Patent application number | Description | Published |
20080200799 | Mri Involving Contrast Agent With Time Modulated Contrast Enhancement - The present invention provides a method MRI imaging. By applying a time modulation to the contrast enhancement of an MRI contrast agent, the method according to the invention leads to images with improved signal-to-noise ratio in the contrast-enhanced areas, strongly suppressed unwanted signal in the unenhanced areas, and reduced artefacts, such as motion artefacts. | 08-21-2008 |
20080258726 | Distinguishing Bound and Unbound Contrast Agents Using Magnetic Resonance - Magnetic resonance monitoring of a target ( | 10-23-2008 |
20090196830 | ELIMINATION OF CONTRAST AGENT CONCENTRATION DEPENDENCY IN MRI - The present invention relates to a method for MRI imaging to obtain information about a local physiochemical parameter after administration to a patient of a contrast agent comprising at least one non-responsive contrast enhancing entity that does not occur naturally in a human body and at least one responsive contrast enhancing entity attached to or mixed with the non-responsive contrast enhancing entity. By using such non-responsive contrast enhancing entities, a value for the physicochemical parameter can be obtained by acquiring only three images through which the method according to the present invention will be easier to apply in clinical routine since it will be faster and less sensitive to motion or flow artefacts. | 08-06-2009 |
20100247445 | POLYMERIC DRUG CARRIER FOR IMAGE-GUIDED DELIVERY - Described are Chemical Exchange-dependent Saturation Transfer (CEST) contrast agents for Magnetic Resonance Imaging (MRI) comprising a polymersome provided with a paramagnetic agent. The polymersome preferably comprises a polymeric shell enclosing a cavity, wherein the cavity comprises a pool of proton analytes, and wherein the shell allows diffusion of the proton analytes. The polymersome-based CEST MRI contrast agents are suitable as drug carriers useful in MRI-guided drug release. | 09-30-2010 |
20100254913 | NON-SPHERICAL CONTRAST AGENTS FOR CEST MRI BASED ON BULK MAGNETIC SUSCEPTIBILITY EFFECT - In magnetic resonance imaging (MRI) based on chemical exchange-dependent saturation transfer (CEST), a novel carrier for CEST contrast agents is provided. The carrier is non-spherical and comprises a semipermeable shell, wherein the shell comprises a paramagnetic compound. The shell encloses a cavitycomprising an MR analyte, wherein the semipermeable shell allows diffusion of the MR analyte. The CEST effect is based on the 5 bulk magnetic susceptibility effect caused by the anisotropy of the carrier. This leads to a versatile carrier that does not require interaction of the analyte with a paramgnetic chemical shift reagent. | 10-07-2010 |
20110288402 | MR IMAGING WITH CEST CONTRAST ENHANCEMENT - The invention relates to a method of MR imaging of at least a portion of a body of a patient placed in an examination volume of an MR device. The object of the invention is to improve CEST contrast enhanced imaging. The method of the invention comprises the following steps: a) saturation of nuclear magnetization of exchangeable protons of a CEST contrast agent administered to the patient by subjecting the portion of the body to at least one frequency-selective saturation RF pulse matched to the MR frequency of exchangeable protons of the CEST contrast agent, wherein the saturation period, i.e. the duration of the frequency-selective saturation RF pulse, is shorter than the time required for saturation to build up a full CEST contrast enhancement effect when starting from zero saturation; b) generating at least one MR signal of water protons of the body by subjecting the portion of the body to an MR imaging sequence comprising at least one RF pulse and switched magnetic field gradients; c) acquiring sampling the at least one MR signal from the body; d) repeating steps a) to c) a number of times under variation of parameters of the MR imaging sequence, wherein MR signals are acquired and sampled during a saturation build-up period, i.e. before a steady state of the CEST effect is achieved; e) reconstructing a proton-density weighted, CEST contrast-enhanced MR image from the acquired and sampled MR signals. | 11-24-2011 |