Method for immobilizing a target microorganism or target chemical found in a mammal includes introducing into a gastrointestinal tract of the mammal immobilization particles including immobilization molecules capable of attaching to the target microorganism or the target chemical, which immobilization molecules are attached to one or more portions of a structure that is capable of inhibiting contact between tissues of the gastrointestinal tract and the target microorganisms or target chemicals attached to the immobilization molecules.

There are provided, inter alia, methods for decreasing mucus elasticity or decreasing mucus viscosity in a subject in need thereof, the methods including administering to the subject an effective amount of a dithiolsaccharide mucolytic agent, and compounds and pharmaceutical compositions useful for the methods.

In alternative embodiments, provided are pharmaceutical compositions comprising combinations of drugs, including products of manufacture and kits, and methods for using them, for treating, preventing, ameliorating, slowing the progress of, decreasing the severity of or preventing a coronavirus infection, or a COVID-19 or a 2019-nCoV (or so-called Wuhan coronavirus) infection, or an infection caused by a virus in the subfamily Orthocoronavirinae, or a virus in the family Coronaviridae, or a virus in the order Nidovirales. In alternative embodiments, combinations, or cocktails, of a drug or drugs as provided herein are administered either enterally, parenterally and/or by inhalation. In alternative embodiments, combinations, or cocktails, of drugs as provided herein are used to block intracellular metabolic pathways and prevent progression of the infection to clinical illness and death. In alternative embodiments, novel aerosol or powder formulations for inhalation are provided. In alternative embodiments, provided are therapeutic combinations of drugs or a drug, a pharmaceutical dosage form, a drug delivery device, or a product of manufacture, comprising: opaganib or YELIVA™, or opaganib or YELIVA™ and oral and/or inhaled chloroquine (or ARALEN™), chloroquine phosphate, chloroquine diphosphate and/or hydroxychloroquine (e.g., PLAQUENIL™), wherein optionally each or both of the opaganib and the chloroquine (or ARALEN™), chloroquine phosphate, chloroquine diphosphate and/or hydroxychloroquine (e.g., PLAQUENIL™) are in or formulated as a formulation for inhalation, for example, formulated as an aerosol, liquid or powder.

An isolated lactic acid bacteria strain: Bifidobacterium longum subsp. longum OLP-01 strain for increasing exercise performance and ameliorating fatigue is disclosed. A variety of animal experiments have proved that OLP-01 not only effectively improves muscle strength and swimming endurance but also significantly reduces fatigue-related biochemical indicators, including blood lactate, blood urea nitrogen and the activity of creatine kinase.

In one aspect, the present disclosure provides a trapping vaccine composition comprising a trapping antigenic component, a protective component, and a liver cell-targeting component, wherein the trapping antigenic component comprises a nucleic acid molecule or a protein, the protective component comprises a synthetic or non-natural molecule or formation of synthetic or non-natural molecules, and wherein the liver cell-targeting component is capable of delivering the vaccine composition to a liver cell or liver tissue. The present disclosure additional provides vaccination methods comprising (i) administering a priming composition comprising a priming antigenic component or a first dose comprising the priming composition to the mammal; and (ii) administering a trapping composition comprising a trapping antigenic component, a protective component, and a liver cell-targeting component, or a second dose comprising the second composition to the mammal, wherein the priming and trapping compositions or doses are not administered concurrently and wherein the number of resident memory T cells in the liver are increased following administration of the trapping composition. In certain embodiments, vaccine compositions and regimes are provided that protect against liver-tropic pathogens, e.g., a malarial infection. In an embodiment, a vaccine composition and regimen are provided that protect against an infection caused by P. falciparum or P. yoelli sporozoites.

A method of treating headache disorders, by administering an effective amount of a composition of a psychedelic to the individual and treating the headache disorder. A method of treating migraine headache in an individual, by administering an effective amount of a psychedelic to the individual and reducing migraine headache burden. A method of treating cluster headache in an individual, by administering an effective amount of a psychedelic to the individual and reducing cluster headache burden. A method of treating headache disorders, by administering a single treatment of a psychedelic to an individual and providing a long term effect in preventing headaches.

The present invention includes a method for using diNACA as a prodrug to deliver diNACA, NACA and NAC to a mammal for therapeutic purposes to prevent or treat diseases or disorders involving oxidative stress. The method includes any disease that involves the therapeutic use of NACA or NAC as a therapeutic agent. Also, compositions and methods for the prevention, reduction or treatment of corneal endothelial cell loss in a patient that comprise providing the patient with an amount of at least one, alone or in combination, of N-acetylcysteine amide (NACA) or (2R,2R′)-3,3′-disulfanediyl bis(2-acetamidopropanamide) (diNACA) (diNACA) to prevent or reduce the corneal endothelial cell loss or to prevent or treat presbyopia. DiNACA can be used to prevent or treat cataracts.

The present disclosure relates to methods of administering a composition to a patient, particularly in the form of a dietary supplement, which addresses immune system deficiencies and promotes healthy immune system functioning. The present disclosure also related to compositions and methods for improving or boosting immune system functioning. The present disclosure further provides novel compositions for balancing immune response in human subjects.

An electrolyte supplement/replacement, in particular a gel capsule, comprises an electrolyte formulation for facilitating sufficient electrolyte replenishment and compounds for maintaining urinary tract health in dehydrated persons, including but not limited to persons who lose substantial amounts of electrolytes due to illness or those who engage in strenuous physical activities in hot climates and/or work environments, such as military personnel, construction workers, sports training, athletes and the like, to improve electrolyte balance, extend endurance, prevent muscle cramps and other effects of dehydration. The supplement comprises sufficient types and amounts of electrolytes to facilitate rapid return to electrolyte homeostasis in a dehydrated person.

The present disclosure provides a recombinant oncolytic virus engineered to express a soluble form of an immune checkpoint protein. In certain aspects, the oncolytic vims is a replication competent virus such as myxoma vims. Methods of cancer treatment comprising administering the recombinant oncolytic virus expressing the soluble form of the immune checkpoint protein are also provided.