Patents by Inventor Vincent Linder
Vincent Linder has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20130252321Abstract: Systems and methods for improved measurement of absorbance/transmission through fluidic systems are described. Specifically, in one set of embodiments, optical elements are fabricated on one side of a transparent fluidic device opposite a series of fluidic channels. The optical elements may guide incident light passing through the device such that most of the light is dispersed away from specific areas of the device, such as intervening portions between the fluidic channels. By decreasing the amount of light incident upon these intervening portions, the amount of noise in the detection signal can be decreased when using certain optical detection systems.Type: ApplicationFiled: May 20, 2013Publication date: September 26, 2013Applicant: IOKO Diagnostics, LLCInventors: David Steinmiller, Vincent Linder
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Publication number: 20130236375Abstract: The specification generally discloses systems and methods for mixing and delivering fluids in microfluidic systems. The fluids can contain, in some embodiments reagents that can participate in one or more chemical or biological reactions. Some embodiments relate to systems and methods employing one or more vent valves to controllably flow and/or mix portions of fluid within the microfluidic system. Advantageously, fluid control such as a sequence of fluid flow and/or a change in flow rate, can be achieved by opening and closing one or more vent valves and by applying a single source of fluid flow (e.g., a vacuum) operated at a substantially constant pressure. This can simplify the operation and use of the device by an intended user.Type: ApplicationFiled: April 22, 2013Publication date: September 12, 2013Applicant: OPKO Diagnostics, LLCInventors: Enqing Tan, Vincent Linder
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Publication number: 20130224075Abstract: Systems and methods for analysis of samples, and in certain embodiments, microfluidic sample analyzers configured to receive a cassette containing a sample therein to perform an analysis of the sample are described. The microfluidic sample analyzers may be used to control fluid flow, mixing, and sample analysis in a variety of microfluidic systems such as microfluidic point-of-care diagnostic platforms. Advantageously, the microfluidic sample analyzers may be, in some embodiments, inexpensive, reduced in size compared to conventional bench top systems, and simple to use. Cassettes that can operate with the sample analyzers are also described.Type: ApplicationFiled: March 22, 2013Publication date: August 29, 2013Applicant: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller, Jason Taylor
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Patent number: 8501416Abstract: The present invention relates generally to microfluidic structures, and more specifically, to microfluidic structures and methods including meandering and wide channels. Microfluidic systems can provide an advantageous environment for performing various reactions and analysis due to a reduction in sample and reagent quantities that are required, a reduction in the size of the operating system, and a decrease in reaction time compared to conventional systems. Unfortunately, the small size of microfluidic channels can sometimes result in difficulty in detecting a species without magnifying optics (such as a microscope or a photomultiplier). A series of tightly packed microchannels, i.e., a meandering region, or a wide channel having a dimension on the order of millimeters, can serve as a solution to this problem by creating a wide measurement area.Type: GrantFiled: April 19, 2006Date of Patent: August 6, 2013Assignee: President and Fellows of Harvard CollegeInventors: Vincent Linder, Samuel K. Sia, George M. Whitesides, Max Narovlyansky, Adam Siegel
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Patent number: 8480975Abstract: Systems and methods for improved measurement of absorbance/transmission through fluidic systems are described. Specifically, in one set of embodiments, optical elements are fabricated on one side of a transparent fluidic device opposite a series of fluidic channels. The optical elements may guide incident light passing through the device such that most of the light is dispersed away from specific areas of the device, such as intervening portions between the fluidic channels. By decreasing the amount of light incident upon these intervening portions, the amount of noise in the detection signal can be decreased when using certain optical detection systems.Type: GrantFiled: June 6, 2012Date of Patent: July 9, 2013Assignee: OPKO Diagnostics, LLCInventors: David Steinmiller, Vincent Linder
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Patent number: 8475737Abstract: Fluidic connectors, methods, and devices for performing analyses (e.g., immunoassays) in microfluidic systems are provided. In some embodiments, a fluidic connector having a fluid path is used to connect two independent channels formed in a substrate so as to allow fluid communication between the two independent channels. One or both of the independent channels may be pre-filled with reagents (e.g., antibody solutions, washing buffers and amplification reagents), which can be used to perform the analysis. These reagents may be stored in the channels of the substrate for long periods amounts of time (e.g., 1 year) prior to use.Type: GrantFiled: May 9, 2012Date of Patent: July 2, 2013Assignee: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller, Samuel K. Sia
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Patent number: 8409527Abstract: Fluidic connectors, methods, and devices for performing analysis (e.g., immunoassays) in microfluidic systems are provided. In some embodiments, a fluidic connector having a fluid path is used to connect two independent channels formed in a substrate so as to allow fluid communication between the two independent channels. One or both of the independent channels may be pre-filled with reagents (e.g., antibody solutions, washing buffers and amplification reagents), which can be used to perform the analysis. These reagents may be stored in the channels of the substrate for long periods amounts of time (e.g., 1 year) prior to use.Type: GrantFiled: May 9, 2012Date of Patent: April 2, 2013Assignee: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller, Samuel K. Sia
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Patent number: 8389272Abstract: A method and apparatus for delivering one or more fluids. Fluids may be delivered sequentially from a common vessel to a chemical, biological or biochemical process.Type: GrantFiled: September 6, 2011Date of Patent: March 5, 2013Assignee: President and Fellows of Harvard CollegeInventors: Vincent Linder, Samuel K. Sia, George M. Whitesides
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Patent number: 8357616Abstract: The present invention provides fabrication methods using sacrificial materials comprising polymers. In some embodiments, the polymer may be treated to alter its solubility with respect to at least one solvent (e.g., aqueous solution) used in the fabrication process. The preparation of the sacrificial materials is rapid and simple, and dissolution of the sacrificial material can be carried out in mild environments. Sacrificial materials of the present invention may be useful for surface micromachining, bulk micromachining, and other microfabrication processes in which a sacrificial layer is employed for producing a selected and corresponding physical structure.Type: GrantFiled: April 14, 2006Date of Patent: January 22, 2013Assignee: President and Fellows of Harvard CollegeInventors: Vincent Linder, Declan Ryan, Byron Gates, Babak Amir-parviz, George M. Whitesides
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Publication number: 20120269701Abstract: Fluidic connectors, methods, and devices for performing analyses (e.g., immunoassays) in microfluidic systems are provided. In some embodiments, a fluidic connector having a fluid path is used to connect two independent channels formed in a substrate so as to allow fluid communication between the two independent channels. One or both of the independent channels may be pre-filled with reagents (e.g., antibody solutions, washing buffers and amplification reagents), which can be used to perform the analysis. These reagents may be stored in the channels of the substrate for long periods amounts of time (e.g., 1 year) prior to use.Type: ApplicationFiled: May 9, 2012Publication date: October 25, 2012Applicant: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller, Samuel K. Sia
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Publication number: 20120241013Abstract: Microfluidic systems and methods including those that provide control of fluid flow are provided. Such systems and methods can be used, for example, to control pressure-driven flow based on the influence of channel geometry and the viscosity of one or more fluids inside the system.Type: ApplicationFiled: June 6, 2012Publication date: September 27, 2012Applicant: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller
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Publication number: 20120237401Abstract: Systems and methods for improved measurement of absorbance/transmission through fluidic systems are described. Specifically, in one set of embodiments, optical elements are fabricated on one side of a transparent fluidic device opposite a series of fluidic channels. The optical elements may guide incident light passing through the device such that most of the light is dispersed away from specific areas of the device, such as intervening portions between the fluidic channels. By decreasing the amount of light incident upon these intervening portions, the amount of noise in the detection signal can be decreased when using certain optical detection systems.Type: ApplicationFiled: June 6, 2012Publication date: September 20, 2012Applicant: OPKO Diagnostics, LLCInventors: David Steinmiller, Vincent Linder
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Publication number: 20120238033Abstract: Fluidic connectors, methods, and devices for performing analyses (e.g., immunoassays) in microfluidic systems are provided. In some embodiments, a fluidic connector having a fluid path is used to connect two independent channels formed in a substrate so as to allow fluid communication between the two independent channels. One or both of the independent channels may be pre-filled with reagents (e.g., antibody solutions, washing buffers and amplification reagents), which can be used to perform the analysis. These reagents may be stored in the channels of the substrate for long periods amounts of time (e.g., 1 year) prior to use.Type: ApplicationFiled: May 9, 2012Publication date: September 20, 2012Applicant: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller, Samuel K. Sia
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Patent number: 8221700Abstract: Systems and methods for improved measurement of absorbance/transmission through fluidic systems are described. Specifically, in one set of embodiments, optical elements are fabricated on one side of a transparent fluidic device opposite a series of fluidic channels. The optical elements may guide incident light passing through the device such that most of the light is dispersed away from specific areas of the device, such as intervening portions between the fluidic channels. By decreasing the amount of light incident upon these intervening portions, the amount of noise in the detection signal can be decreased when using certain optical detection systems. In some embodiments, the optical elements comprise triangular grooves formed on or in a surface of the device. The draft angle of the triangular grooves may be chosen such that incident light normal to the surface of the device is redirected at an angle dependent upon the indices of refraction of the external medium (e.g., air) and the device material.Type: GrantFiled: February 2, 2010Date of Patent: July 17, 2012Assignee: OPKO Diagnostics, LLCInventors: David Steinmiller, Vincent Linder
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Patent number: 8222049Abstract: Microfluidic systems and methods including those that provide control of fluid flow are provided. Such systems and methods can be used, for example, to control pressure-driven flow based on the influence of channel geometry and the viscosity of one or more fluids inside the system. One method includes flowing a plug of a low viscosity fluid and a plug of a high viscosity fluid in a channel including a flow constriction region and a non-constriction region. In one embodiment, the low viscosity fluid flows at a first flow rate in the channel and the flow rate is not substantially affected by the flow constriction region. When the high viscosity fluid flows from the non-constriction region to the flow constriction region, the flow rates of the fluids decrease substantially, since the flow rates, in some systems, are influenced by the highest viscosity fluid flowing in the smallest cross-sectional area of the system (e.g., the flow constriction region).Type: GrantFiled: April 22, 2009Date of Patent: July 17, 2012Assignee: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller
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Patent number: 8202492Abstract: Fluidic connectors, methods, and devices for performing analyses (e.g., immunoassays) in microfluidic systems are provided. In some embodiments, a fluidic connector having a fluid path is used to connect two independent channels formed in a substrate so as to allow fluid communication between the two independent channels. One or both of the independent channels may be pre-filled with reagents (e.g., antibody solutions, washing buffers and amplification reagents), which can be used to perform the analysis. These reagents may be stored in the channels of the substrate for long periods amounts of time (e.g., 1 year) prior to use. Prior to connection of the fluid connector and the substrate, the fluid path may be filled with a sample (e.g., blood). The sample may be obtained, for example, by pricking a finger of a user until blood is drawn from the finger into the fluid path (e.g., by capillary forces).Type: GrantFiled: May 1, 2008Date of Patent: June 19, 2012Assignee: OPKO Diagnostics, LLCInventors: Vincent Linder, David Steinmiller, Samuel K. Sia
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Publication number: 20110315229Abstract: A method and apparatus for delivering one or more fluids. Fluids may be delivered sequentially from a common vessel to a chemical, biological or biochemical process.Type: ApplicationFiled: September 6, 2011Publication date: December 29, 2011Applicant: President and Fellows of Havard CollegeInventors: Vincent Linder, Samuel K. Sia, George M. Whitesides
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Publication number: 20110256551Abstract: Systems and methods for analysis of samples, and in certain embodiments, microfluidic sample analyzers configured to receive a cassette containing a sample therein to perform an analysis of the sample are described. The microfluidic sample analyzers may be used to control fluid flow, mixing, and sample analysis in a variety of microfluidic systems such as microfluidic point-of-care diagnostic platforms. Advantageously, the microfluidic sample analyzers may be, in some embodiments, inexpensive, reduced in size compared to conventional bench top systems, and simple to use. Cassettes that can operate with the sample analyzers are also described.Type: ApplicationFiled: April 15, 2011Publication date: October 20, 2011Applicant: Claros Diagnostics, Inc.Inventors: Vincent Linder, David Steinmiller, Jason Taylor
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Publication number: 20110253224Abstract: Systems and methods for controlling fluids in microfluidic systems are generally described. In some embodiments, control of fluids involves the use of feedback from one or more processes or events taking place in the microfluidic system. For instance, a detector may detect one or more fluids at a measurement zone of a microfluidic system and one or more signals, or a pattern of signals, may be generated corresponding to the fluid(s). In some cases, the signal or pattern of signals may correspond to an intensity, a duration, a position in time relative to a second position in time or relative to another process, and/or an average time period between events. Using this data, a control system may determine whether to modulate subsequent fluid flow in the microfluidic system. In some embodiments, these and other methods can be used to conduct quality control to determine abnormalities in operation of the microfluidic system.Type: ApplicationFiled: April 15, 2011Publication date: October 20, 2011Applicant: Claros Diagnostics, Inc.Inventors: Vincent Linder, David Steinmiller
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Patent number: 8030057Abstract: Method and device for storing and/or delivering fluids, wherein at least a first and a second fluid, such as chemical or biochemical reagents or rinse solutions, are maintained separately from each other in a common vessel and transferred in series from the vessel to a reaction site to carry out a predetermined chemical or biochemical reaction. Separation may be achieved by interposing a third fluid, e.g., a gaseous fluid plug, between the first and second fluids.Type: GrantFiled: January 26, 2005Date of Patent: October 4, 2011Assignee: President and Fellows of Harvard CollegeInventors: Vincent Linder, Samuel K. Sia, George M. Whitesides