Abstract: Inhibitors of mTOR, MEK, JAK and PI3K and compositions containing the same are disclosed. Methods of using the inhibitors in the treatment of a variety of diseases and conditions wherein inhibition of one or more of mTOR, MEK, JAK and PI3K provides a benefit also are disclosed. Methods of using chemical attachment moieties and linkers for the purposes of modifying compound solubility and/or lymphatic absorption are also disclosed.

Abstract: Multifunctional inhibitors of mTOR, MEK, and PI3K and compositions containing the same are disclosed. Methods of using the multifunctional inhibitors in the treatment of diseases and conditions wherein inhibition of one or more of mTOR, MEK, and PI3K provides a benefit, like cancers, also are disclosed.

Abstract: Thoracic aortic aneurysm is a common and lethal disease that requires regular imaging surveillance to determine timing of surgical repair and prevent major complications such as rupture. Current cross-sectional imaging surveillance techniques, largely based on computed tomography angiography (CTA) or magnetic resonance angiography (MRA), are focused on measurement of maximal aortic diameter, although this approach is limited to fixed anatomic positions and is prone to significant measurement error. The present techniques demonstrate novel approaches (generally termed herein “Vascular Deformation Mapping (VDM)”) for assessing changes in aortic dimensions. The present techniques quantify three-dimensional changes in the anatomic dimensions of a vessel through a process that involves non-rigid co-registration of serial imaging data and quantification of vascular deformation on a 3D surface model using some derivation of the spatial deformations resulting from the optimized spatial transform.

Abstract: Inhibitors of mTOR, MEK, JAK and PI3K and compositions containing the same are disclosed. Methods of using the inhibitors in the treatment of a variety of diseases and conditions wherein inhibition of one or more of mTOR, MEK, JAK and PI3K provides a benefit also are disclosed. Methods of using chemical attachment moieties and linkers for the purposes of modifying compound solubility and/or lymphatic absorption are also disclosed.

Abstract: Computer-implemented methods are used to analyze a medical image to assess the state of the sample region. In at least one embodiment, the method comprises receiving at least one medical image collected previously from an image source, the at least one medical image comprising a plurality of voxels, each characterized by a signal value; classifying the signal value of each voxel as representing one of healthy tissue or diseased tissue based on a threshold value; and analyzing at least one topographical feature of the at least one medical image.

Abstract: Multifunctional inhibitors of mTOR, MEK, and PI3K and compositions containing the same are disclosed. Methods of using the multifunctional inhibitors in the treatment of diseases and conditions wherein inhibition of one or more of mTOR, MEK, and PI3K provides a benefit, like cancers, also are disclosed.

Abstract: Thoracic aortic aneurysm is a common and lethal disease that requires regular imaging surveillance to determine timing of surgical repair and prevent major complications such as rupture. Current cross-sectional imaging surveillance techniques, largely based on computed tomography angiography (CTA) or magnetic resonance angiography (MRA), are focused on measurement of maximal aortic diameter, although this approach is limited to fixed anatomic positions and is prone to significant measurement error. The present techniques demonstrate novel approaches (generally termed herein “Vascular Deformation Mapping (VDM)”) for assessing changes in aortic dimensions. The present techniques quantify three-dimensional changes in the anatomic dimensions of a vessel through a process that involves non-rigid co-registration of serial imaging data and quantification of vascular deformation on a 3D surface model using some derivation of the spatial deformations resulting from the optimized spatial transform.

Abstract: Compositions and methods useful in connection with magnetic resonance imaging are provided. Metabolites hyperpolarized by dynanic nuclear polarization are used as reporter molecules in nuclear magnetic resonance (“NMR”) spectroscopy to study metabolic pathways and diagnose disease states. The reporter molecules include hyperpolarized glutamine and hyperpolarized acetate. The invention includes the reporter molecules, compositions including the reporter molecules in pharmaceutically acceptable carriers, methods for studying metabolic pathways that include introducing one or more of the reporter molecules to a mammalian subject and imaging a target substance using NMR spectroscopy, and kits useful in studying metabolic pathways that incorporate one or more of the reporter molecules and instructions for their use.

Abstract: A voxel-based technique is provided for performing quantitative imaging and analysis of tissue image data. Serial image data is collected for tissue of interest at different states of the issue. The collected image data may be deformably registered, after which the registered image data is analyzed on a voxel-by-voxel basis, thereby retaining spatial information for the analysis. Various thresholds are applied to the registered tissue data to identify a tissue condition or state, such as classifying chronic obstructive pulmonary disease by disease phenotype in lung tissue, for example.

Abstract: Techniques for correcting gradient non-linearity bias in mean diffusivity measurements by MRI systems are shown and include minimal number of spatial correction terms to achieve sufficient error control using three orthogonal diffusion weighted imaging (DWI) gradients. The correction is based on rotation of system gradient nonlinearity tensor into a DWI gradient frame where spatial bias of b-matrix is described by its Euclidian norm. The techniques obviate time consuming multi-direction acquisition and noise-sensitive mathematical diagonalization of a full diffusion tensor for medium of arbitrary anisotropy.

Abstract: Computer-implemented methods are used to analyze a medical image to assess the state of the sample region. In at least one embodiment, the method comprises receiving at least one medical image collected previously from an image source, the at least one medical image comprising a plurality of voxels, each characterized by a signal value; classifying the signal value of each voxel as representing one of healthy tissue or diseased tissue based on a threshold value; and analyzing at least one topographical feature of the at least one medical image.

Abstract: A voxel-based technique is provided for performing quantitative imaging and analysis of tissue image data. Serial image data is collected for tissue of interest at different states of the issue. The collected image data may be deformably registered, after which the registered image data is analyzed on a voxel-by-voxel basis, thereby retaining spatial information for the analysis. Various thresholds are applied to the registered tissue data to identify a tissue condition or state, such as classifying chronic obstructive pulmonary disease by disease phenotype in lung tissue, for example.

Abstract: Dual inhibitors of MEK and PI3K and compositions containing the same are disclosed. Methods of using the dual MEK/PI3K inhibitors in the treatment of diseases and conditions wherein inhibition of MEK and PI3K provides a benefit, like cancers, also are disclosed.

Abstract: A computing system may comprise a processor and a memory having a routing program, the processor being configured to receive a first request having a data record with a unique subscriber identifier, extract the unique subscriber identifier from the first request, and compare a tag of a database table with the unique subscriber identifier. If the tag does not match the unique subscriber identifier, the processor may be configured to process the first request as part of a general test environment. If the tag matches the unique subscriber identifier, the processor may be configured to route the first request to a live test environment associated with the tag.

Abstract: The present invention provides systems and methods for monitoring tissue regions. In particular, the present invention provides systems and methods for detecting changes in tissue regions over a period of time. In some embodiments, the systems and methods of the present invention are used to evaluate the effectiveness of a particular treatment of a tissue region. In some embodiments, the systems and methods of the present invention provide a parametric response map approach for detecting and analyzing changes in tissue regions over a period of time to detect and monitor disease or tissue health and to monitor the impact of therapeutic interventions.

Abstract: The present invention provides systems and methods for monitoring tissue regions. In particular, the present invention provides systems and methods for detecting changes in tissue regions over a period of time. In some embodiments, the systems and methods of the present invention are used to evaluate the effectiveness of a particular treatment of a tissue region. In some embodiments, the systems and methods of the present invention provide a parametric response map approach for detecting and analyzing changes in tissue regions over a period of time to detect and monitor disease or tissue health and to monitor the impact of therapeutic interventions.

Abstract: A computing system may comprise a processor and a memory having a routing program, the processor being configured to receive a first request having a data record with a unique subscriber identifier, extract the unique subscriber identifier from the first request, and compare a tag of a database table with the unique subscriber identifier. If the tag does not match the unique subscriber identifier, the processor may be configured to process the first request as part of a general test environment. If the tag matches the unique subscriber identifier, the processor may be configured to route the first request to a live test environment associated with the tag.

Abstract: Dual inhibitors of MEK and PI3K and compositions containing the same are disclosed. Methods of using the dual MEK/PI3K inhibitors in the treatment of diseases and conditions wherein inhibition of MEK and PI3K provides a benefit, like cancers, also are disclosed.

Abstract: The present subject matter relates to methods and apparatus for using hyperpolarization to improve imaging. Am exemplary embodiment, a PASADENA polarizer, is capable of delivering 2.5-5 ml of highly hyperpolarized biological 13C and 15N imaging reagents in less than one minute, and capable of repeated delivery every 5-8 minutes. Exemplary quality control sequences are also provided to create versatile methods, systems, and apparatuses for a variety of biomolecules, capable of undergoing reaction with parahydrogen necessary for effective PASADENA. The subject matter simplifies the technology for routine liquid state generation of hyperpolarized molecules for 13C and 15N subsecond imaging and spectroscopy in vivo and further advance the clinical application of this technology. Methods and systems for providing magnetic shielding are also provided.

Abstract: A voxel-based technique is provided for performing quantitative imaging and analysis of tissue image data. Serial image data is collected for tissue of interest at different states of the issue. The collected image data may be normalized, after which the registered image data is analyzed on a voxel-by-voxel basis, thereby retaining spatial information for the analysis. Various thresholds are applied to the registered tissue data to predict or determine the evolution of a disease state, such as brain cancer, for example.