Provided are targeted nanoparticles. In certain embodiments, the targeted nanoparticles comprise a nanoparticle and a myeloid cell (MC) targeting moiety stably associated with the outer surface of the nanoparticle. According to some embodiments, the MC targeting moiety is an immunosuppressive myeloid cell (isMC) targeting moiety. In certain embodiments, the targeted nanoparticles further comprise a detectable label (e.g., an in vivo imaging agent), a drug, or both. Also provided are compositions comprising the targeted nanoparticles of the present disclosure. Methods of using the targeted nanoparticles to image MCs (e.g., isMCs) and/or to modulate and/or disrupt MCs (e.g., isMCs) are also provided.

Dendrimer compositions and methods for the treatment of one or more inflammatory and/or angiogenic diseases and/or disorders of the eye include hydroxyl-terminated dendrimers complexed or conjugated with one or more active agents for the treatment or alleviation of one or more symptoms of the diseases of the eye, and/or for diagnosing the diseases and/or disorders of the eye. The dendrimers may include one or more ethylene diamine-core poly(amidoamine) (PAMAM) hydroxyl-terminated generation-4, 5, 6, 7, 8, 9, or 10 dendrimers. The active agents may be VEGFR tyrosine kinase inhibitors including sunitinib or analogues thereof. Preferably, the compositions are suitable for administration via a systemic route to target activated microglia/macrophages in retina/choroid.

The present invention describes a composition comprising a fluorophore labelled uPAR-targeting component, a buffer and a surfactant, wherein the fluorophore labelled uPAR-targeting component is solubilized in the composition by means of the surfactant being present, and wherein the composition comprises a maximum of 10 wt % water, preferably a maximum of 5 wt % water.

There is provided a microparticle composition suitable for molecular imaging, the composition comprising microparticles, wherein the microparticles comprise: a core microparticle structure having a central area and a shell, and wherein the core microparticle structure comprises (i) a phosphatidylcholine lipid: (ii) a phosphatidylethanolamine lipid comprising at least one maleimide moiety; and (iii) an alkoxylated fatty acid.

Provided is a modified J-aggregate (MJ). In some embodiments, the MJ is nanoscale, sub-micronscale, or microscale. Also provided is an MJ conjugate. Also provided are processes for making an MJ or an MJ conjugate. Photoacoustic imaging methods employing the MJ or MJ conjugate are also provided.

A system for performing a surgical procedure includes a camera configured to capture real-time near infrared images, an injection system configured to inject a fluorescent dye into a patient's blood stream, and a workstation operably coupled to the camera for retrieving a three-dimensional (3D) model of the patient's anatomy based on pre-procedure images, retrieve an indication of a targeted critical structure within the 3D model, observe, using the captured real-time near infrared images, perfusion of the fluorescent dye through tissue to identify critical structures illuminated by near-infrared light, and register the real-time near-infrared images to the 3D model using the identified illuminated targeted critical structure in the real-time near infrared images captured by the camera and the identified targeted critical structure in the 3D model as a landmark.

Activity-based probe compounds for use in labeling a cysteine protease are provided. The compounds are targeted to the protease through a specific targeting element. The compounds additionally include a detectable element, such as a fluorescent label, a radiolabel, or a chelator. In some cases, the compounds additionally include a quenching element that is released upon reaction with the protease. Also provided are compositions comprising the compounds and methods for using the compounds, for example in labeling a protease in an animal and in visualizing a tumor in an animal.

An embodiment provides a method for treatment of the COVID-19 virus, including: preparing an intravenous infusion, wherein the intravenous infusion comprises at least one humanized monoclonal antibody against the SARS-CoV-2 spike protein; introducing the intravenous infusion to a patient; forming a virion antibody complex, wherein the virion antibody comprises the at least one humanized monoclonal antibody against the SARS-CoV-2 spike protein; and monitoring the virion antibody complex from a sample of a body fluid. Other aspects are described and claimed.

Disclosed are novel detectable imaging agents that can bind to a novel biomarker for cancer and methods of their use in the resection of a tumor.

The present invention provides a compound of Formula (I) as defined herein. The present invention also provides a nanoparticle comprising a plurality of the conjugates of the present invention, and methods of using the nanoparticles for drug delivery, treating a disease, and methods of imaging.