Patents by Inventor Sarah Stuart

Sarah Stuart 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).

  • Publication number: 20250283161
    Abstract: Compositions and methods are provided for amplifying nucleic acids, including cell free nucleic acid fragments, in preparation for sequencing. Methods are provided for making circularized nucleic acid templates having the structure [T]-[PS1]-[L]-[PS2] or [PS1]-[L]-[PS2]-[T?], where (a) T is a target nucleic acid and T? is a complement to a target nucleic acid; (b) each of PS1 and PS2 is a nucleic acid primer site; (c) L is a linker having a primer extension reaction terminating organic molecule; and the structure is circularized by binding a 5? end thereof to a 3? end thereof. Target sequences in the circularized templates are amplified by binding to PS1 a primer complimentary to PS1 and binding to PS2 a primer complimentary to PS2 and copying the target sequences by a primer extension reaction. Advantages include a reduction in ligation steps, which can result in fewer clean up steps and improved library conversion efficiency.
    Type: Application
    Filed: December 18, 2021
    Publication date: September 11, 2025
    Inventors: Matthew LARSON, Curtis TOM, Sarah STUART, Yiqi ZHOU
  • Publication number: 20240299944
    Abstract: In accordance with embodiments herein a method for capturing cells of interest in a digital microfluidic system is provided, comprising utilizing a droplet actuator to transport a sample droplet to a microwell device. The microwell device includes a substrate having a plurality of microwells that open onto a droplet operations surface of the microwell device. The sample droplet includes cells of interest that enter the microwells. The method introduces capture beads to the microwells, and the capture elements are immobilized on the capture beads. The method utilizes the droplet actuator to transport a cell lysis reagent droplet to the microwell device. Portions of the cell lysis reagent droplet enter the microwells and, during an incubation period, cause the cells of interest to release analyte that is captured by the capture elements on the capture beads.
    Type: Application
    Filed: May 14, 2024
    Publication date: September 12, 2024
    Inventors: Arash Jamshidi, Yan-you Lin, Farnaz Absalan, Sarah Stuart, Gordon Cann, Yir-Shyuan Wu, Tarun Khurana, Jeffrey S Fisher
  • Publication number: 20240271221
    Abstract: In various aspects, the present disclosure provides methods, compositions, reactions mixtures, kits, and systems for analysis of cell-free nucleic acid molecules (e.g., cfRNA and/or cfDNA) from a urine sample. In some embodiments, the analysis is an analysis of methylation patterns in target genomic regions among cfDNA fragments in a urine sample. In some embodiments, compositions include a plurality of different bait oligonucleotides. Methods for the detection of cancer of various cancer types are also provided.
    Type: Application
    Filed: January 19, 2024
    Publication date: August 15, 2024
    Inventors: Matthew Larson, Archana Shenoy, Sarah Stuart, Kelly McClintock, Siddhartha Bagaria
  • Patent number: 12011719
    Abstract: In accordance with embodiments herein a method for capturing cells of interest in a digital microfluidic system is provided, comprising utilizing a droplet actuator to transport a sample droplet to a microwell device. The microwell device includes a substrate having a plurality of microwells that open onto a droplet operations surface of the microwell device. The sample droplet includes cells of interest that enter the microwells. The method introduces capture beads to the microwells, and the capture elements are immobilized on the capture beads. The method utilizes the droplet actuator to transport a cell lysis reagent droplet to the microwell device. Portions of the cell lysis reagent droplet enter the microwells and, during an incubation period, cause the cells of interest to release analyte that is captured by the capture elements on the capture beads.
    Type: Grant
    Filed: December 17, 2021
    Date of Patent: June 18, 2024
    Assignee: Illumina, Inc.
    Inventors: Arash Jamshidi, Yan-you Lin, Farnaz Absalan, Sarah Stuart, Gordon Cann, Yir-Shyuan Wu, Tarun Khurana, Jeffrey S Fisher
  • Publication number: 20220184622
    Abstract: In accordance with embodiments herein a method for capturing cells of interest in a digital microfluidic system is provided, comprising utilizing a droplet actuator to transport a sample droplet to a microwell device. The microwell device includes a substrate having a plurality of microwells that open onto a droplet operations surface of the microwell device. The sample droplet includes cells of interest that enter the microwells. The method introduces capture beads to the microwells, and the capture elements are immobilized on the capture beads. The method utilizes the droplet actuator to transport a cell lysis reagent droplet to the microwell device. Portions of the cell lysis reagent droplet enter the microwells and, during an incubation period, cause the cells of interest to release analyte that is captured by the capture elements on the capture beads.
    Type: Application
    Filed: December 17, 2021
    Publication date: June 16, 2022
    Inventors: Arash Jamshidi, Yan-you Lin, Farnaz Absalan, Sarah Stuart, Gordon Cann, Yir-Shyuan Wu, Tarun Khurana, Jeffrey S. Fisher
  • Patent number: 11203016
    Abstract: In accordance with embodiments herein a method for capturing cells of interest in a digital microfluidic system is provided, comprising utilizing a droplet actuator to transport a sample droplet to a microwell device. The microwell device includes a substrate having a plurality of microwells that open onto a droplet operations surface of the microwell device. The sample droplet includes cells of interest that enter the microwells. The method introduces capture beads to the microwells, and the capture elements are immobilized on the capture beads. The method utilizes the droplet actuator to transport a cell lysis reagent droplet to the microwell device. Portions of the cell lysis reagent droplet enter the microwells and, during an incubation period, cause the cells of interest to release analyte that is captured by the capture elements on the capture beads.
    Type: Grant
    Filed: November 30, 2016
    Date of Patent: December 21, 2021
    Assignee: Illumina, Inc.
    Inventors: Arash Jamshidi, Yan-you Lin, Farnaz Absalan, Sarah Stuart, Gordon Cann, Yir-Shyuan Wu, Tarun Khurana, Jeffrey S Fisher
  • Publication number: 20180250672
    Abstract: In accordance with embodiments herein a method for capturing cells of interest in a digital microfluidic system is provided, comprising utilizing a droplet actuator to transport a sample droplet to a microwell device. The microwell device includes a substrate having a plurality of microwells that open onto a droplet operations surface of the microwell device. The sample droplet includes cells of interest that enter the microwells. The method introduces capture beads to the microwells, and the capture elements are immobilized on the capture beads. The method utilizes the droplet actuator to transport a cell lysis reagent droplet to the microwell device. Portions of the cell lysis reagent droplet enter the microwells and, during an incubation period, cause the cells of interest to release analyte that is captured by the capture elements on the capture beads.
    Type: Application
    Filed: November 30, 2016
    Publication date: September 6, 2018
    Applicant: Illumina, Inc.
    Inventors: Arash Jamshidi, Yan-you Lin, Farnaz Absalan, Sarah Stuart, Gordon Cann, Yir-Shyuan Wu, Tarun Khurana, Jeffrey S Fisher