Abstract: Molten carbonate fuel cell configurations are provided that allow for introduction of an anode input gas flow on a side of the fuel cell that is adjacent to the entry side for the cathode input gas flow while allowing the anode and cathode to operate under co-current flow and/or counter-current flow conditions. It has been discovered that improved flow properties can be achieved within the anode or cathode during co-current flow or counter-current flow operation by diverting the input flow for the anode or cathode into an extended edge seal region (in an extended edge seal chamber) adjacent to the active area of the anode or cathode, and then using a baffle to provide sufficient pressure drop for even flow distribution of the anode input flow across the anode or cathode input flow across the cathode.

Abstract: A system for generating a user interface described herein can include a processor to detect a type of the system based on hardware components residing within the system or coupled to the system and determine a user interface manager to execute based on the type of the system. The processor can also execute the user interface manager to generate a user interface for the system, wherein the type of the user interface manager comprises a plurality of rules to indicate a layout of the user interface.

Abstract: Thyroid hormone antagonists and their nanoparticle formulations (Nanotetrac™ or Nanotriac™) act at a cell surface receptor to block angiogenesis and tumor cell proliferation. The complex anti-angiogenic performs actions on specific cytokines and chemokines. Thyroid hormone antagonists inhibit expression in tumor cells of cytokine genes, e.g., specific interleukins, and chemokine genes, such as fractalkine (CX3CL1), and chemokine receptor genes (CX3CR1) that are targets in the development of inflammation-suppressant drugs. This application discloses a novel composition of Tetra or Tri-iodothyroacetic acid (tetrac or triac), other thyroid partial agonists or antagonists and their nanoparticle formulations conjugated to polymers and encapsulating non-steroidal anti-inflammatory, anti-inflammatory glucocorticoids, and/or polyphenols for the management of various acute and chronic inflammatory disorders ranging from neurological, vascular, and musculoskeletal disorders.

Abstract: A method for screening a patient for angioinhibition resistance and treating said patient having a disease susceptible to treatment via an anti-angiogenic agent. The screening method includes an assay for identifying the presence of angioinhibition resistance in patients by collecting patient blood or serum and subjecting it to a Chick Chorioallantoic Membrane (CAM) angiogenesis assay configured for accepting a human tumor wherein the human tumor xenograft includes a vasculature system. The screening method and assay further includes steps that include using the CAM results for identifying the endogenous pro-angiogenic non-peptide hormone concentrations of the blood sample by calculating the vascular activity of the vasculature system of the human tumor xenograft in the presence of anti-angiogenic drugs and inducing in the patient, a state of subclinical hypothyroidism prior to commencing anti-angiogenic treatment.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric form of thyroid hormone, or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Compositions of the polymeric forms of thyroid hormone, or thyroid hormone analogs, are also disclosed.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric Nanoparticle form of thyroid hormone agonist, partial agonist or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Compositions of the polymeric forms of thyroid hormone, or thyroid hormone analogs, are also disclosed.

Abstract: Thyroid hormone antagonists and their nanoparticle formulations (Nanotetrac™ or Nanotriac™) act at a cell surface receptor to block angiogenesis and tumor cell proliferation. The complex anti-angiogenic performs actions on specific cytokines and chemokines. Thyroid hormone antagonists inhibit expression in tumor cells of cytokine genes, e.g., specific interleukins, and chemokine genes, such as fractalkine (CX3CL1), and chemokine receptor genes (CX3CR1) that are targets in the development of inflammation-suppressant drugs. This application discloses a novel composition of Tetra or Tri-iodothyroacetic acid (tetrac or triac), other thyroid partial agonists or antagonists and their nanoparticle formulations conjugated to polymers and encapsulating non-steroidal anti-inflammatory, anti-inflammatory glucocorticoids, and/or polyphenols for the management of various acute and chronic inflammatory disorders ranging from neurological, vascular, and musculoskeletal disorders.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric Nanoparticle form of thyroid hormone agonist, partial agonist or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Compositions of the polymeric forms of thyroid hormone, or thyroid hormone analogs, are also disclosed.

Abstract: Provided herein is a continuous cell perfusion model system that provides useful pharmacokinetic and pharmacodynamic information on the application of new drugs or combinations of various agents in vitro to human cancer cell lines. Also provided are methods of using this system to individualize cancer treatment.

Abstract: Thyroid hormone antagonists and their nanoparticle formulations (Nanotetrac™ or Nanotriac™) act at a cell surface receptor to block angiogenesis and tumor cell proliferation. The complex anti-angiogenic performs actions on specific cytokines and chemokines. Thyroid hormone antagonists inhibit expression in tumor cells of cytokine genes, e.g., specific interleukins, and chemokine genes, such as fractalkine (CX3CL1), and chemokine receptor genes (CX3CR1) that are targets in the development of inflammation-suppressant drugs. This application discloses a novel composition of Tetra or Tri-iodothyroacetic acid (tetrac or triac), other thyroid partial agonists or antagonists and their nanoparticle formulations conjugated to polymers and encapsulating non-steroidal anti-inflammatory, anti-inflammatory glucocorticoids, and/or polyphenols for the management of various acute and chronic inflammatory disorders ranging from neurological, vascular, and musculoskeletal disorders.

Abstract: Provided herein are compositions and methods for preventing and treating diseases and risk factors associated with metabolic syndrome by targeting the RGD-binding site of selected intra- and extracellular proteins. Exemplary compositions include RGD-polyphenol conjugates via an ester linkage; polyphenol polymer conjugated to RGD analogs or mimetics; and RGD polymer conjugates linked to polyphenol.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric Nanoparticle form of thyroid hormone agonist, partial agonist or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Compositions of the polymeric forms of thyroid hormone, or thyroid hormone analogs, are also disclosed.

Abstract: Provided herein are compositions and methods for preventing and treating diseases and risk factors associated with metabolic syndrome by targeting the RGD-binding site of selected intra- and extracellular proteins. Exemplary compositions include RGD-polyphenol conjugates via an ester linkage; polyphenol polymer conjugated to RGD analogs or mimetics; and RGD polymer conjugates linked to polyphenol.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric nanoparticle form of thyroid hormone agonist, partial agonist or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Nanoparticle forms of thyroid hormone or thyroid hormone analogs as well as uses thereof are also disclosed.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric form of thyroid hormone, or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Compositions of the polymeric forms of thyroid hormone, or thyroid hormone analogs, are also disclosed.

Abstract: Provided herein are compositions and methods for treating cancer by increasing the inhibitory effect of cetuximab on HIF1? expression by administering cetuximab in combination with anti-angiogenic thyroid hormone analogs such as tetrac or triac.

Abstract: A method for screening a patient for angioinhibition resistance and treating said patient having a disease susceptible to treatment via an anti-angiogenic agent. The screening method includes an assay for identifying the presence of angioinhibition resistance in patients by collecting patient blood or serum and subjecting it to a Chick Chorioallantoic Membrane (CAM) angiogenesis assay configured for accepting a human tumor wherein the human tumor xenograft includes a vasculature system. The screening method and assay further includes steps that include using the CAM results for identifying the endogenous pro-angiogenic non-peptide hormone concentrations of the blood sample by calculating the vascular activity of the vasculature system of the human tumor xenograft in the presence of anti-angiogenic drugs and inducing in the patient, a state of subclinical hypothyroidism prior to commencing anti-angiogenic treatment.

Abstract: Disclosed are methods of treating subjects having conditions related to angiogenesis including administering an effective amount of a polymeric Nanoparticle form of thyroid hormone agonist, partial agonist or an antagonist thereof, to promote or inhibit angiogenesis in the subject. Compositions of the polymeric forms of thyroid hormone, or thyroid hormone analogs, are also disclosed.

Abstract: Thyroid hormone antagonists and their nanoparticle formulations (Nanotetrac™ or Nanotriac™) act at a cell surface receptor to block angiogenesis and tumor cell proliferation. The complex anti-angiogenic performs actions on specific cytokines and chemokines. Thyroid hormone antagonists inhibit expression in tumor cells of cytokine genes, e.g., specific interleukins, and chemokine genes, such as fractalkine (CX3CL1), and chemokine receptor genes (CX3CR1) that are targets in the development of inflammation-suppressant drugs. This application discloses a novel composition of Tetra or Tri-iodothyroacetic acid (tetrac or triac), other thyroid partial agonists or antagonists and their nanoparticle formulations conjugated to polymers and encapsulating non-steroidal anti-inflammatory, anti-inflammatory glucocorticoids, and/or polyphenols for the management of various acute and chronic inflammatory disorders ranging from neurological, vascular, and musculoskeletal disorders.

Abstract: An enzyme detection product for detecting the presence of an enzyme in a sample. The product includes: a reaction zone for receiving the sample; a visualization zone for presenting a signal in response to the detection of the activity of the enzyme; and a membrane. The membrane is interposable between the reaction zone and the visualization zone and prevents passage from the reaction zone to the visualization zone the components having a size greater than a threshold size. The reaction zone includes a reactant capable of reacting with the enzyme in order to generate a reaction product having a size less than a threshold size.