and second drives in accordance to the signal.

Abstract: Methods and apparatus for measuring the movement of bones during joint motion in a subject using a motion table, an imaging device, and software program for tracking, calculating and graphing the results of the motion study. The apparatus is a motion table used to control the movement of the subject while an imaging device captures images during that movement. The images are analyzed using a computer software program that tracks the individual bones that make up the joint, calculates their relative movements, and graphically displays the results as a function of time.

Abstract: A patient support includes an upper support plate which is provided with a headrest. A base plate is arranged below, and separate from the upper support plate, by a floating mounting. A single narrow, narrow support column is provided, in the region of the headrest, between the support plate and the base plate. An upper face of the support plate consists of a forward zone, a mid-zone and an end zone. A width of the support plate reduces continuously from a widest point in the forward zone to a narrow space in the mid-zone and then widens continuously to the end of the support plate. Left and right sections of the patent support are formed and run horizontally arranged symmetrically about a longitudinal and symmetrical axis of the support plate.

Abstract: An apparatus and method for providing RF shielding for performing nuclear magnetic resonance (“NMR”) procedures, comprising a radio-opaque holder in combination with radio-opaque magnet components to form an RF shield around a patient undergoing an NMR procedure. In embodiments, a radio-opaque holder having a radio-opaque bottom portion and a radio-opaque canopy is adjoined to an NMR magnet having a radio-opaque cryostat and a radio-opaque service end cap to form an RF shield. A patient is placed on a patient support unit located in the holder bottom portion. The patient support unit, including the patient, is then inserted into the cavity of the NMR magnet and a canopy is placed on top of the bottom portion of the holder. An RF shield is thus created comprising the canopy, the bottom portion, the cryostat of the magnet, and an end cap on the service end of the magnet.

Abstract: A multi-layer patient support element comprising at least one structural member, wherein the structural member has a top surface and a bottom surface and wherein the top surface comprises a low radiation absorbing separation member. The support element of the present invention can be integrated into a patient support surface, used as an insert or easily removable from the patient support surface. The support element can reduce or eliminate radiation skin burn caused during radiation therapy.

Abstract: In a method for mapping a large examination volume with an MR spectrometer, at least one examination segment in the examination volume is defined a positioning device is activated such that the examination segment is situated in an optimal measurement volume of the MR spectrometer. In order to improve the image quality, physiological events in the body of the patient are detected by a detection device, in which physiological events an acquisition state, in which an MR acquisition is possible, and a wait state in which no MR acquisition is possible, occur cyclically. In at least one wait state, the positioning device is moved such that the examination segment is situated in the optimal measurement volume of the MR spectrometer.