Abstract: A composition for sealing defects in structural materials such as roads or paved surfaces, the composition preferably comprising one or more shape memory polymer (SMP) components capable of responding to increased temperature by decreasing in volume. Smart SMP-based sealants of the invention serve to avoid adhesion failure between a sealant and the repaired structure when the repaired structure is subjected to varied temperatures that cause thermal expansion and contraction.

Abstract: Disclosed herein are compounds of formula I: and salts thereof. Also disclosed are compositions comprising of compounds of formula I and methods using compounds of formula I.

Abstract: The disclosure generally relates to a particulate composition formed from a conductive polymer (e.g., conductive polyanilines, polypyrroles, polythiophenes) bound to magnetic nanoparticles (e.g., Fe(II)- and/or Fe(III)-based magnetic metal oxides). The particulate composition can be formed into a biologically enhanced, electrically active magnetic (BEAM) nanoparticle composition by further including a binding pair member (e.g., an antibody) bound to the conductive polymer of the particulate composition. Methods and kits employing the particulate composition and the BEAM nanoparticle composition also are disclosed.

Abstract: Described herein are small peptide domains and consensus sequences that bind small target molecules of industrial importance, e.g., metals such as nickel, ? carotene, and isoflavones such as genistein. Also described are fusion proteins containing such binding domains fused to proteins or to peptide domains like GST or CBD that bind other ligands and can be used to immobilize the target binding domain on a support. One class of fusion proteins that is useful in industrial settings are fusions that contain concatemers of target binding domains, which increases the binding equivalents per molecule.

Abstract: In a composition aspect of the invention, a nanoparticle coating comprises repeating polyacrylic acid monomers covalently bound together in an aliphatic chain having a plurality of carboxylic acid functional groups and modified carboxylic acid functional groups extending therefrom. A first portion of the modified carboxylic acid functional groups are modified by a PEG oligomer having a terminal methoxy functional group and a second portion of the modified carboxylic acid functional groups are modified by a PEG oligomer having at least one terminal catechol group.

Abstract: Systems and methods are provided for delivering neurostimulation therapies to patients for treating chronic heart failure. A neural fulcrum zone is identified and ongoing neurostimulation therapy is delivered within the neural fulcrum zone. The implanted stimulation device includes a physiological sensor for monitoring the patient's response to the neurostimulation therapy on an ambulatory basis over extended periods of time and a control system for adjusting stimulation parameters to maintain stimulation in the neural fulcrum zone based on detected changes in the physiological response to stimulation.

Abstract: Provided is a device having one or more lipid multilayer arrays of lipid multilayer structures on a substrate. Each lipid multilayer structure encapsulates an encapsulated material that may be delivered to a cell that is in contact with the lipid multilayer structure to determine the cellular response of the cell to the encapsulated material.

Abstract: Methods for forming a vertically movable gate field effect transistor (VMGFET) on a silicon-on-insulator (SOI) wafer are described. The methods include providing a process of making VMGFET devices without critical alignment of masks between sequential etch and diffusion steps. The oxide layer of the SOI wafer is used for a self-limiting etch stop layer and for a sacrificial layer to form an insulating layer between a gate electrode and a substrate. The proper location of the gate electrode with respect to the source and drain junctions is insured by using a silicon gate structure as a mask layer for the diffusion process for defining the source and drain junctions.

Abstract: A system for providing neurostimulation includes an external device (“external exciter”) and an implanted device. The external exciter includes an energy source which inductively powers the implanted device. Examples of such external exciters include devices having at least one of: ultrasonic transducers, Radio Frequency (RF) transmitters, and solar cells. The implanted device includes circuitry that limits its maximum energy output to a predetermined saturation threshold such that excess stimulation from the external exciter does not raise the output of the implanted device beyond the saturation threshold. The output signal of the external exciter is then pulse-width modulated in order to produce a desired amount of output stimulation from the implanted device to stimulate the bioelectrically excitable tissue at a desired level.

Abstract: The present invention relates to SHIP inhibitor compounds and methods for using these compounds. In particular, the present invention discloses the following methods: (i) a method of treating graft versus host disease in a subject; (ii) a method of inhibiting a SHIP1 protein in a cell; (iii) a method of selectively inhibiting a SHIP1 protein in a cell; (iv) a method for treating or preventing graft-versus-host disease (GVHD) in a recipient of an organ or tissue transplant; (v) a method of modulating SHIP activity in a cell expressing SHIP1 or SHIP2; (vi) a method of ex vivo or in vitro treatment of transplants; (vii) a method of inhibiting tumor growth and metastasis in a subject; (viii) a method of treating a hematologic malignancy in a subject; (ix) a method of inducing apoptosis of multiple myeloma cells; (x) a method of treating multiple myeloma in a subject; (xi) a method of inhibiting the proliferation of a human breast cancer cell; and (xii) a method of treating breast cancer in a subject.

Abstract: A sugar-anchor polymer and methods of making and using the same to stabilize a lipid membrane. The sugar-anchor polymer includes a sugar covalently bound to a first anchor and a second anchor wherein the covalent bonds are selected from the group consisting essentially of an oxime bond, a hydrazone bond, an acylhydrazide bond, an aminothioacetal bond, an acetal bond, a thioacetal bond, a dithioacetal bond, a thioether bond and combinations thereof. The method includes reacting a sugar having at least two nucleophilic moieties with at least two anchors, each anchor having at least one electrophilic moiety, to form the polymer. Alternatively, the method includes reacting a sugar having at least two electrophilic moieties with at least two anchors, each anchor having at least one nucleophilic moiety, to form the polymer. The anchors may be lipids or peptides. The sugar-anchor polymers stabilize lipid membranes against serum proteins, dehydration, and cryopreservation.

Abstract: This invention relates to lipid nanoparticle compositions and methods for the localized delivery of active agents via inhalation therapy.

Abstract: An electronic circuit to increase voltages from one or more energy sources. The electronic circuit can include a first set of capacitors and a second set of capacitors, and a first set of switches associated with the first set of capacitors and a second set of switches associated with the second set of capacitors. Also included is at least one energy source and an external load. The first and second set of capacitors, first and second set of switches, the at least one energy source, and the external load are arranged and connected such that the first set of capacitors is connected to the at least one energy source in parallel while the second set of capacitors is connected to the external load in series, and vice versa.

Abstract: A method for treating cancer tumors, particularly ovarian cancer tumors, is described, where fused cyclic pyrimidine having a cancer treating ability is selectively delivered to an FR expressing cancerous tumor.

Abstract: Methods for managing visceral pain in mammalian subjects are described, in which a NK-1 receptor antagonist is administered to the subject before, during or after administration of general anesthesia. The methods and uses of NK-1 receptor antagonists described herein provide improved visceral pain management and MAC reduction when used with volatile anesthetics for general anesthesia.

Abstract: Pyridazine derivatives that activate the excitatory amino acid transporter 2 (EAAT2), and methods use thereof for treating or preventing diseases, disorders, and conditions associated with glutamate excitotoxicity.

Abstract: Methods, systems, and media for generating and/or analyzing medical images having elongated structures are provided. In some embodiments, a method for analyzing medical images is provided, the method comprising: receiving a plurality of images, wherein each of the plurality of images includes a portion of an elongated structure; receiving a location of interest within a least one of the plurality of images; determining an orientation of the elongated structure in response to receiving the location of interest; adjusting image planes of each of the plurality of images to correspond with the orientation of the elongated structure; and causing the elongated structure to be displayed in the adjusted image planes.

Abstract: In a composition aspect of the invention, a nanoparticle coating comprises repeating polyacrylic acid monomers covalently bound together in an aliphatic chain having a plurality of carboxylic acid functional groups and modified carboxylic acid functional groups extending therefrom. A first portion of the modified carboxylic acid functional groups are modified by a PEG oligomer having a terminal methoxy functional group and a second portion of the modified carboxylic acid functional groups are modified by a PEG oligomer having at least one terminal sulfur moiety.

Abstract: A method to generate siRNAs in vivo is described, as are constructs and compositions useful in the method. The method does not depend on the use of DNA or synthetic constructs that contain inverted duplications or dual promoters so as to form perfect or largely double-stranded RNA. Rather, the method depends on constructs that yield single-stranded RNA transcripts, and exploits endogenous or in vivo-produced miRNAs or siRNAs to initiate production of siRNAs. The miRNAs or siRNAs guide cleavage of the transcript and set the register for production of siRNAs (usually 21 nucleotides in length) encoded adjacent to the initiation cleavage site within the construct. The method results in specific formation of siRNAs of predictable size and register (phase) relative to the initiation cleavage site. The method can be used to produce specific siRNAs in vivo for inactivation or suppression of one or more target genes or other entities, such as pathogens.

Abstract: A new and distinct apricot variety of Prunus armeniaca named ‘NJA152’ is provided. This variety is distinguished from other apricot varieties by its unique combination of a slightly later blooming habit, good production of glossy glabrous fruit with a red blush over a yellow-orange ground color, freestone flesh which has a melting texture and is moderately juicy, and flavor that is sweet-tart and aromatic.