Abstract: The present invention provides compounds, compositions, and methods for detecting, diagnosing and treating cancers such as glioblastoma multiforme.

Abstract: A method and apparatus are provided for treating cardiac tissue to modulate ischemic heart tissue with topical sub-atmospheric pressure to minimize cell death and damage.

Abstract: A compound of the formula A-B-C, is provided, wherein: A is a first nucleic acid that specifically binds to an extracellular surface protein expressed by a cell of interest, B is an alkyl linker; and C is a second nucleic acid that hybridizes to a complementary nucleic acid. In some embodiments, the first nucleic acid is an aptamer. In some embodiments, the nucleic acid comprises an active compound, particularly cytotoxic nucleotides such as poly-FdUMP. Compositions and methods of using such compounds for treating and/or detecting cancer are also described.

Abstract: A composition comprising microcapsules, the microcapsules containing both live mammalian ovarian granulosa cells and live mammalian ovarian theca cells, is described. In some embodiments, the granulosa cells and the theca cells are contained in separate microcapsules in the composition; in some embodiments, the granulosa cells and the theca cells are contained together in the same microcapsules in the composition The composition is can be used for estrogen, and optionally also progesterone, delivery, and hence is preferably free or essentially free of oocytes. Methods of using the same and pharmaceutical formulations containing the same are also described.

Abstract: An isolated protein or peptide selected from the group consisting of Bordetella colonization factor A (BcfA) protein and antigenic fragments thereof is described, along with an isolated nucleic acid encoding the same, antibodies that bind to the same, methods of producing an immune response in a mammalian subject in need thereof by administering the proteins, peptides or antibodies, and pharmaceutical compositions comprising the same.

Abstract: Bracytherapy devices include a respective tether attached to a proximal end portion of the strands. The tether can be color-coded to match a color associated with the corresponding strand.

Abstract: The invention provides compositions and fusion proteins comprising a flagellin adjuvant and a Pseudomonas aeruginosa antigen. The invention further provides pharmaceutical formulations and methods for inducing an immune response against P. aeruginosa (e.g., to prevent and/or treat P. aeruginosa infection).

Abstract: Provided herein is an antibody (e.g., an isolated antibody) that specifically binds an epitope (e.g., linear epitope) within amino acids spanning the extracellular portion of human IL-13RA2. In some embodiments, the amino acids spanning the extracellular portion of human IL-13RA2 have at least 90% identity with the corresponding canine sequence of IL-13RA2. In some embodiments, the antibody specifically binds both human and canine IL-13RA2. In some embodiments, the antibody is a monoclonal antibody. In some embodiments, the antibody is a recombinant antibody. In some embodiments, the antibody is humanized. In some embodiments, the antibody is the monoclonal antibody produced by hybridoma 1E10B9 or a recombinant form thereof.

Abstract: The invention is directed to methods for preparing artificial heart valves by preconditioning a matrix seeded with endothelial cells and smooth muscle cells differentiated from isolated progenitor cells. These cell seeded matrices are exposed to fluid conditions that mimic blood flow through the heart to produce tissue engineered heart valves that are analogous to native heart valves.

Abstract: A method of measuring an amount of at least one cholesteryl ester in a blood sample is carried out by combining a blood sample with a salt and an alcohol to provide a dilute sample; introducing the dilute sample into a mass spectrometer; and then measuring the amount of the at least one cholesteryl ester in the dilute sample by mass spectrometry, to thereby measure the amount of at least one cholesteryl ester in the blood sample, is described.

Abstract: A bone graft composition is described, with one or more of: (a) keratose; (b) kerateine; (c) optionally, particulate filler; (d) optionally, an antibiotic; and (e) water or saline. The composition may be provided in sterile form in a container, and optionally lyophilized. Methods of treating a bone deficiency or fracture making use of such compositions are also described.

Abstract: Methods, systems, computer programs, circuits and workstations are configured to generate at least one two-dimensional weighted CBF territory map of color-coded source artery locations using an automated vascular segmentation process to identify source locations using mutual connectivity in both image and label space.

Abstract: The invention is directed to compositions and methods for preparing electrospun matrices comprising at least one natural biological material component and at least one synthetic polymer material. The natural component makes the matrices highly biocompatible while the molecular weight polymer component can impart additional strength mechanical strength to the scaffold and/or improve ease of manufacture by increasing viscosity and spinning characteristics of the solution during electrospining.

Abstract: Methods and systems for correcting presbyopia using a surgical excimer laser include activating the laser once and transmitting a pre-defined three dimensional ablation profile to treat presbyopia based on the single activating step.

Abstract: Methods are provided to produce optimal fractionations of charged keratins that have superior biomedical activity. Also provided are medical implants coated with these keratin preparations. Further provided are methods of treating blood coagulation in a patient in need thereof.

Abstract: Nanofiber-based biomaterials containing fibroin for wound repair and tissue replacement and, more particularly, heart valve replacement.

Abstract: A method and apparatus are provided for treating cardiac tissue to modulate ischemic heart tissue with topical sub-atmospheric pressure to minimize cell death and damage.

Abstract: A subdural drainage system includes (a) a subdural drainage device having an opening formed therethrough, said subdural drainage device having an upper portion, a body portion, and a lower portion; (b) a housing having an upper portion and lower portion, with said housing connected to said subdural drainage device; said housing movable between (i) a first configuration and (ii) a second configuration; and (c) a stylet positioned inside said housing, said stylet having an upper portion and a lower portion and configured such that said stylet is moved between (i) a withdrawn position with said stylet withdrawn from a portion of said subdural evacuation port device, and (ii) an extended position with said stylet extending through said subdural drainage device such that blockages are disrupted in the subdural drainage device when said housing is moved between said first and second housing configurations; and (d) an external drain opening formed on either said subdural drainage device or said housing.

Abstract: Physician interactive workstations with global voxel distribution visualization may also include one or more of a 3-D color scale image of a population of voxel in target regions, organs or systems. The workstation may be configured to evaluate intensity or other measures of voxels of patient images associated with tissue for early detection of a global injury.

Abstract: Methods are provided for producing a bioscaffold from natural tissues by oxidizing a decellularized tissue to produce a bioscaffold having pores therein. The pore size and porosity is increased to better accommodate intact cells so that live cells can better infiltrate and inhabit the bioscaffold. The bioscaffold may be freeze-dried or lyophilized, sterilized and (optionally) aseptically packaged for subsequent use. A further aspect of the present invention is a bioscaffold produced by the processes described herein. Methods of treatment using the bioscaffold as a graft or as a biomedical implant for implantation are also provided. Also provided are methods of seeding a bioscaffold with mammalian cells, wherein the seeding carried out either in vitro or in vivo, and wherein a bioscaffold produced as described herein is utilized for said seeding.