Abstract: These compounds are glutamine transporter inhibitors, e.g., alanine, serine, cysteine-preferring transporter 2 (ASCT2) inhibitors. Glutamine transporter inhibitors are useful to treat a variety of diseases, disorders, or conditions including cancer.

Abstract: These compounds are amino acid transporter inhibitors. Amino acid transporter inhibitors are useful to treat a variety of diseases disorders, or conditions including cancer.

Abstract: A device for synthesizing a radioisotope-labelled target tracer includes a microfluidic chip having an SCX module configured to concentrate and capture a radioisotope from a radioisotope solution and release the captured radioisotope therefrom, an SAX module configured to purify the released radioisotope from the SCX module, and an passive in-plane mixing/reaction module configured to mix the purified radioisotope with a target precursor and perform labelling reaction to synthesize the radioisotope-labelled target tracer therein. The device also includes a heating means positioned in relation to the microfluidic chip for heating the microfluidic chip during the labelling reaction; and a first valve fluidically coupled with the SCX and SAX modules and a second valve fluidically coupled with the SAX module and the in-plane mixing/reaction module for operably controlling transit of various substances or mixtures among the SCX module, the SAX modules and the in-plane mixing/reaction module.

Abstract: Embodiments of the invention include a novel synthesis of the translocator protein (TSPO) ligands, and methods of imaging a molecular events. Also disclosed are compounds for treatment of diseases, including cancer.

Abstract: A device for synthesizing a radiotracer includes a microfluidic chip having a concentration module configured to concentrate and capture a radioactive reagent from a radioactive regent mixture, a reaction chamber in fluidic communication with the concentration module and configured to synthesize a radiotracer by reaction of the concentrated radioactive reagent and a radiotracer precursor therein, and a purification module in fluidic communication with the reactor chamber and configured to purify the synthesized radiotracer. The device also includes a heating means positioned in relation to the microfluidic chip for heating the microfluidic chip during evaporation and reaction; and a first valve fluidically coupled with the concentration module and the reaction chamber and a second valve fluidically coupled with the reaction chamber and the purification module for operably controlling transit of various substances or mixtures among the concentration module, the reaction chamber and the purification module.

Abstract: The present disclosure provides compounds of formula: wherein R1, R2, and n are defined as set forth in the specification, and related aminobutanoic acids. The present disclosure also provides compositions comprising these compounds and methods for modulating ASCT2 function in a patient in need thereof.

Abstract: The present disclosure provides compounds of formula: wherein R1, R2, and n are defined as set forth in the specification, and related aminobutanoic acids. The present disclosure also provides compositions comprising these compounds and methods for modulating ASCT2 function in a patient in need thereof.

Abstract: Molecular probe suitable for quantification of caspase activity in vivo using positron emission tomography (PET). Embodiments of the present invention can detect apoptosis in tumors and as a novel, potentially translatable biomarker for predicting response to personalized medicine.

Abstract: Novel 2-substituted glutamylanides useful as modulators of ASCT2 inhibitors. Compounds of the present invention can be used to treat patients suffering from diseases caused or influenced by abnormal ASCT2 transporter dysfunction.

Abstract: Novel 2-substituted glutamylanides useful as modulators of ASCT2 inhibitors. Compounds of the present invention can be used to treat patients suffering from diseases caused or influenced by abnormal ASCT2 transporter dysfunction.

Abstract: Embodiments of the present invention relates to compounds of the following formula: as well as compositions, methods of imaging and methods of treating subjects comprising the use of the compound, wherein the variables are defined herein.

Abstract: Embodiments of the invention include a novel synthesis of the translocator protein (TSPO) ligands, and methods of imaging a molecular events. Also disclosed are compounds for treatment of diseases, including cancer.

Abstract: Compounds and methods related to NIR molecular imaging, in-vitro and in-vivo functional imaging, therapy/efficacy monitoring, and cancer and metastatic activity imaging. Compounds and methods demonstrated pertain to the field of peripheral benzodiazepine receptor imaging, metabolic imaging, cellular respiration imaging, cellular proliferation imaging as targeted agents that incorporate signaling agents.

Abstract: Compounds and methods related to NIR molecular imaging, in-vitro and in-vivo functional imaging, therapy/efficacy monitoring, and cancer and metastatic activity imaging. Compounds and methods demonstrated pertain to the field of peripheral benzodiazepine receptor imaging, metabolic imaging, cellular respiration imaging, cellular proliferation imaging as targeted agents that incorporate signaling agents.

Abstract: Cyclen-based chelates can be used as contrast agents for multi-modal imaging of tissue cells. The cyclen-based chelates are preferably polyazamacrocyclic molecules formed from 1,4,7,10 tetraazacyclododecane (“cyclen”) having varying chelating ions, phosphoester chains, and light harvesting moieties. By changing the chelating ion, phosphoester chain length and/or the light harvesting moiety different imaging techniques, such as MRI, CT, fluorescence and absorption, x-ray and NIR, may be employed to image the tissue cells. Additionally, the cyclen-based chelates may be conjugated to provide for site-specific delivery of the cyclen-based chelate to the desired tissue cells. The cyclen-based chelates may also be delivered to the tissue cells by attaching the cyclen-based to a polymeric delivery vehicle. Although these cyclen-based chelates have a wide variety of application, the preferred use is for imaging of cancer cells, such as brain cancer, for improving resection of a cancerous tissue.

Abstract: Compounds and methods related to NIR molecular imaging, in-vitro and in-vivo functional imaging, therapy/efficacy monitoring, and cancer and metastatic activity imaging. Compounds and methods demonstrated pertain to the field of peripheral benzodiazepine receptor imaging, metabolic imaging, cellular respiration imaging, cellular proliferation imaging as targeted agents that incorporate signaling agents.

Abstract: Compounds and methods related to NIR molecular imaging, in-vitro and in-vivo functional imaging, therapy/efficacy monitoring, and cancer and metastatic activity imaging. Compounds and methods demonstrated pertain to the field of peripheral benzodiazepine receptor imaging, metabolic imaging, cellular respiration imaging, cellular proliferation imaging as targeted agents that incorporate signaling agents.

Abstract: Compounds and methods related to NIR molecular imaging, in-vitro and in-vivo functional imaging, therapy/efficacy monitoring, and cancer and metastatic activity imaging. Compounds and methods demonstrated pertain to the field of peripheral benzodiazepine receptor imaging, metabolic imaging, cellular respiration imaging, cellular proliferation imaging as targeted agents that incorporate signaling agents.

Abstract: Cyclen-based chelates can be used as contrast agents for multi-modal imaging of tissue cells. The cyclen-based chelates are preferably polyazamacrocyclic molecules formed from 1,4,7,10 tetraazacyclododecane (“cyclen”) having varying chelating ions, phosphoester chains, and light harvesting moieties. By changing the chelating ion, phosphoester chain length and/or the light harvesting moiety different imaging techniques, such as MRI, CT, fluorescence and absorption, x-ray and NIR, may be employed to image the tissue cells. Additionally, the cyclen-based chelates may be conjugated to provide for site-specific delivery of the cyclen-based chelate to the desired tissue cells. The cyclen-based chelates may also be delivered to the tissue cells by attaching the cyclen-based to a polymeric delivery vehicle. Although these cyclen-based chelates have a wide variety of application, the preferred use is for imaging of cancer cells, such as brain cancer, for improving resection of a cancerous tissue.

Abstract: Cyclen-based chelates can be used as contrast agents for multi-modal imaging of tissue cells. The cyclen-based chelates are preferably polyazamacrocyclic molecules formed from 1,4,7,10 tetraazacyclododecane (“cyclen”) having varying chelating ions, phosphoester chains, and light harvesting moieties. By changing the chelating ion, phosphoester chain length and/or the light harvesting moiety different imaging techniques, such as MRI, CT, fluorescence and absorption, x-ray and NIR, may be employed to image the tissue cells. Additionally, the cyclen-based chelates may be conjugated to provide for site-specific delivery of the cyclen-based chelate to the desired tissue cells. The cyclen-based chelates may also be delivered to the tissue cells by attaching the cyclen-based to a polymeric delivery vehicle. Although these cyclen-based chelates have a wide variety of application, the preferred use is for imaging of cancer cells, such as brain cancer, for improving resection of a cancerous tissue.