Abstract: The invention relates to a catheter device for treating a blockage of a vessel, with the catheter device featuring a treatment catheter for treating the vessel blockage which is embodied as an integrated unit with front-mounted stent.

Abstract: A system and method of treatment of mitral valve insufficiency using an implantable medical device is described. The system uses a C-arm X-ray device configured to produce computed-tomographic (CT)-like images, and to superimpose the CT-like images on a fluoroscopic image taken with the same X-ray device as a part of the treatment procedure. The fluoroscopic images are used to guide a catheter in the patient so as to place the medical device in a proper position. The efficacy of the procedure may be assessed using a non-invasive or minimally invasive acoustic imaging technique.

Abstract: The invention relates to a medical system for introducing a catheter into a blood vessel of a patient, having a computer and control unit, a means for creating a transparent general view of the position of the vessel, a catheter with a reversible inflatable balloon located in the front area, to the outside of which a stent can be fitted for implanting into the vessel, a position locating system for the catheter with position and location sensors that can determine the position and location of the catheter, the system with at least one OCT (optical coherence tomography) sensor at a catheter end for the close-up area, with at least one IVUS (intravascular ultrasound) imaging sensor at a catheter end for the remote area and the computer and control unit having image processing and image display functions for the image sensors.

Abstract: Device for implementing a cutting balloon intervention by means of a “cutting balloon” catheter, at the distal end of which is disposed an inflatable balloon with axially running blades mounted thereon, and which has IVUS monitoring, whereby the cutting balloon catheter is combined with an IVUS catheter to form an integrated module.

Abstract: The possibility for receiving and processing data from an analytical chip (“lab-on-a-chip”) is integrated into a medical device, such as for example an X-ray imaging system. This means quite simply that it is possible at the medical device to make a diagnosis which could otherwise only be made by a laboratory. There is a separate processor unit, a separate memory a separate input/output unit, adapted to the analytical chip, and a display unit displays both image data from the X-ray imaging system and also analytical data.

Abstract: A method is provided for quickly and simply generating a three-dimensional tomographic x-ray imaging. Tomosynthetic projection images are recorded from different recording angles along a tomosynthetic scanning path and three-dimensional image data is reconstructed from the tomosynthetic projection images. The tomosynthetic projection images are recorded by a tomosynthetic x-ray device with a plurality of x-ray sources arranged on a holder at a distance from one another. Each projection image is recorded by a different x-ray source being fixed in one place during recording the tomosynthetic projection images.

Abstract: A microcapsule for the local treatment of a tumor is proposed. The microcapsule has a support material forming a casing for the microcapsule, an active agent that damages tumor cells, a marker material suitable for use as an x-ray marker, and at least one magnetic nanoparticle. The active agent in particular destroys the tumor cells.

Abstract: A medical examination device for CT imaging and for nuclear medical imaging is provided. The medical examination device has an essentially ring-shaped gantry with a CT imaging arrangement and a nuclear medical imaging arrangement. The gantry has an especially laterally arranged, fold-out or removable segment for creating an access opening to the interior of the gantry.

Abstract: A method for guiding nanoparticles to a target location by a magnetic gradient field and/or holding them at the target location is proposed. The magnetic gradient field is generated by a magnet system with at least one magnet. A focus of the magnet system is registered with an X-ray device. At least one three-dimensional image dataset showing the target location is captured by the X-ray device. The position of the target location is determined manually and/or automatically in the image dataset or in an image dataset determined therefrom and is positioned automatically based on the registration of the focus so that the focus coincides with the position of the target location.

Abstract: An imaging apparatus comprising a ring-shaped gantry is provided. The gantry has a rotor arrangement rotating therein and a radiation source as well as at least one radiation detector. The gantry has at least one gantry segment which can be detached from the ring shape to allow the gantry to be opened laterally. The gantry is arranged on a supporting structure so as to be movable in space. The supporting structure is a floor, wall or ceiling mounted articulated-arm robot having at least four, preferably six, degrees of freedom of movement. The gantry has at least two radiation sources disposed offset by an angle on the rotor arrangement and associated with each of which is at least one radiation detector.

Abstract: An imaging apparatus having a ring-shaped gantry is provided. The gantry has a rotor arrangement rotating therein and a radiation source as well as at least one radiation detector. The gantry has at least one gantry segment which can be detached from the ring shape to allow the gantry to be opened laterally. The gantry is arranged on a supporting structure so as to be movable in space. The supporting structure is a ceiling-mounted stand having at least two degrees of freedom of movement. The gantry has at least two radiation sources disposed offset by an angle on the rotor arrangement and associated with each of which is at least one radiation detector.

Abstract: An apparatus with two pairs of X-ray systems is provided. Each of the X-ray systems has an X-ray source and an X-ray detector. The X-ray detectors differ from each other in their spatial resolution. The X-ray detector with the low spatial resolution makes it possible to record X-ray images in a faster temporal sequence than the other. The doctor carrying out the treatment thus has the option of deciding between the availability of a high spatial resolution and the recording of images in a rapid temporal sequence.

Abstract: A biplane X-ray imaging system is provided. The biplane X-ray imaging system has two recording units disposed in different planes. Each of the recording units has an X-ray detector and an X-ray source. The first recording unit is a phase-contrast recording unit for phase-contrast X-ray imaging. The second recording unit is a conventional recording unit for conventional x-ray imaging.

Abstract: A computed tomography system is provided for allowing it to be deployed more effectively. The computed tomography system features an annular CT gantry with a central opening, a recording system that can be rotated within the gantry. The recording system has an x-ray source and an x-ray detector apparatus. It is possible to remove a part of the ring of the CT gantry from the ring at least partially so that there is a break in the ring, through which an examination object can be moved into the central opening. The computed tomography system is for phase contrast x-ray imaging.

Abstract: The invention relates to a mobile defibrillator which has a housing. In order to improve the diagnostic reliability, particularly in the case of irregular heart rhythms and myocardial infarctions, provision is additionally made for an imaging ultrasound device to be provided in or on the housing.

Abstract: For particularly effective stem cell therapy a nanoparticle is provided. The nanoparticle has a first element consisting of a magnetic material, a support or envelope element consisting of a biodegradable material, a first substance containing an x-ray contrast agent, and a second substance containing stem cells. The stem cells are embodied such that they can be used for angiogenesis or for myogenesis.

Abstract: A guide wire featuring a tip is introduced into a vessel. An expander tool featuring a tip is introduced by pushing it over the guide wire into the vessel. For the expander tool introduced into the vessel at least one image is output to the operator of the expander tool via a viewing device. The image is a representation of the area of the inside of the vessel which, seen in a local direction of advance of the expander tool, lies directly in front of the tip of the expander tool. The image is determined on the basis of at least one image dataset which was acquired by at least one sensor. The at least one sensor is arranged at the tip of the guide wire or on the expander tool behind its tip.

Abstract: Device for removing a total vascular occlusion with the aid of a CTO catheter with expansion tongs arranged at the front end and OCT monitoring, the CTO catheter being combined with an OCT catheter to form an integrated unit.

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 catheter for magnetic navigation in the human body, has a magnet arranged in the catheter tip in order to move a catheter to the desired position in the body by interaction with an external magnetic field, and has a number of separated electromagnets, that can be controlled independently of one another, distributed along the length of the catheter body.