Abstract: Micro-organ compositions and methods of implanting into the central nervous system (CNS) for the treatment of CNS-related diseases are encompassed. Specifically, the disclosure provides methods for treating disorders including cancer and lysosomal storage diseases, the methods comprising implanting a micro-organ into the CNS, wherein the micro-organ secretes a recombinant protein, and wherein the micro-organ is maintained in the CNS, and secretes protein, for at least seven days.

Abstract: Methods, reagents, kits and systems are disclosed for determining an analyte in a sample suspected of containing the analyte where all reagents are soluble in aqueous solution. One assay method includes treating a sample suspected of containing the analyte under conditions such that if the analyte is present, an activator is brought into reactive configuration with a chemiluminescent compound to activates it. The sample is also treated with an agent to reduce signal not related to analyte. Finally, the sample is treated with a trigger solution thereby producing light from the activated chemiluminescent compound. No reagents are associated with a surface or other solid phase.

Abstract: Provided herein is a genetically-modified micro-organ that provides a sustained delivery of a therapeutic peptide. The genetically-modified micro-organ may comprise a viral vector or expression cassette comprising at least two nucleic acid sequences encoding the therapeutic peptide separated by a cleavable linker. Further provided herein is a method of treating or preventing a disease or disorder in a human subject that can be treated or prevented by administration of a therapeutic peptide over a sustained time period using the genetically-modified micro-organ described herein.

Abstract: Methods, reagents, kits and systems are disclosed for determining an analyte in a sample suspected of containing the analyte where all reagents are soluble in aqueous solution. One assay method includes treating a sample suspected of containing the analyte under conditions such that if the analyte is present, an activator is brought into reactive configuration with a chemiluminescent compound to activates it. The sample is also treated with an agent to reduce signal not related to analyte. Finally, the sample is treated with a trigger solution thereby producing light from the activated chemiluminescent compound. No reagents are associated with a surface or other solid phase.

Abstract: Methods, reagents, kits and systems are disclosed for determining an analyte in a sample suspected of containing the analyte where all reagents are soluble in aqueous solution. One assay method includes treating a sample suspected of containing the analyte under conditions such that if the analyte is present, an activator is brought into reactive configuration with a chemiluminescent compound to activates it. The sample is also treated with an agent to reduce signal not related to analyte. Finally, the sample is treated with a trigger solution thereby producing light from the activated chemiluminescent compound. No reagents are associated with a surface or other solid phase.

Abstract: The present invention is directed to long-lasting therapeutic formulations and their methods of use wherein the formulation comprises a genetically modified micro-organ that comprises a nucleic acid sequence operably linked to one or more regulatory sequences. The present invention is further directed to methods providing sustained expression of therapeutic polypeptides and prolonged therapeutic effects, such as erythropoietin and interferon.

Abstract: Methods are disclosed for determining an analyte in a medium suspected of containing the analyte. One method comprises treating a medium suspected of containing an analyte under conditions such that the analyte, if present, causes a photosensitizer and a chemiluminescent compound to come into close proximity. The photosensitizer generates singlet oxygen and activates the chemiluminescent compound when it is in close proximity. Non-specific signal generated by singlet oxygen not in proximity is reduced or suppressed using a singlet oxygen quencher (SOQ). The activated chemiluminescent compound subsequently produces light. The amount of light produced is related to the amount of analyte in the medium. Use of Noise Modulation Agents significantly improves signal-to-noise ratios and assay sensitivity. Compositions and kits are also disclosed.

Abstract: Methods, reagents, kits and systems are disclosed for determining an analyte in a sample, the assay method comprising forming a reaction mixture in an aqueous solution, by adding a chemiluminescent-labeled immobilized specific binding member, an activator-labeled specific binding member, a selective signal inhibiting agent, and a sample, wherein the chemiluminescent-labeled immobilized specific binding member and activator-labeled specific binding member bind to analyte present in the sample to form a binding complex, and adding to the reaction mixture a trigger solution to release a detectable chemiluminescent signal correlated to the amount of the analyte-bound binding complex present in the reaction mixture.

Abstract: Methods, reagents, kits and systems are disclosed for determining an analyte in a sample suspected of containing the analyte where all reagents are soluble in aqueous solution. One assay method includes treating a sample suspected of containing the analyte under conditions such that if the analyte is present, an activator is brought into reactive configuration with a chemiluminescent compound to activates it. The sample is also treated with an agent to reduce signal not related to analyte. Finally, the sample is treated with a trigger solution thereby producing light from the activated chemiluminescent compound. No reagents are associated with a surface or other solid phase.

Abstract: Methods, reagents, kits and systems are disclosed for determining an analyte in a sample suspected of containing the analyte where all reagents are soluble in aqueous solution. One assay method includes treating a sample suspected of containing the analyte under conditions such that if the analyte is present, an activator is brought into reactive configuration with a chemiluminescent compound to activates it. The sample is also treated with an agent to reduce signal not related to analyte. Finally, the sample is treated with a trigger solution thereby producing light from the activated chemiluminescent compound. No reagents are associated with a surface or other solid phase.