Patent application number | Description | Published |
20160040291 | ROLL-TO-ROLL ELECTROLESS PLATING SYSTEM WITH MICRO-BUBBLE INJECTOR - A roll-to-roll electroless plating system including a reservoir containing plating solution. A web advance system advances a web of media though the plating solution in the reservoir, wherein a plating substance in the plating solution is plated onto predetermined locations on a surface of the web of media. A distribution system injects an inert gas into the plating solution to reduce the amount of dissolved oxygen. The distribution system includes an injector having a converging tube segment, a diverging tube segment downstream of the converging tube segment, a throat formed at a junction of the converging tube segment and the diverging tube segment, and an inlet for the inert gas in proximity to the throat. | 02-11-2016 |
20160040292 | ROLL-TO-ROLL ELECTROLESS PLATING SYSTEM WITH LOW DISSOLVED OXYGEN CONTENT - A roll-to-roll electroless plating system including a sump containing a first volume of a plating solution, and a pan containing a second volume of the plating solution, the second volume being less than the first volume. A web advance system advances a web of media though the plating solution in the pan, wherein a plating substance in the plating solution is plated onto predetermined locations on a surface of the web of media. A pan-replenishing pump moves plating solution from the sump to the pan through a pipe. A distribution system injects an inert gas into the plating solution to reduce the amount of dissolved oxygen. | 02-11-2016 |
20160040293 | METHOD FOR ROLL-TO-ROLL ELECTROLESS PLATING WITH LOW DISSOLVED OXYGEN CONTENT - A method of electrolessly plating a web of media, including advancing the web of media from an input roll through a pan of plating solution to a take-up roll, wherein a plating substance in the plating solution is plated onto predetermined locations on a surface of the web of media. The plating solution is circulated from a sump to the pan and back to the sump through enclosed pipes, such that plating solution in the enclosed pipes is not exposed to air. An amount of dissolved oxygen in the plating solution is measured, and an inert gas is injected into the plating solution at a rate that is controlled according to the measured amount of dissolved oxygen. | 02-11-2016 |
Patent application number | Description | Published |
20140277400 | COATED MEDICAL DEVICES AND METHODS OF MAKING AND USING SAME - Coating methods and related devices are provided. Such devices can include stents. For example, the device can comprise a sidewall and a plurality of pores in the sidewall that are sized to inhibit flow of blood through the sidewall into an aneurysm to a degree sufficient to lead to thrombosis and healing of the aneurysm when the tubular member is positioned in a blood vessel and adjacent to the aneurysm. The device can also comprise an anti-thrombogenic coating distributed over at least a portion of the device such that the pores are substantially free of webs formed by the coating. | 09-18-2014 |
20150081003 | COATED MEDICAL DEVICES AND METHODS OF MAKING AND USING SAME - Coating methods and related devices are provided. Such devices can include stents. For example, the device can comprise a sidewall and a plurality of pores in the sidewall that are sized to inhibit flow of blood through the sidewall into an aneurysm to a degree sufficient to lead to thrombosis and healing of the aneurysm when the tubular member is positioned in a blood vessel and adjacent to the aneurysm. The device can also comprise an anti-thrombogenic coating distributed over at least a portion of the device such that the pores are substantially free of webs formed by the coating. | 03-19-2015 |
20150148882 | ANTI-THROMBOGENIC MEDICAL DEVICES AND METHODS - Methods for applying layers to medical devices and related devices are provided. Such devices can include stents. For example, the device can include a sidewall and a plurality of pores in the sidewall that are sized to inhibit flow of blood through the sidewall into an aneurysm to a degree sufficient to lead to thrombosis and healing of the aneurysm when the tubular member is positioned in a blood vessel and adjacent to the aneurysm. The device can have an anti-thrombogenic outer layer distributed over at least a portion of the device. | 05-28-2015 |
20150290005 | VASCULAR STENT WITH IMPROVED VESSEL WALL APPOSITION - A medical device is provided. The medical device includes a vessel-engaging member attached to a distal end of a delivery wire via a connection mechanism. The vessel-engaging member includes a plurality of rows and a plurality of bridges positioned between each adjacent row, each of the bridges connecting a vertex of a first row with a corresponding vertex of a second row. The vessel-engaging member further includes first and second tapered sections coupled to the connection mechanism, each of the tapered sections projecting from a proximal row and tapering in a direction from the proximal row toward the connection mechanism, each of the tapered sections having a length measured along a longitudinal axis, wherein the length of the first tapered section is less than the length of the second tapered section. | 10-15-2015 |
Patent application number | Description | Published |
20120143237 | VASCULAR REMODELING DEVICE - Described herein are vascular remodeling devices that include a proximal section, an intermediate section, and a distal section. During deployment, the proximal section can expand from a compressed delivery state to an expanded state and anchors the device in an afferent vessel of a bifurcation. The distal section expands from the compressed delivery state to an expanded state that may be substantially planar, approximately semi-spherical, umbrella shaped, or reverse umbrella shaped. The distal section is positioned in a bifurcation junction across the neck of an aneurysm or within an aneurysm. The intermediate section allows perfusion to efferent vessels. Before or after the device is in position, embolic material may be used to treat the aneurysm. The distal section can act as a scaffolding to prevent herniation of the embolic material. The device can be used for clot retrieval with integral distal embolic protection. | 06-07-2012 |
20120143317 | VASCULAR REMODELING DEVICE - Described herein are vascular remodeling devices that include a proximal section, an intermediate section, and a distal section. During deployment, the proximal section can expand from a compressed delivery state to an expanded state and anchors the device in an afferent vessel of a bifurcation. The distal section expands from the compressed delivery state to an expanded state that may be substantially planar, approximately semi-spherical, umbrella shaped, or reverse umbrella shaped. The distal section is positioned in a bifurcation junction across the neck of an aneurysm or within an aneurysm. The intermediate section allows perfusion to efferent vessels. Before or after the device is in position, embolic material may be used to treat the aneurysm. The distal section can act as a scaffolding to prevent herniation of the embolic material. The device can be used for clot retrieval with integral distal embolic protection. | 06-07-2012 |
20120245671 | VASCULAR STENT WITH IMPROVED VESSEL WALL APPOSITION - A medical device is provided. The medical device includes a vessel-engaging member attached to a distal end of a delivery wire via a connection mechanism. The vessel-engaging member includes a plurality of rows and a plurality of bridges positioned between each adjacent row, each of the bridges connecting a vertex of a first row with a corresponding vertex of a second row. The vessel-engaging member further includes first and second tapered sections coupled to the connection mechanism, each of the tapered sections projecting from a proximal row and tapering in a direction from the proximal row toward the connection mechanism, each of the tapered sections having a length measured along a longitudinal axis, wherein the length of the first tapered section is less than the length of the second tapered section. | 09-27-2012 |
20140088678 | VASCULAR STENT WITH IMPROVED VESSEL WALL APPOSITION - A medical device is provided that includes a vessel-engaging member attached to a distal end of a delivery wire. The vessel-engaging member includes a plurality of rows, with each row having a plurality of struts arranged in an alternating pattern such that for each row, a first set of vertices is positioned on a proximal side, and a second set of vertices is positioned on a distal side. The vessel-engaging member further includes a plurality of single bridges positioned between adjacent rows, each of the bridges connecting a vertex of a first row with a corresponding vertex of an adjacent second row. The vessel-engaging member can also include a plurality of double bridges positioned between adjacent rows, each of the double bridges connecting a vertex of a first row with two adjacent vertices of an adjacent second row. | 03-27-2014 |
20140194919 | CONNECTION OF AN ENDOVASCULAR INTERVENTION DEVICE TO A MANIPULATION MEMBER - A device for intravascular intervention can comprise an intervention element, an elongate manipulation member, and a joining element. The elongate member can comprise a hooked portion extending about a proximal portion of the intervention element. The joining element can substantially permanently attach the hooked portion to the intervention element. | 07-10-2014 |
Patent application number | Description | Published |
20090286692 | Cartridge and Method for Sample Analysis - The invention provides a cartridge containing an addressable array for detecting the presence of one or more target analytes in a fluid sample. The cartridge comprises (i) a housing defining a sample inlet, an optical cell, an outlet, a first conduit in fluidic communication with the sample inlet and the optical cell, and a second conduit in fluidic communication with the outlet and the optical cell, (ii) an addressable array disposed within the optical cell; and (iii) a reagent dried upon a fluid contacting surface of at least one of the sample inlet and the first conduit, such that, when a fluid sample is applied to the fluid inlet, the fluid sample mobilizes and transports the reagent to the optical cell. The invention also provides a method of detecting one or more analytes in a fluid sample of interest. | 11-19-2009 |
20110201049 | COMPOSITIONS FOR THE DETECTION OF MICROBIAL CONTAMINANTS - The invention provides methods and compositions for the detection and/or quantification of a microbial contaminant, for example, a bacterial endotoxin or a glucan, in a sample. In particular, the invention provides a test cartridge useful in the practice of hemocyte lysate-based assays for the detection and/or quantification of a microbial contaminant in a sample. In addition, the invention provides methods of making and using such cartridges. In addition, the invention provides a rapid, sensitive, multi-step kinetic hemocyte lysate-based assay for the detection and/or quantification of a microbial contaminant in a sample. In addition, the invention provides a glucan-specific lysate that can be used in a variety of assay formats, including, for example, a test cartridge, optionally configured to perform a kinetic assay. | 08-18-2011 |
20110256568 | METHODS FOR THE DETECTION AND/OR QUANTIFICATION OF GRAM POSITIVE BACTERIAL CONTAMINANTS - The invention provides methods and compositions for the detection and/or quantification of a Gram positive bacterial contaminant in a sample. In particular, the invention provides hemocyte-based preparations, methods of making such hemocyte-based preparations, and methods of using such hemocyte-based preparations for the detection and/or quantification of the Gram positive bacterial contaminant. | 10-20-2011 |
20130316363 | CELL CAPTURE SYSTEM AND USE THEREOF - The invention relates to a cell capture system for use in determining the presence and/or amount of cells, for example, viable cells, in a liquid sample, and to methods of using such a cell capture system. | 11-28-2013 |
20130323745 | METHOD OF DETECTING VIABLE CELLS IN A CELL SAMPLE - The invention relates to a method for determining the presence and/or amount of viable cells in a liquid sample. | 12-05-2013 |
Patent application number | Description | Published |
20080222949 | Devices and methods for growing plants - A gardening system includes a modular seed cartridge including a rigid, cup-shaped receptacle including an upper portion having an outer rim, a soilless growth medium located in the rigid, cup-shaped receptacle, and at least one seed in contact with the soilless growth medium. The gardening system also includes an aeroponic or hydroponic garden including a chamber including a lower portion for storing a liquid nutrient solution, a cover located above the chamber, the cover including a plant opening adapted to removably support the modular seed cartridge by the outer rim, and a pump located in the chamber and adapted to circulate the liquid nutrient solution from the lower portion of the chamber to the modular seed cartridge supported by the plant opening. | 09-18-2008 |
20080282610 | Devices and methods for growing plants - A soilless garden includes a chamber including a sealed lower portion for storing liquid nutrient solution, and an upper portion including a support structure; soilless growth medium supported by the support structure and adapted to support at least one plant having roots; a removable germination cap located above the soilless growth medium; a conduit having a first end located substantially adjacent to the soilless growth medium, and a second end opposite to the first end; and a pump in the chamber, including an input for receiving the liquid nutrient solution from the lower portion of the chamber, and an output to deliver liquid nutrient solution through the conduit into the soilless growth medium. The support structure includes an opening directed toward the lower portion of the chamber for the liquid nutrient solution to drip from the roots of the at least one plant into the lower portion of the chamber. | 11-20-2008 |
Patent application number | Description | Published |
20130322832 | Latchable Module Housings and Methods of Making and Using the Same - An optical module housing that may be easily seated, locked in and removed from a socket, thereby reducing or eliminating potential damage to the module and socket, and methods for making and using the housing are disclosed. The module housing generally includes a chassis, one or more pivots attached to the chassis, a latch configured to secure the housing in a corresponding slot when in a locked position, a slider configured to be in contact with and/or connected to the latch and to move the latch relative to the chassis, the latch and/or the slider being configured to move on and/or around the pivot(s) and a handle configured to be in contact with and/or connected to the slider such that when the handle moves from a first position to a second position, the slider and latch move to the locked and/or an unlocked positions. | 12-05-2013 |
20140140663 | Small Form-Factor Pluggable Optical Transceiver - A small form-factor pluggable (SFP) optical transceiver includes a casing configured to accommodate optical and electrical devices. During normal operation, the casing is connected to a switchboard via a connector in the switchboard, and the optical devices are outside the switchboard, thereby exposing optical devices sensitive to high temperature to the outside air, reducing the operational temperature of the optical device portion relative to the heated portion inside the switchboard. Thus, the present SFP optical transceiver advantageously improves operational performance and extends the life of the device. Also, the present SFP optical transceiver having the optical device portion outside the switchboard advantageously improves the cooling performance for the optical device portion. | 05-22-2014 |
20140140666 | Small Form-Factor Pluggable Optical Transceiver - A small form-factor pluggable (SFP) optical transceiver includes a casing configured to accommodate optical and electrical devices. During normal operation, the casing is connected to a switchboard via a connector in the switchboard, and the optical devices are outside the switchboard, thereby exposing optical devices sensitive to high temperature to the outside air, reducing the operational temperature of the optical device portion relative to the heated portion inside the switchboard. Thus, the present SFP optical transceiver advantageously improves operational performance and extends the life of the device. Also, the present SFP optical transceiver having the optical device portion outside the switchboard advantageously improves the cooling performance for the optical device portion. | 05-22-2014 |