Abstract: A therapeutic method of treating mild cognitive impairment and improving human cognitive function, comprising: orally administering Beta-Caryophyllene (BCP), whereas the BCP improves cognitive function.

Abstract: There are no medical treatments available for cognitive decline in humans. Prevention through improved lifestyle, especially related to diet, is the one way to reduce the risk. Paradoxically, the modern diet is one that increases dementia risk and worsens cognitive function. Therefore it is critical that new methods be developed based on nutrient therapy.

Abstract: A therapeutic method of treating mild cognitive impairment and improving human cognitive function, comprising: orally administering Beta-Caryophyllene (BCP), whereas the BCP improves cognitive function.

Abstract: A food composition that includes at least the following essential nutrients: water, choline, omega-3, omega-6, leucine, isoleucine, lysine, methionine, cysteine, phenylalanine, tyrosine, tryptophan, threonine, valine, histidine, arginine; vitamin A; vitamin C; calcium; iron; vitamin D; vitamin E; vitamin K; thiamin; riboflavin; niacin; vitamin B6; folate; vitamin B12; biotin; pantothenic acid; phosphorus; iodine; magnesium; zinc; selenium; copper; manganese; chromium; molybdenum; and chloride.

Abstract: A nutritive edible composite food product that includes a protein-containing material, a carbohydrate-containing material, a fat or fat-containing material, and a source of liquid. The materials are mixed together to form an extensible nutritive edible composite material possessing an average extensibility of at least about 100%, such that the composite material is capable of being processed by extrusion, sheeting or molding operations that require extensibility. The composite material is further processed, to create a food product comprising at least about 15% protein.

Abstract: A nutritive edible composite food product that includes a protein-containing material, a carbohydrate-containing material, a fat or fat-containing material, and a source of liquid. The materials are mixed together to form an extensible nutritive edible composite material possessing an average extensibility of at least about 100%, such that the composite material is capable of being processed by extrusion, sheeting or molding operations that require extensibility. The composite material is further processed, to create a food product comprising at least about 15% protein.

Abstract: A novel high-protein, reduced carbohydrate food material technology, and high-protein, reduced carbohydrate food products made therefrom, in which the food products meet high organoleptic, stability, and taste/texture standards. This novel material technology possesses numerous controllable functional characteristics, including high to low adhesion, high to low volume expansion, high to low tensile strength, and high to low break elongation, all of which are critical to both processing needs as well as final food product specifications. The material technology allows for the processing of proteinaceous foods on common process equipment, the foods including but not limited to chips, snacks, crackers, wafers, bars, flat breads, cookies, biscuits, breads, bagels, cakes, waffles, pancakes, french fries, pasta, pizza dough, breakfast cereals, muffins, doughnuts, pastries, and meat analogs.

Abstract: Novel, edible, pressure molded proteinaceous wafer, waffle, inclusion ingredient, and cookie food products are derived utilizing an engineered batter formulation of proteinaceous materials, water, oils/fats, flavors, and select percentages of carbohydrates. The batter has a specific mass balance ratio that allows the wafers to be consistently manufactured on process equipment that was designed for carbohydrate wafer, waffle, or cookie processing. The novel engineered mass balance-based protein formulation provides a batter that can be pumped, utilizes standard steam port pressure relief systems, and results in a final food product that has marketable organoleptic qualities as a component in fabricated protein bars/snacks, confections, as an inclusion in other foods, or as an independent snack food, frozen breakfast food, cookie, or cone product.

Abstract: Novel, edible, pressure molded proteinaceous wafer, waffle, inclusion ingredient, and cookie food products are derived utilizing an engineered batter formulation of proteinaceous materials, water, oils/fats, flavors, and select percentages of carbohydrates. The batter has a specific mass balance ratio that allows the wafers to be consistently manufactured on process equipment that was designed for carbohydrate wafer, waffle, or cookie processing. The novel engineered mass balance-based protein formulation provides a batter that can be pumped, utilizes standard steam port pressure relief systems, and results in a final food product that has marketable organoleptic qualities as a component in fabricated protein bars/snacks, confections, as an inclusion in other foods, or as an independent snack food, frozen breakfast food, cookie, or cone product.

Abstract: A novel high-protein, reduced carbohydrate food material technology, and high-protein, reduced carbohydrate food products made therefrom, in which the food products meet high organoleptic, stability, and taste/texture standards. This novel material technology possesses numerous controllable functional characteristics, including high to low adhesion, high to low volume expansion, high to low tensile strength, and high to low break elongation, all of which are critical to both processing needs as well as final food product specifications. The material technology allows for the processing of proteinaceous foods on common process equipment, the foods including but not limited to chips, snacks, crackers, wafers, bars, flat breads, cookies, biscuits, breads, bagels, cakes, waffles, pancakes, french fries, pasta, pizza dough, breakfast cereals, muffins, doughnuts, pastries, and meat analogs.