Patent application number | Description | Published |
20100103410 | DEVICES AND METHODS FOR VISUALIZATION OF A SAMPLE IN A MICROPLATE - Disclosed herein is a microplate comprising a plurality of wells and methods and systems comprising such microplates, wherein an individual well comprises an opaque or non-transparent surface at or near the bottom of the well. The microplates herein can provide improved visualization of the process of filling a well with a liquid reagent. The microplates can be configured to perform chemical analysis, such as polymerase chain reaction (PCR) or nucleic acid detection. | 04-29-2010 |
20100173400 | Thermal Cycler for PCR - An instrument for performing highly accurate PCR employing an assembly, a heated cover, and an internal computer, is provided. The assembly is made up of a sample block, a number of Peltier thermal electric devices, and a heat sink, clamped together. A control algorithm manipulates the current supplied to thermoelectric coolers such that the dynamic thermal performance of a block can be controlled so that pre-defined thermal profiles of sample temperature can be executed. The sample temperature is calculated instead of measured using a design specific model and equations. The control software includes calibration diagnostics which permit variation in the performance of thermoelectric coolers from instrument to instrument to be compensated for such that all instruments perform identically. The block/heat sink assembly can be changed to another of the same or different design. The assembly carries the necessary information required to characterize its own performance in an on-board memory device, allowing the assembly to be interchangeable among instruments while retaining its precision operating characteristics. | 07-08-2010 |
20110057117 | OPTICAL SYSTEM FOR MULTIPLE REACTIONS - Optical systems, and corresponding methods, for multiple reactions are provided. The optical systems are in a fixed position relative to a thermal assembly and include at least one array of excitation sources (e.g., light emitting diodes (LEDs)) configured to output excitation energy along an excitation optical path. In addition, a detector configured to receive emission energy along a detection optical path in the same plane as the excitation optical path is also provided. | 03-10-2011 |
20110201530 | Vacuum Assist For a Microplate - A vacuum assist apparatus can comprise a microplate. The microplate can comprise a first surface and an opposing second surface. A plurality of wells can be formed in the first surface of the microplate. Each of the plurality of wells can be sized to receive an assay therein. A support base can comprise a fluid passage. The microplate can be positioned adjacent and in contact with the support base. A pressure device, in fluid communication with the fluid passage, can exert a vacuum within the fluid passage to actively retain the microplate in the contact with the support base. | 08-18-2011 |
20110257049 | Sample Block Apparatus and Method for Maintaining a Microcard on a Sample Block - A thermal cycling device for thermally cycling samples of biological material contained in a microcard having a top and bottom surface. The thermal cycling device can include a sample block having an upper surface configured for engaging the bottom surface of a microcard, a vacuum device, and a temperature control system operatively connected with the sample block. The upper surface of the sample block may include a plurality of channels, the channels defining spaces between the sample block and the bottom surface of a microcard that may be positioned thereon. The vacuum device may be in fluid communication with the sample block for drawing gas out of the spaces defined by the channels in the sample block. The vacuum device may be configured for substantially maintaining a vacuum between the sample block and microcard so that a retention force is imparted on the microcard to urge the microcard toward the sample block. Methods of maintaining a microcard on a sample block of a thermal cycling device are also provided. | 10-20-2011 |
20110263455 | OPTICAL SYSTEM FOR MULTIPLE REACTIONS - The invention relates to optical systems and methods for measurement of samples in multiple sample vessels using an array of light sources where the light from the light sources is divided into multiple light beams, and each beam is directed to a sample vessel. | 10-27-2011 |
20130045883 | Sample Block Apparatus and Method for Maintaining a Microcard on a Sample Block - A sample block apparatus for a thermal cycler is provided, which can be configured for use with a microcard containing a plurality of samples of biological material. The apparatus can comprise a sample block comprising an upper surface configured for resting a microcard thereon. The upper surface can include surface irregularities for defining spaces between the surface irregularities and a microcard that may be positioned thereon. The apparatus can include a vacuum source in fluid communication with the space between the surface irregularity and the microcard positioned thereon. The vacuum source can be configured to create a substantial vacuum in the spaces thereby imparting a force on the microcard to retain the microcard on the sample block upper surface. The sample block apparatus can also include a temperature control system operatively connected with the sample block to cycle the sample block according to a user-defined profile. | 02-21-2013 |
20130078713 | Thermal Cycler For PCR - An assembly for cycling vials of reaction mixtures through a series of temperature excursions is provided. The assembly can include a sample block for receiving the vials, a plurality of thermoelectric devices, a heat sink, and a clamping mechanism positioned to clamp the thermoelectric devices between the sample block and heatsink. The assembly can also include a thermal connector having a first end and a second end, the first end in close contact with the sample block and the second end in close contact with the heatsink to provide a thermal path between the sample block and the heatsink, the thermal connector being positioned to reduce thermal gradients across the sample block. The assembly can further include means for connecting the assembly to a computing apparatus for controlling the temperature excursions of the assembly. | 03-28-2013 |
20130210674 | WHOLE GENOME EXPRESSION ANALYSIS SYSTEM - A method for simultaneously determining a genetic expression profile for an individual member of a species relative to an entire standard genome for the species. The method can comprise distributing a liquid sample into an array of reaction chambers of a substrate. The array can comprise a primer set and a probe for each polynucleotide target along the entire standard genome. The liquid sample can comprise substantially all genetic material of the member. Each of the reaction chambers can comprise the primer set and the probe for at least one of the polynucleotide targets and a polymerase. The method can further comprise amplifying the liquid sample in the array, detecting a signal emitted by at least one of the probes, and identifying the genetic expression profile in response to the signal. | 08-15-2013 |
20130345097 | Sample Block Apparatus and Method for Maintaining a Microcard on a Sample Block - A thermal cycling device for thermally cycling samples of biological material contained in a microcard having a top and bottom surface. The thermal cycling device can include a sample block having an upper surface configured for engaging the bottom surface of a microcard, a vacuum device, and a temperature control system operatively connected with the sample block. The upper surface of the sample block may include a plurality of channels, the channels defining spaces between the sample block and the bottom surface of a microcard that may be positioned thereon. The vacuum device may be in fluid communication with the sample block for drawing gas out of the spaces defined by the channels in the sample block. The vacuum device may be configured for substantially maintaining a vacuum between the sample block and microcard so that a retention force is imparted on the microcard to urge the microcard toward the sample block. Methods of maintaining a microcard on a sample block of a thermal cycling device are also provided. | 12-26-2013 |
20140106364 | Microfluidic Size-Exclusion Devices, Systems, and Methods - Microfluidic devices, assemblies, and systems are provided, as are methods of manipulating micro-sized samples of fluids. Microfluidic devices having a plurality of specialized processing features are also provided. | 04-17-2014 |
20140323358 | Vacuum Assist for a Microplate - A vacuum assist apparatus can comprise a microplate. The microplate can comprise a first surface and an opposing second surface. A plurality of wells can be formed in the first surface of the microplate. Each of the plurality of wells can be sized to receive an assay therein. A support base can comprise a fluid passage. The microplate can be positioned adjacent and in contact with the support base. A pressure device, in fluid communication with the fluid passage, can exert a vacuum within the fluid passage to actively retain the microplate in the contact with the support base. | 10-30-2014 |
Patent application number | Description | Published |
20080308160 | Device including inductively heatable fluid retainment region, and method - A device is provided that comprises one or more fluid retainment regions each having at least one wall, and one or more loops in heat-transfer communication with the at least one wall. Each of the loops can comprise an electrical conductor that surrounds the same or a different fluid retainment region. A device is provided that comprises one or more fluid retainment regions each having particulates disposed therein. A system is provided that includes a platen adapted to hold a device including fluid retainment regions and one or more electrical conductors in heat-transfer communication with the fluid retainment regions. Methods of heating a sample are also provided. | 12-18-2008 |
20080314431 | Thermal cycler for PCR - An instrument for performing highly accurate PCR employing an assembly, a heated cover, and an internal computer, is provided. The assembly is made up of a sample block, a number of Peltier thermal electric devices, and a heat sink, clamped together. A control algorithm manipulates the current supplied to thermoelectric coolers such that the dynamic thermal performance of a block can be controlled so that pre-defined thermal profiles of sample temperature can be executed. The sample temperature is calculated instead of measured using a design specific model and equations. The control software includes calibration diagnostics which permit variation in the performance of thermoelectric coolers from instrument to instrument to be compensated for such that all instruments perform identically. The block/heat sink assembly can be changed to another of the same or different design. The assembly carries the necessary information required to characterize its own performance in an on-board memory device, allowing the assembly to be interchangeable among instruments while retaining its precision operating characteristics. | 12-25-2008 |
20090029454 | SAMPLE BLOCK APPARATUS AND METHOD FOR MAINTAINING A MICROCARD ON A SAMPLE BLOCK - A thermal cycling device for thermally cycling samples of biological material contained in a microcard having a top and bottom surface. The thermal cycling device can include a sample block having an upper surface configured for engaging the bottom surface of a microcard, a vacuum device, and a temperature control system operatively connected with the sample block. The upper surface of the sample block may include a plurality of channels, the channels defining spaces between the sample block and the bottom surface of a microcard that may be positioned thereon. The vacuum device may be in fluid communication with the sample block for drawing gas out of the spaces defined by the channels in the sample block. The vacuum device may be configured for substantially maintaining a vacuum between the sample block and microcard so that a retention force is imparted on the microcard to urge the microcard toward the sample block. Methods of maintaining a microcard on a sample block of a thermal cycling device are also provided. | 01-29-2009 |
20090285719 | Compressible Transparent Sealing for Open Microplates - An apparatus for sealing a microplate, wherein the apparatus comprises a microplate having a first surface and an opposing second surface. A plurality of wells is formed in the first surface of the microplate, wherein each of the plurality of wells is sized to receive an assay therein. A sealing cover is disposed over the microplate adjacent the plurality of wells and is compliant to accommodate variations between the sealing cover and the microplate and/or distribute loads evenly therebetween. | 11-19-2009 |
20100086977 | Pressure Chamber Clamp Mechanism - In a high-density sequence detection system, an apparatus for transporting a microplate. A control system provides a thermocycler control signal to regulate a desired thermal output of a thermocycler block. A frame has a first side, a second side, and an opening that extends through the first side and the second side. A window is positioned in the opening and a circumferential seal is positioned around a periphery of the opening at the second side. The seal has a peripheral lip that seals against the microplate. A clamp is adapted to engage and displace the frame from an unclamped position to a clamped position, wherein in the unclamped position, the microplate is displaced away from the thermocycler block and in the clamped position, the clamp urges the microplate against the thermocycler block. In some embodiments the peripheral lip is positioned radially inward of the periphery of the opening. | 04-08-2010 |
20100298172 | MICROFLUIDIC SIZE-EXCLUSION DEVICES, SYSTEMS, AND METHODS - Microfluidic devices, assemblies, and systems are provided, as are methods of manipulating micro-sized samples of fluids. Microfluidic devices having a plurality of specialized processing features are also provided. | 11-25-2010 |