The present invention relates to hydrophobic modified peptides for the specific delivery of labels to the liver, preferably to hepatocytes, in vitro as well as in vivo. The present invention relates to pharmaceutical compositions comprising said hydrophobic modified peptide(s) and the label(s) to be specifically delivered to the liver. The present invention furthermore relates to the diagnostic use of the inventive hydrophobic modified peptides as well as to a method for the diagnosis of liver diseases or disorders.

The present invention relates to compounds that are useful as metal ligands and which either contain a molecular recognition moiety or can be bound to a molecular recognition moiety and methods of making these compounds. Once the compounds that contain a molecular recognition moiety are coordinated with a suitable metallic radionuclide, the coordinated compounds are useful as radiopharmaceuticals in the areas of radiotherapy and diagnostic imaging. The invention therefore also relates to methods of diagnosis and therapy utilising the radiolabelled compounds of the invention.

Methods for developing disease-related nanobodies and related products and kits are provided. The disease-specific proteins are extracellular matrix (ECM) proteins, domains or epitopes that are associated with various aspects of disease and are not present, or are present in very low quantities, in non-diseased individuals. Highly effective nanobodies capable of specifically binding to these ECM protein epitopes useful in in vivo imaging assays, the detection, diagnosis and treatment of diseases as well as monitoring therapeutic progress in a patient with a disease are provided herein.

This invention is in the field of medicinal chemistry and relates to a new class of cyclic dinucleotide conjugates (e.g., Formula I) which function as tumor-targeted imaging agents, and their use in diagnostic and therapeutic intervention for disorders (e.g., cancer).

Disclosed are a targeting aptamer for atherosclerosis and a preparation method and application thereof. The targeting aptamer is a targeting aptamer fragment for atherosclerosis obtained through screening of macrophage-derived foam cells together with reverse screening of smooth muscle cells, endothelial cells, and THP-1 cells using a SELEX method; and the use of the targeting aptamer in preparation of an MRI targeting nano-contrast agent for atherosclerosis allows the specific binding of the MRI targeting nano-contrast agent for atherosclerosis only with the macrophage-derived foam cells, and allows high specific binding thereof with vascular tissues with AS lesion, this improving targeting effect of the MRI targeting nano-contrast agent for atherosclerosis and realizing early specific diagnosis of arterial sclerosis.

The invention relates to the use of tetrapyrroles conjugated compounds as contrast agent in magnetic resonance imaging (MRI). In particular conjugates of natural hemin that can be embedded in gels and implants to image local delivery in MRI.

Systems and methods are provided for producing hyperpolarized materials for use during a magnetic resonance imaging (MRI) or nuclear magnetic resonance (NMR) process. The system and methods include the use of microfluidic and/or microreactor methods in one or more of the stages of parahydrogen production, enriched substrate production, and spin order transfer from the parahydrogen to a substrate.

Described herein are probe compounds that interact with the LOXL2 receptor, methods of making such probe compounds, and methods of using such probe compounds in vitro and in vivo.

Alkylphosphocholine analogs incorporating a chelating moiety that is chelated to gadolinium are disclosed herein. The alkylphophocholine analogs are compounds having the formula:

##STR00001##

or a salt thereof. R.sub.1 includes a chelating agent that is chelated to a gadolinium atom; a is 0 or 1; n is an integer from 12 to 30; m is 0 or 1; Y is H, OH, COOH, COOX, OCOX, or OX, wherein X is an alkyl or an arylalkyl; R.sub.2 is N.sup.+H.sub.3, N.sup.+H.sub.2Z, N.sup.+HZ.sub.2, or N.sup.+Z.sub.3, wherein each Z is independently an alkyl or an aroalkyl; and b is 1 or 2. The compounds can be used to detect solid tumors or to treat solid tumors. In detection/imaging applications, the gadolinium emits signals that are detectable using magnetic resonance imaging. In therapeutic treatment, the gadolinium emits tumor-targeting charged particles when exposed to epithermal neutrons.

The disclosure relates in some aspects to imaging agents, and in particular, imaging agents for sensing of calcium signaling. According to some embodiments of the disclosure, contrast agents for magnetic resonance imaging and related technologies are provided, and methods of making and using the contrast agents.