Abstract: Provided is a non-invasive system and method for determining a target glycogen score value for a target muscle and potentially at least one indicator muscle. The method includes receiving an ultrasound scan of a target muscle; evaluating at least a portion of the ultrasound scan to determine glycogen store value within the target muscle; recording the determined glycogen store value for the muscle as an element of a glycogen value data set for the muscle; evaluating the glycogen value data set to determine a value range; and in response to the range being at least above a pre-determined threshold, establishing a target score for the muscle as based on an upper portion of the value range. The method may be repeated to identify ranges for a plurality of muscles, the muscle with the greatest range being identified as an indicator muscle. An associated system is also disclosed.

Abstract: A process and apparatus for producing hydrocarbon oil from the thermal decomposition of waste plastics in a continuous process which comprises melting of a waste plastic feedstock into an auger assisted melt reactor to remove chlorine and organics contained in the waste plastic, and transferring the melted waste plastic into an heated screw pyrolysis reactor which includes a transitional metal heat transfer medium. The hydrocarbon gas from the pyrolysis reactor is fed into a vessel containing metal trays for a second decomposition which is connected with an alkali treatment 2-step process gas reactor to remove acidic gases, and any inorganic solids. The hydrocarbon gases are separated by three separate condensers. The hydrocarbon fraction of the first condenser is recycled back into the pyrolysis reaction for further thermal treatment, and the hydrocarbon fractions are collected in the remaining condensers.

Abstract: A process and apparatus for producing hydrocarbon oil from the thermal decomposition of waste plastics in a continuous process which comprises melting of a waste plastic feedstock into an auger assisted melt reactor to remove chlorine and organics contained in the waste plastic, and transferring the melted waste plastic into an heated screw pyrolysis reactor which includes a transitional metal heat transfer medium. The hydrocarbon gas from the pyrolysis reactor is fed into a vessel containing metal trays for a second decomposition which is connected with an alkali treatment 2-step process gas reactor to remove acidic gases, and any inorganic solids. The hydrocarbon gases are separated by three separate condensers. The hydrocarbon fraction of the first condenser is recycled back into the pyrolysis reaction for further thermal treatment, and the hydrocarbon fractions are collected in the remaining condensers.

Abstract: A process and apparatus for producing hydrocarbon oil from the thermal decomposition of waste plastics in a continuous process which comprises melting of a waste plastic feedstock into an auger assisted melt reactor to remove chlorine and organics contained in the waste plastic, and transferring the melted waste plastic into an heated screw pyrolysis reactor which includes a transitional metal heat transfer medium. The hydrocarbon gas from the pyrolysis reactor is fed into a vessel containing metal trays for a second decomposition which is connected with an alkali treatment 2-step process gas reactor to remove acidic gases, and any inorganic solids. The hydrocarbon gases are separated by three separate condensers. The hydrocarbon fraction of the first condenser is recycled back into the pyrolysis reaction for further thermal treatment, and the hydrocarbon fractions are collected in the remaining condensers.

Abstract: Provided is a non-invasive system and method for determining a target glycogen score value for a target muscle and potentially at least one indicator muscle. The method includes receiving an ultrasound scan of a target muscle; evaluating at least a portion of the ultrasound scan to determine glycogen store value within the target muscle; recording the determined glycogen store value for the muscle as an element of a glycogen value data set for the muscle; evaluating the glycogen value data set to determine a value range; and in response to the range being at least above a pre-determined threshold, establishing a target score for the muscle as based on an upper portion of the value range. The method may be repeated to identify ranges for a plurality of muscles, the muscle with the greatest range being identified as an indicator muscle. An associated system is also disclosed.

Abstract: Provided is a non-invasive system and method for determining a target glycogen score value for a target muscle and potentially at least one indicator muscle. The method includes receiving an ultrasound scan of a target muscle; evaluating at least a portion of the ultrasound scan to determine glycogen store value within the target muscle; recording the determined glycogen store value for the muscle as an element of a glycogen value data set for the muscle; evaluating the glycogen value data set to determine a value range; and in response to the range being at least above a pre-determined threshold, establishing a target score for the muscle as based on an upper portion of the value range. The method may be repeated to identify ranges for a plurality of muscles, the muscle with the greatest range being identified as an indicator muscle. An associated system is also disclosed.

Abstract: A process and apparatus for producing hydrocarbon oil from the thermal decomposition of waste plastics in a continuous process which comprises melting of a waste plastic feedstock into an auger assisted melt reactor to remove chlorine and organics contained in the waste plastic, and transferring the melted waste plastic into an heated screw pyrolysis reactor which includes a transitional metal heat transfer medium. The hydrocarbon gas from the pyrolysis reactor is fed into a vessel containing metal trays for a second decomposition which is connected with an alkali treatment 2-step process gas reactor to remove acidic gases, and any inorganic solids. The hydrocarbon gases are separated by three separate condensers. The hydrocarbon fraction of the first condenser is recycled back into the pyrolysis reaction for further thermal treatment, and the hydrocarbon fractions are collected in the remaining condensers.

Abstract: Provided is a non-invasive system and method for determining a target glycogen score value for a target muscle and potentially at least one indicator muscle. The method includes receiving an ultrasound scan of a target muscle; evaluating at least a portion of the ultrasound scan to determine glycogen store value within the target muscle; recording the determined glycogen store value for the muscle as an element of a glycogen value data set for the muscle; evaluating the glycogen value data set to determine a value range; and in response to the range being at least above a pre-determined threshold, establishing a target score for the muscle as based on an upper portion of the value range. The method may be repeated to identify ranges for a plurality of muscles, the muscle with the greatest range being identified as an indicator muscle. An associated system is also disclosed.

Abstract: Provided is a non-transitory machine readable medium on which is stored a computer program for non-invasive determination of glycogen stores including, the computer program including instructions which when executed by a computer system perform the steps of: receiving an ultrasound scan of a target muscle; and evaluating at least a portion of the ultrasound scan to determine glycogen store within the target muscle.

Abstract: Provided is a non-invasive method of determining glycogen stores including: receiving an ultrasound scan of at least a portion of a target muscle; and evaluating at least a portion of the ultrasound scan to determine glycogen store within the target muscle.

Abstract: Provided is a system for non-invasive determination of glycogen stores including: a glycogen evaluator structured and arranged to evaluate at least one selected portion of a scan of a selected target muscle to determine a glycogen store within the target muscle.

Abstract: Provided is a non-invasive method of determining glycogen stores including: receiving an ultrasound scan of at least a portion of a target muscle; and evaluating at least a portion of the ultrasound scan to determine glycogen store within the target muscle.

Abstract: Provided is a non-transitory machine readable medium on which is stored a computer program for non-invasive determination of glycogen stores including, the computer program including instructions which when executed by a computer system perform the steps of: receiving an ultrasound scan of a target muscle; and evaluating at least a portion of the ultrasound scan to determine glycogen store within the target muscle.

Abstract: Provided is a system for non-invasive determination of glycogen stores including: a glycogen evaluator structured and arranged to evaluate at least one selected portion of a scan of a selected target muscle to determine a glycogen store within the target muscle.

Abstract: Botanically-sourced and botanically-derived emollient sanitation compositions for topical use are disclosed. Representative compositions generally aid reconstitution of the lipid profile of the stratum corneum by providing botanical lipids and/or lipid-derivatives that resemble human sebum—these components being ordinarily diminished with the use of conventional hand sanitizer products. Disclosed features and specifications may be variously controlled, adapted or optionally modified to realize, for example, improved hand sanitizer formulations. Representative embodiments of the present invention generally provide anti-microbial compositions blended with botanically sourced lipids and/or lipid-derivatives to control or otherwise improve dermatitic symptoms associated with frequent use of conventional hand sanitizer products.

Abstract: Described is a method for improving the spreading properties of fatty alcohol containing cosmetic ingredients by providing a fatty alcohol containing starting material and adding an effective amount of acylating source [e.g., R1C)?O)OC(?O)R2, where R1 is an alkyl substituent of the acyl group having between 1 and 5 carbons; where R2 is a long chain fatty alkyl subsistent (non-limiting examples are unsaturated substituents such as CH3—(CH2)7—CH?CH—CH2—(CH2)x—, and saturated substituents such as CH3—(CH2)y—, wherein x ranges from 4 to 12, and y ranges from 14 to 22, and the like)], wherein the spreading properties of the starting material are increased over the spreading properties originally exhibited.

Abstract: Materials with high levels of unsaponifiable matter, such as extracts from plants, result in Hydrolysates with unique properties. It has been found that the application of a hydrolysis process to materials, particularly materials with a high level of unsaponifiables (e.g., at least 6% by total weight of the material) produces a product with properties significantly different from those products resulting from the conventional saponification of materials with less than 6% by weight of unsaponifiables. The resulting Hydrolysates from the practice of the present invention are substantive, resisting both physical and aqueous-based removal from skin and hair, exhibit a very unique surfactant property, and are not foaming agents with water. Addition of extra alkali metal hydroxides to these Hydrolysates according to the present invention may thus be used to neutralized acidic gelling agents and thereby providing a gel with enhanced the performance for cosmetics and pharmaceuticals.

Abstract: Randomization of moringa oil produces moringa esters, which are useful in cosmetic and pharmaceutical preparations providing enhanced stability, improved shelf life, and enhanced slip and coverage characteristics. Exemplary randomization processes include randomizing a quantity of moringa oil with a quantity of an alkaline catalyst, randomizing a quantity of moringa oil with a quantity of a partially hydrogenated moringa oil, randomizing a quantity of moringa oil with a quantity of a completely hydrogenated moringa oil, and randomizing a quantity of moringa oil with quantities of partially hydrogenated and completely hydrogenated moringa oil.

Abstract: Compositions consisting of emollient particles that carry at least one of active sunscreen material, self-tanning material and visual effects material, and transparent and translucent topical sunscreen preparations having disposed therein such emollient particles.