The compounds provided herein are phenoxazines that can be used as far red to near-infrared nerve-sparing fluorescent compounds in medical procedures.

The invention relates to fused cyclooctyne compounds, and to a method for their preparation. The invention also relates to a conjugate wherein a fused cyclooctyne compound according to the invention is conjugated to a label, and to the use of these conjugates in bioorthogonal labeling, imaging and/or modification, such as for example surface modification, of a target molecule. The invention further relates to a method for the modification of a target molecule, wherein a conjugate according to the invention is reacted with a compound comprising a 1,3-dipole or a 1,3-(hetero)diene.

Metastable liposomal formulations for hydrophobic drug delivery to a tissue or tissue lumen such the bladder have been developed. These are at least one micron in diameter and formed of one or more lipids having entrapped in the lipid a hydrophobic therapeutic, prophylactic or diagnostic agent. The greater stability of these liposomes, as well as the enhanced transfer of entrapped agent into the adjacent tissue, provides for better delivery, especially of hydrophobic agents such as tacrolimus which does not penetrate tissue well. The metastable liposomal formulations can be administered locally, preferably by instillation, or topically, for example, by spraying or painting, to a tissue or tissue lumen such as the bladder in need of treatment.

The invention provides polymeric particles comprising a matrix of a biocompatible polymer and polyethylene imine, said matrix having incorporated therein an anionic or hydrophobic sonosensitiser and, optionally, an immunomodulatory agent and/or an imaging agent. Such particles find use in methods of sonodynamic therapy, in particular in methods of combined sonodynamic therapy and immunotherapy, for example in the treatment of cancer, metastasis or micrometastasis derived from cancer. The invention is particularly suitable for the treatment of deep-sited, hard to treat tumours such as pancreatic cancer.

Described herein are peptides, compositions, and methods for diagnosing, detecting, imaging, monitoring, preventing, treating, or ameliorating diseases or disorders including cancer, inflammatory disorder, and autoimmune disease.

The present disclosure provides compositions and methods for the detection, and treatment of cancer. Specifically, the compositions of the present technology include multimodal fluorine-cyanine-DOTA-hapten compositions that may be complexed with a radioisotope (e.g., .sup.175Lu). Also disclosed herein are methods of using the fluorine-cyanine-DOTA-hapten compositions of the present technology in diagnostic imaging as well as pretargeted radioimmunotherapy.

Nerve-specific fluorophore formulations of Formula (I) for direct or systemic administration are described. The formulations can be used in fluorescence-guided surgery (FGS) to aid in nerve preservation during surgical interventions.

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Excessive deposition of extracellular matrix is a hallmark of Idiopathic pulmonary fibrosis (IPF), it is advantageous to target the cells and the mechanisms associated with this process. By targeting myofibroblasts (specialized contractile fibroblasts) that are key for the development of IPF with drugs conjugated with fibroblast activation protein (FAP). this technology helps minimize the production of extracellular matrix in the lungs and provides a new treatment option for patients diagnosed with IPF.

[Object] To provide a fusion protein of an antibody that recognizes cancer cells and a mutant streptavidin, which is for use in the treatment or diagnosis of cancer.

[Means for Solution] A fusion protein comprising a protein-recognizing substance and the amino acid sequence as set forth in SEQ ID NO: 19 that is fused with the protein-recognizing substance.

The invention relates to methods for producing an antibody which is specific for a mutant p53 polypeptide over wildtype p53 polypeptide, comprising using the mutant p53 polypeptide as an immunogen wherein the polypeptide comprises: (i) an antigen sequence, comprising an amino acid sequence of the mutant p53 polypeptide including the mutation and at least one amino acid immediately adjacent to the mutation, and (ii) a scaffold sequence for providing the antigen sequence in a solvent-accessible configuration, in particular wherein the scaffold sequence is thioredoxin. In the specific embodiments, antibodies against mutant p53 comprising R175H, R248Q or R273H are generated. Also disclosed are the uses of the antibodies for diagnosis, prognosis and stratification of patient groups and further encompasses the use of antibodies for imaging and treatment of cancer.