Patent application number | Description | Published |
20090088711 | Multi-Layer Odor Barrier Tube, and Combination Odor Barrier Tube and Odor Barrier Collection Bag - A multi-layer odor barrier catheter tube for a fecal drainage catheter. The external surface has a low coefficient of friction, as does the internal surface. The layers of the catheter tube may be co-extruded, or formed as a heat-laminated film rolled into a cylindrical shape and heat-welded. A flexible scrim may be included intermediate the first and third layers. One or more tie layers may be included between at least one of the first and second layers, or the second and third layers. A combination of a multi-layer odor barrier catheter tube with an odor barrier collection bag is also described. | 04-02-2009 |
20120197237 | MULTI-LAYER CATHETER TUBES WITH ODOR BARRIER - A multi-layer odor barrier catheter tube for a fecal drainage catheter. The layers of the catheter tube include one or more thermoplastic elastomer layers and one or more odor barrier layers. For example, the catheter tube may comprise an inner thermoplastic elastomer (TPE) layer, an intermediate odor barrier film layer, and an outer TPE layer. Alternately, the multi-layer catheter tube includes an inner TPE layer sandwiched between outer layers of odor barrier film material. | 08-02-2012 |
20150133880 | Fecal Drainage System with Multi-Layer Odor Barrier Catheter Tube - A fecal drainage system includes a collection bag and a catheter tube connectable to the collection bag. The catheter tube is a multi-layer odor barrier structure. The layers of the catheter tube include one or more thermoplastic elastomer layers and one or more odor barrier layers. For example, the catheter tube may comprise an inner thermoplastic elastomer (TPE) layer, an intermediate odor barrier film layer, and an outer TPE layer. Alternately, the multi-layer catheter tube includes an inner TPE layer sandwiched between outer layers of odor barrier film material. | 05-14-2015 |
Patent application number | Description | Published |
20100187106 | ULTRA-SENSITIVE, PORTABLE CAPILLARY SENSOR - A portable, lightweight, rugged, easy-to-operate biosensor useful for rapidly detecting cells, viruses, antibodies, and other proteins. A capillary tube has a capture antibody immobilized on its interior surface. The specific capture antibody is selected based upon a desired target analyte to be detected. A sample potentially containing the target antigen is introduced into the capillary tube. Thereafter, a second antibody labeled with a fluorescent dye is introduced. Upon excitation by electromagnetic energy, typically supplied by a laser, the fluorescence of the sample is captured and analyzed. The apparatus is extremely compact and rugged making it ideal for field use. In addition, accurate results may be obtained by relatively unskilled operators directly from a self-contained readout. Optionally, an external device (e.g., a computer) may be connected to the apparatus via an optional interface. The analysis time provided by the biosensor system of the invention is shorter than has heretofore been possible. | 07-29-2010 |
20130183750 | ULTRA-SENSITIVE PORTABLE CAPILLARY SENSOR - A portable, lightweight, rugged, easy-to-operate biosensor useful for rapidly detecting cells, viruses, antibodies, and other proteins. A capillary tube has a capture antibody immobilized on its interior surface. The specific capture antibody is selected based upon a desired target analyte to be detected. A sample potentially containing the target antigen is introduced into the capillary tube. Thereafter, a second antibody labeled with a fluorescent dye is introduced. Upon excitation by electromagnetic energy, typically supplied by a laser, the fluorescence of the sample is captured and analyzed. The apparatus is extremely compact and rugged making it ideal for field use. In addition, accurate results may be obtained by relatively unskilled operators directly from a self-contained readout. Optionally, an external device (e.g., a computer) may be connected to the apparatus via an optional interface. The analysis time provided by the biosensor system of the invention is shorter than has heretofore been possible. | 07-18-2013 |
20140326660 | MEMBRANE NANOFILTERS - Embodiments of a filter device utilize a membrane comprising poly(amic) acid. The membrane has a porous structure with pores configured to filter nano-sized particles, e.g., less than 100 nm. In one embodiment, the filter device can comprises a substrate (e.g., filter paper) and the membrane disposed on the substrate. This configuration is useful to capture, isolate, and detect nano-particles. | 11-06-2014 |
Patent application number | Description | Published |
20090103084 | OXYGEN SENSOR FOR USE IN HARSH, ESPECIALLY HIGH, pH ENVIRONMENTS - An oxygen sensor usable and accurate in solutions of up to pH 14 is featured. The sensor is fabricated by immobilizing a layer of polystyrene mixed with a fluorophore (e.g., Ruthenium tris(4,7-diphenyl-1,10-phenanthroline) dichloride) in a solvent such as dichloromethane. The mixture may be coated onto a structure such as a stainless steel sensor probe. In typical use, the inventive sensor probe is inserted into a flow cell through which the solution to be monitored flows. A blue LED light source having a wavelength of approximately 470 nm, and a spectrophotometer detector complete the sensor system. In operation, the fluorophore layer of the probe is illuminated by a blue LED light and the fluorescence is reflected back to the spectrophotometer. The monitored solution, typically an electroless gold plating bath, is pumped from the process equipment through the flow cell, and then back to the solution's origin. | 04-23-2009 |
20130089876 | CAPILLARY BIOSENSOR SYSTEM AND ITS METHOD OF USE - A portable biosensor system includes at least one capillary tube extending longitudinally along a major axis between a proximal inlet end and a distal end. The at least one capillary tube has an interior surface coated with a capture material and forms a waveguide. At least one collimated light emitting diode is disposed proximate and perpendicular to the major axis of the at least one capillary tube and is positioned relative to the at least one capillary tube so that energy enters the at least one capillary tube from its exterior along the entire length of the at least one capillary tube to project a line of energy along substantially the entire longitudinal extent of the at least one capillary tube. A photosensor is disposed proximate the distal end of the at least one capillary tube for receiving emissive radiation therefrom. The photosensor generates an output voltage (or, optical output) representative of the emissive radiation, and a means for measuring the output voltage is provided. Also disclosed is a method of detecting target molecules in a sample using the biosensor of the present invention. | 04-11-2013 |