Patent application number | Description | Published |
20100213063 | ANALYSIS - Analysis methods and apparatus are provided for inspecting a channel, such as a capillary electrophoresis channel, in a device. Configuration and alignment systems are provided, together with optical systems and temperature control. | 08-26-2010 |
20100221726 | RELATING TO DEVICES - A method of analysis, instrument for analysis and device for use in such an instrument are provided, which perform a number of processes need to reach a useful result in the context of a wide variety of samples. The sequence of those processes being optimised. A device, instrument using the device and method of use are also provided which offer reliable performance of a heating based process, with minimal condensation and/or sample loss issues. | 09-02-2010 |
20100267092 | COMPONENTS - A method and device structure are provided which enable an archive sample to be collected and detached relative to a device within which a series of processes, such as PCR are being provided. A chamber structure and method of use are provided in which a controlled and precise volume is obtained by control of the relative resistance to flow through various channels. | 10-21-2010 |
20110100101 | PERFORMANCE - Instruments, devices and methods of analysis are provided which fully integrate a significant number of process steps in a continuous operation. Accurate positioning and full contact between components is also provided by the relative movement the designs allow. An effect interface between a low cost disposable cartridge or device and the instrument to process it is also detailed. | 05-05-2011 |
20120034601 | Porous Materials for Biological Sample Collection - Methods, apparatuses, and systems for collecting samples using hybrid porous materials that include an organic material and an inorganic material. A method for sample collection includes contacting a hybrid porous material and a biological sample to the porous material. The hybrid porous material includes an inorganic material and an organic material. The method includes placing the porous material with the attached sample in a liquid medium, wherein the sample is separated from the porous material in the liquid medium to form a separated sample, and collecting the separated sample in the medium. | 02-09-2012 |
20120082985 | Sensing And Identifying Biological Samples On Microfluidic Devices - A method, system, and apparatus for analysis of a biological sample includes receiving the sample, wherein the sample includes deoxyribonucleic acid (DNA), lysing the sample to obtain access to the DNA included in the sample, purifying the DNA in the sample to isolate the DNA from other components in the sample, amplifying the DNA, separating fragments of the amplified DNA, detecting the separated fragments using laser induced fluorescence, based on the detecting, generating a profile of the DNA in the received sample, comparing the generated profile with profiles of DNA stored in a database, and upon determining that the generated profile matches one of the stored profiles, identifying the source from which the stored profile was obtained, wherein the receiving, lysing, purifying, amplifying, and detecting are performed on corresponding portions of a microfluidic device, and wherein transporting the sample and the DNA to the portions of the microfluidic device and enabling the lysing, purifying, amplifying, separating, detecting, generating, comparing, and identifying are performed automatically without user interaction. | 04-05-2012 |
20130130365 | DEVICES - A method of analysis, instrument for analysis and device for use in such an instrument are provided, which perform a number of processes need to reach a useful result in the context of a wide variety of samples. The sequence of those processes being optimised. A device, instrument using the device and method of use are also provided which offer reliable performance of a heating based process, with minimal condensation and/or sample loss issues. | 05-23-2013 |
20130135618 | ANALYSIS - Analysis methods and apparatus are provided for inspecting a channel, such as a capillary electrophoresis channel, in a device. Configuration and alignment systems are provided, together with optical systems and temperature control. | 05-30-2013 |
20130137103 | ANALYSIS - A method of analysing a sample includes providing a first part of the sample and a second part of the sample. A first analysis is conducted on the first part of the sample and the results of the first analysis are considered. A second analysis is conducted on the second part of the sample, the second analysis being conducted according to a procedure using a value for each of one or more characteristics of the procedure. The consideration of the results of the first analysis is used to determine whether the value for one or more of the characteristics of the procedure is changed to a different value. The second analysis is started before the results of the first analysis are obtained. | 05-30-2013 |
20130138354 | ANALYSIS - A method of verifying the performance of a size standard, formed of a plurality of size standard elements, used in a nucleic acid analysis method is provided. The verification is achieved by introducing the size standard to an analysis stage and performing a size based separation on the size standard. The size based separation defines an experimental position for each size standard element. A comparison is made as to whether or not the experimental position for the size standard element corresponds with expected position. The comparison allows a decision to be made on whether or not to use the size standard, which is dependent upon whether or not the experimental position of the size standard element corresponds with the expected position. | 05-30-2013 |
20130323737 | METHOD AND SYSTEM FOR ANALYZING A SAMPLE - A method and system for analysing a sample are provided, wherein one or more process steps and/or sample processors are provided separately from the instrument, for instance a sample receiving step and sample preparation step and sample extraction step and sample retention step and/or purification step and washing step and elution step, and one or more process steps and/or sample processors provided by the instrument as an integrated set, the one or more process steps and/or sample processors provided by the instrument including a sample receiving step and amplification step and denaturing step and investigation step and detection step and results analysis step and results output step. Other combinations of the split in location of the steps are possible. The optimisation of the split allows the accurate processing by a cartridge based instrument of the sample, whilst fully interfacing with a variety of sample collection and/or preparation approaches. | 12-05-2013 |
20130341191 | PERFORMANCE OF AN ANALYSER FOR BIOLOGICAL SAMPLES - An apparatus ( | 12-26-2013 |
20140178938 | COMPONENTS - A method and device structure are provided which enable an archive sample to be collected and detached relative to a device within which a series of processes, such as PCR are being provided. A chamber structure and method of use are provided in which a controlled and precise volume is obtained by control of the relative resistance to flow through various channels. | 06-26-2014 |
20150047413 | ANALYSIS - A method of verifying the performance of a size standard, formed of a plurality of size standard elements, used in a nucleic acid analysis method is provided. The verification is achieved by introducing the size standard to an analysis stage and performing a size based separation on the size standard. The size based separation defines an experimental position for each size standard element. A comparison is made as to whether or not the experimental position for the size standard element corresponds with expected position. The comparison allows a decision to be made on whether or not to use the size standard, which is dependent upon whether or not the experimental position of the size standard element corresponds with the expected position. | 02-19-2015 |
Patent application number | Description | Published |
20130153425 | ELECTROOSMOTIC PUMP AND METHOD OF USE THEREOF - An electroosmotic pump comprises a plurality of membranes comprising one or more positive electroosmotic membranes and one or more negative electroosmotic membranes, a plurality of electrodes comprising cathodes and anodes, and a power source. Each of the positive electroosmotic membranes and negative electroosmotic membranes are disposed alternatively and wherein at least one of the cathodes is disposed on one side of one of the membranes and at least one of the anodes is disposed on other side of the membrane. At least one of the cathodes or anodes is disposed between a positive electroosmotic membrane and negative electroosmotic membrane. | 06-20-2013 |
20130156615 | SELF CONTAINED ELECTROOSMOTIC PUMP AND METHOD OF MAKING THEREOF - A pump comprises a plurality of electroosmotic membranes comprising one or more positive electroosmotic membranes and one or more negative electroosmotic membranes; and a plurality of electrodes comprising one or more cathodes and one or more anodes. The electrodes are pre-charged, chargeable, rechargeable or combinations thereof and the cathode and anode are operatively coupled to each other. The positive electroosmotic membranes and negative electroosmotic membranes are disposed alternatively and at least one cathode is disposed on one side of one of the membranes and at least one anode is disposed on another side of that membrane, and wherein at least one cathode or anode is disposed between a positive electroosmotic membrane and a negative electroosmotic membrane. The pump is an electroosmotic pump. | 06-20-2013 |
20140154736 | METHODS FOR SAMPLE STORAGE AND DEVICE THEREOF - A method of drying a biological sample disposed on a substrate is provided. The method comprises providing the substrate comprising a sample loading area and a heat source; activating the heat source for generating heat; heating the substrate at least above 65° C.; and drying the biological sample. A device for storing sample is also provided, wherein the device comprises a substrate for biological sample-storage; and a heating component that generates heat to maintain a temperature of at least above 65° C. The heating component may contain one or more reagents, wherein the reagents generate heat to maintain a temperature of at least above 65° C. | 06-05-2014 |
20150027891 | METHODS FOR ELECTROELUTION OF BIOMOLECULES - A method of eluting biomolecules, such as nucleic acids from a biological sample by electroelution is provided. An example of a method includes various steps, such as loading the biological sample to a device comprising a housing, at least two conductive redox polymer electrodes operationally coupled to the housing and a biomolecule impermeable layer disposed on at least one of the electrodes. The loading of sample is followed by initiating an electrical connection to generate an electric field strength sufficient to elute biomolecules from the biological sample; and eluting the biomolecules from the biological sample. | 01-29-2015 |
20150027894 | DEVICES AND SYSTEMS FOR ELUTION OF BIOMOLECULES - A device and a system for eluting biomolecules from biological sample by electroelution are provided. The device for electroelution of biomolecules from a biological sample is constituted with a housing configured to receive an electrolyte and the biological sample, at least two electrodes comprising conductive redox polymers operationally coupled to the housing, and a biomolecule impermeable layer disposed on at least one of the electrodes. The biomolecule impermeable layer disposed on at least one of the electrodes to prevent the biomolecules from reaching the electrode. A system is provided, wherein the system comprises a sample collection port, one or more reservoirs comprising a buffer, a solvent, a reagent or combinations thereof, an device for electroelution, and a controller. | 01-29-2015 |
Patent application number | Description | Published |
20140186841 | SENSING AND IDENTIFYING BIOLOGICAL SAMPLES ON MICROFLUIDIC DEVICES - A method, system, and apparatus for analysis of a biological sample includes receiving the sample, wherein the sample includes deoxyribonucleic acid (DNA), lysing the sample to obtain access to the DNA included in the sample, purifying the DNA in the sample to isolate the DNA from other components in the sample, amplifying the DNA, separating fragments of the amplified DNA, detecting the separated fragments using laser induced fluorescence, based on the detecting, generating a profile of the DNA in the received sample, comparing the generated profile with profiles of DNA stored in a database, and upon determining that the generated profile matches one of the stored profiles, identifying the source from which the stored profile was obtained, wherein the receiving, lysing, purifying, amplifying, and detecting are performed on corresponding portions of a microfluidic device, and wherein transporting the sample and the DNA to the portions of the microfluidic device and enabling the lysing, purifying, amplifying, separating, detecting, generating, comparing, and identifying are performed automatically without user interaction. | 07-03-2014 |