A method for determining the flexion or extension of a joint of a human or animal subject, comprising: applying a plurality of strain gauges to the joint in a known configuration; applying a first inertial measurement unit, IMU, to each strain gauge; receiving strain data from each of the strain gauges; receiving motion data from each of the IMUs; and calculating the flexion or extension of the joint in dependence on the received strain data, motion data and the configuration of the strain gauges.

A method for determining the flexion or extension of a joint of a human or animal subject, comprising: applying a plurality of strain gauges to the joint in a known configuration; applying a first inertial measurement unit, IMU, to each strain gauge; receiving strain data from each of the strain gauges; receiving motion data from each of the IMUs; and calculating the flexion or extension of the joint in dependence on the received strain data, motion data and the configuration of the strain gauges.

The present invention relates to a novel Chlamydomonas strain with an improved oil generation function, the strain of the present invention having useful mycological characteristics as a strain that provides a useful substance, such as a vegetable oil, in a microalga, as the strain has a fast cell growth speed and an excellent lipid generation function compared to conventional strains. In particular, the present invention can provide a vegetable oil with improved stability and a longer preservation period by containing, in a cell, a large amount of antioxidant pigments such as lutein and zeaxanthin, and can, thereby, be usefully used in industries such as food, medicine, cosmetics, etc., which utilize a vegetable oil.

The present invention relates to a novel Chlamydomonas strain with an improved oil generation function, the strain of the present invention having useful mycological characteristics as a strain that provides a useful substance, such as a vegetable oil, in a microalga, as the strain has a fast cell growth speed and an excellent lipid generation function compared to conventional strains. In particular, the present invention can provide a vegetable oil with improved stability and a longer preservation period by containing, in a cell, a large amount of antioxidant pigments such as lutein and zeaxanthin, and can, thereby, be usefully used in industries such as food, medicine, cosmetics, etc., which utilize a vegetable oil.

Spirulina infused gummies containing micronutrients for consumption by a person to deliver beneficial and necessary nutrients to the person and a method of preparing spirulina infused gummies to eliminate the bad odor and taste normally associated with spirulina. The gummies have pectin, water, citric acid, sugar and/or glucose and spirulina. Preservatives and flavor additives can also be included. The method of making the gummies includes heating a mixture of citric acid and water, adding pectin and sugar to the mixture and then stirring, adding hot glucose to the mixture, stirring the mixture and allowing the mixture to cool, adding spirulina to the mixture followed by continuous stirring, adding additional citric acid to the mixture, stirring until jellification begins, pouring the mixture into molds and removing the mixture from the molds when cool. Preferably, a preservative and a flavor additive are added to the mixture prior to the additional citric acid.

The present invention relates to a seaweed-based composition comprising water, a seaweed powder and an additional component, said additional component being chosen from the group consisting of glucomannans, galactomannans, native starch and combinations thereof. Preferably, the red seaweed selected from the families of Gigartinaceae, Bangiophyceae, Palmariaceae, Hypneaceae, Cystocloniaceae, Solieriaceae, Phyllophoraceae and Furcellariaceae or combinations thereof.

The present invention relates to a seaweed-based composition comprising water, a seaweed powder and an additional component, said additional component being chosen from the group consisting of glucomannans, galactomannans, native starch and combinations thereof. Preferably, the red seaweed selected from the families of Gigartinaceae, Bangiophyceae, Palmariaceae, Hypneaceae, Cystocloniaceae, Solieriaceae, Phyllophoraceae and Furcellariaceae or combinations thereof.

The present invention relates to a method of increasing a measure of a production trait in a non-ruminant animal by administering a red seaweed of Asparagopsis species to the animal.

The present invention relates to a method of increasing a measure of a production trait in a non-ruminant animal by administering a red seaweed of Asparagopsis species to the animal.

Printed delivery devices are disclosed herein. In some embodiments, a printed delivery device (100) includes a support substrate. A first printed composition (102), including a first supplement, is coated onto the support substrate (202) and a second printed composition (102) disposed on the first printed composition. A decorative film is applied to one or more of the first printed composition, second printed composition, or the support substrate (602).