Described herein are systems and methods for employing a tumor targeted cerium oxide nanoparticle system, T-CeNP, for cancer therapy to hinder cancer associated fibroblast (CAF) transdifferentiation and reprogram CAFs back to normal fibroblasts to reduce tumor size and prevent metastasis.

The inventive technology relates to systems and methods for enhanced in vivo production, accumulation and modification of cannabinoids. In one embodiment, the invention may include systems and methods for enhanced in vivo biosynthesis of chemically-modified water-soluble cannabinoids in stably transformed whole plant, or a cell suspension culture system.

Compositions for treatment of cystinosis, products for administering eye drops, and products for storing contact lenses are provided. Compositions include solutions that can contain an effective amount of cysteamine to treat cystinosis, and an oil with a lower density than the solution. Also provided is a product including a bottle for containing a solution, the bottle being substantially free of O.sub.2. Also provided is a contact lens holder for storing one or more contact lenses in a solution, the holder including barrier layers reducing the amount of O.sub.2 entering the contact lens holder.

A plant-based food product with zero sugar is provided. The plant-based food product includes an amount of water, a sugar content of between 0 wt% and 0.4 wt% referred to as having “zero sugar,” and a plant-based fiber product. The plant-based fiber product includes an amount of water, a plant-based flour, an amount of plant fiber, and a plurality of enzymes comprising: an alpha amylase, a glucose oxidase, catalase, and a cellulase. The plant-based food product may be incorporated in a milk, yogurt, shake, or bar, for example.

Agents, kits, and methods that utilize oxygenation to prevent and/or treat intestinal inflammation and/or infections caused by anaerobic microorganisms are provided. In several embodiments, the formulations are provided as a capsule within a capsule in order to separate an oxygen prodrug from a catalyst until the formulation is at a target site within the intestine. In several embodiments, the catalyst is provided in an excess of the oxygen prodrug. In several embodiments, the prodrug is within an inner capsule or coating and a biological material comprising a catalyst (e.g., yeast, spirulina, chlorella, etc.) surrounds the encapsulated prodrug and the biological material is within a capsule or coating. The agents, kits, and methods can be utilized to prevent and/or treat anaerobic bacterial infections of the intestinal lumen by enteric aerobization therapy.

The present invention is directed to a novel isolated bacterial strain of the Lactobacillus casei (L. casei) species. More in particular, the strain of the Lactobacillus casei species deposited under accession number LMG P-30039. The present invention further relates to the novel L. casei strain for use in the treatment and/or prevention of infections and/or immune-related diseases. Also the use of the isolated novel L. casei strain or a composition comprising said strain as an adjuvant to promote an immune response during vaccination is disclosed. Further, the use of said novel L. casei strain or a composition comprising said strain in personal hygiene industry, cleaning industry, biomass production, air purification and food industry is disclosed. In another aspect of the present invention, the use of a L. casei species that has a whole genome G/C content of at least 47.5% and expresses one or more catalase genes or a composition comprising one or more of said L. casei species in personal hygiene industry, cleaning industry, biomass production, air purification and food industry is disclosed.

The present disclosure relates to microneedle devices and methods for treating a disease (for example, diabetes) using a degradable cross-linked gel for self-regulated delivery of a therapeutic agent (for example, insulin).

Agents, kits, and methods that utilize oxygenation to treat Inflammatory Bowel Disease (IBD) and/or provide prophylaxis against exacerbation of IBD are provided. In several embodiments, the agents, kits, and methods according to several embodiments generate in, or carry to, oxygen in the intestinal lumen to treat IBD and provide prophylaxis against exacerbation of IBD, including those caused by the presence of anaerobic bacteria in the intestine. The agents, kits, and methods provided herein generate an aerobic environment within the intestine to alleviate intestinal inflammation.

Animal feeds comprising probiotics are preserved using an enzymatic antioxidant. Polypeptides having catalase activity and/or superoxide dismutase activity preserve and promote probiotic growth and activity in animal.

The invention is directed to a method of treating a spinal cord injury, a neurodegenerative disease or a neuronal injury in an individual in need thereof comprising administering an effective amount of superoxide dismutase (SOD) and catalase to the individual, wherein the superoxide dismutase and the catalase are encapsulated in one or more nanoparticles that release the SOD and catalase upon administration. Another aspect of the invention is directed to compositions comprising superoxide dismutase (SOD) and catalase encapsulated in one or more nanoparticles.