| Patent application number | Description | Published |
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| 20080269594 | APPARATUS AND METHOD FOR IMAGE ALIGNMENT FOR COMBINED POSITRON EMISSION TOMOGRAPHY (PET) AND MAGNETIC RESONANCE IMAGING (MRI) SCANNER - A phantom and method are provided for co-registering a magnetic resonance image and a nuclear medical image. The phantom includes a first housing defining a first chamber configured to receive a magnetic resonance material upon which magnetic resonance imaging can be performed in order to produce the magnetic resonance image. The phantom also includes three or more second housings configured to be attached to the first housing, where the second housings each define a second chamber configured to receive a radioactive material upon which nuclear imaging can be performed in order to produce the nuclear medical image and upon which the magnetic imaging can be performed in order to produce the magnetic resonance image. The first chamber has a volumetric capacity that is larger than a volumetric capacity of each second chamber. | 10-30-2008 |
| 20090108206 | MR-Compatible Blood Sampling System For PET Imaging Applications in Combined PET/MR Imaging System - An automated blood sampling system for PET imaging applications that can be operated in or very near to the field of view (FOV) of an MR scanner, such as in a combined MR/PET imaging system. A radiation detector uses APDs (avalanche photo-diodes) to collect scintillation light from crystals in which the positron-electron annihilation photons are absorbed. The necessary gamma shielding is made from a suitable shielding material, preferably tungsten polymer composite. Because the APDs are quite small and are magnetically insensitive, they can be operated in the strong magnetic field of an MR apparatus without disturbance. | 04-30-2009 |
| 20090114827 | Method for stabilizing the gain of a pet detection system - A method is disclosed for stabilizing the gain of a PET detection system with a cooling unit. The method includes determining the temperature of at least one component of the PET detection system, comparing the actual gain with a reference value, and actuating the cooling unit to influence the temperature such that the gain tends to the reference value. In at least one embodiment, the reference value is determined by determining the temperature of the at least one component during a test measurement, determining the gain during the test measurement, determining a functional dependence of the gain on the temperature, and selecting the reference value based on the gain to be stabilized. Advantageously, in at least one embodiment the gain can be kept constant using the described method in a simple manner, with the influence of the temperature of the components being taken into account. | 05-07-2009 |
| 20090221903 | Magnetic resonance device having a pet unit - In a magnetic resonance device having a PET unit for acquiring positron emission tomography data and a gradient coil, the PET unit includes a carrier tube on which at least one PET detector is arranged. In at least one embodiment, the carrier tube is arranged inside the gradient coil and is displaceably mounted in such a way that access to the PET detector is made possible by its displacement. This allows easy access to the PET detector during maintenance activities. | 09-03-2009 |
| 20090272517 | Facility for cooling a detection device and detection device - A facility is disclosed for cooling a detection device. In at least one embodiment, the facility includes at least one first cooling unit, through which a thermal contact to the detection device is able to be established and through which heat arising during operation of the detection device is able to be removed; and at least one second cooling unit, which is arranged so that heat from the environment of the detection device can be discharged through it. In at least one embodiment, this has the advantage of largely shielding the first cooling unit from incident heat which allows the detection device to be efficiently cooled. | 11-05-2009 |
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| 20090011116 | REDUCING TEMPLATE WITH COATING RECEPTACLE CONTAINING A MEDICAL DEVICE TO BE COATED - An apparatus and a method for applying a coating to a medical device such as a stent, balloon, or catheter, shortly before insertion or implantation are described. The apparatus and method produce uniform consistent coverage of the medical device in a predictable, repeatable and controllable manner and reduce the need for preservative components in the coating or for excessive curing or hardening of the coating. | 01-08-2009 |
| 20090047414 | METHOD AND APPARATUS FOR APPLICATION OF A FRESH COATING ON A MEDICAL DEVICE - A method, a kit, and an apparatus provide a coating on an implantable medical device. The apparatus includes housing, a sealed reservoir chamber disposed in the housing, a reducing template, and a reservoir access port. The sealed reservoir contains the coating material. The reducing template is sized to receive a medical device therethrough for application of the coating material. A seal breaching mechanism can be provided and adapted to breach the sealed reservoir upon activation of the apparatus. The reservoir access port, which is disposed in the housing, is adapted to fluidly couple the reducing template with the reservoir chamber upon activation of the apparatus for coating the medical device. | 02-19-2009 |
| 20090208552 | CROSS-LINKED FATTY ACID-BASED BIOMATERIALS - Fatty acid-based, pre-cure-derived biomaterials, methods of making the biomaterials, and methods of using them as drug delivery carriers are described. The fatty acid-derived biomaterials can be utilized alone or in combination with a medical device for the release and local delivery of one or more therapeutic agents. Methods of forming and tailoring the properties of said biomaterials and methods of using said biomaterials for treating injury in a mammal are also provided. | 08-20-2009 |
| 20100233231 | USE OF CRYOGENIC PROCESSING TO OBTAIN A SUBSTANTIALLY-THICKENED FORMULATION - The present invention related to substantially-thickened therapeutic formulation comprising an oil-based composition and a therapeutic agent, wherein the therapeutic agent is of a reduced particle size. | 09-16-2010 |
