Patents by Inventor Piyush Modak

Piyush Modak 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: 20250188198
    Abstract: Provided is a tunable biopolymer hydrogel produced from two processed natural polysaccharides for use as a hemostat. If desired, the hydrogel formation can be tuned so that the hydrogel forms within seconds when applied to a tissue lesion. The resulting hydrogel can adhere to tissue and, without swelling, produce hemostasis within seconds after application to tissue of interest. The hydrogel also captures, aggregates and concentrates platelets and red blood cells at the site of the tissue lesion thereby initiating a clotting cascade at the site of the lesion. The hemostat can be used to prevent blood loss during surgical procedures, for example, during brain, spine or other surgical procedures where hemostasis is desirable, and is particularly useful during surgical procedures where swelling of the hemostat (e.g., in the brain or spine) would be detrimental to the subject.
    Type: Application
    Filed: July 19, 2024
    Publication date: June 12, 2025
    Inventors: Piyush Modak, Malavika Nadig, Richard Russo
  • Patent number: 12091471
    Abstract: Provided is a tunable biopolymer hydrogel produced from two processed natural polysaccharides for use as a hemostat. If desired, the hydrogel formation can be tuned so that the hydrogel forms within seconds when applied to a tissue lesion. The resulting hydrogel can adhere to tissue and, without swelling, produce hemostasis within seconds after application to tissue of interest. The hydrogel also captures, aggregates and concentrates platelets and red blood cells at the site of the tissue lesion thereby initiating a clotting cascade at the site of the lesion. The hemostat can be used to prevent blood loss during surgical procedures, for example, during brain, spine or other surgical procedures where hemostasis is desirable, and is particularly useful during surgical procedures where swelling of the hemostat (e.g., in the brain or spine) would be detrimental to the subject.
    Type: Grant
    Filed: November 19, 2019
    Date of Patent: September 17, 2024
    Assignee: Endomedix, Inc.
    Inventors: Piyush Modak, Malavika Nadig, Richard Russo
  • Publication number: 20220017646
    Abstract: Provided is a tunable biopolymer hydrogel produced from two processed natural polysaccharides for use as a hemostat. If desired, the hydrogel formation can be tuned so that the hydrogel forms within seconds when applied to a tissue lesion. The resulting hydrogel can adhere to tissue and, without swelling, produce hemostasis within seconds after application to tissue of interest. The hydrogel also captures, aggregates and concentrates platelets and red blood cells at the site of the tissue lesion thereby initiating a clotting cascade at the site of the lesion. The hemostat can be used to prevent blood loss during surgical procedures, for example, during brain, spine or other surgical procedures where hemostasis is desirable, and is particularly useful during surgical procedures where swelling of the hemostat (e.g., in the brain or spine) would be detrimental to the subject.
    Type: Application
    Filed: November 19, 2019
    Publication date: January 20, 2022
    Inventors: Piyush Modak, Malavika Nadig, Richard Russo
  • Patent number: 11033654
    Abstract: Provided is tunable biopolymer hydrogel produced from two processed natural polysaccharides for use as a hemostat. If desired, the hydrogel formation can be tuned so that the hydrogel forms within seconds when applied to a tissue lesion. The resulting hydrogel can adhere to tissue and, without swelling, produce hemostasis within seconds after application to tissue of interest. The hydrogel also captures, aggregates and concentrates platelets and red blood cells at the site of the tissue lesion thereby initiating a clotting cascade at the site of the lesion. The hemostat can be used to prevent blood loss during surgical procedures, for example, during brain, spine or other surgical procedures where hemostasis is desirable, and is particularly useful during surgical procedures where swelling of the hemostat (e.g., in the brain or spine) would be detrimental to the subject.
    Type: Grant
    Filed: November 27, 2019
    Date of Patent: June 15, 2021
    Assignee: Endomedix, Inc.
    Inventors: Piyush Modak, Malavika Nadig, Richard Russo
  • Publication number: 20200353121
    Abstract: Provided is tunable biopolymer hydrogel produced from two processed natural polysaccharides for use as a hemostat. If desired, the hydrogel formation can be tuned so that the hydrogel forms within seconds when applied to a tissue lesion. The resulting hydrogel can adhere to tissue and, without swelling, produce hemostasis within seconds after application to tissue of interest. The hydrogel also captures, aggregates and concentrates platelets and red blood cells at the site of the tissue lesion thereby initiating a clotting cascade at the site of the lesion. The hemostat can be used to prevent blood loss during surgical procedures, for example, during brain, spine or other surgical procedures where hemostasis is desirable, and is particularly useful during surgical procedures where swelling of the hemostat (e.g., in the brain or spine) would be detrimental to the subject.
    Type: Application
    Filed: November 27, 2019
    Publication date: November 12, 2020
    Inventors: Piyush Modak, Malavika Nadig, Richard Russo
  • Patent number: 10517988
    Abstract: Provided is tunable biopolymer hydrogel produced from two processed natural polysaccharides for use as a hemostat. If desired, the hydrogel formation can be tuned so that the hydrogel forms within seconds when applied to a tissue lesion. The resulting hydrogel can adhere to tissue and, without swelling, produce hemostasis within seconds after application to tissue of interest. The hydrogel also captures, aggregates and concentrates platelets and red blood cells at the site of the tissue lesion thereby initiating a clotting cascade at the site of the lesion. The hemostat can be used to prevent blood loss during surgical procedures, for example, during brain, spine or other surgical procedures where hemostasis is desirable, and is particularly useful during surgical procedures where swelling of the hemostat (e.g., in the brain or spine) would be detrimental to the subject.
    Type: Grant
    Filed: November 19, 2018
    Date of Patent: December 31, 2019
    Assignee: Endomedix, Inc.
    Inventors: Piyush Modak, Malavika Nadig, Richard Russo
  • Patent number: 9180166
    Abstract: The present invention relates to hydrogel or scaffold compositions and methods of use for cell growth and/or regenerative medicine. The hydrogel comprises a water soluble cellulose compound and, in certain aspects, a fibrous or filamentous matrix. The hydrogels as described provide a support or scaffold that promotes, facilitates, and/or enhances progenitor or stem cell growth and/or differentiation. In addition, the hydrogel is useful for tissue, e.g., cartilage, regeneration and repair.
    Type: Grant
    Filed: April 29, 2011
    Date of Patent: November 10, 2015
    Assignee: New Jersey Institute of Technology
    Inventors: Treena Arinzeh, George Collins, Piyush Modak, Ling-Fang Tseng
  • Publication number: 20110274742
    Abstract: The present invention relates to hydrogel or scaffold compositions and methods of use for cell growth and/or regenerative medicine. The hydrogel comprises a water soluble cellulose compound and, in certain aspects, a fibrous or filamentous matrix. The hydrogels as described provide a support or scaffold that promotes, facilitates, and/or enhances progenitor or stem cell growth and/or differentiation. In addition, the hydrogel is useful for tissue, e.g., cartilage, regeneration and repair.
    Type: Application
    Filed: April 29, 2011
    Publication date: November 10, 2011
    Inventors: Treena Arinzeh, George Collins, Piyush Modak, Ling-Fang Tseng