Abstract: A bone incision block includes an incision guide, a localization reference adjustably attached to the incision guide, a fastener for fastening to a bone, and an adjustment device. The incision guide defines an incision plane, and the localization reference enables the incision plane to be spatially determined. The adjustment device is operatively coupled between the fastener and the incision guide, wherein the incision plane can be set relative to the bone via the adjustment device, and a spatial position of the adjustment device can be determined via a registration element.

Abstract: In a method for controlling a robot arm, which is particularly suitable for use in medical applications, a robot arm (10) with a redundant number of joints is used. A torque acting in at least one joint (12a, 12b) is sensed. By means of a control device, the torque acting in this joint (12a, 12b) is controlled to become substantially 0.

Abstract: A system and apparatus for registering image data of a body, wherein the image data are captured in a detection range and the body is subsequently shifted relative to the detection range or vice versa. The image data are registered from the detected position of a first marker array, arranged in a defined positional relationship relative to the body, and from the detected position of a second marker array, arranged in a defined positional relationship relative to the detection range. The apparatus includes a camera and a first marker array that is arranged in a known positional relationship relative to the body, wherein a second marker array is arranged at a fixed position relative to a detection range.

Abstract: A method for identifying target regions in a tissue for local drug delivery, wherein functional and/or structural anatomical data such as edema and/or resection cavity is captured by an imaging system, and wherein the anatomical data is evaluated by segmentation techniques such as region-growing-based methods with computer assistance to determine a margin around a resection cavity and/or the volume of edema, the margin and/or the volume of edema being the target tissue for local drug delivery.

Abstract: A method for optimizing the interpretation of analog image signals or sequences of image signals output by medical image recording devices. The correlation of consecutively recorded image signals is tested and, based on the test, the image signals are identified as depicting the same or different images. More specifically, if the correlation is not less than a particular threshold value, it is established that the image signals depict the same image. If the correlation is less than a particular threshold value, it is established that the image signals possibly depict different images. Further, the threshold value is dynamically adjusted if the correlation has changed.

Abstract: A method for assigning digital image information to the navigational data of a medical navigation system is provided. The method includes: producing digital image information from a digital image recording device for a patient being monitored by means of the navigation system; transmitting a signal from the image recording device to the navigation system when an image is produced, the signal including assignment information for assigning the image information to the navigational data which apply to the image information; and transmitting the image information from the image recording device to the navigation system, wherein the image information and the corresponding navigational data are assigned to each other.

Abstract: A system and method for verifying the registration of a fluoroscopy image, wherein an artificial landmark array is introduced into a radiation path of a fluoroscopy apparatus, the landmark array being trackable by a computer assisted, medical navigation system. A fluoroscopy recording is produced with the aid of the fluoroscopy apparatus, and a spatial position of the artificial landmark array at the time the fluoroscopy recording is produced is detected and stored. The fluoroscopy recording is registered onto previously acquired body image data of the navigation system using marking points mapped on the fluoroscopy recording, wherein the marking points are maps of markings on the radiation source. Verification is based on a correspondence between an image shadow of the artificial landmark array on the fluoroscopy recording and a position of the landmark array at the time the recording was produced.

Abstract: The invention relates to a method and system for its implementation for referencing or registering a body part in a camera-assisted, medical navigation system, comprising: manually manipulating a light beamer so as to scan a light beam produced thereby across a surface of the body part to sequentially reflect light off the surface of the body part at a plurality of locations; sequentially detecting the light reflected from the surface of the body part at the plurality of locations; determining three-dimensional spatial positions of the plurality of locations based on the detected light; and referencing or registering the body part to medical image data based on the three-dimensional spatial positions of the plurality of locations and surface data determined from the medical image data.

Abstract: The invention relates to a method for registering an image data set for visualizing internal areas of the body. The method can include determining the relative position of an imaging device and of an external body part associated with an internal area of the body and producing an image data set for the internal area of the body by means of the imaging device. The spatial position of the external body part is determined and the image data of the internal area of the body are registered or assigned according to relative position, with respect to the spatial position of the external body part, on the basis of the relative positional information.

Abstract: The invention relates to a Neuro-navigation system comprising a reflector referencing system including passive reflectors and a marker system with markers or landmarks wherein the reflectors as well as the markers as regards their shape, size and material selection as well as their arrangement or attachment on the parts of the body to be operatively treated and on the surgical instruments are configured so that mapping their locations is substantially facilitated or is able to take place more accurately positioned by a computer/camera unit having a graphic display terminal as well as the operative treatment with the aid of this unit. Optionally a surgical microscope, an ultrasonic diagnostic system as well as a calibration procedure may be integrated in the Neuro-navigation system in accordance with the invention.

Abstract: A medical marker trackable by a medical navigation system includes a marker body and a luminescence agent within the marker body. The luminescence agent is operative to emit light without an electrical power supply coupled to the luminescence agent.

Abstract: A phantom for use with diffusion tensor imaging includes a container and a plurality of structures within the container. The structures have anisotropic properties, wherein when the phantom is subjected to diffusion tensor imaging, the structures provide data that is recognized as fiber bundles. The structures can be formed, for example, from cloth tape, silk, wood, glass fibers cord (synthetic and viscose) and/or microfibers.

Abstract: The invention relates to a device for determining the position of a plane or recess of an instrument. The device includes a positioning element that has at least one reference marker, wherein a spatial position of the positioning element can be ascertained, and a position determining element coupled to the positioning element. The position determining element includes at least one reference element that defines a contact plane, and at least one pressing element.

Abstract: A method and apparatus for determining the position of a plane of symmetry of a three-dimensional object from at least two two-dimensional mappings, wherein the mappings are obtained from different directions. At least one characteristic line of the three-dimensional object is determined in one of the two-dimensional mappings, and at least one of the two two-dimensional mappings is morphed. The at least one characteristic line is transferred onto the other two-dimensional mapping, and the characteristic lines from the two-dimensional mappings are back-projected to obtain a three-dimensional curve corresponding to the characteristic lines. A plane of symmetry of the object is ascertained from the course of the three-dimensional curve.

Abstract: A method for planning the stimulation of hyper/hypometabolic cortical areas includes determining anatomical patient data using an imaging method and detecting positions of (i) the hyper/hypometabolic cortical areas in a patient's anatomy and (ii) a position of a stimulator. The positions of the hyper/hypometabolic cortical areas are registered and/or referenced with respect to the position of the stimulation means. An optimal positioning for the stimulator is determined on the basis of the relative positional information.

Abstract: A system for visually combining patient image data from transillumination and/or tomographic imaging methods and/or object image data with video images includes an image display device having an auto-stereoscopic monitor, at least one camera and a computer-assisted navigation system. The navigation system is operable to detect spatial positions of a part of the patient's body via a first tracking device attached to the body, and spatial positions of said image display device and/or said at least one camera via a second tracking device attached to the image display device or the camera, wherein the image display device and the at least one camera are assigned to each other and are formed as a portable unit.

Abstract: A positional marker system is disclosed. The positional marker system includes at least one light-emitting or light-reflecting marker that can be positionally detected by an optical tracking system, such as a medical tracking system, wherein the emitting and/or reflecting portion of the marker or markers is formed as a point light source and/or point light reflector.

Abstract: A method for determining a backflow of a substance along a track of a delivery device includes: a) obtaining parameters that influence the flow of the fluid or substance; b) acquiring information about delivery data; and c) computing the backflow along the delivery device using the information in steps a) and b).

Abstract: A non-diagnostic, stereoscopic x-ray tracking apparatus and method for tracking moving objects in the context of radiotherapy and radiosurgery includes using two x-ray tubes to alternately and repeatedly record x-ray images of an object along two different viewing lines through the target area of an irradiating apparatus. The viewing lines intersect at a known angle, wherein an extrapolated object trajectory is ascertained by determining surfaces and intersecting points. Further, a minimum transversal from the object trajectory onto a current viewing line is ascertained, wherein the three-dimensional position of the tracked object is approximated at the point at which the object trajectory meets the viewing line.

Abstract: The present application relates to a collimator for radio surgery or radio therapy comprising a plurality of leaves; guiding members for guiding a movement of the leaves; a pressing unit for causing a press contact between the leaves and the guiding members; wherein the pressing unit comprises pressing members which are at least configured to allow for a rolling press contact between the pressing members and the leaves.