Abstract: The present invention addresses a need for improved treatments for filovirus infections. This invention provides an isolated humanized anti-filovirus glycoprotein pre-fusion core antibody comprising a framework region having a sequence of 95% or greater identity to a human antibody framework region. Also provided is a method of treating and/or inhibiting a filovirus infection in a subject comprising administering to the subject an amount of any of the antibodies described herein, or an amount of an antigen-binding fragment thereof. Also provided is composition comprising any of the antibodies described herein, or or an amount of an antigen-binding fragment thereof. In an embodiment, the composition comprises a pharmaceutically acceptably carrier.

Abstract: The invention features compositions, methods, and kits useful for the treatment of filovirus-mediated diseases, e.g., hemorrhagic fever caused by Ebola virus, in an animal.

Abstract: This disclosure relates to materials and methods for inhibiting Botulinum neurotoxin, and more particularly to materials and methods for inhibiting the zinc endopeptidase of Botulinum neurotoxin serotypes A, D and/or E (BoNTA, BoNTD and/or BoNTE).

Abstract: The invention provides antisense antiviral compounds and methods of their use and production in inhibition of growth of viruses of the Filoviridae family, and in the treatment of a viral infection. The compounds and methods relate to the treatment of viral infections in mammals including primates by Ebola and Marburg viruses. The antisense antiviral compounds are morpholino oligonucleotides having: a) a nuclease resistant backbone, b) 15-40 nucleotide bases, and c) a targeting sequence of at least 15 bases in length that hybridizes to a target region selected from the following: i) the Ebola virus AUG start site region of VP24; ii) the Ebola virus AUG start site region of VP35; iii) the Marburg virus AUG start site region of VP24; or iv) the Marburg virus AUG start site region of NP.

Abstract: The invention provides antisense antiviral compounds and methods of their use and production in inhibition of growth of viruses of the Filoviridae family, and in the treatment of a viral infection. The compounds and methods relate to the treatment of viral infections in mammals including primates by Ebola and Marburg viruses. The antisense antiviral compounds are morpholino oligonucleotides having: a) a nuclease resistant backbone, b) 15-40 nucleotide bases, and c) a targeting sequence of at least 15 bases in length that hybridizes to a target region selected from the following: i) the Ebola virus AUG start site region of VP24; ii) the Ebola virus AUG start site region of VP35; iii) the Marburg virus AUG start site region of VP24; or iv) the Marburg virus AUG start site region of NP.

Abstract: An embodiment of the invention provides a method wherein a simulation system having a simulator, a processor, and at least one display is assembled. This includes assembling a birthing mannequin and a mobile cart having at least one touch-screen monitor, wherein the birthing mannequin includes a means for shaking to simulate a generalized seizure. The simulation system is provided along with documentation to a plurality of medical facilities within a system. Training on use of the simulator, different simulations, and criteria for grading performance on the simulations is also provided. The training includes team training for conducting the simulations using the simulation system.

Abstract: The in vivo and in vitro use of Invaplex to transport materials, including functional proteins and biologically active nucleic acids, across eukaryotic cell membranes. The eukaryotic cells include a variety of cell types, e.g. insect, reptile, fish, mammal and tumor cells. The suitable materials for transport include biochemicals such as reporter molecules, antibiotics, biopharmaceuticals and carbohydrates including polysaccharides, lipopolysaccharides, polynucleotides, such as DNA and RNA, and glycoproteins and proteins including antigens, enzymes, antibodies, receptors and hormones. In addition, Invaplex enhances the immune response to DNA vaccines and also can function by itself as a vaccine against shigellosis.

Abstract: The present invention provides compositions and methods for identifying molecules in samples that bind to molecules associated with pathogenic agents (e.g., infectious agents). In certain aspects, the invention may be used to identify individuals that have been exposed to one or more pathogenic agent or have generated antibodies in response to one or more pathogenic agent. In other aspects, the invention is directed to the identification of molecules of one or more pathogenic agent that may be used to generate immune responses in other individuals.

Abstract: A transcutaneous immunization system delivers antigen to immune cells without perforation of the skin, and induces an immune response in an animal or human. The system uses an adjuvant, preferably an ADP-ribosylating exotoxin, to induce an antigen-specific immune response (e.g., humoral and/or cellular effectors) after transcutaneous application of a formulation containing antigen and adjuvant to intact skin of the animal or human. The efficiency of immunization may be enhanced by adding hydrating agents (e.g., liposomes), penetration enhancers, or occlusive dressings to the transcutaneous delivery system. This system may allow activation of Langerhans cells in the skin, migration of the Langerhans cells to lymph nodes, and antigen presentation.