Abstract: A self-decoupled RF coil and method for adjusting the same is disclosed. The RF coil is an array of elements including at least one loop. Electromagnetic coupling between elements in the array causes an induced current in the at least one loop. The induced current has two modes. A reactance inserted in the at least one loop balances the two modes. The balanced current modes cancel. This cancelation results in self-decoupling of at the least one loop from the other elements in the RF coil array.

Abstract: A self-decoupled RF coil and method for adjusting the same is disclosed. The RF coil is an array of elements including at least one loop. Electromagnetic coupling between elements in the array causes an induced current in the at least one loop. The induced current has two modes. A reactance inserted in the at least one loop balances the two modes. The balanced current modes cancel. This cancelation results in self-decoupling of at the least one loop from the other elements in the RF coil array.

Abstract: In the various embodiments, cell size imaging is performed using a method that relies upon the acquisition of gradient echo and spin echo data during contrast agent (CA) passage through tissue and estimation of “perturber” size using the ratio of ?R2* and ?R2. When measured at CA equilibrium, the magnetic field perturbations, and associated MRI signal changes, are determined by the cellular features and not the vasculature. Thus, in cell size imaging the cells act as the perturbers.

Abstract: In the various embodiments, cell size imaging is performed using a method that relies upon the acquisition of gradient echo and spin echo data during contrast agent (CA) passage through tissue and estimation of “perturber” size using the ratio of ?R2* and ?R2. When measured at CA equilibrium, the magnetic field perturbations, and associated MRI signal changes, are determined by the cellular features and not the vasculature. Thus, in cell size imaging the cells act as the perturbers.

Abstract: Embodiments of the present disclosure provide for a compound, methods of making a compound, a probe, methods of making a probe, pharmaceutical compositions including a probe or a compound, methods of using a probe, methods of imaging, diagnosing, localizing, monitoring, and/or assessing a disease (e.g., cancer, diseases caused by inflammation (e.g., arthritis, cardiovascular disease, and the like)), and the like, and/or related biological events using a probe, kit for imaging, diagnosing, localizing, monitoring, and/or assessing a disease, and/or related biological events, using a probe, and the like.

Abstract: Embodiments of the present disclosure provide for a compound, methods of making a compound, a probe, methods of making a probe, pharmaceutical compositions including a probe or a compound, methods of using a probe, methods of imaging, diagnosing, localizing, monitoring, and/or assessing a disease (e.g., cancer, diseases caused by inflammation (e.g., arthritis, cardiovascular disease, and the like)), and the like, and/or related biological events using a probe, kit for imaging, diagnosing, localizing, monitoring, and/or assessing a disease, and/or related biological events, using a probe, and the like.

Abstract: A compound of the following formula: wherein R1 is SO3H; R2 is chosen from carboxylic acid group and SO3H; and R3 is chosen from Cl, carboxylic acid group, amino, amino-carboxylic acid group, amido group, amino-amido group, and methods of use related to imaging.

Abstract: A compound of the following formula: wherein R1 is SO3H; R2 is chosen from carboxylic acid group and SO3H; and R3 is chosen from Cl, carboxylic acid group, amino, amino-carboxylic acid group, amido group, amino-amido group, and methods of use related to imaging.

Abstract: Methods of manufacturing hardenable dental articles, packaged hardenable dental articles, and methods of packaging hardenable dental articles are disclosed. In various embodiments, the manufacturing may involve molding a hardenable dental material in a mold cavity that may be lined with a mold liner. The mold body may also form the package of the hardenable dental article formed within the mold cavity. In other embodiments, the hardenable dental articles may be provided in mold cavities located in sacrificial mold bodies that may be torn, stretched, softened, dissolved, etc. to release the hardenable dental articles in the mold cavities.

Abstract: Methods of manufacturing hardenable dental articles, packaged hardenable dental articles, and methods of packaging hardenable dental articles are disclosed. In various embodiments, the manufacturing may involve molding a hardenable dental material in a mold cavity that may be lined with a mold liner. The mold body may also form the package of the hardenable dental article formed within the mold cavity. In other embodiments, the hardenable dental articles may be provided in mold cavities located in sacrificial mold bodies that may be torn, stretched, softened, dissolved, etc. to release the hardenable dental articles in the mold cavities.

Abstract: Methods of manufacturing hardenable dental articles, packaged hardenable dental articles, and methods of packaging hardenable dental articles are disclosed. In various embodiments, the manufacturing may involve molding a hardenable dental material in a mold cavity that may be lined with a mold liner. The mold body may also form the package of the hardenable dental article formed within the mold cavity. In other embodiments, the hardenable dental articles may be provided in mold cavities located in sacrificial mold bodies that may be torn, stretched, softened, dissolved, etc. to release the hardenable dental articles in the mold cavities.

Abstract: In another aspect, the present invention relates to a method for NMR measurements of an arbitrarily shaped region of interest of a living subject. In one embodiment, the method comprises the steps of applying a broad bandwidth of RF pulses to the arbitrarily shaped region of interest to obtain a corresponding spectrum, wherein substantially entire range of chemical shifts in the spectrum is excited from the arbitrarily shaped region of interest, interleaving a plurality of radial k-lines in radial k-space per excitation with non-selective refocusing pulses and obtaining spatial localization for the spectrum of the arbitrarily shaped region of interest.

Abstract: A compound of the following formula: wherein R1 is SO3H; R2 is chosen from carboxylic acid group and SO3H; and R3 is chosen from Cl, carboxylic acid group, amino, amino-carboxylic acid group, amido group, amino-amido group, and methods of use related to imaging.

Abstract: In another aspect, the present invention relates to a method for NMR measurements of an arbitrarily shaped region of interest of a living subject. In one embodiment, the method comprises the steps of applying a broad bandwidth of RF pulses to the arbitrarily shaped region of interest to obtain a corresponding spectrum, wherein substantially entire range of chemical shifts in the spectrum is excited from the arbitrarily shaped region of interest, interleaving a plurality of radial k-lines in radial k-space per excitation with non-selective refocusing pulses and obtaining spatial localization for the spectrum of the arbitrarily shaped region of interest.

Abstract: An arcuate die board formed as a multi-layered paperboard structure. The die board is initially produced as a full cylindrical paperboard tube, which is subsequently cut lengthwise to form two or more part-cylindrical portions each of which is used to fabricate a die board. The die board is then cut to form the slots in its outer surface for mounting die tools. The multi-layered paperboard tube can be spirally wound, convolutely wound, or formed by a linear draw process. The part-cylindrical wall is formed predominantly, substantially entirely, or entirely of paperboard plies adhesively laminated together.

Abstract: A tubular tissue scaffold is described which comprises a tube having a wall, wherein the wall includes biopolymer fibrils that are aligned in a helical pattern around the longitudinal axis of the tube where the pitch of the helical pattern changes with the radial position in the tube wall. The scaffold is capable of directing the morphological pattern of attached and growing cells to form a helical pattern around the tube walls. Additionally, an apparatus for producing such a tubular tissue scaffold is disclosed, the apparatus comprising a biopolymer gel dispersion feed pump that is operably connected to a tube-forming device having an exit port, where the tube-forming device is capable of producing a tube from the gel dispersion while providing an angular shear force across the wall of the tube, and a liquid bath located to receive the tubular tissue scaffold from the tube-forming device. A method for producing the tubular tissue scaffolds is also disclosed.

Abstract: An optical scanner gives three dimensional dosimetric data by scanning, with at least one light beam, a translucent medium exhibiting optical properties which change upon receipt of radiant energy representing a dose distribution of the energy. At least one detector is employed to gather data indicative of changes in the optical properties of the medium after scanning from multiple directions to provide a representation of the optical properties in sections through the medium. Typical optical properties measured include optical density, light scattering, emitted light intensities, and combinations thereof.

Abstract: An improved file system, file system object and method for customizing a file system object within a data processing system are disclosed. The data processing system executes an operating system and includes a storage media having contents organized according to a file system. According to the present invention, a file system object is stored within the storage media which comprises object data, a procedure, and a node that contains a number of attributes of the file system object. The attributes of the file system object contained within the node include an object data location indicator which indicates one or more locations of the object data within the storage media and a procedure location indicator which indicates one or more locations of portions of the procedure within the storage media.

Abstract: A visible and/or MRI visualizable permanent image is formed in a gel in a container which maintains the gel a dimensionally stable shape, which gel contains uniformly dispersed therein in storage stable form at least one radiant energy, e.g., ionizing radiation, or mechanical, e.g., ultrasonic or sonic shock wave, polymerizable monomer in a concentration effective to form a polymer in the gel which alters the NMR relaxation time of the solvent in any area thereof in which the polymer is formed, e.g.

Abstract: A postage management system is disclosed that enables the use of one of a plurality of carriers from any station in the network. The system imprints postage on postal and private courier parcels and envelopes. Each station of the system has a central processing unit (CPU), an operating system, and a user communications link with the CPU having an embedded software program therewithin. The software program has a permanent portion and a configurable portion, and the configurable portion, in turn, has a postage rate database, a postage service database, and a management program. The databases include on a carrier-by-carrier basis the postal costs for parcels and envelopes of various configurations and specifications for a various parcel and envelope configurations, respectively. The system software includes both user and system default parameter schemes enabling a user to predetermine common patterns of use and quickly employ a given modality.