Abstract: A method of guiding a catheter during a treatment procedure includes acquiring scan data of a patient volume in position for the treatment procedure, registering volume data of the patient volume to the scan data, acquiring fluoroscopic data for the patient volume during the treatment procedure, and generating a volume representation of the fluoroscopic data during the treatment procedure. Generating the volume representation includes superimposing the fluoroscopic data on the volume data based on the registering. The volume representation of the fluoroscopic data is displayed, the volume representation showing a position of a mitral valve clip carried by the catheter relative to the patient volume.

Abstract: In order to achieve improved image quality in X-ray photographs, a medical X-ray imaging system, comprising a flat, planar X-ray source having a surface with X-ray focal points arranged adjacent to one another and an X-ray detector with a sensor surface, is provided. The X-ray source has a plurality of field emission guns with at least one field emission cathode and the surface with focal points of the X-ray source is larger in size than the sensor surface of the X-ray detector.

Abstract: A pacemaker comprises an implantable pacemaker housing and a pacemaker electrode provided to transmit stimulation impulses, and a detector for a current which can be induced by an external magnetic field and flowing through the pacemaker electrode. A circuit element is provided to interrupt this inducible current.

Abstract: A pacemaker comprises an implantable pacemaker housing and a pacemaker electrode which is provided for the transmission of stimulation pulses. A switching element, in particular a reversibly actuatable switching element, is provided for interrupting, reducing or limiting a current flowing through the pacemaker electrode, said current being inducible by an external magnetic field. Parts of the pacemaker are coated with a material, in particular a nanostructured material, which counteracts magnetic effects.

Abstract: The invention refers to a computer implemented method, a computer system a test machine and a computer program product for executing conditioned and qualified test. An ordering instance may order a set of tests, comprising an initial test and a set of follow-up tests, wherein the execution of each of the follow-up tests is dependent of the result of the respective predecessor test, like the initial test. The conditions for executing the follow-up tests are dynamically definable and are analyzed automatically.

Abstract: There is described an X-ray diagnostic device for performing cephalometric, dental or orthopedic examinations on a patient who is seated or standing. The X-ray diagnostic device comprises an X-ray emitter and an image detector embodied as a flat-panel detector that are arranged situated opposite each other on an orbitally moveable mount. The X-ray diagnostic device further comprises means for adjusting the height of the X-ray emitter and the image detector, a digital image system for recording a projection image using rotation angiography, a device for image processing for reconstructing the projection image into a 3D volume image; and a device for correcting physical effects or artifacts for representing soft tissue in the projection image and in the 3D volume image reconstructed therefrom.

Abstract: A medical x-ray acquisition system has an x-ray source and an x-ray detector, the x-ray source having at least one field emission radiator with at least one field emission cathode. The field emission cathode can be formed by a nanostructured material with carbon nanotubes.

Abstract: The invention relates to a medical apparatus. The medical apparatus includes a patient support table with a patient support plate, a medical imaging device, a location and navigation facility integrated at least partially in the patient support table and/or the medical imaging device and a system controller, which is used to operate and/or control both the medical imaging device and also the location and navigation facility.

Abstract: Device for carrying out and monitoring an atherectomy, with which a cutting knife driven in a rotating manner by an external unit and set back to project into an opening in the tip of the catheter can be pressed onto the artery wall by means of an inflatable balloon arranged on the side of the catheter casing opposite the window opening, an atherectomy catheter being connected to an OCT catheter to form an integrated unit.

Abstract: In a method or system for minimally-invasive therapy on a patient, a minimally-invasive therapy apparatus is provided. While performing the minimally-invasive therapy on the patient with a minimally-invasive therapy apparatus, the patient is ventilated with a jet ventilator to reduce a magnitude of the patient's breathing and increase a frequency of the patient's breathing.

Abstract: There is described a system for carrying out and monitoring minimally-invasive interventions with an x-ray device, in which at least one x-ray emitter and a x-ray detector are attached to one or more robot arms of one or more multi-axis articulated-arm robots, with which they are able to be moved for recording images from different projection directions on a predeterminable path around a patient support facility. The system includes a control and evaluation unit with interfaces for catheters and devices for carrying out the minimally-invasive intervention. The control and evaluation unit is embodied for the processing of measurement and/or image data which it receives from the catheters and devices and for control of the catheters and devices for recording the measurement and/or image data. With the proposed system the workflow is covered completely and seamlessly from the examination to the therapy, especially in the treatment of tachycardial arrythmias.

Abstract: A method for recording an x-ray image with an x-ray imaging system having an x-ray source and an x-ray detector is provided. The x-ray source has a plurality of x-ray emitters arranged alongside one another. Each x-ray emitter is assigned to a part area of the x-ray detector. The x-ray beam generated by the x-ray emitter is collimated onto the assigned part area. A first x-ray emitter is activated for emitting a first x-ray beam onto a first part area and image data of the first part area is read out. Subsequently a further x-ray emitter for emitting a further x-ray beam onto a further part area of is activated and image data of the further part area is read out. The steps are repeated until image data for all part areas of the x-ray detector is read out. The read out image data is combined into an x-ray image.

Abstract: To facilitate imaging of a patient two different image recording methods are to be carried out at the same time. An auxiliary fluid, for example a contrast medium or a tracer, may be introduced into the body in each image recording method. The invention proposes mixing the two auxiliary fluids in situ immediately before dispensing to the patient. For this purpose it provides an injector with which the auxiliary fluids may be mixed and supplied to the patient. Devices for controlling dispensing of fluid from containers connected to the injector to produce a mixed solution may be electronically controlled by a control unit which calculates the total quantities, and optionally sub-quantities, of auxiliary fluids, which are used for a mixed solution, before activating the devices.

Abstract: A catheter for removing plaque in a blood vessel and a medical apparatus having a catheter of this kind are proposed. The catheter has a catheter sheath, a cutter for removing plaque disposed in the region of the distal end of the catheter sheath, a catheter tip disposed in the region of the distal end of the catheter sheath and bendable relative to the catheter sheath, and at least one imaging sensor arranged in the region of the distal end of the catheter sheath or in the bendable catheter tip. The image signals recorded by the catheter are transmitted for display purposes to an image processing and playback device. A method for assisting a minimally invasive intervention to remove plaque in a blood vessel by the catheter is also provided.

Abstract: A method or workflow for heart valve replacement, or more precisely emplacement of a prosthetic heart valve, using minimally invasive procedures includes imaging of the patient's heart during the procedure using a multi-access articulated x-ray imaging robot that allows a radiation detector carried by the robot to be moved in arbitrary paths around a patient in order to generate multiple projection exposures of the relevant region of the patient during the procedure. The imaging system is used to generate two dimensional image data during movement of the catheter and prosthetic heart valve into place and to generate three dimensional image data of the prosthetic heart valve within the patient's heart. The two dimensional image data and the three dimensional image data are registered and superimposed for use in positioning of the prosthetic heart valve. Additional imaging may be performed once the prosthetic heart valve is in position.

Abstract: The invention relates to a blood pump and a medical apparatus having a blood pump, which is provided for insertion into the heart of a patient. The blood pump has at least one imaging sensor disposed in the region of the distal end of the blood pump to obtain imaging information in a blood vessel or in the heart. The invention also relates to a method for assisting the positioning of a blood pump in the heart of a patient, wherein image information is recorded inside the body of the patient using the at least one imaging sensor of the blood pump and transmitted in real time to an image processing and playback facility disposed outside the body of the patient for display purposes.

Abstract: Device for implementing endovascular brachytherapy, whereby in the region of the catheter tip, a beta or gamma radiator used to prevent restenosis after the removal of plaque from vessel walls emits radioactive radiation in order to suppress the structural vessel alteration, with simultaneous OCT-monitoring, whereby a brachytherapy is combined with an OCT catheter in an integrated unit.

Abstract: A generation of sectional images of tissue is provided. In this arrangement a first light-conducting fiber of a device for generating sectional tissue images according to the optical coherence tomography principle, which light-conducting fiber is rotatably accommodated within a catheter tube, is additionally connected to a device for generating light in a further wavelength range and for detecting fluorescent light. With its use sectional tissue images produced according to the optical coherence tomography principle can be superimposed with fluorescent images.

Abstract: The invention relates to an implant, a method and a device for determining the position of the implant. To improve the accuracy of determining the position it is proposed to provide a transponder on the implant suitable for determining the position.

Abstract: The invention relates to a catheter device for performing atherectomy, comprising an atherectomy catheter, an IVMRI sensor, position sensors and an image-processing unit which is fashioned for generating combined 2D and/or 3D image recordings based on the data from the sensors.