Inorganic anions nitrate and nitrite influence metabolic rate and glucose homeostasis. Infusion of nitrite iv caused an acute drop in resting energy expenditure (oxygen consumption) and nitrate, when given perorally, caused a reduction in oxygen consumption during exercise and a depression of the increase in blood glucose observed after an oral glucose tolerance test. The doses of nitrate and nitrite did not cause any detectable change in methemoglobin levels of blood. Also, nitrate and nitrite did not alter lactate levels in blood. This discovery provides useful treatments to regulate the energy expenditure and glucose homeostasis of a mammal by administration of inorganic nitrite and/or nitrate.

The present invention relates to the use of a fruit extract and optionally other specific nutrients for preventing, reducing or minimising exercise-induced systemic inflammation and/or for promoting recovery from intense exercise. The invention also relates to compositions comprising such fruit extracts.

The present invention relates to the use of a fruit extract and optionally other specific nutrients for preventing, reducing or minimising exercise-induced systemic inflammation and/or for promoting recovery from intense exercise. The invention also relates to compositions comprising such fruit extracts.

Methods are provided to make clinoptilolite into a water-soluble hydrolyzed form suitable for various administration routes, including oral administration. Absorption of water-soluble hydrolyzed clinoptilolite fragments can aid in detoxification by binding heavy metals and environmental toxins, can reduce reactive oxygen species and inflammation related to heavy metals and other/environmental toxins, resulting in an increase in energy, and/or in an increase in one or more of focus, concentration, and memory. Water-soluble hydrolyzed clinoptilolite fragments can be combined with one or more dietary supplements, including various vitamins and sleep aids.

The present technology is directed generally to compositions for inducing a color and/or chemical and/or physical change to a foodstuff, such as a previously baked bread or other starches and proteins, and associated methods and systems. In some embodiments, the compositions are browning butters and include MaiHose as a browning agent. Some embodiments further include an additive such as a protein, a reducing sugar, or an alkaline agent.

Provided are non-dairy yogurt analogs that have qualities similar to those of dairy-based yogurts. Certain embodiments are to plant-based yogurt analogs comprising fermented plant protein isolates and/or gelled plant protein isolates. Also provided are processes for production of such non-dairy yogurt analogs. For instance, a method for producing a plant-based yogurt mixture capable of being used to make a plant-based yogurt analog comprising the steps of: a) obtaining an essentially dairy-free base for a yogurt formulation that includes a plant-based derivative, such as a paste; and b) adding an acid to said formulation. Thereafter, the plant-based yogurt formulation may be used to manufacture a plant-based yogurt analog comprising the steps of: a) heating a plant-based yogurt mixture at for a first pre-determined amount of time while stirring; b) allowing the mixture to cool; c) adding yogurt cultures to the resultant mixture; and d) incubating the resultant mixture for a second pre-determined amount of time to produce a plant-based yogurt analog.

Provided are non-dairy yogurt analogs that have qualities similar to those of dairy-based yogurts. Certain embodiments are to plant-based yogurt analogs comprising fermented plant protein isolates and/or gelled plant protein isolates. Also provided are processes for production of such non-dairy yogurt analogs. For instance, a method for producing a plant-based yogurt mixture capable of being used to make a plant-based yogurt analog comprising the steps of: a) obtaining an essentially dairy-free base for a yogurt formulation that includes a plant-based derivative, such as a paste; and b) adding an acid to said formulation. Thereafter, the plant-based yogurt formulation may be used to manufacture a plant-based yogurt analog comprising the steps of: a) heating a plant-based yogurt mixture at for a first pre-determined amount of time while stirring; b) allowing the mixture to cool; c) adding yogurt cultures to the resultant mixture; and d) incubating the resultant mixture for a second pre-determined amount of time to produce a plant-based yogurt analog.

The present invention provides feed additive composition comprising fermented yeast, sodium metabisulfite, and optionally thiamin. When a normal or basal feed is supplemented with the feed additive, improved growth, improved health, improved intestinal health, and a reduction of microbial pathogens is seen in non-human animals as compared to a control group.

The present invention provides feed additive composition comprising fermented yeast, sodium metabisulfite, and optionally thiamin. When a normal or basal feed is supplemented with the feed additive, improved growth, improved health, improved intestinal health, and a reduction of microbial pathogens is seen in non-human animals as compared to a control group.

A process for producing a non-dairy food product of enhanced viscosity comprises providing a mixture of deamidated oat base and vegetable protein isolate, crosslinking of glutamine and lysine units of the protein isolate and oat protein comprised by the oat base by means of transglutaminase, and fermenting the mixture by means of a yogurt, sour cream or cheese starter culture. Also disclosed are products obtainable by the process and their use.