Patent application number | Description | Published |
20090035746 | Device and Method for Preparing a Sample for an Analysis and Device and Method for Analyzing a Sample - A device and method are disclosed for preparing a sample for an analysis and a device and method are disclosed for analyzing a sample. In at least one embodiment, a device is disclosed for preparing a sample for analysis including means for binding at lest one biological structure of the sample, means for releasing at least one biological molecule contained in the at least one structure, and means for binding the at least one released molecule. The means for binding the at least one structure and the means for binding the at least one molecule can move. | 02-05-2009 |
20090081650 | Method for Identifying Nucleotide Sequences, Use of the Method and Test Kit - A method is disclosed for identifying nucleotide sequences while using non-labeled free oligonucleotides, labeled free and hybridizable oligonucleotides and non-labeled and immobilized oligonucleotides. | 03-26-2009 |
20100323360 | Oligonucleotide arrangements, processes for their employment and their use - Oligonucleotide arrangements are disclosed which, in each case, have at least two oligonucleotide sequences linked via at least one spacer. A process is disclosed using the oligonucleotide arrangements for the amplification and/or detection of nucleic acid sequences with formation of crosslinked conglomerates. The process can be used, for example, for the sensitive, simple and inexpensive detection of nucleic acid sequences. | 12-23-2010 |
20110008797 | METHOD AND DEVICE FOR THE THERMAL CONTROL OF TEMPERATURE-DEPENDENT ENZYMATIC REACTIONS USING MAGNETIC PARTICLES OR MAGNETIC BEADS AND ALTERNATING MAGNETIC FIELDS - The invention relates to a method for the thermal control of at least one temperature-dependent enzymatic reaction in the presence of magnetic particles, particularly nanoparticles, or magnetic beads in vitro by means of the heating of the magnetic beads or magnetic particles to at least one certain target temperature by means of alternating magnetic fields. The enzymatic reaction which can be controlled with the method according to the invention is preferably a PCR reaction or another reaction for the elongation or amplification of nucleic acids, including DNA, RNA or hybrids or derivatives thereof, which takes place directly on the functionalized magnetic beads. Further aspects of the invention relate to a reactor for carrying out the method and the use of the method or the reactor in analytics and diagnostics. | 01-13-2011 |
20110207619 | ARRANGEMENT FOR PROCESSING A PLURALITY OF SAMPLES FOR ANALYSIS - An arrangement is provided in at least one embodiment, having a magazine for supplying a plurality of microfluidic devices. The microfluidic devices each contain at least one element/device for binding at least one biological molecule, wherein the at least one element/device for binding the at least one biological molecule can be moved relative to the microfluidic device. A sample presumably containing biological molecules to be examined is introduced into the microfluidic device. The biological molecule to be examined is bound by the at least one element/device for binding the biological molecule. In at least one embodiment, the at least one element/device for binding the at least one biological molecule, or the substrate-molecule complex, can then be moved in the microfluidic device, e.g. in accordance with a predetermined reaction sequence, for example by means of a magnetic field. The microfluidic device is transported through the arrangement. | 08-25-2011 |
20120295366 | DIAGNOSTIC SYSTEM - The invention relates to a device for contactless control of magnetic beads on a microfluidic card by means of external magnetic fields, without having to use complicated mechanics or hydraulics. Based on a modulation of the gradient of a magnetic field, magnetic beads are lifted in a first step in a contactless way out of different reaction chambers of the microfluidic card. By means of a translation movement or a variation or modulation of the gradient of a magnetic field, horizontal transport of the magnetic beads over a mechanical barrier of the microfluidic card is facilitated in a second step. It is possible in a third step to use a further modulation of the gradient of the magnetic field to lower the magnetic beads into a desired further fluid zone. | 11-22-2012 |