Abstract: The present invention is related to a device for irradiating a patient with a charged particle beam, comprising a number of beam channels attached to a vertical wall, wherein a deflection magnet is present at the end of each channel. This deflection magnet is able to deflect the beam in the vertical plane over a given angle range. The couch whereon the patient is reclining is mobile in the vertical plane, so that the combined movement of the patient, and the variable deflection of the beam allow one point in the patient to be irradiated from several angles in the vertical plane.

Abstract: Volumetric imaging on a radiotherapy apparatus, wherein a body, of which a volumetric image data set is to be produced, is positioned on a couch of the radiotherapy apparatus, and the couch or a bearing area of the couch or the body itself is rotated about a spatially fixed axis. During rotation, multiple x-ray images of the body or of a part of the body are produced and stored by at least one radiation source/image recorder system which is separate from the radiotherapy apparatus and whose radiation path is substantially not parallel to the spatially fixed axis. The rotational position of the couch or the bearing area of the couch or the body itself is detected while the images are produced, and the rotational position is assigned to the corresponding image, wherein a volumetric image data set of the body is reconstructed from the x-ray images by image processing and assignment by a computer system.

Abstract: A method and apparatus to immobilize a breast of a patient and position a fiducial about the exterior of the breast. The apparatus includes a cup forming a cavity to accept the breast of the patient within the cup. The apparatus also includes a fiducial marker coupled to the cup. The fiducial marker has a spatial relationship with a target region of the breast.

Abstract: An imaging device including a rotator having a hollow bore for a patient to move therein and thereout, the rotator being rotatable about a longitudinal axis, at least one linkage arm extending outwards from the rotator, and imaging apparatus mounted on the at least one linkage arm, the imaging apparatus including an imaging source that emits an imaging beam to an imaging detector aligned therewith along an imaging direction, the at least one linkage arm capable of full axial rotation about an imaging isocenter along an entire length of the patient, the isocenter lying along a longitudinal axis, and wherein the imaging apparatus is operative to rotate and to capture images of the patient along the imaging direction as the patient is positioned at an angle in a range of about 0-90° inclusive with respect to the longitudinal axis.

Abstract: Sample mounts (10) for mounting microcrystals of biological macromolecules for X-ray crystallography are prepared by using patterned thin polyimide films (12) that have curvature imparted thereto, for example, by being attached to a curved outer surface of a small metal rod (16). The patterned film (12) preferably includes a tapered tip end (24) for holding a crystal. Preferably, a small sample aperture is disposed in the film for reception of the crystal. A second, larger aperture can also be provided that is connected to the sample aperture by a drainage channel, allowing removal of excess liquid and easier manipulation in viscous solutions. The curvature imparted to the film (12) increases the film's rigidity and allows a convenient scoop-like action for retrieving crystals. The polyimide contributes minimally to background and absorption, and can be treated to obtain desired hydrophobicity or hydrophilicity.

Abstract: A patient alignment system for a radiation therapy system. The alignment system includes multiple external measurement devices which obtain position measurements of components of the radiation therapy system which are movable and/or are subject to flex or other positional variations. The alignment system employs the external measurements to provide corrective positioning feedback to more precisely register the patient and align them with a radiation beam. The alignment system can be provided as an integral part of a radiation therapy system or can be added as an upgrade to existing radiation therapy systems.

Abstract: An apparatus and method for irradiating a product or product stack with a relatively even radiation dose distribution is provided. The apparatus comprises a radiation source, an adjustable collimator, a turn-table capable of receiving a product stack and a control system capable of adjusting the adjustable collimator to vary the geometry of the radiation beam as the product stack is rotated in the radiation beam. Also disclosed is the modulation of the radiation beam energy and power and varying the angular rotational velocity of the product stack in a radiation beam to achieve a low dose uniformity ratio in the product stack.

Abstract: An x-ray technique-based nonintrusive inspection apparatus is provided which is capable of inspecting 600 containers an hour which is small, and which is easily maintainable. Features of the apparatus include “radiation locking” with “active curtains”, “continuous scanning” utilizing an x-ray line scanner subsystem and a CT scanner subsystem, good structural integrity, radiation containment in a self-shielding manner, an easily maintainable driving arrangement, shielding curtains that can be raised and lowered quickly, a container jam release mechanism, and efficient air conditioning.

Abstract: A medical imaging method utilizing pads for supporting the head and neck of a supine patient during the medical imaging, wherein the pads produce either flexion or extension of the cervical vertebrae. A cavity is provided in the pad to define an area of non-contact on the back of the neck and to receive a secondary coil if present.

Abstract: A compression device for a mammography unit includes a compression plate positionable in an x-ray field of the mammography unit, and a radiolucent foam pad removably attached to the compression plate that includes an impermeable exposed surface for contacting tissue disposed on the pad within the x-ray field. The pad includes an adhesive layer on the first surface, or a hook and eye fastener for removably attaching the pad to the compression plate. The pad is attached to the compression plate in the x-ray field of the mammography unit, a breast is compressed using the compression plate, a mammogram of the compressed breast is obtained, the pad producing no significant visual artifact on the mammogram, and thereafter the pad is removed.

Abstract: An apparatus and method for high speed phase modulation of optical beam with reduced optical loss. In one embodiment, an apparatus includes a first region of an optical waveguide disposed in semiconductor material. The first region has a first conductivity type. The apparatus also includes a second region of the optical waveguide disposed in the semiconductor material. The second region has a second conductivity type opposite to the first conductivity type. A first contact is included in the apparatus and is coupled to the optical waveguide at a first location in the first region outside an optical path of an optical beam to be directed through the optical waveguide. The apparatus also includes a first higher doped region included in the first region and coupled to the first contact at the first location to improve an electrical coupling between the first contact and the optical waveguide. The first higher doped region has a higher doping concentration than a doping concentration within the optical path.

Abstract: The present invention is related to a method and apparatus of radiation processing of a product package in a device having a radiation source, a collimator having a variable aperture, and a turntable, said radiation processing resulting in a point in the product package where the dose is minimal (Dmin point) and a point in said product package where the dose is maximal (Dmax point) comprising the steps of: determining a first value of the collimator aperture, by increasing said aperture from a small value, where the Dmax point is located near the centre of the product package, up to a value where the Dmax point moves near to the centre of a small side of said package's rectangular horizontal cross-section; determining a second value of the collimator aperture, by further increasing the collimator aperture up to a point where the Dmin point moves from a point near the corner of the product package to the centre of said package; processing said package with radiation, the collimator aperture being kept at a

Abstract: A portable apparatus for sanitizing and recovering mail and other materials is disclosed. The apparatus is employed after a known or suspected biological attack or contamination event, such as anthrax. Multiple X-ray sources penetrate mail and other materials, and destroy the biological agents. The apparatus is taken to the location of the biological problem, as opposed to shipping contaminated materials to a fixed facility for recovery. Many safety and practical advantages result from this approach to bio-terrorism or to biological contamination events. The design of this apparatus leads to a self-cleaning feature. Airflow control prevents escape of toxic biological materials into the environment.

Abstract: An apparatus and method for irradiating target objects, especially medical stents for in vivo implantation. A linear accelerator provides a high energy electron beam that impinges upon and is received by an x-ray conversion target. The x-ray conversion target is activated by either a static or dynamically moveable electron beam to generate and emit an x-ray flux so as to efficiently intercept the target object. The x-ray flux is directed to the target object for a desired time period and is of sufficiently high energy to efficiently impart radioactive properties to the target object. Alternatively, the target object is positioned within the path of the x-ray flux or is translated within the path during irradiation. Mechanical transport assemblies such as a carousel, rotational and/or linear translator and/or movement tube system also may be provided.

Abstract: The invention relates to an isokinetic gantry arrangement for the isocentric guidance of a particle beam (12), that can be rotated about a horizontal longitudinal axis (16) and has a beam optical system, symbolized by magnets (36, 38, 40), that deflects the particle beam (12) axially infected by a particle beam accelerator, radially and vertically relative to the horizontal longitudinal axis (16), with a largely rotationally-symmetrical primary structure (18) and a secondary structure (30) that holds the magnets (36, 38, 40) and is supported by the primary structure (18), with the secondary structure (30) having a rigidity that is designed so that the vertical displacements of the magnets (36, 38, 40) due to their weight are essentially of equal magnitude (isokinetic) in all the angle of rotation positions of the gantry arrangement (10), and a method for its design.

Abstract: A system and method for improved imaging of a patient through the use of low-dose exposure aided positioning is provided. The patient is positioned in the X-ray system and them imaged with a low-dose pre-shot to verify the positioning of the patient. If the patient's positioning is acceptable, the patient is then imaged with a full-dose X-ray exposure. If the patient's positioning is not acceptable, the patient is repositioned and re-imaged with a low-dose pre-shot until the patient's positioning is acceptable. The low-dose pre-shot may take the form of a low-dose X-ray imaging sequence. The present invention thus provides for rapid verification of the proper positioning of the patient in the X-ray system in order to provide for optimal X-ray image quality. Additionally, the X-ray imaging system thus minimizes the additional exposure to X-ray radiation on the part of the patient.

Abstract: The present invention provides an apparatus for hardening a metal article, comprising a holding device, an energy beam generator pointed at the holding device for directing energy beams at the holding device, and a movement system supporting the holding device, wherein the movement system varies the orientation of the metal article relative to the energy beam generator. The apparatus includes an energy beam delivery instrument system positioned between the energy beam generator and the holding device so that the energy an energy beam delivery instrument directs the energy beam to the holding device. Also, the apparatus includes an auxiliary heating device engaging the holding device, wherein the auxiliary heating device heats the metal article independently from the energy beam.

Abstract: An irradiation system includes a radiation source for providing a radiation beam at a controlled power level. A product location system provides product so that the radiation beam impinges on the product. A sensor system measures an intensity of the radiation beam that passes through the product, and a control system adjusts the power level of the radiation beam based on the intensity of the radiation beam that passes through the product.

Abstract: The present invention discloses an (x-ray) bone densitometer comprising a stand including an “L”-shape handle consisting of an a horizontal and a vertical plate capable of rotating between an horizontal position and a vertical position on the horizontal plate, a handle groove, a first guide pin and a second guide pin, and a stand groove; and a housing including an opening formed perpendicular in the center of the upper part (of said housing), the opening having one or more of the first and the second guide grooves for guiding the movements of first and said second guide pins, a stand settle groove for settling the stand when the stand is settled horizontally, and a stand erecting groove for supporting the stand when the stand is erected in slope.

Abstract: An integrated positioning device for a tomotherapy treatment couch is disclosed. The integrated positioning device has a central frame, two positioning tables, and an attachment arm. The central frame is mounted on the base of the tomotherapy treatment couch. The positioning tables position the moveable tabletop of the treatment couch in the lateral and longitudinal directions. Each table is able to position and lock the tabletop in one of the directions to a high degree of accuracy. The attachment arm connects the positioning tables to the tabletop and holds the tabletop in position for tomotherapy treatments.

Abstract: A rotary accelerator (10) accelerates electrons and discharges them through each of a plurality of discharge ports, electrons discharge from each port having a different energy. The electron beams are channeled to scan horns disposed to irradiate products (14) traveling on conveyers (12). More specifically, some of the scan horns are positioned in pairs with an upper scan horn (18) on one side of the product, and a lower scan horn (20) on an opposite side of the product. A beam splitter splits the electron beam alternately between the two scan horns. Alternately, two scan horns (18, 20) are both disposed on the same side of the product. As yet another alternative, a scan horn (60) is disposed horizontally to irradiate the product from the side. Optionally, one or more of the scan horns includes a x-ray target (26) for converting the electrons into x-rays.

Abstract: Articles move on a conveyor mechanism in a first direction past a radiation source for an irradiation of the articles (by e.g., an electron beam, x-rays or gamma rays) by radiation moving in a second direction substantially perpendicular to the fires direction. The distance between the radiation source and the articles on the conveyor mechanism may be adjusted to provide for the irradiation of each position in the articles and to minimize the amount of the radiation which does not pass into the articles.

Abstract: According to the present invention, improved methods and apparatus are provided for providing cushioning and other ergonomic surfaces on devices requiring the patient or tissue to be compressed, such as radiography machines, fluoroscopy units, mammography units and the like. In particular a radiolucent pad element is provided for releasable attachment to at least one surface of a compression device to be used under x-ray, for example, during mammography. The pad element of the present invention can be disposable or constructed to be reusable and in some cases may be applied directly to the patient's breast. Furthermore, a cushioned paddle is provided wherein the compression paddle and the cushion can be separately or integrally formed.

Abstract: A mechanism for adjusting an object in terms of its position along a vertical axis, and its rotational orientation about either two orthogonal horizontal axes or about a vertical and a horizontal axis, utilizes a set of electric motors in conjunction with a mechanical guiding structure that substantially restricts the movement of the object to the desired translational and rotational directions.

Abstract: An X-ray analysis apparatus for investigating material samples, comprising a device for automatic exchange of the samples (1), which comprises a gripping device (4) for precise removal of any desired sample (1) from a depositing position (3) and for transfer into a transfer and/or measuring position and back to a depositing position (3), wherein at least some of the samples are surrounded by a sample holder (13;13′) in the peripheral direction, is characterized in that the samples or containers containing the samples project past the sample holder in the vertical z direction perpendicular to the horizontal x-y plane and that the gripping device is disposed and structured on a side of the sample to surround parts of a sample or of a sample container which project past the sample holder in an operating position in the z direction and to grasp the sample holder.

Abstract: An X-ray analysis apparatus for investigating material samples, comprising a device for automatic exchange of the samples (1), which comprises a sample table (2) with depositing positions (3) disposed in m lines, wherein the lines extend parallel to an x direction and m≧2, and comprising a gripping device (4) for precise removal of any desired sample (1) from a depositing position (3) and for transfer into a transfer and/or measuring position (5) and back to a depositing position (3), wherein the gripping device (4) can be displaced linearly parallel to the x direction, is characterized in that the sample table (2) can be moved linearly parallel to a y direction, extending at an angle &agr; to the x direction, and independently of the gripping device (4) for gripping samples (1) from different lines, wherein the sample table (2) is disposed parallel to the x-y plane.

Abstract: A first support structure disposes articles relative to a radiation beam, preferably x-rays, to obtain an irradiation of the articles. A second support structure disposes articles relative to the beam and to the articles on the first structure to obtain an irradiation of the articles by radiation passing from the accelerator through the articles on the first structure. A mechanism transfers the particles on the first structure to the second structure, after the irradiation of the articles on the first structure, to obtain the irradiation of the articles on the second structure. Each of the first and second structures may provide for an irradiation of articles initially through first sides of the articles and subsequently through second sides of the articles opposite to first sides. The irradiation of the first sides of the articles on the first and second support structures are preferably synchronous from a time standpoint as are the irradiation of the second sides of the articles on the structures.

Abstract: A method for exact positioning of a patient for radiotherapy or radiosurgery comprising the following steps: a) pre-positioning the patient relative to a linear accelerator, b) producing at least one X-ray image of the patient or one of his/her body parts in the vicinity of the radiation treatment target, c) mapping the X-ray image, d) generating at least one reconstructed image from a three-dimensional set of patient scanning data corresponding to said X-ray image, especially isocentrically, e) superimposing the reconstructed image and the X-ray image, and detecting the positional error electronically or computer-controlled on the basis of specific landmarks in both images, and f) correcting the position of the patient on the basis of the detected positional error.

Abstract: An apparatus and method for irradiating a product or product stack with a relatively even radiation dose distribution (low dose uniformity ratio (DUR). The apparatus comprises a radiation source for producing radiation in the range of X-rays or greater, an adjustable collimator for producing a radiation beam of a desired geometry, a turn-table capable of receiving a product stack and a control system capable of adjusting the adjustable collimator to vary the geometry of the radiation beam as the product stack is rotated in the radiation beam. Also disclosed is the modulation of the radiation beam energy and power and varying the angular rotational velocity of the product stack in a radiation beam to achieve a low dose uniformity ratio in the product stack.

Abstract: Articles move on a conveyor mechanism in a first direction past a radiation source for an irradiation of the articles (by e.g., an electron beam, x-rays or gamma rays) by radiation moving in a second direction substantially perpendicular to the fires direction. The distance between the radiation source and the articles on the conveyor mechanism may be adjusted to provide for the irradiation of each position in the articles and to minimize the amount of the radiation which does not pass into the articles.

Abstract: Apparatus and method for the precision aiming of a radiation beam for treating an internal cancer tumor in a patient. The method of treatment includes introducing at least one reference marker into the patient in a defined and locatable position in relation to the cancer tumor. A defined point in the cross section of the beam is located by a sight that is compared to the position of the reference marker and adjusted to ensure that the treatment beam is directed precisely at the cancer tumor before the remaining doses of radiation are given to the patient. The device according to the invention includes equipment for emitting a treatment beam, a sight arranged in the path of the beam to define a point in the cross section of the beam, and a device to read the beam arranged to receive the beam that has passed through the patient and visualize the position of the at least one said reference marker and the position of the sight.

Abstract: A source of electrons (10) generates a beam of free electrons which are accelerated through a vacuum chamber and collide with a target (34). The target has multiple layers of a high Z material such as tungsten or tantalum or for producing x-ray radiation when bombarded with high energy electrons. The target layers are located in sequence such that electrons that are not terminated in the first layer will pass to the second layer, and so on. This provides more efficient use of the generated electrons. The target layers are sandwiched between layers of a thermally conductive, low Z metal substrate (40), such as aluminum or copper or other material with a high thermal conductivity. Hollow passages (42) are bored in the substrate (40) to allow water or some other coolant to flow within them. As electrons strike the target (34), unwanted heat is generated along with the x-rays. The water carries the heat away from the target.

Abstract: A laminated substrate is prepared, the laminated substrate having two layers including a first film and a second film in tight contact with the first film, the second film being made of a material capable of being etched with synchrotron radiation light. A mask member with a pattern is disposed in tight contact with the surface of the second film of the laminated structure or at a distance from the surface of the second film, the pattern of the mask member being made of a material not transmitting the synchrotron radiation light. The synchrotron radiation light is applied on a partial surface area of the second film via the mask member to etch the second film where the synchrotron radiation light is applied and to expose a partial surface area of the first film on the bottom of an etched area.

Abstract: The invention relates to a method for accurately positioning a patient for radiotherapy and/or radiosurgery, comprising the following steps: the patient is pre-positioned as accurately as possible with respect to a linear accelerator; at least two x-ray images of the patient and/or one of the parts of his body in the vicinity of the radiation target point are produced from different respective recording angles on a single image recorder; the x-ray image is spatially localised; at least one reconstructed image, corresponding to each x-ray image and deriving from a three-dimensional patient scan data set, is produced, the reconstructed images containing the desired image contents of the x-ray images when the patient is correctly positioned; and the real x-ray images are superimposed, and the positioning error is determined electronically and/or with computer guidance by way of particular landmarks and/or the intensity gradient or the contours in the two images; and the position of the patient is corrected by wa

Abstract: A condition, such as an electrical property, of a chamber of a heart is surveyed with a catheter having a condition sensor at its distal tip. A method for surveying the chamber includes the steps of acquiring a first image of the chamber containing topographical information, advancing the distal tip of the catheter into the chamber, acquiring a second image including a representation of the catheter distal tip in the chamber, displaying a superposition of the topographical information extracted from the first image with the second image to generate a displayed superimposed image, acquiring condition information at a point on the chamber displayed on the superimposed image on or near the topographical information, and acquiring condition information at one or more additional points sufficient in number and spacing to permit the generation of a survey map of the condition in the chamber.

Abstract: A medical image radiography apparatus includes a radiography system for taking a medical image of a subject, a supporting mechanism for supporting the radiography system in various radiography positions, a memory unit for storing a plurality of radiography positions, together with their order relation, as sequential automatic positioning data, and a controller for controlling the supporting mechanism on the basis of the sequential automatic positioning data in order to change a radiography position sequentially. In this manner, the plurality of radiography positions are stored, together with their order relation, as the sequential automatic positioning data. When taking a radiograph, the radiography position is sequentially changed in accordance with the sequential automatic positioning data. As a result, the operability concerning a change in the radiography position is improved more than in the conventional case wherein a preset button is repeatedly selected.

Abstract: An x-ray chair, for providing support and comfort to a patient seated therein during an x-ray procedure, comprising a patient carrier and a lower mobility assembly. The patient is seated within the patient carrier, and the lower mobility assembly allows the patient carrier to rotate (via a lazy susan arrangement), tilt forwards and backwards, and tilt sideways. Various adaptations are provided on the patient carrier to maximize the comfort and support for the patient, including removable support pillows, a removably pummel, retractable leg supports, and multipositional arm rests.

Abstract: A scanner comprises a conveyor device, a tunnel housing, a bed assembly housing, an isolating device, and one or two analysis devices. The tunnel housing, together with a top portion of the bed assembly housing, forms a substantially enclosed area for analyzing objects, and the bed assembly housing includes most of the components of the conveyor device. A frameless and coverless tunnel construction method clamps the frameless tunnel around the bed assembly housing, and uses a leaded curtain bracket and slot to increase the enclosed area within the tunnel housing for a given scanner width and height. For a coverless construction, the outside of the tunnel is finished cosmetically and any lead shielding is attached to the inside of the tunnel, instead of the outside. The conveyor device comprises a conveyor belt, rollers and a conveyor tracking device having first and second channels formed in first and second rails.

Abstract: A radiation applicator system is structured to be mounted to a radiation source for providing a predefined dose of radiation for treating a localized volume of tissue, such as the tissue surrounding the site of an excised tumor. The applicator system includes an applicator and, in some embodiments, an adapter. The adapter is formed for fixedly securing the applicator to a radiation source, such as a radiosurgery system which produces a predefined radiation dose profile with respect to a predefined location along its radiation producing probe. The applicator includes a shank and an end cap, wherein the end cap includes a substantially flat or convex treatment surface and is located at a distal end of the applicator shank. A proximate end of the applicator shank couples to the adapter. A distal end of the shank includes the end cap, which is adapted for engaging and preferably supporting the area to be treated with a predefined does of radiation.

Abstract: A positioner useful in stereotactic radiation treatment of a patient by radiation from a radiation source from which a radiation beam is emitted along a beam axis, the positioner including a source adapter arm arranged to be attached to the radiation source such that the position of the source adapter arm is determined by the position of the radiation source, and a frame adapter arm pivotably attached to the source adapter arm about a pivot axis, the frame adapter arm defining a frame axis intersecting the pivot axis, the pivot axis and the frame axis being selected such that when the source adapter arm is attached to the radiation source, the pivot axis and the frame axis both intersect the beam axis.

Abstract: The radiology instrument contains a source emitting X-radiation, a radiological image receiver, a chassis arranged between the X-ray source and the image receiver in order to accommodate an object to be radiographed, and a positioning and guiding device which can be connected to the chassis and can intercept the X-radiation so as to position and guide probes intended to interact with the object. The positioning and guiding device has first means forming a retractable guide grid having holes whose respective axes converge towards the focal point of the source when the first means intercept the conical radiation, and a retractable positioning grid with holes.

Abstract: An integrated positioning device for a tomotherapy treatment couch is disclosed. The integrated positioning device has a central frame, two positioning tables, and an attachment arm. The central frame is mounted on the base of the tomotherapy treatment couch. The positioning tables position the moveable tabletop of the treatment couch in the lateral and longitudinal directions. Each table is able to position and lock the tabletop in one of the directions to a high degree of accuracy. The attachment arm connects the positioning tables to the tabletop and holds the tabletop in position for tomotherapy treatments.

Abstract: A scanner apparatus comprises a tunnel housing having a top, two sides and entrance and exit openings; a bed assembly having a top and side portions wherein the side portions of the bed assembly are substantially fixed to the side portions of the tunnel housing to form a substantially enclosed area; an isolating device located at each of the entrance and the exit of the tunnel housing; a conveyor device for moving an object though the tunnel housing; and an analysis device for analyzing objects within the substantially enclosed area in the tunnel housing. The scanner apparatus has an essentially frameless structure which enhances its capability for scanning tall, wide items.

Abstract: A radiotherapy appliance having a plurality of controllable radiation beams which converge on a focus volume wherein an object being irradiated can be movably positioned relative to the focus volume for varying time periods and with varying radiation exposure rates, optimally under control of a computer. The computer controls the focus volume radiation beam size, intensity, and exposure time for subareas of the treatment target in response to a radiation dose distribution determined for the treatment target. A determination of the radiation beam size, intensity, and dwell time of the focus volume in the target area, is made by initially dividing up the specified treatment area into volume elements or voxels and having biological characteristics of the treatment area assigned to each voxel. The energy deposition incident to each voxel to provide this biological characteristic is then calculated.

Abstract: A fixed ring rail and a moving ring rail sandwiching a moving route of a radiation beam irradiating section therebetween, forms a cylindrical passage with a semicircular cross-section having a horizontal floor. Upon that passage is placed a moving floor composed of a continuous series of multiple plates which are connected freely flexible with each other. The moving floor is moved in synchrony with the rotation of radiation beam irradiation section, and, at the same time, the moving ring rail is allowed to rotate in the reverse direction by the same distance. A horizontal floor necessary as an access floor to the treatment bed and to the radiation beam irradiating section is formed regardless of the rotating position of the radiation beam irradiation section, and the patient is surrounded completely to remove him/her of fear.

Abstract: A device for supporting a patient for stereotactic on-target radiation therapy in the head region of the patient includes a supporting table with a tabletop movable at least in the horizontal plane, and a holding means for arranging a stereotaxis unit fixed on the head of the patient. The holding means is arranged on the tabletop and is associated with the head region of the patient projecting beyond the tabletop. This device provides aiming accuracy also with not highly rigid connections between a stereotaxis unit and the skull of a patient. This device provides a connection means permitting free relative movability at least in the longitudinal direction of the table or the patient, and at least temporarily between the tabletop and the stereotaxis unit.

Abstract: A radiosurgery and radiotherapy system to provide diagnostic imaging and target localization via a patient 3-D mapping means such as a CT scanner or MRI, patient positioning via a four degree of freedom of motion table, and a stereotactic Cobalt 60 therapy unit incorporating multiple sources to therapeutically irradiate a target is provided. Methods of radiosurgery and radiotherapy utilizing the system are also provided. A combination of radiation source configuration, 360 degree rotational characteristics of the therapy unit, and table movement will allow any size and shape of target to be irradiated to therapeutic levels while decreasing radiation exposure to surrounding healthy tissue. A radiation beam catcher which captures greater than 80% and preferably greater than 90 percent of the radiation from the radiation sources is also provided.

Abstract: A radiotherapy appliance having a plurality of controllable radiation beams which converge on a focus volume wherein an object being irradiated can be movably positioned relative to the focus volume for varying time periods and with varying radiation exposure rates, optimally under control of a computer. The computer controls the focus volume radiation beam size, intensity, and exposure time for subareas of the treatment target in response to a radiation dose distribution determined for the treatment target. A determination of the radiation beam size, intensity, and dwell time of the focus volume in the target area, is made by initially dividing up the specified treatment area into volume elements or voxels and having biological characteristics of the treatment area assigned to each voxel. The energy deposition incident to each voxel to provide this biological characteristic is then calculated.

Abstract: A treatment source (4) such as a radiation source, is attached to the inner surface 50a of a drum 50, which drum 50 is mounted to a support (3) so as to be rotatable with respect to the support (3) about a central axis (R) displaced from the treatment source (4). The source provides a treatment beam (X) having a treatment beam axis (TB) extending through the rotation axis (R). A patient support (6) for receiving a patient (2) to locate a target treatment area (6) on the treatment beam axis (TB) is housed at least partially within the passageway defined by the inner surface 50a. The overall size of the apparatus is thus reduced. A preferred treatment technique, to which the apparatus may be adapted, is also described.

Abstract: A radiosurgery and radiotherapy system to provide diagnostic imaging and target localization via a patient 3-D mapping means such as a CT scanner or MRI, patient positioning via a four degree of freedom of motion table, and a stereotactic Cobalt 60 therapy unit incorporating multiple sources to therapeutically irradiate a target is provided. Methods of radiosurgery and radiotherapy utilizing the system are also provided. A combination of radiation source configuration, 360 degree rotational characteristics of the therapy unit, and table movement will allow any size and shape of target to be irradiated to therapeutic levels while decreasing radiation exposure to surrounding healthy tissue. A radiation beam catcher which captures greater than 80% and preferably greater than 90 percent of the radiation from the radiation sources is also provided.