Abstract: Methods and systems for capture object-based assays, including for determining a measure of the concentration of an analyte molecule or particle in a fluid sample, are described. The methods and systems may relate to high sensitivity detection of analytes, sometimes using assay conditions and sample handling that result in the capture and detection of a high percentage of the analyte molecules or particles in a fluid sample using relatively few capture objects. Apparatuses and methods for immobilizing capture objects with respect to assay sites, in some instances with unexpectedly high efficiencies are also described. Some such apparatuses involve the use of force fields and fluid meniscus forces, alone or in combination, to facilitate or improve capture object immobilization.

Abstract: An implant can be used for the treatment of fat pad atrophy. The implant can be installed in the ball of the foot, the heel of the foot, the hands, or other areas. The implant can supplement or replace a patient's fat pads. In some instances, the implant can include an implant pad having a non-permeable external lining and an internal cavity enclosed by the external lining. The internal cavity can include a filler material. The implant can include features that resist rupture and/or migration.

Abstract: An implant can be used for the treatment of fat pad atrophy. The implant can be installed in the ball of the foot, the heel of the foot, the hands, or other areas. The implant can supplement or replace a patient's fat pads. In some instances, the implant can include an implant pad having a non-permeable external lining and an internal cavity enclosed by the external lining. The internal cavity can include a filler material. The implant can include features that resist rupture and/or migration.

Abstract: An implant can be used for the treatment of fat pad atrophy. The implant can be installed in the ball of the foot, the heel of the foot, the hands, or other areas. The implant can supplement or replace a patient's fat pads. In some instances, the implant can include an implant pad having a non-permeable external lining and an internal cavity enclosed by the external lining. The internal cavity can include a filler material. The implant can include features that resist rupture and/or migration.

Abstract: An implant can be used for the treatment of fat pad atrophy. The implant can be installed in the ball of the foot, the heel of the foot, the hands, or other areas. The implant can supplement or replace a patient's fat pads. In some instances, the implant can include an implant pad having a non-permeable external lining and an internal cavity enclosed by the external lining. The internal cavity can include a filler material. The implant can include features that resist rupture and/or migration.

Abstract: Methods, systems, and computer readable media for controlling processor card power consumption are disclosed. In one example, the method is conducted in a network test equipment chassis that includes a plurality of processor cards that implements network testing functions. The method includes detecting an event or status associated with one of the plurality of processor cards and determining whether the event or status satisfies a condition of at least one power management rule. In response to determining that the event or status satisfies a condition of the at least one power management rule, the method further includes adjusting power consumption of the processor card in the network test equipment in accordance with the at least one power management rule.

Abstract: An insect screen of increased invisibility can be created by using small wire diameter elements and/or increasing the mesh density of the screen. The combination of small wire diameter and increased mesh density provide a screen with a higher Dalquist Rating that becomes invisible at closer distances. A “sweet spot” exists at which a screen with a combination high mesh density and small wire diameter is less visible, while still providing the strength, durability, and quality desired. Further, screens with properties in proximity to this sweet spot also provide a marked increase in invisibility.

Abstract: An insect screen of increased invisibility can be created by using small wire diameter elements and/or increasing the mesh density of the screen. The combination of small wire diameter and increased mesh density provide a screen with a higher Dalquist Rating that becomes invisible at closer distances. A “sweet spot” exists at which a screen with a combination high mesh density and small wire diameter is less visible, while still providing the strength, durability, and quality desired. Further, screens with properties in proximity to this sweet spot also provide a marked increase in invisibility.

Abstract: A detection system and methods for improving the ability of the detection system to recognize labels that are disposed on a polymer. Embodiments of the invention include schemes for selecting emitters and labels used within the system in a manner that allows an increase in the number of distinct labels that can be used together in a system. In other embodiments, the detection system and methods are directed to identifying portions of a detection signal that may be associated with extra labels residing within a detection zone. In other embodiments, the detection system and methods relate to using wide field imaging detectors while reducing out of focus noise contributions to detection signals of the system.

Abstract: A detection system and methods for improving the ability of the detection system to recognize labels that are disposed on a polymer. Embodiments of the invention include schemes for selecting emitters and labels used within the system in a manner that allows an increase in the number of distinct labels that can be used together in a system. In other embodiments, the detection system and methods are directed to identifying portions of a detection signal that may be associated with extra labels residing within a detection zone. In other embodiments, the detection system and methods relate to using wide field imaging detectors while reducing out of focus noise contributions to detection signals of the system. Still, other embodiments relate to the use of linear array detectors to detect labels.

Abstract: A detection system and methods for improving the ability of the detection system to recognize labels that are disposed on a polymer. Embodiments of the invention include schemes for selecting emitters and labels used within the system in a manner that allows an increase in the number of distinct labels that can be used together in a system. In other embodiments, the detection system and methods are directed to identifying portions of a detection signal that may be associated with extra labels residing within a detection zone. In other embodiments, the detection system and methods relate to using wide field imaging detectors while reducing out of focus noise contributions to detection signals of the system. Still, other embodiments relate to the use of linear array detectors to detect labels.

Abstract: An insect screen of increased invisibility can be created by using small wire diameter elements and/or increasing the mesh density of the screen. The combination of small wire diameter and increased mesh density provide a screen with a higher Dalquist Rating that becomes invisible at closer distances. A “sweet spot” exists at which a screen with a combination high mesh density and small wire diameter is less visible, while still providing the strength, durability, and quality desired. Further, screens with properties in proximity to this sweet spot also provide a marked increase in invisibility.

Abstract: A detection system and methods for improving the ability of the detection system to recognize labels that are disposed on a polymer. Embodiments of the invention include schemes for selecting emitters and labels used within the system in a manner that allows an increase in the number of distinct labels that can be used together in a system. In other embodiments, the detection system and methods are directed to identifying portions of a detection signal that may be associated with extra labels residing within a detection zone. In other embodiments, the detection system and methods relate to using wide field imaging detectors while reducing out of focus noise contributions to detection signals of the system.

Abstract: A detection system and methods for improving the ability of the detection system to recognize labels that are disposed on a polymer. Embodiments of the invention include schemes for selecting emitters and labels used within the system in a manner that allows an increase in the number of distinct labels that can be used together in a system. In other embodiments, the detection system and methods are directed to identifying portions of a detection signal that may be associated with extra labels residing within a detection zone. In other embodiments, the detection system and methods relate to using wide field imaging detectors while reducing out of focus noise contributions to detection signals of the system.

Abstract: An insect screen of increased invisibility can be created by using small wire diameter elements and/or increasing the mesh density of the screen. The combination of small wire diameter and increased mesh density provide a screen with a higher Dalquist Rating that becomes invisible at closer distances. A “sweet spot” exists at which a screen with a combination high mesh density and small wire diameter is less visible, while still providing the strength, durability, and quality desired. Further, screens with properties in proximity to this sweet spot also provide a marked increase in invisibility.