Abstract: The present disclosure provides a method for producing organic compounds, such as esters, from an organic feedstock that includes at least one of a biopolymer or a lipid. The method includes heating the feedstock in the presence of a solid catalyst, such as a solid, inorganic Lewis acid catalyst, and reaction medium that includes an alcohol. At least certain ester products have an ester group corresponding to a substituent of the alcohol.

Abstract: Disclosed herein are ?7?1 integrin modulatory agents and methods of using such to treat conditions associated with decreased ?7?1 integrin expression or activity, including muscular dystrophy. In one example, methods for treating a subject with muscular dystrophy are disclosed. The methods include administering an effective amount of an ?7?1 integrin modulatory agent to the subject with muscular dystrophy, wherein the ?7?1 integrin modulatory agent increases ?7?1 integrin expression or activity as compared to ?7?1 integrin expression or activity prior to treatment, thereby treating the subject with muscular dystrophy. Also disclosed are methods of enhancing muscle regeneration, repair, or maintenance in a subject and methods of enhancing ?7?1 integrin expression by use of the disclosed ?7?1 integrin modulatory agents. Methods of prospectively preventing or reducing muscle injury or damage in a subject are also disclosed.

Abstract: The invention provides a liquid cell for an atomic force microscope. The liquid cell includes a liquid cell housing with an internal cavity to contain a fluid, a plurality of conductive feedthroughs traversing the liquid cell housing between the internal cavity and a dry side of the liquid cell, a cantilevered probe coupled to the liquid cell housing, and a piezoelectric drive element disposed on the cantilevered probe. The cantilevered probe is actuated when a drive voltage is applied to the piezoelectric drive element through at least one of the conductive feedthroughs. A method of imaging an object in a liquid medium and a method of sensing a target species with the liquid cell are also disclosed.

Abstract: Disclosed herein are methods of treating and diagnosing muscular dystrophy. In some examples, the methods include treating muscular dystrophy by administering to the subject a therapeutically effective amount of an agent that alters the expression of at least one miR gene product, such as miRNA-124 and/or miRNA-29 thereby treating muscular dystrophy. In one particular example, the method of treatment includes administering an agent that decreases the expression or activity of miRNA-124. In another embodiment, the method of treatment includes administering a composition that includes one or more agents to decrease the expression and/or activity of miRNA-124 and one or more agents to alter the activity of miRNA-29 (increase or decrease). Also disclosed are methods of enhancing muscle regeneration, repair, or maintenance in a subject and methods of enhancing ?7?1 integrin expression. Methods of prospectively preventing or reducing muscle injury or damage in a subject are also disclosed.

Abstract: Disclosed herein are ?7?1 integrin modulatory agents and methods of using such to treat conditions associated with decreased ?7?1 integrin expression or activity, including muscular dystrophy. In one example, methods for treating a subject with muscular dystrophy are disclosed. The methods include administering an effective amount of an ?7?1 integrin modulatory agent to the subject with muscular dystrophy, wherein the ?7?1 integrin modulatory agent increases ?7?1 integrin expression or activity as compared to ?7?1 integrin expression or activity prior to treatment, thereby treating the subject with muscular dystrophy. Also disclosed are methods of enhancing muscle regeneration, repair, or maintenance in a subject and methods of enhancing ?7?1 integrin expression by use of the disclosed ?7?1 integrin modulatory agents. Methods of prospectively preventing or reducing muscle injury or damage in a subject are also disclosed.

Abstract: In particular embodiments, the present disclosure provides targets including a metal layer and defining a hollow inner surface. The hollow inner surface has an internal apex. The distance between at least two opposing points of the internal apex is less than about 15 ?m. In particular examples, the distance is less than about 1 ?m. Particular implementations of the targets are free standing. The targets have a number of disclosed shaped, including cones, pyramids, hemispheres, and capped structures. The present disclosure also provides arrays of such targets. Also provided are methods of forming targets, such as the disclosed targets, using lithographic techniques, such as photolithographic techniques. In particular examples, a target mold is formed from a silicon wafer and then one or more sides of the mold are coated with a target material, such as one or more metals.

Abstract: The present disclosure concerns embodiments of a catalyst system, such as a mixed catalyst composition, that can be used to make biofuel. In some embodiments, the mixed catalyst composition can comprise an inorganic catalyst and an organic catalyst, such as a cyclic organic catalyst. In particular disclosed embodiments, a mixed catalyst composition comprising, consisting essentially of, or consisting of an inorganic catalyst and an organic catalyst can be used to enhance the production of biofuel, such as biodiesel, by reducing the amount of time needed to make the biofuel as compared to that needed for the inorganic catalyst or the organic catalyst independently. Also disclosed herein are combinations and kits comprising, consisting essentially of, or consisting of embodiments of a mixed catalyst composition.

Abstract: Disclosed herein are ?7?1 integrin modulatory agents and methods of using such to treat conditions associated with decreased ?7?1 integrin expression or activity, including muscular dystrophy. In one example, methods for treating a subject with muscular dystrophy are disclosed. The methods include administering an effective amount of an ?7?1 integrin modulatory agent to the subject with muscular dystrophy, wherein the ?7?1 integrin modulatory agent increases ?7?1 integrin expression or activity as compared to ?7?1 integrin expression or activity prior to treatment, thereby treating the subject with muscular dystrophy. Also disclosed are methods of enhancing muscle regeneration, repair, or maintenance in a subject and methods of enhancing ?7?1 integrin expression by use of the disclosed ?7?1 integrin modulatory agents. Methods of prospectively preventing or reducing muscle injury or damage in a subject are also disclosed.

Abstract: A superadiabatic burner has a flame holder formed from a porous medium, a fuel inlet coupled to the flame holder, a fuel outlet coupled to the flame holder, a preheater comprising an inlet and an outlet coupled to the fuel inlet, and a radiating rod coupled to the porous medium. The porous medium comprises a first porous section and a second porous section. Methods of using the burner allow preheated air or other mixtures to be provided to the fuel inlet as part of a fuel air mixture for the burner.

Abstract: A coordinated joint control system for controlling a coordinated joint motion system, e.g. an articulated arm of a hydraulic excavator blends automation of routine tasks with real-time human supervisory trajectory correction and selection. One embodiment employs a differential control architecture utilizing an inverse Jacobian. Modeling of the desired trajectory of the end effector in system space can be avoided. The disclosure includes image generation and matching systems.

Abstract: In one embodiment, the present disclosure provides a target or mold having one or more support arms coupled to a substrate. The support arm can be used in handling or positioning a target. In another embodiment, the present disclosure provides target molds, targets produced using such molds, and a method for producing the targets and molds. In various implementations, the targets are formed in a number of disclosed shapes, including a funnel cone, a funnel cone having an extended neck, those having Gaussian-profile, a cup, a target having embedded metal slugs, metal dotted foils, wedges, metal stacks, a Winston collector having a hemispherical apex, and a Winston collector having an apex aperture. In yet another embodiment, the present disclosure provides a target mounting and alignment system.

Abstract: A reactor system includes plural batch-cyclic reduction/oxidation (redox) reactors. One reactor is operated in fuel mode while another is operated in air mode, and vice-versa. For each reactor in air mode, air is introduced via air-only tuyeres and via fuel-air tuyeres to oxidize oxidation particles. For each reactor in fuel mode, fuel is introduced via the reactor's fuel-air tuyeres and not via its air-only tuyeres. As a result, air is introduced at a higher rate than fuel is introduced so that the oxidation rate can match the reduction rate. Thus, for example, as few as two reactors can be used for continuous power generation without having to shuttle oxidation particles between reactors.

Abstract: Disclosed herein are methods for diagnosing, prognosing and treating muscular dystrophy. Also disclosed are methods of determining the effectiveness of an agent for the treatment of muscular dystrophy. Provided are methods of enhancing muscle regeneration, repair, or maintenance in a subject by administering galectin, such as Galectin-1 and/or Galectin-3 to a subject in need thereof. Also disclosed are methods of increasing or maintaining muscle strength and/or bone density in a subject by administering an effective amount of a Galectin-1 composition, Galectin-3 composition or a combination thereof to the subject in need thereof. Methods of preventing, inhibiting and/or reducing muscle loss and/or bone loss in a subject by administering an effective amount of a Galectin-1 composition, Galectin-3 composition or a combination thereof to the subject in need thereof are disclosed.

Abstract: In some embodiments, cooling devices with metal hydrides are disclosed.

Abstract: The invention provides a chemical detection system for detecting at least one target chemical species, including a self-sensed cantilevered probe array having a plurality of self-sensed cantilevered probes, at least one chemical-sensitive coating material applied to at least one cantilevered probe in the cantilevered probe array, and an interface circuit that is coupled to the cantilevered probe array. At least one cantilevered probe in the cantilevered probe array exhibits a shifted cantilevered probe response when the cantilevered probe array is exposed to the target chemical species and the interface circuit actuates the cantilevered probe. A handheld chemical detection system and a method of operation are also disclosed.

Abstract: Disclosed herein are ?7?1 integrin modulatory agents and methods of using such to treat conditions associated with decreased ?7?1 integrin expression or activity, including muscular dystrophy. In one example, methods for treating a subject with muscular dystrophy are disclosed. The methods include administering an effective amount of an ?7?1 integrin modulatory agent to the subject with muscular dystrophy, wherein the ?7?1 integrin modulatory agent increases ?7?1 integrin expression or activity as compared to ?7?1 integrin expression or activity prior to treatment, thereby treating the subject with muscular dystrophy. Also disclosed are methods of enhancing muscle regeneration, repair, or maintenance in a subject and methods of enhancing ?7?1 integrin expression by use of the disclosed ?7?1 integrin modulatory agents. Methods of prospectively preventing or reducing muscle injury or damage in a subject are also disclosed.

Abstract: A disclosed chemical detection system for detecting a target material, such as an explosive material, can include a cantilevered probe, a probe heater coupled to the cantilevered probe, and a piezoelectric element disposed on the cantilevered probe. The piezoelectric element can be configured as a detector and/or an actuator. Detection can include, for example, detecting a movement of the cantilevered probe or a property of the cantilevered probe. The movement or a change in the property of the cantilevered probe can occur, for example, by adsorption of the target material, desorption of the target material, reaction of the target material and/or phase change of the target material. Examples of detectable movements and properties include temperature shifts, impedance shifts, and resonant frequency shifts of the cantilevered probe. The overall chemical detection system can be incorporated, for example, into a handheld explosive material detection system.

Abstract: Disclosed herein are support column structures which can be used to support bridges, buildings or other structures. In some cases, a support column structure can be deconstructable and include one or more removable elements. In some cases, a support column structure can include shape memory alloy reinforcing bars. In some cases, a removable element of a support column structure can include an engineered cementitious composite. In some cases, a removable element includes one or more sleeves to separate an engineered cementitious composite from one or more shape memory alloy reinforcing bars. Methods include assembling and disassembling a support column structure.

Abstract: Among other aspects, the present disclosure provides a computer implemented method of routing information. A first routing information base is received at a proxy router. The first proxy router compares the first routing information based with a second routing information base associated with an assisted router. The proxy router updates the second routing information base based on the first routing information base. The proxy routing transmits updated routing information to the assisted router.

Abstract: Disclosed herein are ?7?1 integrin modulatory agents and methods of using such to treat conditions associated with decreased ?7?1 integrin expression or activity, including muscular dystrophy. In one example, methods for treating a subject with muscular dystrophy are disclosed. The methods include administering an effective amount of an ?7?1 integrin modulatory agent to the subject with muscular dystrophy, wherein the ?7?1 integrin modulatory agent increases ?7?1 integrin expression or activity as compared to ?7?1 integrin expression or activity prior to treatment, thereby treating the subject with muscular dystrophy. Also disclosed are methods of enhancing muscle regeneration, repair, or maintenance in a subject and methods of enhancing ?7?1 integrin expression by use of the disclosed ?7?1 integrin modulatory agents. Methods of prospectively preventing or reducing muscle injury or damage in a subject are also disclosed.