The present invention provides compositions comprising one or more active pharmaceutical ingredients, wherein the compositions are in the form of high solids concentration pastes capable of being injected in relatively low volumes into an animal using standard commercially available syringes. The invention also provides methods of making such compositions, particularly those compositions comprising high molecular weight active ingredients (e.g., antibodies, enzymes and other proteins and peptides) at relatively high therapeutic concentrations in the high solids concentration pastes. The invention further provides methods of using such formulations in treating, preventing and/or ameliorating certain diseases and physical disorders in animals, including humans, in need thereof. The invention also provides kits comprising the formulations of the invention and a suitable syringe, which in some aspects may be pre-loaded or pre-filled with a composition of the invention.

The invention relates to red blood cell-derived vesicles comprising encapsulated active agents, their use in therapy and methods of production thereof.

The present invention refers to steroidal nitrone (E)-N-((8S,9S,10R,13R,14S,17R)-10,13-di methyl-17-(R)-6-methyl hepta n-2-yl)-7,8,9,11,12,13,14,15,16,17-deca hydro-1H-cyclopenta[a]phenanthren-3(2H,6H,10H)-ylidene)methanamine oxide (F2), as well as any pharmaceutically acceptable salt thereof, for use in the prevention and/or treatment of permanent cerebral ischemia.

Provided is a method for treatment of nerve injury and a related disease, comprising: administrating a therapeutically effective amount of a component of plasminogen activation pathway to a subject. Also provided are a medicament, a pharmaceutical composition, a product, and a kit which comprise a component of plasminogen activation pathway for treating the above diseases.

The present disclosure provides use of icaritin in preparing a drug for preventing and treating a bleeding disorder and belongs to the field of medicine. The icaritin can relieve platelet dysfunction, shorten thromboplastin time, and promote blood coagulation, and can be used for preventing and treating the bleeding disorder, especially for treating hemorrhagic transformation after cerebral infarction, gastrointestinal bleeding caused by a thrombolytic or antithrombotic drug for cerebral infarction, or a bleeding complication of a thrombolytic or antithrombotic drug for myocardial infarction.

The present invention relates to plasminogen for use in a method for treating or preventing lung dysfunction associated with the formation of hyaline membranes in a patient, wherein the patient is preferably further administered with at least one plasminogen activator.

A composition for use in diagnostic and therapeutic applications includes a heteromultivalent nanoparticle or microparticle having an outer surface and a plurality of targeting moieties conjugated to the surface of the nanoparticle or microparticle, the targeting moieties includes a first activated platelet targeting moiety and a second activated platelet targeting moiety.

In one aspect, the invention provides a peptide comprising a chaperone-mediated autophagy (CMA)-targeting signal domain; a protein-binding domain that selectively binds to a target cytosolic protein; and a cell membrane penetrating domain (CMPD). In another aspect, the invention provides methods for reducing the intracellular expression level of an endogenous target protein in vitro and in an animal, wherein the method involves administration of the peptide. Methods are also provided for treating a pathological condition in an animal, the methods comprising administering the peptide to the animal. In one embodiment, the pathological condition is a neurodegenerative disease. In another embodiment of the invention, the target cytosolic protein is death associated protein kinase 1 and the CMPD is protein transduction domain of the HIV-1 Tat protein.

This invention provide novel compositions, methods and devices for sustained drug delivery. The compositions can include a fluid carrier; a plurality of first polymeric microparticles having a bioactive agent dispersed in the fluid carrier; and a plurality of second polymeric microparticles having a visualization agent dispersed in the fluid carrier with the first microparticles. Alternative compositions can include: a fluid carrier; and a plurality of polymeric microparticles having a bioactive agent encapsulated therein and a visualization agent on a surface of the polymeric microparticles, the plurality of polymeric microparticles being dispersed in the fluid carrier. The microencapsulated sustained drug delivery compositions are deposited using oscillating needle apparatus oscillating at 10-12000 minutes per minutes at an amount of 1.0E-03 mL to 1.0E-16 mL per injection.

This document provides methods and materials involved in identifying mammals having lung adenocarcinoma characterized by neuroendocrine differentiation as well as methods and materials involved in treating mammals having lung adenocarcinoma characterized by neuroendocrine differentiation. For example, methods and materials for using ASCL1 and RET expression levels to identify lung cancer patients having lung adenocarcinoma characterized by neuroendocrine differentiation are provided.