A wine decanter includes a reservoir that holds wine and a neck with an opening to allow wine to enter and exit the reservoir. The reservoir is generally rectangular with opposing front and rear sides and opposing left and right sides, and a substantially flat bottom. Protrusions are located on the reservoir inner surface at one of the front and rear sides or left and right sides. Each protrusion spans an entire length of one of the sides and protrudes into the reservoir thereby aerating the wine as it passes by the protrusions. All protrusions are located above the flat bottom of the reservoir such that none of the protrusions are located on the flat bottom of the reservoir, thereby allowing the wine to pool on the flat bottom of the reservoir. A base is provided that moves the decanter in a controlled back-and-forth motion to aerate the wine.

A computer-implemented method for execution by a processor of a computing device. The method comprises implementing a computerized graphical user interface (GUI) that provides a user of the computing device with an opportunity to identify a pharmaceutical compounding formula; consulting a database at least partly on a basis of the identified pharmaceutical compounding formula in order to determine mixing parameters for a planetary mixer, associated with the identified pharmaceutical compounding formula; and causing a mixer to subject a container to superimposed rotation and revolution movements in accordance with the mixing parameters determined from consulting the database.

A computer-implemented method for execution by a processor of a computing device. The method comprises implementing a computerized graphical user interface (GUI) that provides a user of the computing device with an opportunity to identify a pharmaceutical compounding formula; consulting a database at least partly on a basis of the identified pharmaceutical compounding formula in order to determine mixing parameters for a planetary mixer, associated with the identified pharmaceutical compounding formula; and causing a mixer to subject a container to superimposed rotation and revolution movements in accordance with the mixing parameters determined from consulting the database.

The disclosure provides an apparatus for storing platelet-rich plasma (PRP). The apparatus is configured to reversibly receive a platelet-rich plasma (PRP) container. The apparatus comprises a platform defining at least one recess configured to receive the PRP container therein; and an agitator configured to move the platform, and thereby agitate PRP stored in the PRP container. The agitator is configured to move the platform in a circular motion at a frequency of between 10 and 10,000 revolutions per minute (RPM).

The disclosure provides an apparatus for storing platelet-rich plasma (PRP). The apparatus is configured to reversibly receive a platelet-rich plasma (PRP) container. The apparatus comprises a platform defining at least one recess configured to receive the PRP container therein; and an agitator configured to move the platform, and thereby agitate PRP stored in the PRP container. The agitator is configured to move the platform in a circular motion at a frequency of between 10 and 10,000 revolutions per minute (RPM).

A self-balancing adapter for use with a mixer, the adapter having a body configured to interface with the mixer as a unit, the body having a front and a back, left and right edges, a top and a bottom, and a vertical axis passing through the top and the bottom, where the front has at least a first recess configured to receive and hold a first vessel substantially within the body; and the adapter having at least one movable counterweight configured to be displaced when the first vessel is received in the first recess such that the movable weight at least partially offsets a weight of the first vessel within the body with respect to the vertical axis.

A computer-implemented method for execution by a processor of a computing device. The method comprises implementing a computerized graphical user interface (GUI) that provides a user of the computing device with an opportunity to identify a pharmaceutical compounding formula; consulting a database at least partly on a basis of the identified pharmaceutical compounding formula in order to determine mixing parameters for a planetary mixer, associated with the identified pharmaceutical compounding formula; and causing a mixer to subject a container to superimposed rotation and revolution movements in accordance with the mixing parameters determined from consulting the database.

A computer-implemented method for execution by a processor of a computing device. The method comprises implementing a computerized graphical user interface (GUI) that provides a user of the computing device with an opportunity to identify a pharmaceutical compounding formula; consulting a database at least partly on a basis of the identified pharmaceutical compounding formula in order to determine mixing parameters for a planetary mixer, associated with the identified pharmaceutical compounding formula; and causing a mixer to subject a container to superimposed rotation and revolution movements in accordance with the mixing parameters determined from consulting the database.

An automatic food spread mixer is used to rotate a jar of nut butter at approximately 16 rpm for about an hour.

An automatic food spread mixer is used to rotate a jar of nut butter at approximately 16 rpm for about an hour.