Abstract: Described herein are agents and methods for targeting antigen-specific B cells using engineered T cells, such as regulatory T cells or cytotoxic T cells, or bi-specific antibodies. The agents and methods can be used to reduce undesirable immune responses.

Abstract: Embodiments relate to systems and methods for magnetized stent having growth-promoting properties. A stent assembly comprising a tubular elongated body having a magnetized region and a tissue nidus area is inserted beneath the orifice of a vascular aneurysm. The magnetic region can serve to attract and position both residual red blood cells and magnetically nano-treated growth-promoting cells to the orifice area of the aneurysm. The outer circumference of the tubular elongated body can act as a floor or scaffold for regenerated smooth vascular muscle cells. In embodiments, the tissue nidus area can be provided on the exterior stent, while the magnetized region is provided on the interior stent, of a stent-in-stent structure. In embodiments, the exterior stent is made of biodegradable material which gradually dissolves or dissipates in situ.

Abstract: The present invention relates to antibodies or antibody fragments that bind, neutralize, and/or inhibit Hendra or Nipah virus. The invention provides antibodies or antibody fragments that selectively bind to the F glycoprotein of Hendra or Nipah virus, and pharmaceutical compositions including such antibodies and/or fragments. The invention further provides polynucleotides encoding the antibodies and fragments of the invention and host cells transformed therewith. Additionally, the invention discloses prophylactic, therapeutic, and diagnostic methods employing the antibodies, fragments, polynucleotides, and/or compositions of the invention.

Abstract: The present invention generally relates to the production of antigen-specific T regulatory cells (Tregs). Such cells can be used in therapy to minimize undesirable immune responses such as those observed in autoimmunity and hemophilia and other diseases as well as in the response to protein therapy for genetic diseases. Methods for producing antigen specific Tregs and conditions for preferential expansion of functionally stable, specific Tregs are also provided.

Abstract: The instant application provides methods and related compositions pertaining to novel HIV envelope proteins. In some embodiments, the invention relates to methods and compositions for the preparation, production, and administration of isolated novel HIV envelope nucleic acid and protein sequences suitable, for example, as vaccines against HIV.

Abstract: The present disclosure provides gene expression profiles that are associated with prostate cancer. The gene expression profiles can be used to detect prostate cancer cells in a sample and to distinguish between well differentiated (WD) prostate cancer and poorly differentiated (PD) prostate cancer. Also provided is an array comprising oligonucleotide probes for detecting the unique gene signature associated with WD and/or PD prostate cancer.

Abstract: The present invention relates to oncogenes or tumor suppressor genes, as well as other genes, involved in prostate cancer and their expression products, as well as derivatives and analogs thereof. Provided are therapeutic compositions and methods of detecting and treating cancer, including prostate and other related cancers. Also provided are methods of diagnosing and/or prognosing prostate cancer by determining the expression level of at least one prostate cancer-cell-specific gene, including, for example, the ERG gene or the LTF gene alone, or in combination with at least one of the AMACR gene and the DD3 gene.

Abstract: The present invention relates to methods and kits to assess an absorbed dose of ionizing radiation and/or the severity of tissue injury from radiation in a patient. The invention also relates to algorithms used to calculate an absorbed dose of radiation based on biomarker measurements of a plurality of biomarkers that are altered relative to a normal control in the event of radiation exposure.

Abstract: This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

Abstract: The invention generally relates to dextran fibers which are preferably electrospun and devices formed from such fibers. In particular, such devices may include substances of interest (such as therapeutic substances) associated with the electrospun fibers. Upon exposure to a liquid the electrospun fibers dissolve immediately and the substances of interest are released into the liquid. Exemplary devices include bandages formed from electrospun dextran fibers and associated agents that promote hemostasis, such as thrombin and fibrinogen.

Abstract: This invention relates to soluble forms of F glycoprotein from Hendra and Nipah virus and to compositions comprising soluble forms of F glycoprotein from Hendra and Nipah virus. This invention further relates to soluble oligomers of F glycoprotein from Hendra and Nipah virus. This invention also relates to nucleic acids encoding soluble forms of F glycoprotein from Hendra and Nipah virus. This invention also relates to diagnostic and therapeutic methods using the soluble forms of F glycoprotein from Hendra and Nipah virus. Further, this invention relates to antibodies, including neutralizing antibodies, and to vaccines for the prevention, diagnosis and treatment of infection by Hendra and Nipah viruses.

Abstract: The present invention relates to methods of diagnosing traumatic brain injury (TBI) in a subject. The present invention also relates to methods of monitoring the progression of the TBI in a subject.

Abstract: The present invention is directed to variants of antigens comprising folate binding protein epitopes as a composition associated with providing immunity against a tumor in an individual. The variant is effective in inducing cytotoxic T-lymphocytes but preferably not to the extent that they become sensitive to silencing by elimination, such as by apoptosis, or by anergy, as in unresponsiveness.

Abstract: Selective azophenol inhibitors of a wild type or an altered ERG protein expression are described, where the inhibitors represent a compound of Formula (I) or Formula (II) wherein X, X1, X2, X3, X4 and X5, R1 through R4 and R9 are as described.

Abstract: The present invention relates to antibodies or antibody fragments that bind, neutralize, and/or inhibit Hendra or Nipah virus. The invention provides antibodies or antibody fragments that selectively bind to the F glycoprotein of Hendra or Nipah virus, and pharmaceutical compositions including such antibodies and/or fragments. The invention further provides polynucleotides encoding the antibodies and fragments of the invention and host cells transformed therewith. Additionally, the invention discloses prophylactic, therapeutic, and diagnostic methods employing the antibodies, fragments, polynucleotides, and/or compositions of the invention.

Abstract: The present disclosure provides fusion proteins that incorporate unique mechanisms for multimerizmg antigens to enhance their immunogenicity. The fusion proteins comprise at least two antigens, or other vaccine related proteins, separated by a linker sequence and an oligomerization domain. When expressed, the fusion protein forms a muKimeric protein complex, This approach can be used to muHimeri?.e a single antigen/protein or to create multimers comprising two or more different antigens/proteins. Also provided are nucleic acids encoding the fusion proteins, Yet another aspect is directed to methods of inducing or suppressing an immune response in a subject by administering to the subject a vaccine composition comprising a fusion protein or nucleic acid encoding the fusion protein, optionally without using an adjuvant.

Abstract: The present disclosure provides modified human herpesvirus glycoprotein B (gB) proteins that incorporate unique mechanisms for generating proteins that mimic their native conformation to enhance their immunogenicity. The modified herpesvirus gB proteins insert a peptide linker at the furin cleavage site in the extracellular domain of herpesvirus gB. When expressed, the gB subunit associates in triplicate to produce a homotrimeric complex, mimicking the native conformation of the gB protein. Also provided are protein complexes comprising a homotrimeric complex of a modified herpesvirus gB protein and herpesvirus gH and gL proteins. Also provided are nucleic acids encoding the modified herpesvirus gB proteins, methods of inducing or suppressing an immune response in a subject by administering a vaccine comprising the modified herpesvirus gB protein, or nucleic acid encoding the same, or a protein complex comprising a homotrimeric complex of the modified herpesvirus gB protein and herpesvirus gH and gL proteins.

Abstract: A manually operable pump for the effective removal of fluids to include blood, blood clots, fluid, and air from a body cavity of a subject is provided. The manually operable pump is adapted to be connect to a range of fluid conduits and is equipped with one-way valves that effectively permit flow of fluid through the pump in only one direction. The sensitivity of the one-way valves is such that when properly positioned, fluid can flow through the valves and out of the pump without manual compression of the pump and with the aid of gravity power alone.

Abstract: The invention is directed to MtrE peptides and their use in gonorrhea vaccines.

Abstract: The present invention, referred to as Oasis is Automated Statistical Inference for Segmentation (OASIS), is a fully automated and robust statistical method for cross-sectional MS lesion segmentation. Using intensity information from multiple modalities of MRI, a logistic regression model assigns voxel-level probabilities of lesion presence. The OASIS model produces interpretable results in the form of regression coefficients that can be applied to imaging studies quickly and easily. OASIS uses intensity-normalized brain MRI volumes, enabling the model to be robust to changes in scanner and acquisition sequence. OASIS also adjusts for intensity inhomogeneities that preprocessing bias field correction procedures do not remove, using BLUR volumes. This allows for more accurate segmentation of brain areas that are highly distorted by inhomogeneities, such as the cerebellum.