Patents by Inventor William McMillan
William McMillan 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: 20020187547Abstract: A container for holding cells or viruses for disruption comprises a chamber defined by two spaced apart, opposing major walls and side walls connecting the major walls to each other. At least one of the major walls has an external surface to which the transducer may be coupled and is sufficiently flexible to flex in response to vibratory motion of the transducer. The container also has at least one port for introducing the cells or viruses into the chamber. In some embodiments, the chamber contains beads for aiding the disruption of the cells or viruses.Type: ApplicationFiled: July 30, 2002Publication date: December 12, 2002Applicant: CepheidInventors: Michael T. Taylor, Phillip Belgrader, Farzad Pourahmadi, William A. McMillan, Ronald Chang, Douglas B. Dority
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Publication number: 20020175079Abstract: The invention provides a device and method for the manipulation of materials (e.g., particles, cells, macromolecules, such as proteins, nucleic acids or other moieties) in a fluid sample. The device comprises a substrate having a plurality of microstructures and an insulator film on the structures. Application of a voltage to the structures induces separation of materials in the sample. The device and method are useful for a wide variety of applications such as dielectrophoresis (DEP) or the separation of a target material from other material in a fluid sample.Type: ApplicationFiled: April 8, 2002Publication date: November 28, 2002Applicant: CepheidInventors: Lee A. Christel, Gregory T.A. Kovacs, William A. McMillan, M. Allen Northrup, Kurt E. Petersen, Farzad Pourahmadi
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Publication number: 20020119464Abstract: The present invention provides compositions and methods for performing an amplification reaction of nucleic acids with internal controls that test the integrity of all aspects of the amplification reaction.Type: ApplicationFiled: August 8, 2001Publication date: August 29, 2002Inventor: William A. McMillan
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Patent number: 6440725Abstract: A cartridge (101) for separating a desired analyte from a fluid sample includes a sample port (103) and a sample flow path extending from the port through the body of the cartridge. The sample flow path includes at least one flow-through component (122), e.g., filter paper or a microfabricated chip, for capturing the desired analyte from the sample as the sample flows through the cartridge. The cartridge also includes an elution flow path for carrying elution fluid through the component (122) to release captured analyte from the component into the elution fluid. The elution flow path diverges from the sample flow path after passing through the component (122). Flow controllers (41A) and (41B) direct the remaining fluid sample into a waste chamber (139) after the sample flows through the component (122) and direct the elution fluid and eluted analyte into a reagent chamber (141) and reaction chamber (143).Type: GrantFiled: June 25, 1999Date of Patent: August 27, 2002Assignee: CepheidInventors: Farzad Pourahmadi, William A. McMillan, Jesus Ching, Ronald Chang, Lee A. Christel, Gregory T. A. Kovacs, M. Allen Northrup, Kurt E. Petersen
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Publication number: 20020109844Abstract: An apparatus for thermally controlling and optically interrogating a reaction mixture includes a vessel [2] having a chamber [10] for holding the mixture. The apparatus also includes a heat-exchanging module [37] having a pair of opposing thermal plates [34A, 34B] for receiving the vessel [2] between them and for heating/and or cooling the mixture contained in the vessel. The module [37] also includes optical excitation and detection assemblies [46,48] positioned to optically interrogate the mixture. The excitation assembly [46] includes multiple light sources [100] and a set of filters for sequentially illuminating labeled analytes in the mixture with excitation beams in multiple excitation wavelength ranges. The detection assembly [48] includes multiple detectors [102] and a second set of filters for detecting light emitted from the chamber [10] in multiple emission wavelength ranges.Type: ApplicationFiled: April 8, 2002Publication date: August 15, 2002Applicant: CepheidInventors: Lee A. Christel, M. Allen Northrup, Kurt E. Petersen, William A. McMillan, Gregory T.A. Kovacs, Steven J. Young, Ronald Chang, Douglas B. Dority, Raymond T. Herbert, Gregory J. Kintz
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Patent number: 6431476Abstract: The present invention provides an apparatus and method for disrupting cells or viruses to release the nucleic acid therefrom. The apparatus includes a container having a chamber for holding the cells or viruses. The apparatus also includes an ultrasonic transducer for contacting a wall of the chamber and for transmitting ultrasonic energy into the chamber through the wall. A support structure holds the container and the transducer against each other such that the transducer contacts the wall of the chamber. The support structure includes an elastic body, such as a spring, for applying to the container or to the transducer a substantially constant force to press together the transducer and the wall. The chamber also preferably contains beads for enhancing the disruption of the cells or viruses. The apparatus performs rapid and consistent lysis of cells or viruses, often in as little time as 5 to 10 seconds.Type: GrantFiled: December 21, 1999Date of Patent: August 13, 2002Assignee: CepheidInventors: Michael T. Taylor, Phillip Belgrader, Farzad Pourahmadi, William A. McMillan, Ronald Chang, Douglas B. Dority
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Publication number: 20020092662Abstract: A cable management apparatus for routing at least one cable from a first location to a second location in an electrical equipment support system. The cable management apparatus includes a flexible support member, which extends curvilinearly between the first location and the second location, and at least one retention feature disposed along the length of the flexible support member for supporting at least one cable.Type: ApplicationFiled: May 15, 2001Publication date: July 18, 2002Inventors: James H. Grant, William McMillan
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Patent number: 6394398Abstract: A cable support apparatus for supporting cables in an equipment support system having a frame apparatus includes a shelf member having a top surface for supporting cables, and at least one mounting bracket extending from each end of the shelf member for mounting the cable support apparatus to the frame apparatus.Type: GrantFiled: June 22, 2000Date of Patent: May 28, 2002Assignee: Chatsworth Products, Inc.Inventors: Stephen S. Reed, William McMillan, III
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Patent number: 6391541Abstract: A cartridge for separating a desired analyte from a fluid sample has a sample flow path and a lysing chamber in the sample flow path. The lysing chamber contains at least one filter for capturing cells or viruses from the sample as the sample flows through the lysing chamber. Beads are also disposed in the lysing chamber for rupturing the cells or viruses to release the analyte therefrom. An analyte flow path extends from the lysing chamber and diverges from the sample flow path. The analyte flow path preferably leads to a reaction chamber for chemically reacting and optically detecting the analyte. The cartridge also includes at least one flow controller (e.g., valves) for directing the sample into the waste chamber after the sample flows through the lysing chamber and for directing the analyte separated from the sample into the analyte flow path.Type: GrantFiled: May 30, 2000Date of Patent: May 21, 2002Inventors: Kurt E. Petersen, Michael T. Taylor, Farzad Pourahmadi, William A. McMillan, Ronald Chang, Stanley H. Sakai, Jesus Ching, Douglas B. Dority, Phillip Belgrader, M. Allen Northrup
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Publication number: 20020058282Abstract: An apparatus for determining a threshold value (e.g., a threshold cycle number or a time value) in a nucleic acid amplification reaction comprises a detection mechanism for measuring, at a plurality of different times during the amplification reaction, at least one signal whose intensity is related to the quantity of a nucleic acid sequence being amplified in the reaction. A controller in communication with the detection mechanism is programmed to store signal values defining a growth curve for the nucleic acid sequence, determine a derivative of the growth curve, and calculate a cycle number or time value associated with a characteristic of the derivative.Type: ApplicationFiled: December 19, 2001Publication date: May 16, 2002Applicant: CepheidInventors: William A. McMillan, Lee A. Christel, David A. Borkholder, Steven J. Young
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Publication number: 20020055167Abstract: A device for separating an analyte from a fluid sample comprises a cartridge having a sample port and a first flow path extending from the sample port. A microfluidic chip is positioned in the first flow path. The microfluidic chip includes an extraction chamber having an array of microstructures for capturing the analyte from the sample as the sample flows through the extraction chamber and for subsequently releasing the captured analyte into an elution fluid as the elution fluid flows through the extraction chamber. Each of the microstructures has an aspect ratio of at least 2:1. The cartridge also includes a second flow path for eluting the captured analyte from the microfluidic chip, the second flow path diverging from the first flow path after passing through the chip. At least one flow controller directs the sample into the first flow path and the eluted analyte into the second flow path.Type: ApplicationFiled: November 7, 2001Publication date: May 9, 2002Applicant: CepheidInventors: Farzad Pourahmadi, William A. McMillan, Jesus Ching, Ronald Chang, Lee A. Christel, Gregory T.A. Kovacs, M. Allen Northrup, Kurt E. Petersen
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Publication number: 20020045246Abstract: A device for use with an ultrasonic transducer to lyse components of a fluid sample comprises a cartridge having a lysing chamber, an inlet port in fluid communication with the lysing chamber, and an outlet port for exit of the sample from the lysing chamber. The inlet and outlet ports are positioned to permit flow of the sample through the lysing chamber, and the chamber contains at least one solid phase for capturing the sample components to be lysed as the sample flows through the chamber. The lysing chamber is defined by at least one wall having an external surface for contacting the transducer to effect the transfer of ultrasonic energy to the chamber.Type: ApplicationFiled: November 7, 2001Publication date: April 18, 2002Applicant: CepheidInventors: William A. McMillan, Kurt E. Petersen, Lee A. Christel, Ronald Chang, Farzad Pourahmadi, Jesus Ching, Gregory T.A. Kovacs, M. Allen Northrup
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Publication number: 20020042125Abstract: An analyte is separated from a fluid sample by introducing the sample into a cartridge having a sample port and a first flow path extending from the sample port. The first flow path includes an extraction chamber containing a solid support for capturing the analyte from the sample. The cartridge has a second flow path for eluting the captured analyte from the extraction chamber, the second flow diverging from the first flow path after passing through the extraction chamber. The sample is forced to flow through the extraction chamber and into a waste chamber, thereby capturing the analyte with the solid support as the sample flows through the extraction chamber. The captured analyte is then eluted from the extraction chamber by forcing an elution fluid to flow through the extraction chamber and along the second flow path.Type: ApplicationFiled: November 7, 2001Publication date: April 11, 2002Applicant: CepheidInventors: Kurt E. Petersen, William A. McMillan, Lee A. Christel, Ronald Chang, Farzad Pourahmadi, Jesus Ching, Gregory T.A. Kovacs, M. Allen Northrup
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Patent number: 6369893Abstract: An apparatus for thermally controlling and optically interrogating a reaction mixture includes a vessel [2] having a chamber [10] for holding the mixture. The apparatus also includes a heat-exchanging module [37] having a pair of opposing thermal plates [34A, 34B] for receiving the vessel [2] between them and for heating/and or cooling the mixture contained in the vessel. The module [37] also includes optical excitation and detection assemblies [46,48] positioned to optically interrogate the mixture. The excitation assembly [46] includes multiple light sources [100] and a set of filters for sequentially illuminating labeled analytes in the mixture with excitation beams in multiple excitation wavelength ranges. The detection assembly [48] includes multiple detectors [102] and a second set of filters for detecting light emitted from the chamber [10] in multiple emission wavelength ranges.Type: GrantFiled: May 19, 1999Date of Patent: April 9, 2002Assignee: CepheidInventors: Lee A. Christel, M. Allen Northrup, Kurt E. Petersen, William A. McMillan, Gregory T. A. Kovacs, Steven J. Young, Ronald Chang, Douglas B. Dority, Raymond T. Hebert, Gregory J. Kintz
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Patent number: 6368871Abstract: This invention comprises an apparatus and method for the manipulation of materials, including particles, cells, macromolecules, such as proteins, nucleic acids and other moieties, in fluid samples. The apparatus comprises an enclosed chamber on a chip having an internal microstructure with surface area substantially greater than the facial surface area of the internal structure. Generally the internal microstructure comprises a continuous network of channels, each of which has a depth substantially greater than its width. The network may comprise a single channel, a single channel with multiple branches, multiple channels, multiple channels with multiple branches, and any combination thereof. The internal structure may present an inert, non-reactive surface, or be coated with a reactive ligand, or be electrically conductive and optionally be coated with an electrical insulator. Discrete portions of the internal structure may differ in structural and surface properties.Type: GrantFiled: August 13, 1997Date of Patent: April 9, 2002Assignee: CepheidInventors: Lee Allan Christel, Gregory T. A. Kovacs, William A. McMillan, M. Allen Northrup, Kurt E. Petersen, Farzad Pourahmadi
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Publication number: 20020039783Abstract: A device for lysing components (e.g., cells, spores, or microorganisms) of a fluid sample comprises a cartridge having a lysing chamber for receiving the sample and having at least one solid phase in the lysing chamber for capturing the sample components to be lysed. An ultrasonic transducer is coupled to a wall of the lysing chamber to transfer ultrasonic energy to the captured sample components.Type: ApplicationFiled: November 7, 2001Publication date: April 4, 2002Applicant: CepheidInventors: William A. McMillan, Kurt E. Petersen, Lee A. Christel, Ronald Chang, Farzad Pourahmadi, Jesus Ching, Gregory T.A. Kovacs, M. Allen Northrup
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Publication number: 20020034746Abstract: A computer program product for determining a threshold value (e.g., a threshold cycle number or time value) in a nucleic acid amplification reaction tangibly embodies instructions readable by a machine to perform the steps of deriving a growth curve from measurements of a signal whose intensity is related to a quantity of nucleic acid sequence being amplified in the reaction, calculating a derivative of the growth curve, identifying a characteristic of the derivative, and determining a threshold value associated with the characteristic of the derivative. The method provides for highly reproducible threshold values that are independent of noise or background signal in the amplification reaction. Embodiments of a computer program product for determining a starting quantity of a nucleic acid sequence in a test sample are also provided.Type: ApplicationFiled: March 14, 2001Publication date: March 21, 2002Applicant: CepheidInventors: William A. McMillan, Lee A. Christel, David A. Borkholder, Steven J. Young
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Publication number: 20020034745Abstract: An apparatus for determining a threshold value (e.g., a threshold cycle number or a time value) in a nucleic acid amplification reaction comprises a detection mechanism for measuring, at a plurality of different times during the amplification reaction, at least one signal whose intensity is related to the quantity of a nucleic acid sequence being amplified in the reaction. The apparatus also includes a controller in communication with the detection mechanism. The controller is programmed to perform the steps of deriving a growth curve from the measurements of the signal; calculating a derivative of the growth curve; identifying a characteristic of the derivative; and determining a threshold value associated with the characteristic of the derivative. Embodiments of an apparatus for determining a starting quantity of a nucleic acid sequence in a test sample are also provided.Type: ApplicationFiled: March 14, 2001Publication date: March 21, 2002Applicant: CepheidInventors: William A. McMillan, Lee A. Christel, David A. Borkholder, Steven J. Young
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Publication number: 20020031768Abstract: A method for determining an unknown starting quantity of a target nucleic acid sequence in a test sample comprises the steps of amplifying the unknown starting quantity of the target nucleic acid sequence in the test sample and known starting quantities of a calibration nucleic acid sequence in respective calibration samples; and determining a respective threshold value for each of the nucleic acid sequences using a derivative of a growth curve derived for the sequence. The starting quantity of the target nucleic acid sequence in the test sample is determined using the threshold value determined for the target sequence and a calibration curve derived from the threshold values determined for the known starting quantities of the calibration nucleic acid sequences. The invention also provides methods for determining a starting quantity of a nucleic acid sequence in a sample using quantitative internal controls or using internal standards.Type: ApplicationFiled: March 14, 2001Publication date: March 14, 2002Applicant: CepheidInventors: William A. McMillan, Lee A. Christel, David A. Borkholder, Steven J. Young
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Publication number: 20020025576Abstract: An analysis device comprises a body having a reaction chamber for chemically reacting a sample, a separation region for separating components of the sample, and a transition region connecting the reaction chamber to the separation region. The transition region includes at least one valve for controlling the flow of fluid between the reaction chamber and the separation region. Further, the transition region thermally isolates the reaction chamber from the separation region. In a preferred embodiment, the reaction chamber is an amplification chamber for amplifying nucleic acid in the sample, and the separation region comprises an electrophoresis channel containing a suitable matrix material, such as electrophoresis gel or buffer, for separating nucleic acid fragments. Electrodes are embedded in the body for separation of sample components. The body may also be surrounded by external, functional components such as an optical detector for detecting separated components of the sample.Type: ApplicationFiled: August 13, 2001Publication date: February 28, 2002Applicant: CepheidInventors: M. Allen Northrup, Kurt E. Petersen, William A. McMillan, Gregory T.A. Kovacs