Abstract: There is provided a synthesis of [18F]SFB (N-succinimidyl 4-[18F]fluorobenzoate) using a one-step reaction procedure without generating radioactive waste gases. [18F]SFB is useful as a reagent for labeling of low- and high-molecular weight compounds such as peptides and antibodies which can then be used for PET (Positron Emission Tomography) diagnostic studies.

Abstract: There is provided two angiogenesis clinical PET tracers, namely 68Ga-NODAGA-E[c(RGDyK)]2 and 64Cu-NODAGA-E[c(RGDyK)]2 for imaging of neo-angiogenesis in humans.

Abstract: There is provided a positron-emitting radionuclide labelled peptide for non-invasive PET imaging of the Urokinase-type Plasminogen Activator Receptor (uPAR) in humans. More specifically the invention relates to human uPAR PET imaging of any solid cancer disease for diagnosis, staging, treatment monitoring and especially as an imaging biomarker for predicting prognosis, progression and recurrence.

Abstract: There is provided a 177-Lu labelled peptide for site-specific targeting of TF thereby enabling treatment of a cancer disease associated with high TF expression; e.g. treatment of cancer by administering to a patient an effective amount of the 177-Lu labelled peptide.

Abstract: There is provided a radiolabelled peptide-based compound for diagnostic imaging using positron emission tomography (PET). The compound may thus be used for diagnosis of malignant diseases. The compound is particularly useful for imaging of somatostatin overexpression in tumors, wherein the compound is capable of being imaged by PET when administered with a target dose in the range of 150-350 MBq, such as 150-250 MBq, preferable in the range of 191-210 MBq.

Abstract: There is provided a radiolabelled peptide-based compound for diagnostic imaging using positron emission tomography (PET). The compound may thus be used for diagnosis of malignant diseases. The compound is particularly useful for imaging of somatostatin overexpression in tumors, wherein the compound is capable of being imaged by PET when administered with a target dose in the range of 150-350 MBq, such as 150-250 MBq, preferable in the range of 191-210 MBq.

Abstract: There is provided a novel conjugate that binds to the cell surface receptor uPA (uPAR). The conjugate is based on a fluorescence-labeled peptide useful as a diagnostic probe to the surfaces of cells expressing uPAR. The conjugate is capable of carrying a suitable detectable and imageable label that will allow qualitative detection and also quantitation of uPAR levels in vitro and in vivo. This renders the surgical resection of tumors more optimal.

Abstract: There is provided a radiolabelled peptide-based compound for diagnostic imaging using positron emission tomography (PET). The compound may thus be used for diagnosis of malignant diseases. The compound is particularly useful for imaging of somatostatin overexpression in tumors, wherein the compound is capable of being imaged by PET when administered with a target dose in the range of 150-350 MBq, such as 150-250 MBq, preferable in the range of 191-210 MBq.

Abstract: There is provided a positron-emitting 18F-labelled Factor VII for non-invasive PET imaging of tumor TF expression in humans. More specifically the invention relates to human TFPET imaging of pancreatic cancer metastasis for diagnosis, staging, treatment monitoring and especially as an imaging biomarker for predicting prognosis, progression and recurrence.

Abstract: There is provided a radiolabelled peptide-based compound for diagnostic imaging using positron emission tomography (PET). The compound may thus be used for diagnosis of malignant diseases. The compound is particularly useful for imaging of somatostatin overexpression in tumors, wherein the compound is capable of being imaged by PET when administered with a target dose in the range of 150-350 MBq, such as 150-250 MBq, preferable in the range of 191-210 MBq.

Abstract: There is provided a novel conjugate that binds to the cell surface receptor uPA (uPAR). The conjugate is based on a fluorescence-labeled peptide useful as a diagnostic probe to the surfaces of cells expressing uPAR. The conjugate is capable of carrying a suitable detectable and imageable label that will allow qualitative detection and also quantitation of uPAR levels in vitro and in vivo. This renders the surgical resection of tumors more optimal.

Abstract: There is provided a positron-emitting radionuclide labelled peptide for non-invasive PET imaging of the Urokinase-type Plasminogen Activator Receptor (uPAR) in humans. More specifically the invention relates to human uPAR PET imaging of any solid cancer disease for diagnosis, staging, treatment monitoring and especially as an imaging biomarker for predicting prognosis, progression and recurrence.

Abstract: There is provided a positron-emitting radionuclide labelled peptide for non-invasive PET imaging of the Urokinase-type Plasminogen Activator Receptor (uPAR) in humans. More specifically the invention relates to human uPAR PET imaging of any solid cancer disease for diagnosis, staging, treatment monitoring and especially as an imaging biomarker for predicting prognosis, progression and recurrence.

Abstract: There is provided a novel conjugate that binds to the cell surface receptor uPA (uPAR). The conjugate is based on a fluorescence-labeled peptide useful as a diagnostic probe to the surfaces of cells expressing uPAR. The conjugate is capable of carrying a suitable detectable and imageable label that will allow qualitative detection and also quantitation of uPAR levels in vitro and in vivo. This renders the surgical resection of tumors more optimal.

Abstract: There is provided a positron-emitting radionuclide labelled peptide for non-invasive PET imaging of the Urokinase-type Plasminogen Activator Receptor (uPAR) in humans. More specifically the invention relates to human uPAR PET imaging of any solid cancer disease for diagnosis, staging, treatment monitoring and especially as an imaging biomarker for predicting prognosis, progression and recurrence.

Abstract: The present invention is directed to the technical field of imaging compositions useful for diagnosing cancer and other diseases in a subject. In particular, the invention relates to a class of diagnostic compounds comprising a novel liposome composition with encapsulated metal entities such as radionuclides, for example 61Cu and 64Cu copper isotopes. The invention further relates to a novel method for loading delivery systems, such as liposome compositions, with metal entities such as radionuclides, and the use of liposomes for targeted diagnosis and treatment of a target site, such as cancerous tissue and, in general, pathological conditions associated with leaky blood vessels. The present invention provides a new diagnostic tool for the utilization of positron emission tomography (PET) imaging technique.

Abstract: The present invention is directed to the technical field of imaging compositions useful for diagnosing cancer and other diseases in a subject. In particular, the invention relates to a class of diagnostic compounds comprising a novel liposome composition with encapsulated metal entities such as radionuclides, for example 61Cu and 64Cu copper isotopes. The invention further relates to a novel method for loading delivery systems, such as liposome compositions, with metal entities such as radionuclides, and the use of liposomes for targeted diagnosis and treatment of a target site, such as cancerous tissue and, in general, pathological conditions associated with leaky blood vessels. The present invention provides a new diagnostic tool for the utilization of positron emission tomography (PET) imaging technique.

Abstract: The present invention relates to a novel composition and method for loading delivery systems such as liposome compositions with radionuclides useful in targeted diagnostic and/or therapy of target site, such as cancerous tissue and, in general, pathological conditions associated with leaky blood vessels. The composition and methods of the invention find particular use in diagnosing and imaging cancerous tissue and, in general, pathological conditions associated with leaky blood vessels in a subject. The present invention provides a new diagnostic tool for the utilization of positron emission tomography (PET) imaging technique. One specific aspect of the invention is directed to a method of producing nanoparticles with desired targeting properties for diagnostic and/or radio-therapeutic applications.

Abstract: There is provided a 177-Lu labelled peptide for site-specific targeting of the Urokinase Plasminogen Activator Receptor (uPAR) thereby enabling treatment of a cancer disease associated with high uPAR expression; e.g. treatment of colorectal cancer by administering to a patient an effective amount of the 177-Lu labelled peptide.

Abstract: The present invention relates to a novel composition and method for loading delivery systems such as liposome compositions with radionuclides useful in targeted diagnostic and/or therapy of target site, such as cancerous tissue and, in general, pathological conditions associated with leaky blood vessels. The composition and methods of the invention find particular use in diagnosing and imaging cancerous tissue and, in general, pathological conditions associated with leaky blood vessels in a subject. The present invention provides a new diagnostic tool for the utilization of positron emission tomography (PET) imaging technique. One specific aspect of the invention is directed to a method of producing nanoparticles with desired targeting properties for diagnostic and/or radio-therapeutic applications.