Patent application number | Description | Published |
20080264152 | BIOMARKER NORMALIZATION - In accordance with the invention, a fluid sample is measured with a tear film measuring system that includes a processing device that receives a sample chip comprising a sample region configured to contain an aliquot volume of sample fluid, the processing device configured to perform analyses of osmolarity and of one or more biomarkers within the sample fluid, wherein the analysis of biomarkers includes normalization of biomarker concentration values. | 10-30-2008 |
20090221443 | Nanofabrication processes and devices for the controlled assembly of functionalized nanostructures - The invention relates to processes and devices for the controlled fabrication of nanostructures from starting components that have high fidelity recognition properties and multiple binding groups. In one embodiment, the invention relates to the formation of nanostructures using controlled sequential addition of nanocomponents at regular intervials via sequential formation of binding pairs or other chemical binding reactions. | 09-03-2009 |
20100092452 | Replenishment and Enrichment of Ocular Surface Lubrication - An ophthalmic composition, and methods of use thereof, including for treating ocular boundary deficiency, symptoms associated therewith, or undesired condition that is associated with or causes ocular boundary deficiency at the ocular surface or for the treatment or care of ophthalmic devices. The ophthalmic composition comprises a human PRG4 protein, a lubricant fragment, homolog, or isoform thereof, suspended in an ophthalmically acceptable balanced salt solution. The ophthalmic composition may also comprise one or more ophthalmically acceptable agents. | 04-15-2010 |
20110059902 | Therapeutic Replenishment and Enrichment of Ocular Surface Lubrication - The present invention provides a pharmaceutical composition, and methods of use thereof, for treating ocular boundary deficiency, symptoms associated therewith, or undesired condition that is associated with or causes ocular boundary deficiency at the ocular surface. The pharmaceutical composition of the present invention comprises a human PRG4 protein, a lubricant fragment, homolog, or isoform thereof, suspended in an ophthalmically acceptable balanced salt solution. The pharmaceutical composition of the present invention may also comprise one or more ophthalmically acceptable agents selected from the group consisting of an ophthalmically acceptable demulcent, excipient, astringent, vasoconstrictor, emollient, sodium hyaluronate, hyaluronic acid, and surface active phospholipids, in a pharmaceutically acceptable carrier for topical administration. | 03-10-2011 |
20110070222 | Therapeutic Modulation of Ocular Surface Lubrication - Provided herein are ophthalmically acceptable pharmaceutical compositions comprising a PRG4 inducing compound in combination with PRG4 (including a lubricant fragments, homologs, or isoforms thereof), and methods of using the same. The PRG4 inducing compound in the pharmaceutical composition of the present invention upregulates PRG4 expression and localization in the ocular surface for efficient surface boundary lubrication. In some instances, pharmaceutical compositions described herein are utilized for treating ophthalmic conditions, e.g., ocular boundary deficiency and symptoms associated therewith. | 03-24-2011 |
20110108422 | EX VIVO MULTI-DIMENSIONAL SYSTEM FOR THE SEPARATION AND ISOLATION OF CELLS, VESICLES, NANOPARTICLES AND BIOMARKERS - Devices and techniques are described that involve a combination of multidimensional electrokinetic, dielectrophoretic, electrophoretic and fluidic forces and effects for separating cells, nanovesicles, nanoparticulates and biomarkers (DNA, RNA, antibodies, proteins) in high conductance (ionic) strength biological samples and buffers. In disclosed embodiments, a combination of continuous and/or pulsed dielectrophoretic (DEP) forces, continuous and/or pulsed field DC electrophoretic forces, microelectrophoresis and controlled fluidics are utilized with arrays of electrodes. In particular, the use of chambered DEP devices and of a properly scaled relatively larger electrode array devices that combines fluid, electrophoretic and DEP forces enables both larger and/or clinically relevant volumes of blood, serum, plasma or other samples to be more directly, rapidly and efficiently analyzed. The invention enables the creation of “seamless” sample-to-answer diagnostic systems and devices. The devices and techniques described can also carry out the assisted self-assembly of molecules, polymers, nanocomponents and mesoscale entities into three dimensional higher order structures. | 05-12-2011 |
20110142908 | Ophthalmic Device, and Method of Use Thereof, for Increasing Ocular Boundary Lubrication - The present invention provides an ophthalmic device, and method of use thereof, for an individual wearing an ophthalmic lens to increase ocular surface boundary lubrication. The invention device comprises an ophthalmic lens and a sacrificial mechanism disposed on the ophthalmic lens, wherein the sacrificial mechanism comprises a plurality of surface bound receptors, such as PRG4, hyaluronic acid, and DNA aptamers, that reversibly bound to a lubricating composition comprising a gel forming agent, a surfactant, or a combination thereof, effectively inhibiting or preventing protein and lipid adsorption on the surface of the lens, and mitigate shear stress and reduce the friction between the lens and the ocular surface of the individual in need. | 06-16-2011 |
20110144919 | BIOMARKER NORMALIZATION - A fluid sample is measured with a tear film measuring system that includes a processing device that receives a sample chip comprising a sample region configured to contain an aliquot volume of sample fluid, the processing device configured to perform analyses of osmolarity and of one or more biomarkers within the sample fluid, wherein the analysis of biomarkers includes normalization of biomarker concentration values. | 06-16-2011 |
20110154224 | Methods, Systems and Platform Devices for Aggregating Together Users of a TVand/or an Interconnected Network - Described herein are methods, systems, and devices comprising or utilizing a digital processing device comprising an operating system that is configured to read executable instructions for creating at least one contextual-based chatroom that is focused on a topic of interest that is in common between at least a first user (including e.g., a pulled or pushed user) and at least a second user (including e.g., a pulled or pushed user) of an interconnected network. | 06-23-2011 |
20120060590 | BIOMARKER NORMALIZATION - A fluid sample is measured with a tear film measuring system that includes a processing device that receives a sample chip comprising a sample region configured to contain an aliquot volume of sample fluid, the processing device configured to perform analyses of osmolarity and of one or more biomarkers within the sample fluid, wherein the analysis of biomarkers includes normalization of biomarker concentration values. | 03-15-2012 |
20120067112 | Systems and Methods for a Sample Fluid Collection Device - A fluid collection device comprising a body comprising a capsule interface, and a capsule configured to interface with the body via the capsule interface and configured to hold a sample receiving chip. The sample receiving chip comprises a substrate that receives an aliquot volume of a sample fluid, wherein the substrate is operatively shaped to receive the aliquot volume of sample fluid through capillary action, and a sample region of the substrate, sized such that the volume of the sample fluid is sufficient to operatively cover a portion of the sample region, whereupon energy properties of the sample fluid can be transduced to produce a sample fluid reading. | 03-22-2012 |
20120090388 | SYSTEMS AND METHODS FOR COLLECTING TEAR FILM AND MEASURING TEAR FILM OSMOLARITY - A sample receiving chip comprising a substrate that receives an aliquot volume of a sample fluid and a sample region of the substrate, sized such that the volume of the sample fluid is sufficient to operatively cover a portion of the sample region. The energy imparted into the sample fluid is transduced by the sample region to produce an output signal that indicates energy properties of the sample fluid. The sample receiving chip also includes a channel formed in the substrate, the channel configured to collect the aliquot volume of a sample fluid and transfer the aliquot volume of sample fluid to the sample region. | 04-19-2012 |
20120134925 | Application and Uses of PRG4 and Therapeutic Modulation Thereof - The present invention relates to the uses of the protein PRG4 and therapeutic modulation thereof. In particular, the present invention relates compositions and methods utilizing PRG4 and therapeutic modulation thereof, including, use as a surgical lubricant, use in a treatment for prevention or reduction of post-surgical adhesions, use in a treatment for oral ulcerations, use as an athletic lubricating patch, use as a dermal filler, use in a treatment for dry mouth, use in a drug delivery method or composition, and use in nursing lubrication. | 05-31-2012 |
20120321611 | Replenishment and Enrichment of Ocular Surface Lubrication - An ophthalmic composition, and methods of use thereof, including for treating ocular boundary deficiency, symptoms associated therewith, or undesired condition that is associated with or causes ocular boundary deficiency at the ocular surface or for the treatment or care of ophthalmic devices. The ophthalmic composition comprises a human PRG4 protein, a lubricant fragment, homolog, or isoform thereof, suspended in an ophthalmically acceptable balanced salt solution. The ophthalmic composition may also comprise one or more ophthalmically acceptable agents. | 12-20-2012 |
20130039865 | ORAL CARE COMPOSITIONS AND METHODS - Provided herein is a pharmaceutical or oral care product for treating or preventing oral diseases that is prepared with proteoglycan 4 (PRG4) as an active ingredient, the preparing method thereof and the use thereof in manufacturing medicaments or oral care products for treating or preventing oral diseases and maintenance of oral health. PRG4 may have efficacy in maintaining oral health and treating or preventing oral disease. This secreted glycoprotein, which is also called lubricin and superficial zone protein, is known to protect against frictional forces, cell adhesion and protein deposition. | 02-14-2013 |
20130175185 | SYSTEMS AND METHODS FOR COLLECTING TEAR FILM AND MEASURING TEAR FILM OSMOLARITY - A sample receiving chip comprising a substrate that receives an aliquot volume of a sample fluid and a sample region of the substrate, sized such that the volume of the sample fluid is sufficient to operatively cover a portion of the sample region. The energy imparted into the sample fluid is transduced by the sample region to produce an output signal that indicates energy properties of the sample fluid. The sample receiving chip also includes a channel formed in the substrate, the channel configured to collect the aliquot volume of a sample fluid and transfer the aliquot volume of sample fluid to the sample region. | 07-11-2013 |
20130196344 | SYSTEMS AND METHODS FOR COLLECTING TEAR FILM AND MEASURING TEAR FILM OSMOLARITY - A sample receiving chip comprising a substrate that receives an aliquot volume of a sample fluid and a sample region of the substrate, sized such that the volume of the sample fluid is sufficient to operatively cover a portion of the sample region. The energy imparted into the sample fluid is transduced by the sample region to produce an output signal that indicates energy properties of the sample fluid. The sample receiving chip also includes a channel formed in the substrate, the channel configured to collect the aliquot volume of a sample fluid and transfer the aliquot volume of sample fluid to the sample region. | 08-01-2013 |
20130220833 | BIOMARKER NORMALIZATION - A fluid sample is measured with a tear film measuring system that includes a processing device that receives a sample chip comprising a sample region configured to contain an aliquot volume of sample fluid, the processing device configured to perform analyses of osmolarity and of one or more biomarkers within the sample fluid, wherein the analysis of biomarkers includes normalization of biomarker concentration values. | 08-29-2013 |
20130233061 | BIOMARKER NORMALIZATION - A fluid sample is measured with a tear film measuring system that includes is processing device that receives a sample chip comprising a sample region configured to contain an aliquot volume of sample fluid, the processing device configured to perform analyses of osmolarity and of one or more biomarkers within the sample fluid, wherein the analysis of biomarkers includes normalization of biomarker concentration values. | 09-12-2013 |
20140048417 | Ex-Vivo Multi-Dimensional System For The Separation And Isolation Of Cells, Vesicles, Nanoparticles, And Biomarkers - Devices and techniques are described that involve a combination of multidimensional electrokinetic, dielectrophoretic, electrophoretic and fluidic forces and effects for separating cells, nanovesicles, nanoparticulates and biomarkers (DNA, RNA, antibodies, proteins) in high conductance (ionic) strength biological samples and buffers. In disclosed embodiments, a combination of continuous and/or pulsed dielectrophoretic (DEP) forces, continuous and/or pulsed field DC electrophoretic forces, microelectrophoresis and controlled fluidics are utilized with arrays of electrodes. In particular, the use of chambered DEP devices and of a properly scaled relatively larger electrode array devices that combines fluid, electrophoretic and DEP forces enables both larger and/or clinically relevant volumes of blood, serum, plasma or other samples to be more directly, rapidly and efficiently analyzed. The invention enables the creation of “seamless” sample-to-answer diagnostic systems and devices. The devices and techniques described can also carry out the assisted self-assembly of molecules, polymers, nanocomponents and mesoscale entities into three dimensional higher order structures. | 02-20-2014 |
20140099343 | Ophthalmic Device, and Method of Use Thereof, for Increasing Ocular Boundary Lubrication - The present invention provides an ophthalmic device, and method of use thereof, for an individual wearing an ophthalmic lens to increase ocular surface boundary lubrication. The invention device comprises an ophthalmic lens and a sacrificial mechanism disposed on the ophthalmic lens, wherein the sacrificial mechanism comprises a plurality of surface bound receptors, such as PRG4, hyaluronic acid, and DNA aptamers, that reversibly bound to a lubricating composition comprising a gel forming agent, a surfactant, or a combination thereof, effectively inhibiting or preventing protein and lipid adsorption on the surface of the lens, and mitigate shear stress and reduce the friction between the lens and the ocular surface of the individual in need. | 04-10-2014 |
20140296159 | Method for Therapeutic Replenishment and Enrichment of Ocular Surface Lubrication - The present invention provides a pharmaceutical composition, and methods of use thereof, for treating ocular boundary deficiency, symptoms associated therewith, or undesired condition that is associated with or causes ocular boundary deficiency at the ocular surface. The pharmaceutical composition of the present invention comprises a human PRG4 protein, a lubricant fragment, homolog, or isoform thereof, suspended in an ophthalmically acceptable balanced salt solution. The pharmaceutical composition of the present invention may also comprise one or more ophthalmically acceptable agents selected from the group consisting of an ophthalmically acceptable demulcent, excipient, astringent, vasoconstrictor, emollient, sodium hyaluronate, hyaluronic acid, and surface active phospholipids, in a pharmaceutically acceptable carrier for topical administration. | 10-02-2014 |
20150045694 | SYSTEMS AND METHODS FOR A SAMPLE FLUID COLLECTION DEVICE - A fluid collection device comprising a body comprising a capsule interface, and a capsule configured to interface with the body via the capsule interface and configured to hold a sample receiving chip. The sample receiving chip comprises a substrate that receives an aliquot volume of a sample fluid, wherein the substrate is operatively shaped to receive the aliquot volume of sample fluid through capillary action, and a sample region of the substrate, sized such that the volume of the sample fluid is sufficient to operatively cover a portion of the sample region, whereupon energy properties of the sample fluid can be transduced to produce a sample fluid reading. | 02-12-2015 |