The radiopharmaceutical .sup.177Lu-PSMA I&T is provided, including in high purities with extended shelf life. Further provided are methods of synthesis of .sup.177Lu-PSMA I&T and pharmaceutical compositions and methods of treatment that comprise .sup.177Lu-PSMA I&T.

Described are methods for the detection, in the eye of an individual, of protein aggregates or other misfolded proteins associated with disease using peptide or peptide mimic probes that preferentially associate with the protein aggregates or misfolded proteins, which can be accomplished non-invasively.

Disclosed are compositions and methods for diagnosing eosinophilic esophagitis in a subject. Also disclosed are methods for monitoring the course of eosinophilic esophagitis in a subject before, during, and after treatment.

This disclosure relates to conjugates for targeting bacteria and related uses. In certain embodiments, the disclosure relates to methods of transferring a molecule of interest into bacteria comprising mixing bacteria with a non-naturally occurring conjugate under conditions such that the conjugate is transported across the bacterial cell wall. Typically, the conjugate comprises an oligosaccharide and a molecule of interest. In certain embodiments, the molecule of interest may be a tracer or an antibiotic.

The present invention is related to a radiolabeled active targeting pharmaceutical composition, including: a bioconjugate and a radionuclide, wherein the bioconjugate includes a biomolecule and a metal nanoparticle, wherein the biomolecule has an affinity for receptors on the surface of a cell membrane and is selected from the group consisting of a peptide and a protein. The present invention further provides a method for evaluating a thermal adjuvant therapy for tumors and a kit thereof. The above-mentioned pharmaceutical composition is applied to evaluate a tumor accumulation time, so as to establish the optimal policy for a radiofrequency- or laser-induced thermal adjuvant therapy for tumors.

Effective treatments of pain that accompanies post-operative surgeries are provided. Through the administration of an effective amount of a combination of bupivacaine and clonidine at or near a target site, one can alleviate or prevent pain. This administration of bupivacaine and clonidine or pharmaceutically acceptable salts thereof is particularly useful following surgery.

Prostate-specific membrane antigen (PSMA) targeting compounds are described. Uses of the compounds for imaging, therapy, cell sorting, and tumor mapping are also described.

The present invention relates to novel somatostatin analogs, dimers thereof, and methods of using the same to treat various diseases. Naturally occurring somatostatins (SSTs), which are also known as somatotropin release-inhibiting factors (SRIFs), have diverse biological effects in many cells and organs 10 throughout the body. They are produced by normal endocrine, gastrointestinal, immune and neuronal cells, as well as by certain tumors (Patel, Y. C, Frontiers in Neuroendocrinology, 20(3): 157-198 (1999); Froidevaux, et al., Biopolymers, 66(3): 161-83 (2002)).

Readily available hydrophilic and small organofluorine moieties were condensed via “click chemistry” to generate nonionic hydrophilic fluorinated molecules with unique .sup.19F MR signatures. These were used to fabricate stable liposome formulations for imaging various tissue types. This approach was tailored to exploit the broad spectrum of organic .sup.19F molecular species and to generate probes with distinct .sup.19F MRI signatures for simultaneous assessment of multiple molecular targets within the same target volume.

The present invention provides a tissue-targeting complex comprising a tissue targeting moiety, an octadentate hydroxypyridinone-containing ligand and the ion of an alpha-emitting thorium radionuclide. The invention additionally provides therapeutic methods employing such complexes, methods of their production and use, and kits and pharmaceutical compositions comprising such complexes.