Patent application number | Description | Published |
20100218621 | SAMPLE PROCESSING METHODS - A method of processing a sample may include introducing a sample into a vessel, the vessel having proximal and distal ends, the sample being introduced into the proximal end of the vessel; incubating the sample in the vessel with a substance capable of specific binding to a preselected component of the sample; propelling components of the incubated sample, other than the preselected component, toward the proximal end of the vessel by clamping the vessel distal to the incubated sample and compressing the vessel where the incubated sample is contained; propelling the preselected component toward a distal segment of the vessel by clamping the vessel proximal to the preselected component and compressing the vessel where the preselected component is contained; and mixing the preselected component with a reagent in the distal segment of the vessel. | 09-02-2010 |
20100323919 | SAMPLE MULTIPROCESSING - A sample processing vessel may include a branch segment and at least two tracks. The at least two tracks may be fluidly isolated from one another by a permanent seal. The tracks may be segmented by breakable seals. The branch segment may be temporarily isolated from the tracks by breakable seal(s) and put in fluid communication with the tracks once those seal(s) are broken, such that fluid received by the branch segment is divided into portions that pass into both tracks. | 12-23-2010 |
20110064613 | FLUID SAMPLE TESTING SYSTEM - A sample testing vessel may include a flexible plastic tube and a self-sealing injection channel. The flexible plastic tube may have a seal defining a first compartment and a second compartment, wherein the seal comprises a pressure gate providing a fluid-tight seal between first and second compartments and opening upon application of a threshold pressure. The injection channel may be normally substantially free of fluid and capable of fluid communication with the tubule. | 03-17-2011 |
20110143968 | SAMPLE VESSELS - A sample vessel may include a segmented tubule and an interface receiving the tubule. The segmented tubule may include an opening for receiving a sample material and at least one compressible section, the at least one compressible section having a wall constructed at least partially from a material having sufficient flexibility to permit compression of opposed sections of the wall into contact with one another, and at least two segments of the tubule being fluidically isolated from one another by a bonding of a fluid-tight seal between opposed sections of the tubule wall, wherein said fluid-tight seal irreversibly opens upon application of fluid pressure greater than a threshold value to permit selective fluid communication between the opposed sections. The interface may facilitate delivery of a sample material to the tubule through the opening. | 06-16-2011 |
20110207121 | SAMPLE PROCESSING DEVICE FOR PRETREATMENT AND THERMAL CYCLING - A sample processing device may include an opening, a sample pretreatment unit, a thermal cycling reaction unit, and a detection unit. | 08-25-2011 |
20120276532 | SAMPLE PROCESSING DEVICE FOR PRETREATMENT AND THERMAL CYCLING - A sample processing device may include an opening, a sample pretreatment unit, a thermal cycling reaction unit, and a detection unit. | 11-01-2012 |
20130040830 | Fluid Sample Testing System - A sample testing vessel may include a flexible plastic tube and a self-sealing injection channel. The flexible plastic tube may have a seal defining a first compartment and a second compartment, wherein the seal comprises a pressure gate providing a fluid-tight seal between first and second compartments and opening upon application of a threshold pressure. The injection channel may be normally substantially free of fluid and capable of fluid communication with the tubule. | 02-14-2013 |
20150105300 | Sample Processing Methods - A method of processing a sample may include introducing a sample into a vessel, the vessel having proximal and distal ends, the sample being introduced into the proximal end of the vessel; incubating the sample in the vessel with a substance capable of specific binding to a preselected component of the sample; propelling components of the incubated sample, other than the preselected component, toward the proximal end of the vessel by clamping the vessel distal to the incubated sample and compressing the vessel where the incubated sample is contained; propelling the preselected component toward a distal segment of the vessel by clamping the vessel proximal to the preselected component and compressing the vessel where the preselected component is contained; and mixing the preselected component with a reagent in the distal segment of the vessel. | 04-16-2015 |