Demeester
Fabien Demeester, Marche-En Famenne BE
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20110104359 | Lecithin Based Composition And Its Use In Food - Isolated egg yolk lecithin product comprising a total fat content comprising an ω6 long chain polyunsaturated fatty acid (LCPUFA) portion having at least a phospholipidic fraction ranging from 30 mg/g to 100 mg/g total fat content, use of the product in a fat mixture of in an infant food formula. | 05-05-2011 |
Gordon Demeester, Wickliffe, OH US
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20110012593 | METHOD AND APPARATUS FOR SHIELDING A LINEAR ACCELERATOR AND A MAGNETIC RESONANCE IMAGING DEVICE FROM EACH OTHER - A radiation therapy system comprises a magnetic resonance imaging (MRI) system combined with an irradiation system, which can include one or more linear accelerators (linacs) that can emit respective radiation beams suitable for radiation therapy. The MRI system includes a split magnet system, comprising first and second main magnets separated by gap. A gantry is positioned in the gap between the main MRI magnets and supports the linac(s) of the irradiation system. The gantry is rotatable independently of the MRI system and can angularly reposition the linac(s). Shielding can also be provided in the form of magnetic and/or RF shielding. Magnetic shielding can be provided for shielding the linac(s) from the magnetic field generated by the MRI magnets. RF shielding can be provided for shielding the MRI system from RF radiation from the linac. | 01-20-2011 |
20150065860 | Method And Apparatus For Shielding A Linear Accelerator And A Magnetic Resonance Imaging Device From Each Other - A radiation therapy system comprises a magnetic resonance imaging (MRI) system combined with an irradiation system, which can include one or more linear accelerators (linacs) that can emit respective radiation beams suitable for radiation therapy. The MRI system includes a split magnet system, comprising first and second main magnets separated by gap. A gantry is positioned in the gap between the main MRI magnets and supports the linac(s) of the irradiation system. The gantry is rotatable independently of the MRI system and can angularly reposition the linac(s). Shielding can also be provided in the form of magnetic and/or RF shielding. Magnetic shielding can be provided for shielding the linac(s) from the magnetic field generated by the MRI magnets. RF shielding can be provided for shielding the MRI system from RF radiation from the linac. | 03-05-2015 |
Gordon Demeester, Oakwood, OH US
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20130147476 | ACTIVE RESISTIVE SHIMMING FOR MRI DEVICES - Active resistive shim coil assemblies may be used in magnetic resonance imaging (MRI) systems to reduce in-homogeneity of the magnetic field in the imaging volume. Disclosed embodiments may be used with continuous systems, gapped cylindrical systems, or vertically gapped systems. Disclosed embodiments may also be used with an open MRI system and can be used with an instrument placed in the gap of the MRI system. An exemplary embodiment of the active resistive shim coil assembly of the present disclosure includes active resistive shim coils each operable to be energized by separate currents through a plurality of power channels. In some embodiments, the disclosed active resistive shim coil assemblies allow for various degrees of freedom to shim out field in-homogeneity. | 06-13-2013 |
Joseph Demeester, Gent BE
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20100081215 | COATING FOR MICROCARRIERS - The present invention relates to carriers, which are coated by at least one layer of polyelectrolytes and one layer of magnetic material. These carriers can be manipulated in a magnetic field. The application of the coating of the present invention on microcarriers comprising a fluorescent core results in a carrier with a homogeneous luminescence. Additionally, where the core is provided with a code, this allows improved reading thereof. | 04-01-2010 |
20110082046 | METHOD AND DEVICE FOR THE MANIPULATION OF MICROCARRIERS FOR AN IDENTIFICATION PURPOSE - The present invention relates to a method for the manipulation for an identification purpose of a microcarrier comprising the steps of: (a) an identification purpose step of the microcarrier; and (b) a positioning and orientation step prior to or during the identification purpose step, wherein the identification purpose step is a detection step for the detection of an encoded microcarrier having an anisotropy in its shape. The invention further relates to an apparatus for the manipulation for identification purposes of a microcarrier comprising means for identification purposes such as a microscoper and means for the positioning and orientation of the microcarriers. | 04-07-2011 |
20120293797 | METHODS AND SYSTEMS FOR OPTICAL CHARACTERISATION - An optical device is described for irradiating at least one object in a medium. The optical device may be a microfluidics device, and comprises at least one integrated planar waveguide that enables providing sheet irradiation of objects in the medium. A characterization system including such an optical device and a corresponding method of characterizing an object or a fluid are described. | 11-22-2012 |
20140206569 | ENCODING OF MICROCARRIERS - Encoded microcarriers, and more specifically microcarriers having codes written on them. Methods for writing the codes on the microcarriers, methods of reading the codes, and methods of using the encoded microcarriers. A preferred method of encoding the microcarriers involves exposing microcarriers containing a bleachable substance to a high spatial resolution light source to bleach the codes on the microcarriers. The encoded microcarriers may be used, for example, as support materials in chemical and biological assays and syntheses. | 07-24-2014 |
20150057190 | ENCODING OF MICROCARRIERS - Encoded microcarriers, and more specifically microcarriers having codes written on them. Methods for writing the codes on the microcarriers, methods of reading the codes, and methods of using the encoded microcarriers. A preferred method of encoding the microcarriers involves exposing microcarriers containing a bleachable substance to a high spatial resolution light source to bleach the codes on the microcarriers. The encoded microcarriers may be used, for example, as support materials in chemical and biological assays and syntheses. | 02-26-2015 |
Joseph Demeester, B-9040 Gent BE
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20140249050 | METHOD AND DEVICE FOR THE MANIPULATION OF MICROCARRIERS FOR AN IDENTIFICATION PURPOSE - Disclosed is a method for the manipulation for an identification purpose of a microcarrier comprising the steps of: (a) an identification purpose step of the microcarrier; and (b) a positioning and orientation step prior to or during the identification purpose step. Also disclosed is an apparatus for the manipulation for identification purposes of a microcarrier comprising means for identification purposes such as a microscope or labelling means such as a high spatial resolution light source, and means for the positioning and orientation of the microcarriers. | 09-04-2014 |
Piet Marie Alfons Rosa Demeester, Gent BE
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20120030319 | MANAGEMENT SYSTEM AND METHOD FOR CONFIGURING A NETWORK FOR TRANSFERRING DATA - A method for configuring a network path of a network for transferring a data flow, whereby said path has a network device susceptible of network congestion and arranged for storing at least a part of the data flow. The method includes determining at least one possible path for transferring between locations of source and destination a data flow, the data flow being classified according to a footprint measure indicative of a possible difference between the total amount of incoming data and the total amount of outgoing data in the at least one network device over a time interval having a duration of one or more time units, the time unit is chosen that individual data units of the at least one data flow are distinguishable at byte level by the network device, and configuring the at least one path according to the footprint measure. | 02-02-2012 |
20120066407 | CLUSTERED SYSTEM FOR STORING DATA FILES - A clustered system arranged for supporting a clustered file system. The clustered system comprises at least two nodes and is characterised in that these at least two nodes are arranged for exchanging data traffic of the clustered file system between each other via an IP protocol over a lossless Ethernet network. | 03-15-2012 |