A method of treating hypercholesterolemia in mammals, by administering an effective amount of a microbial fermentation product, and regulating genes involved in lipoprotein metabolism. A method of regulating cholesterol levels in a patient by administering an effective amount of a composition chosen from the group consisting of PAZ, specific components isolated from PAZ, chemically synthesized analogues of the components of PAZ, and regulating genes involved in lipoprotein metabolism. A method of treating high cholesterol levels in an individual by administering an effective amount of a microbial fermentation product, up-regulating the expression of at least one of the genes that encode ABCA1, ApoA1, and SRB1, and down-regulating the gene that encodes CETP. A method of preventing the onset of high cholesterol levels and/or a deleterious lipoprotein profile in an individual.

A method of treating hypercholesterolemia in mammals, by administering an effective amount of a microbial fermentation product, and regulating genes involved in lipoprotein metabolism. A method of regulating cholesterol levels in a patient by administering an effective amount of a composition chosen from the group consisting of PAZ, specific components isolated from PAZ, chemically synthesized analogues of the components of PAZ, and regulating genes involved in lipoprotein metabolism. A method of treating high cholesterol levels in an individual by administering an effective amount of a microbial fermentation product, up-regulating the expression of at least one of the genes that encode ABCA1, ApoA1, and SRB1, and down-regulating the gene that encodes CETP. A method of preventing the onset of high cholesterol levels and/or a deleterious lipoprotein profile in an individual.

Algal flour and algal biomass are disclosed. Food compositions comprising algal biomass or algal flour with a high lipid content are disclosed.

Algal flour and algal biomass are disclosed. Food compositions comprising algal biomass or algal flour with a high lipid content are disclosed.

The present invention relates to a composition comprising defatted microalgae in a solid, powder, or liquid form formulated for oral administration. The present invention also relates to a composition comprising defatted microalgae formulated as a food additive. Also disclosed are treatment methods that involve administering microalgae compositions.

The present invention relates to a composition comprising defatted microalgae in a solid, powder, or liquid form formulated for oral administration. The present invention also relates to a composition comprising defatted microalgae formulated as a food additive. Also disclosed are treatment methods that involve administering microalgae compositions.

A beverage composition comprising phlorotannin, a ginseng extract and caffeine, and being effective in improving work performance, such as improving concentration and fatigue, preventing sleepiness, relieving hangovers, reducing headaches and improving physical abilities.

A beverage composition comprising phlorotannin, a ginseng extract and caffeine, and being effective in improving work performance, such as improving concentration and fatigue, preventing sleepiness, relieving hangovers, reducing headaches and improving physical abilities.

Herein disclosed is a method of processing a medium containing algae microorganisms to produce algal oil and by-products, comprising providing the medium containing algae microorganisms; passing the medium through a rotor-stator high shear device; disintegrating cell walls of and intracellular organelles in the algae microorganisms to release algal oil and by-products; and removing the algae medium from an outlet of the high shear device. In an embodiment, disintegration is enhanced by a penetrating gas capable of permeating the cell wall. In an embodiment, enhancement is accomplished by super-saturation of the penetrating gas in the medium or increased gas pressure in a vessel. In an embodiment, the penetrating gas is different from the gas produced by the cell during respiration. A suitable system is also discussed in this disclosure.

Herein disclosed is a method of processing a medium containing algae microorganisms to produce algal oil and by-products, comprising providing the medium containing algae microorganisms; passing the medium through a rotor-stator high shear device; disintegrating cell walls of and intracellular organelles in the algae microorganisms to release algal oil and by-products; and removing the algae medium from an outlet of the high shear device. In an embodiment, disintegration is enhanced by a penetrating gas capable of permeating the cell wall. In an embodiment, enhancement is accomplished by super-saturation of the penetrating gas in the medium or increased gas pressure in a vessel. In an embodiment, the penetrating gas is different from the gas produced by the cell during respiration. A suitable system is also discussed in this disclosure.