Disclosed herein is at least one low protein yogurt composition comprising at least one dairy ingredient, dairy alternative ingredient, or mixture thereof, and a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy potato starch, wherein said low protein yogurt comprises less than 2.9% dairy protein content, and at least one method for making these low protein yogurt compositions. Also disclosed herein is a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy potato starch.

Disclosed herein is at least one low protein yogurt composition comprising at least one dairy ingredient, dairy alternative ingredient, or mixture thereof, and a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy potato starch, wherein said low protein yogurt comprises less than 2.9% dairy protein content, and at least one method for making these low protein yogurt compositions. Also disclosed herein is a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy potato starch.

Disclosed herein is one or more food compositions comprising at least one edible ingredient and a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy starch selected from waxy maize, waxy tapioca and combinations thereof. Also disclosed herein is a process for making said food compositions, the method comprising adding a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy starch selected from waxy maize, waxy tapioca and combinations thereof to the composition, wherein an effective amount of the texturizing agent is added to thicken the food composition. The texturizing agent can be used to replace protein and/or fat in said one or more food composition.

Disclosed herein is one or more food compositions comprising at least one edible ingredient and a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy starch selected from waxy maize, waxy tapioca and combinations thereof. Also disclosed herein is a process for making said food compositions, the method comprising adding a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy starch selected from waxy maize, waxy tapioca and combinations thereof to the composition, wherein an effective amount of the texturizing agent is added to thicken the food composition. The texturizing agent can be used to replace protein and/or fat in said one or more food composition.

Preparation of cannabinoid formulations containing: 9-tetrahydrocannabinol (9-THC), 8-tetrahydrocannabinol (8-THC), 9-tetrahydrocannabinolic acid (THCa), cannabidiol (CBD), cannabidiolic acid (CBDa), cannabigerol (CBG), cannabichromene (CBC) and cannabinol (CBN), either alone or in combinations henceforth known as Cannabis, have been created using an emulsification process to encapsulate cannabinoids. The aqueous-based method involves micellular encapsulation of cannabinoids, a method that has been used to increase the bioavailability of poorly permeable, lipophilic drugs. These preparations demonstrates the viability of sublingual, buccal, or oral delivery using an aqueous-based encapsulation method, including as a beverage or drink.

Preparation of cannabinoid formulations containing: 9-tetrahydrocannabinol (9-THC), 8-tetrahydrocannabinol (8-THC), 9-tetrahydrocannabinolic acid (THCa), cannabidiol (CBD), cannabidiolic acid (CBDa), cannabigerol (CBG), cannabichromene (CBC) and cannabinol (CBN), either alone or in combinations henceforth known as cannabis, have been created using an emulsification process to encapsulate cannabinoids. The aqueous-based method involves micellular encapsulation of cannabinoids, a method that has been used to increase the bioavailability of poorly permeable, lipophilic drugs. The present invention demonstrates the viability of transdermal delivery with gels and patches for consistent and sustained cannabinoid dosing.

The present invention relates specifically to starch products and starch compositions useful for thickening aqueous liquids, for example, for use by people suffering from dysphagia. In one aspect, the invention provides a pregelatinized, hydroxypropylated starch, having a level of hydroxypropylation in the range of about 1% to about 10%; an RVA viscosity in the range of about 400 cP to about 3500 cP; wherein the pregelatinized, hydroxypropylated starch is readily dispersible in milk. Another aspect provides a provides a pregelatinized, hydroxypropylated starch, having a level of hydroxypropylation in the range of about 1% to about 10%; and an RVA viscosity in the range of about 400 cP to about 3500 cP; and less than about 80%> of the surface protein of the corresponding native starch.

The present invention relates specifically to starch products and starch compositions useful for thickening aqueous liquids, for example, for use by people suffering from dysphagia. In one aspect, the invention provides a pregelatinized, hydroxypropylated starch, having a level of hydroxypropylation in the range of about 1% to about 10%; an RVA viscosity in the range of about 400 cP to about 3500 cP; wherein the pregelatinized, hydroxypropylated starch is readily dispersible in milk. Another aspect provides a provides a pregelatinized, hydroxypropylated starch, having a level of hydroxypropylation in the range of about 1% to about 10%; and an RVA viscosity in the range of about 400 cP to about 3500 cP; and less than about 80%> of the surface protein of the corresponding native starch.

The disclosed invention provides a food and water thickener and a method for preparing the food and water thickener. The food thickener may comprise pretreated mineral water, xanthan, food preservative, and a chelating agent. The invention can be suitable for providing nutrition to patients with dysphagia.

The disclosed invention provides a food and water thickener and a method for preparing the food and water thickener. The food thickener may comprise pretreated mineral water, xanthan, food preservative, and a chelating agent. The invention can be suitable for providing nutrition to patients with dysphagia.