Patents by Inventor Norma Kenyon

Norma Kenyon 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: 20190170742
    Abstract: Nanoparticle-based compositions, assays, kits, methods and platforms for delivering an antigen (peptides, proteins) or a nucleic acid encoding an antigen to professional APCs (PAPCs) result in the generation of autologous APCs that present a natural peptide repertoire of the antigen for use in assessing the efficacy of a vaccine (e.g., a cytotoxic T lymphocyte (CTL) response to a particular antigen) or other therapy or intervention (cell-based therapy, adjuvant therapy, etc.). The compositions, kits, assays and methods also can be used for delivering a drug or biologic or portion thereof to APCs for assessing the immunogenicity of drugs and biologics. The composition, kits, assays and methods involve the combined use of MHC targeting, universal DR binding peptides (e.g., PADRE, HA) with charged (e.g., positively-charged) highly branched polymeric dendrimers (e.g.
    Type: Application
    Filed: December 20, 2018
    Publication date: June 6, 2019
    Inventors: Pirouz Mohammad DAFTARIAN, Paolo SERAFINI, Vance Paul LEMMON, Angel KAIFER, Bonnie Beth BLOMBERG, Raquibul CHOWDHURY, Norma KENYON
  • Publication number: 20170146526
    Abstract: Nanoparticle-based compositions, assays, kits, methods and platforms for delivering an antigen (peptides, proteins) or a nucleic acid encoding an antigen to professional APCs (PAPCs) result in the generation of autologous APCs that present a natural peptide repertoire of the antigen for use in assessing the efficacy of a vaccine (e.g., a cytotoxic T lymphocyte (CTL) response to a particular antigen) or other therapy or intervention (cell-based therapy, adjuvant therapy, etc.). The compositions, kits, assays and methods also can be used for delivering a drug or biologic or portion thereof to APCs for assessing the immunogenicity of drugs and biologics. The composition, kits, assays and methods involve the combined use of MHC targeting, universal DR binding peptides (e.g., PADRE, HA) with charged (e.g., positively-charged) highly branched polymeric dendrimers (e.g.
    Type: Application
    Filed: October 5, 2016
    Publication date: May 25, 2017
    Inventors: Pirouz Mohammad DAFTARIAN, Paolo SERAFINI, Vance Paul LEMMON, Angel KAIFER, Bonnie Beth BLOMBERG, Raquibul CHOWDHURY, Norma KENYON
  • Publication number: 20120129199
    Abstract: Nanoparticle-based compositions, assays, kits, methods and platforms for delivering an antigen (peptides, proteins) or a nucleic acid encoding an antigen to professional APCs (PAPCs) result in the generation of autologous APCs that present a natural peptide repertoire of the antigen for use in assessing the efficacy of a vaccine (e.g., a cytotoxic T lymphocyte (CTL) response to a particular antigen) or other therapy or intervention (cell-based therapy, adjuvant therapy, etc.). The compositions, kits, assays and methods also can be used for delivering a drug or biologic or portion thereof to APCs for assessing the immunogenicity of drugs and biologics. The composition, kits, assays and methods involve the combined use of MHC targeting, universal DR binding peptides (e.g., PADRE, HA) with charged (e.g., positively-charged) highly branched polymeric dendrimers (e.g.
    Type: Application
    Filed: May 19, 2010
    Publication date: May 24, 2012
    Applicant: UNIVERSITY OF MIAMI
    Inventors: Pirouz M. Daftarian, Paolo Serafini, Vance Paul Lemmon, Angel Kaifer, Bonnie Beth Blomberg, Raquibul Chowdhury, Norma Kenyon
  • Publication number: 20070292440
    Abstract: Methods and compositions for inhibiting rejection of insulin-producing tissue in a graft recipient, as well as methods and compositions for prolonging graft survival or function; for reversing graft rejection or restoring function of an impaired graft; and, for inducing immunological tolerance to grafted, insulin-producing tissue. The present methods and compositions are suitable for treatment or prophylaxis of defects in metabolic control of blood glucose homeostasis, including defects manifested as diabetes mellitus (DM).
    Type: Application
    Filed: December 13, 2006
    Publication date: December 20, 2007
    Inventors: Norma Kenyon, Camillo Ricordi, David Thomas, Linda Burkly
  • Publication number: 20060263343
    Abstract: An antigen-specific T-cell response to alloantigen, tissue-specific antigen (e.g., islet antigen or other autoantigens involved in autoimmune disease), or self (or host) antigen is detected at an early stage of graft rejection or recurrent autoimmunity. An increase in cytotoxic lymphocyte gene (CLG) expression in peripheral blood is a risk factor for development of deleterious immune responses, which may be confirmed by functional assays. For example, the distinction between production of regulatory or inflammatory cytokines by T cells may dissect the type of immune response which is being induced: the survival of transplanted islet cells used to treat type 1 diabetes may be monitored, loss of the transplant by graft rejection (i.e., an alloantigen target) may be distinguished from autoimmune disease (i.e., a self or host antigen target).
    Type: Application
    Filed: May 15, 2006
    Publication date: November 23, 2006
    Inventors: Norma Kenyon, Cynthia Healy, Steven Koester, Xiumin Xu
  • Publication number: 20050106147
    Abstract: The present invention is directed to a method of using function blocking tissue factor antibodies to enhance graft survival in mammals. Function blocking antibodies having the effect of blocking activated tissue factor (TF), TF and its ligand FVII as either the inactive TF:FVII or active TF:FVIIa complex, or block the formation of the TF:FVIIa:FX ternary complex are useful in the method. These properties provide a therapy that has directed action towards thrombotic events involving tissue-plasma interactions but does not prevent the intrinsic pathway for coagulation. Activated TF arises on cells, tissues, and organs during or after transplantation and is a major cause of graft loss.
    Type: Application
    Filed: August 27, 2004
    Publication date: May 19, 2005
    Inventors: Robert Jordan, Susan Tam, Janet Davis, Mark Zimmerman, Gang Xu, Norma Kenyon