The invention discloses a cannabinoid nano-micelle preparation and a preparation method thereof. The cannabinoid nano-micelle preparation includes cannabinoid and an amphiphilic polymer, wherein the content of the cannabinoid is 1-40% by weight, the content of the amphiphilic polymer is 1-99%, and the preparation method includes the following steps: (1) preparing a cannabinoid nano-micelle solution from cannabinoid and an amphiphilic polymer; (2) drying the micellar solution obtained in the step (1) to obtain cannabinoid nano-micelle powder; and (3) preparing the cannabinoid nano-micelle powder obtained in the step (2) into the cannabinoid nano-micelle preparation. The cannabinoid nano-micelle preparation is high in effective component wrapping rate and transfer rate, high in drug loading capacity and high in stability, and a novel normal-temperature self-assembly technology is adopted, so that an active component cannabinoid is prevented from being degraded and discolored at high temperature; the bioavailability of the active ingredient is high, and a single dose can be reduced. Especially, a dry powder inhalant is high in in-vitro deposition rate and quick in inhalation effect, and can provide continuous and stable blood concentration.

The present disclosure relates to RNA molecules encoding a varicella zoster virus (VZV). The present disclosure further relates to compositions comprising the RNA molecules formulated in a lipid nanoparticle (RNA-LNP). The present disclosure further relates to the use of the RNA molecules, RNA-LNPs and compositions for the treatment or prevention of herpes zoster or shingles.

The present disclosure relates to RNA molecules encoding a varicella zoster virus (VZV). The present disclosure further relates to compositions comprising the RNA molecules formulated in a lipid nanoparticle (RNA-LNP). The present disclosure further relates to the use of the RNA molecules, RNA-LNPs and compositions for the treatment or prevention of herpes zoster or shingles.

An object of the present invention is to provide clinically applicable aAVC-NY-ESO-1 cells stably expressing NY-ESO-1 in order to use aAVC-NY-ESO-1 cells in treating patients having a NY-ESO-1-expressing cancer. The present invention provides, for example, a human-derived cell comprising a polynucleotide encoding CD1d and a polynucleotide encoding NY-ESO-1 or a fragment thereof, wherein the polynucleotide encoding NY-ESO-1 or a fragment thereof is operably linked to an inducible promoter.

The present invention relates to monovalent influenza vaccine formulations and vaccination regimes for immunising against influenza disease, their use in medicine, in particular their use in augmenting immune responses to various antigens, and to methods of preparation. In particular, the invention relates to monovalent influenza immunogenic compositions comprising an influenza antigen or antigenic preparation thereof from an influenza virus strain being associated with a pandemic outbreak or having the potential to be associated with a pandemic outbreak, in combination with an oil-in-water emulsion adjuvant comprising a metabolisable oil, a sterol and/or a tocopherol such as alpha tocopherol, and an emulsifying agent.

Human monoclonal antibodies directed against B7-H1 and uses of these antibodies in diagnostics and for the treatment of diseases associated with the activity and/or expression of B7-H1 are disclosed. Additionally, hybridomas or other cell lines expressing such antibodies are disclosed.

The present invention discloses a method of treating, preventing or ameliorating tumor growth by administering a therapeutic agent that selectively inhibits dipeptidyl peptidase including fibroblast activation protein and dipeptidyl peptidase 8/9 in combination with an immune checkpoint inhibitor. The method specifically discloses use of Talabostat in combination with an immune checkpoint inhibitor, its pharmaceutical composition and process of preparing such composition.

The subject invention provides compositions and methods for treating human dermatological conditions by employing a microbiome-centered treatment approach. Preferred embodiments of the invention provide pharmaceutical and cosmetic compositions, and the methods of using the same, comprising a strain of Lactobacillus fermentum bacterium, or bioactive extracts thereof, derived from human microbiota and capable of growing in biofilm phenotype.

The present invention provides immune stimulating peptides (immunorhelins) capable of activating GnRH receptors when administered to animal or human patients or cells. These immunorhelins have utility in treating intracellular bacterial, fungal, and protozoal infections.

This invention relates generally to molecules that specifically engage 41BB, a member of the TNF receptor superfamily (TNFRSF). More specifically, this invention relates to multivalent and multispecific molecules that bind at least 41BB.