Patent application number | Description | Published |
20110128545 | Fast-Indexing Filter Wheel and Method of Use - Various embodiments of a sequencing system capable of rapidly imaging samples at multiple wavelengths are provided herein. In one embodiment, the system includes a fast-indexing filter wheel having a plurality of excitation and emission filters capable of being rapidly rotated into and out of communication with an excitation source (e.g., an arc lamp, a laser. For example, the filter wheel can be configured to index in an amount of time falling within a range of about 40 ms to about 60 ms, preferably 50 ms. The system can also be configured to account for vibrations resulting from the quick starts and stops of the fast-indexing filter wheel as well as vibrations resulting from other sources. Various methods of rapidly imaging a sample at multiple wavelengths are also provided herein. | 06-02-2011 |
20140238976 | Heated Cover Methods and Technology - A heating apparatus comprising a support base and a microplate having a first surface and an opposing second surface. The microplate is positioned adjacent the support base and comprises a plurality of wells formed in the first surface thereof. Each of the plurality of wells is sized to receive an assay therein. A sapphire crystalline transparent window is positioned adjacent the microplate opposing the support base. A heating device heats the transparent window in response to a control system. | 08-28-2014 |
20140374407 | Heated Cover Methods and Technology - A heating apparatus comprising a support base and a microplate having a first surface and an opposing second surface. The microplate is positioned adjacent the support base and comprises a plurality of wells formed in the first surface thereof. Each of the plurality of wells is sized to receive an assay therein. A sapphire crystalline transparent window is positioned adjacent the microplate opposing the support base. A heating device heats the transparent window in response to a control system. | 12-25-2014 |
20150102025 | Heated Cover Methods and Technology - A heating apparatus comprising a support base and a microplate having a first surface and an opposing second surface. The microplate is positioned adjacent the support base and comprises a plurality of wells formed in the first surface thereof. Each of the plurality of wells is sized to receive an assay therein. A sapphire crystalline transparent window is positioned adjacent the microplate opposing the support base. A heating device heats the transparent window in response to a control system. | 04-16-2015 |
20150191784 | Fast-Indexing Filter Wheel and Method of Use - Various embodiments of a sequencing system capable of rapidly imaging samples at multiple wavelengths are provided herein. In one embodiment, the system includes a fast-indexing filter wheel having a plurality of excitation and emission filters capable of being rapidly rotated into and out of communication with an excitation source (e.g., an arc lamp, a laser. For example, the filter wheel can be configured to index in an amount of time falling within a range of about 40 ms to about 60 ms, preferably 50 ms. The system can also be configured to account for vibrations resulting from the quick starts and stops of the fast-indexing filter wheel as well as vibrations resulting from other sources. Various methods of rapidly imaging a sample at multiple wavelengths are also provided herein. | 07-09-2015 |
Patent application number | Description | Published |
20090197277 | High Density Plate Filler - A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an assay input layer having a first surface and an opposing second surface. The assay input layer can comprise an assay input port extending from the first surface to the second surface and at least one pressure nodule extending from the second surface. An output layer can comprise a plurality of staging capillaries each having an inlet and an outlet. A intermediate layer can be disposed between the assay input layer and the output layer. The intermediate layer can be flexible and comprise a plurality of microfluidic channels and a flow aperture being in fluid communication with the assay input port and the plurality of microfluidic channels. The assay input layer can be moveable relative to the intermediate layer such that the at least one pressure nodule engages the intermediate layer to apply a clamping force on at least a portion of one of the plurality of microfluidic channels to reduce flow of the assay therethrough. | 08-06-2009 |
20090214811 | Film Preparation for Seal Applicator - A sealing cover roll for use in sealing a microplate comprising an elongated carrier liner having a first surface and a second surface. A plurality of sealing covers are releasably carried on the first surface of the elongated carrier liner. Each of the plurality of sealing covers comprises a base stock and an adhesive. The adhesive is operable to retain the base stock to the elongated carrier liner and permit release of the base stock and the adhesive from the elongated carrier liner. A roll core supports a rolled configuration of the elongated carrier liner such that the first surface of the elongated carrier liner faces toward the roll core when rolled. | 08-27-2009 |
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 |
20100196212 | High Density Plate Filler - A filling apparatus for filling a microplate. The microplate can comprise a plurality of wells each sized to receive an assay. A substrate can comprise a first surface and an opposing second surface, a first assay input port for receiving the assay disposed on the first surface, a plurality of staging capillaries extending through the substrate, and a first plurality of microfluidic channels fluidly coupling the first assay input port with at least one of the plurality of staging capillaries. Each of the plurality of staging capillaries can comprise an inlet and an outlet and be sized to receive the assay. | 08-05-2010 |
20100221149 | High Density Plate Filler - A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an output layer having a plurality of capillaries. Each of the plurality of capillaries can comprises an inlet and an outlet. A funnel assembly can comprise a funnel member sized to receive the assay. The funnel member can comprise an outlet for delivering a fluid bead of the assay along a top surface of the output layer and in fluid communication with each of the plurality of capillaries such that a portion of the fluid bead can be drawn within at least some of the plurality of capillaries in response to capillary force. The funnel assembly and the output layer can be moveable relative to each other between a first position and a second position to draw the fluid bead across the top surface. | 09-02-2010 |
20110164862 | HEATED COVER METHODS AND TECHNOLOGY - A heating apparatus comprising a support base and a microplate having a first surface and an opposing second surface. The microplate is positioned adjacent the support base and comprises a plurality of wells formed in the first surface thereof. Each of the plurality of wells is sized to receive an assay therein. A sapphire crystalline transparent window is positioned adjacent the microplate opposing the support base. A heating device heats the transparent window in response to a control system. | 07-07-2011 |
20110220239 | HIGH DENSITY PLATE FILLER - A filling apparatus for filling a microplate. The microplate can comprise a plurality of wells each sized to receive an assay. A substrate can comprise a first surface and an opposing second surface, a first assay input port for receiving the assay disposed on the first surface, a plurality of staging capillaries extending through the substrate, and a first plurality of microfluidic channels fluidly coupling the first assay input port with at least one of the plurality of staging capillaries. Each of the plurality of staging capillaries can comprise an inlet and an outlet and be sized to receive the assay. | 09-15-2011 |
Patent application number | Description | Published |
20110315752 | EXPANDABLE STAR PINATA - An expandable piñata includes a plurality of legs, each leg comprising a plurality of triangular panels hingeably connected via hinge lines, each triangular panel having a proximal end and a terminal end, the terminal ends of the triangular panels converge, and each triangular panel including an inner and an outer surface; each leg hingeably adjustable between a first, substantially flat configuration, and a second expanded configuration in which the inner surfaces of the triangular panels define a cavity; each leg further including one or more tabs hingeably connected to the proximal ends of the one or more triangular panels, and a tab connected to a triangular panel of a first leg coupled to a tab connected to a triangular panel of an adjacent leg; and a locking device connected to two of the plurality of legs and configured to maintain the plurality of legs in the expanded configuration. | 12-29-2011 |
20120028531 | INFLATABLE PINATA - An expandable piñata including a body having a front wall, a rear wall, a left side portion, a right side portion, a top portion, and a bottom portion that define an interior cavity of the piñata; one or more pouches coupled to each of the front wall, back wall, left side portion, and right side portion; and a valve coupled to the body and configured for selectively inflating and deflating the interior cavity, the body being inflatably and deflatably adjustable between a first, substantially flat configuration, and a second expanded configuration. | 02-02-2012 |
Patent application number | Description | Published |
20080281939 | DECOUPLED LOGICAL AND PHYSICAL DATA STORAGE WITHIN A DATABASE MANAGEMENT SYSTEM - The subject matter herein relates to database management systems and, more particularly, to decoupled logical and physical data storage within a database management system. Various embodiments provide systems, methods, and software that separate physical storage from logical storage of data. These embodiments include a mapping of logical storage to physical storage to allow data to be moved within the physical storage to increase database responsiveness. | 11-13-2008 |
20100306493 | SYSTEM, METHOD, AND COMPUTER-READABLE MEDIUM FOR OPTIMIZED DATA STORAGE AND MIGRATION IN A DATABASE SYSTEM - A system, method, and computer-readable medium that facilitate optimized data storage and migration are provided. Storage device zones are tested and assigned respective speed quality ratings. The frequency with which data is accessed within the system may be periodically monitored and a corresponding access frequency quantifier assigned to the data is updated accordingly. The data access frequency quantifier may be associated with a storage device zone speed quality rating. The association between data access frequency quantifiers and the storage device zone speed quality ratings may be made in a hierarchical association such that quantifiable differentials may be ascertained between a particular access frequency quantifier and a storage device zone speed quality rating. In this manner, when no storage zone having a speed quality rating that is associated with data having a particular access frequency quantifier is available for storage of the data, a storage zone having a speed quality rating more proximate the speed quality rating associated with the access frequency quantifier may be identified for migration of the data for storage thereby. | 12-02-2010 |
20110231377 | METHOD OF MANAGING STORAGE AND RETRIEVAL OF DATA OBJECTS - A technique for managing storage of a data object in a storage device involves receiving the data object (A) to store in the storage device, where the data object has an indicator bit pattern (P). Successive compression data transformations are applied to data object A to obtain respective corresponding compressed data objects, and one of these compressed data objects is selected, such that the selected compressed data object (C) has the shortest length with respect to the remaining compressed data objects. Compression information (I) is then associated with the compression data transformation used to generate data object C, and a threshold value T is calculated at least partly from the length of compression information I. If length (C)+T.gtoreq.length (A), then the indicator bit pattern of data object A is reset and the data object A is written to the storage device. If length (C)+T09-22-2011 | |
Patent application number | Description | Published |
20080228215 | IMPLANT INCLUDING A COIL AND A STRETCH-RESISTANT MEMBER - This invention is directed to implantable coils and, more particularly, to a coil implant having a stretch-resistant member internal to the coil. The implant of the invention is able to freely articulate and torque prior to delivery. Once delivered, the implant is no longer stretch resistant and is therefore able to substantially conform to the vascular site. | 09-18-2008 |
20080228216 | IMPLANT, A MANDREL, AND A METHOD OF FORMING AN IMPLANT - This invention is directed to an implant having a coil for embolizing a vascular site, such as aneurysm. The coil has a specific three-dimensional shape that is achieved by winding the coil around a mandrel in a specific pattern and then heat setting the coil and the mandrel, another aspect of the invention. The three-dimensional shape resembles unclosed mobius loops. Also provided are methods of making the coil and methods of embolizing vascular site. | 09-18-2008 |
20100030200 | SYSTEM AND METHOD FOR MECHANICALLY POSITIONING INTRAVASCULAR IMPLANTS - An intravascular implant delivery system carries an implant by retaining an engagement member engaging the implant in a position proximal of an aperture at a distal end of the delivery system. The engagement member is retained proximal to the aperture by a cord that obstructs the movement of the engagement member through the aperture. The engagement member is free to rotate and move within an area defined by the delivery system, allowing the implant to react to forces imparted to the implant by the movement of the delivery system and implant through a delivery catheter. Once the implant is in a desired implant position, the cord is moved away from an aperture and the engagement member is allowed to move away from the delivery system. | 02-04-2010 |
20110313447 | SYSTEM AND METHOD FOR MECHANICALLY POSITIONING INTRAVASCULAR IMPLANTS - An intravascular implant delivery system carries an implant by retaining an engagement member engaging the implant in a position proximal of an aperture at a distal end of the delivery system. The engagement member is retained proximal to the aperture by a cord that obstructs the movement of the engagement member through the aperture. The engagement member is free to rotate and move within an area defined by the delivery system, allowing the implant to react to forces imparted to the implant by the movement of the delivery system and implant through a delivery catheter. Once the implant is in a desired implant position, the cord is moved away from an aperture and the engagement member is allowed to move away from the delivery system. | 12-22-2011 |
20120065720 | SYSTEM AND METHOD FOR MECHANICALLY POSITIONING INTRAVASCULAR IMPLANTS - An intravascular implant delivery system carries an implant by retaining an engagement member engaging the implant in a position proximal of an aperture at a distal end of the delivery system. The engagement member is retained proximal to the aperture by a cord that obstructs the movement of the engagement member through the aperture. The engagement member is free to rotate and move within an area defined by the delivery system, allowing the implant to react to forces imparted to the implant by the movement of the delivery system and implant through a delivery catheter. Once the implant is in a desired implant position, the cord is moved away from an aperture and the engagement member is allowed to move away from the delivery system. | 03-15-2012 |
20120226305 | SYSTEM AND METHOD FOR MECHANICALLY POSITIONING INTRAVASCULAR IMPLANTS - An intravascular implant delivery system carries an implant by retaining an engagement member engaging the implant in a position proximal of an aperture at a distal end of the delivery system. The engagement member is retained proximal to the aperture by a cord that obstructs the movement of the engagement member through the aperture. The engagement member is free to rotate and move within an area defined by the delivery system, allowing the implant to react to forces imparted to the implant by the movement of the delivery system and implant through a delivery catheter. Once the implant is in a desired implant position, the cord is moved away from an aperture and the engagement member is allowed to move away from the delivery system. | 09-06-2012 |