Example embodiments of the systems and methods of callus removal disclosed herein comprise a callus catching function to catch the calluses removed by the blade. A clamp on the back side of the blade comprises a hollowed out section into which the blade deposits the removed calluses. The hollowed area may be formed, for example, by a clamp for holding the blade in a handle. In an example embodiment, the clamp may also comprise a pumice sponge for further use in pedicure processes. The clamp may be removable to allow for removal of the collected calluses into a collection bin.

A compact nail cleaner device made of an elongated portion 4 attached to a circular disc component 3 having an inner cavity 1 and an outermost surface with ridges 2

A compact nail cleaner device made of an elongated portion 4 attached to a circular disc component 3 having an inner cavity 1 and an outermost surface with ridges 2

A microdermabrasion system upgrade kit includes a plurality of couplers from which a user may choose one or more couplers in order to connect the upgrade kit to a vacuum source of an existing microdermabrasion system. In an implementation, the upgrade kit includes a power socket that the user can plug the vacuum source into.

The pedicure device with telescoping pumice stone is a device that is adapted for use with pumice stones. The pedicure device with telescoping pumice stone is a telescopic wand that is used to extend the reach of the user when using a pumice stone. The end of the telescopic wand is fitted with an electric motor that is used to rotate the pumice stone while in use. The pumice stone is replaceable, allowing for the user to replace consumed stones or to change the grade or grit of the pumice stone being used. The pedicure device with telescoping pumice stone comprises a handle, a telescopic wand, a motor cap, and a stone cap.

The pedicure device with telescoping pumice stone is a device that is adapted for use with pumice stones. The pedicure device with telescoping pumice stone is a telescopic wand that is used to extend the reach of the user when using a pumice stone. The end of the telescopic wand is fitted with an electric motor that is used to rotate the pumice stone while in use. The pumice stone is replaceable, allowing for the user to replace consumed stones or to change the grade or grit of the pumice stone being used. The pedicure device with telescoping pumice stone comprises a handle, a telescopic wand, a motor cap, and a stone cap.

A vented microdermabrasion tip includes a disk-shaped abrasive component coated or configured with a microdermabrasive surface and fixed to a tubular sleeve by a set of annular mounts. The sleeve surrounds an outer periphery of the abrasive component, so that a gap is provided between the abrasive component and an internal air passage through the sleeve. A distal surface of the abrasive component is continuous, free of holes and coated with an abrasive material or formed with an abrasive surface. The distal surface extends beyond the distal end of the sleeve. An end of the mount opposite to the abrasive component is configured for coupling to a channel of a suction apparatus leading to an inlet of an air pump.

A vented microdermabrasion tip includes a disk-shaped abrasive component coated or configured with a microdermabrasive surface and fixed to a tubular sleeve by a set of annular mounts. The sleeve surrounds an outer periphery of the abrasive component, so that a gap is provided between the abrasive component and an internal air passage through the sleeve. A distal surface of the abrasive component is continuous, free of holes and coated with an abrasive material or formed with an abrasive surface. The distal surface extends beyond the distal end of the sleeve. An end of the mount opposite to the abrasive component is configured for coupling to a channel of a suction apparatus leading to an inlet of an air pump.

The present invention relates to a device for penetrating human nails as a part of treatment for Onychomycosis, commonly known as fungal nail. The device comprises a reusable electromechanical system and a single use cutting component. The electromechanical system incorporates an electrical motor and drive train to advance the cutting component through the nail. The electromechanical system also incorporates sensors for measuring the cutting resistance for the purpose of preventing the cutting device from overrunning into the nail bed. The device can be used to penetrate the nail in a controlled manner which will create a portal through the nail without penetrating the nail bed below the nail.

The present invention relates to a device for penetrating human nails as a part of treatment for Onychomycosis, commonly known as fungal nail. The device comprises a reusable electromechanical system and a single use cutting component. The electromechanical system incorporates an electrical motor and drive train to advance the cutting component through the nail. The electromechanical system also incorporates sensors for measuring the cutting resistance for the purpose of preventing the cutting device from overrunning into the nail bed. The device can be used to penetrate the nail in a controlled manner which will create a portal through the nail without penetrating the nail bed below the nail.