Abstract: The invention features a novel precursor provided for radioisotope labeling with ligands for specific binding of prostate-specific membrane antigen (PSMA) for prostate cancer diagnosis and treatment, and the pharmacophore of a PSMA inhibitor composed of three molecules of glutamic acid, urea and lysine is provided with three variable linkers based on pharmacological activity of the PSMA inhibitor for labeling with radioactive nucleus Ga-67, Ga-68, In-111, Lu-177, Cu-64, or Y-90 through a chelating agent for imaging analysis of human tumor models of prostate cancer and serving as a PSMA-targeted radioligand therapy for prostate cancer diseases.

Abstract: The present disclosure relates to a compound or its salt thereof targeting fibroblast activation protein, its preparation methods and uses, especially the compound represented by formula (I) D-R1-R2-A-R? or its salt thereof, and its preparation methods and its uses.

Abstract: The present disclosure relates to a compound or its salt thereof targeting fibroblast activation protein, its preparation methods and uses, especially the compound represented by formula (I) D-R1-R2-A-R? or its salt thereof, and its preparation methods and its uses.

Abstract: The present invention discloses a series of nuclear medicine tracers that are combined with brain microtubule-associated protein Tau targeting compounds to produce a group of compounds of nuclear medicine that can be utilized for imaging of microtubule-associated protein Tau. When the positrons released by the decay encounter the electrons of the cells in the sample, utilizing the positron decay characteristics of fluorine-18 or iodine-124 isotope to generate mutual destruction reactions, a pair of opposite gamma rays is formed which are imaged by positron emission tomography. The compounds can be applied for the in vivo detection of microtubule-associated protein Tau deposits in the brain. The invention provides a strategy for diagnosis of Alzheimer's disease and a method to measure the efficacy of therapeutic drugs targeting microtubule-associated protein Tau.

Abstract: Disclosed herein are kits and methods for preparing radiopharmaceuticals. The kits and methods of the present disclosure can prepare the radiopharmaceuticals without using a heater and computer monitoring equipment. The kit includes a frozen crystal reaction vial, a reagent vial and a labeling holder, wherein the labeling holder contains a heating bag that can heat up to a high temperature of at least 95° C. by adding an aqueous solution.

Abstract: The structure and preparation method of a compound D-L2(-B)-L1-A is disclosed, A is a physiologically and pharmacologically active molecule that physically binds to a specific biological molecule or receptor; L1 is a variable structure with the molecular connection activity at both ends connecting to A and L2; L2 is a variable structure, which has three-terminal molecular connection activity connecting to L1, D and B; B is a physiologically and pharmacologically active molecule that binds to albumin, changing the A molecule in the body cyclic characteristics; D is a polycarboxylic macrocyclic structure that binds to radioisotopes; D-L2(-B)-L1-A compound can be used to express chemokine receptor 4 (CXCR4) receptors on cells, tissues, and/or organs, and after binding with radionuclides, it is suitable for detection of CXCR4 protein binding in vitro, detection of CXCR4 cell binding in vitro or detection of CXCR4 expression in in vivo animal imaging.

Abstract: Disclosed herein are kits and methods for preparing radiopharmaceuticals. The kits and methods of the present disclosure can prepare the radiopharmaceuticals without using a heater and computer monitoring equipment. The kit includes a frozen crystal reaction vial, a reagent vial and a labeling holder, wherein the labeling holder contains a heating bag that can heat up to a high temperature of at least 95° C. by adding an aqueous solution.

Abstract: The present invention provides a radioactive labeling method for neuropeptide Y (NPY) compound and a mammalian diagnostic radioactive targeting medicine with NPY peptide being modified at position 27th to 36th, and after binding with the chelating agent and labeling the radiation nucleus 66Ga67Ga68Ga177Lu or 111In to provide a radioactive targeting medicine for multi-type breast cancer diagnosis and treatment.

Abstract: The invention features a novel precursor provided for radioisotope labeling with ligands for specific binding of prostate-specific membrane antigen (PSMA) for prostate cancer diagnosis and treatment, and the pharmacophore of a PSMA inhibitor composed of three molecules of glutamic acid, urea and lysine is provided with three variable linkers based on pharmacological activity of the PSMA inhibitor for labeling with radioactive nucleus Ga-67, Ga-68, In-111, Lu-177, Cu-64, or Y-90 through a chelating agent for imaging analysis of human tumor models of prostate cancer and serving as a PSMA-targeted radioligand therapy for prostate cancer diseases.

Abstract: The present invention provides a radioactive labeling method for neuropeptide Y (NPY) compound and a mammalian diagnostic radioactive targeting medicine with NPY peptide being modified at position 27th to 36th, and after binding with the chelating agent and labeling the radiation nucleus 66Ga, 67Ga, 68Ga, 177Lu or 111In to provide a radioactive targeting medicine for multi-type breast cancer diagnosis and treatment.

Abstract: A radioactive labeled long-acting peptide-targeting pharmaceutical and production method, in which the peptide targeted pharmaceutical is firstly dissolved in a solution, followed by labeling the radioactive at a high temperature, and the dosage of the pharmaceutical with radioactive labeling is expected to be reduced and labeling efficiency is improved, and no further purification by filtration is required, which shortens the preparation process and reduces personnel exposure in the working environment. The radioactive labeled long-acting peptide-targeting pharmaceutical can increase the specific binding capacity of tumors and reduce the non-specific accumulation in normal tissues. It can be applied to the field of tumor and nuclear medicine for diagnosis and treatment of tumors and/or tumor metastases with efficacy and precision treatment.

Abstract: A PSMA targeting peptide derivative for radiotherapy, which is a structural molecule developed for diagnosis or treatment of prostate cancer, as prostate-specific membrane antigen (PSMA) is a protein present on the surface of healthy prostate cells, which is often at a high level of expression on the surface of prostate cancer cells, and the molecular composition of PSMA inhibitor is mainly composed of glutamic acid, urea and lysine, in addition to the linker of the present invention, PSMA inhibitor can be combined with a chelating agent and truncated Evans Blue, which can be labeled with radionuclides Ga-67, Ga-68, In-111, Lu-177, Cu-64 or Y-90, used for image analysis and analysis of human prostate cancer tumor pattern as a new PSMA targeting peptide receptor radionuclide therapy (PRRT), and which has a longer half-life in vivo and is featured by specific binding of PSMA for radiotherapy diagnosis or treatment.

Abstract: Disclosed herein is a radioimmune complex comprising an epidermal growth factor receptor (EGFR)-targeted antibody and a radioactive isotope of rhenium labeled thereon. The EGFR-targeted antibody is cetuximab or panitumumab.

Abstract: The present disclosure is related to a pharmaceutical composition for detecting human melanoma cells, including: a liposome, a biomolecule having specificity for ?v?3 integrin and a radionuclide. The present disclosure also provides a method using the pharmaceutical composition for detecting human melanoma cells and a kit performing the method. By means of the specificity of the biomolecule for the ?v?3 integrin, the liposome is enabled to have recognition ability and facilitates the interaction between the liposome and a target cell. Therefore, the present disclosure is capable of being widely applied in the field of melanoma diagnosis, lymphatic metastasis detection and post-surgical monitoring, and so on.