A hallux valgus sandal for treating at least great toe malpositions, having a sole element with an outsole and a footbed, with a great toe strap section for the lateral positional fixing of the great toe and with a holding strap section, which holds the sandal on the foot when the sandal is worn. The wrap length of the great toe strap section can be changed in such a way that an adjustable corrective force can be exerted on the great toe. A metatarsus strap section is also provided, the wrap length of which can be changed, wherein both strap sections can be coupled to each other such that a metatarsus corrective force acting laterally on the metatarsal bone can be varied to press the metatarsal bone on the foot inner side in the lateral direction towards the foot outer side. As a result of said metatarsus corrective force, a hallux corrective force in the direction toward the foot inner side can be exerted, wherein the great toe strap section is guided backwards from the great toe at an angle and enters a channel on the inside of the sole element that is arranged in the metatarsus region of the sandal.

A toe protecting apparatus according to the present invention prevents blisters from forming by providing a support part that is thicker on any one side than the other side in the longitudinal direction.

Wearable treatment devices and methods for treatment of plantar fasciitis. Certain devices have a heel collar attachable to a heel of a foot and a toe brace having an elongate band attachable to the heel collar and at least one toe loop disposed at a distal end of the elongate band. Some embodiments also include a support strap attachable to the elongate band, the support strap having two strap arms positionable around the heel and attachable to each other.

An orthosis for supporting a limb or a joint of a human or of a vertebrate animal, including: a sleeve which is at least partly elastic and is designed to enclose a limb or a joint, a plate made of a thermoformable material, and a pocket formed on the sleeve in order to receive the plate, the pocket having a shape adapted to that of the plate. The adherence between the plate and the inner surface of the pocket is treated in order to permit a relative movement of the plate with respect to the material forming the pocket during and after an operation of thermoforming of the plate, this being done by placing the orthosis on the limb or the joint with the plate present in the pocket. This orthosis is designed to be fitted in place and thermoformed by the user himself.

In device for placing a toe of a patient's foot in traction may broadly include a shoe portion (e.g., a sole, counter, and strap(s)); a toe attachment apparatus (e.g., a Chinese finger trap) having a cable extending therefrom; a pulley, with the cable wrapped about the pulley; and an apparatus (e.g., a ratchet, an actuator, and the like) configured to apply tension to the cable to create traction in the toe. A second actuator may adjust lateral positioning of the pulley relative to the shoe portion to set a desired angle of adduction for the traction provided to the toe by the cable. A meter may be coupled to the cable to indicate an amount of tension provided thereto. Another actuator may adjust elevational positioning of the pulley relative to the shoe portion to set a desired angle of dorsiflexion for the traction provided to the toe by the cable.

An adhesive plaster structure 1 attached to a finger or a toe along a lateral nail edge, the adhesive plaster structure 1 has: a wound adhesion area 2 having a flexible wound adhesion surface 2A; and a guide area 3 having a slide groove 3A that receives the lateral nail edge, the slide groove being capable of sliding in a longitudinal direction of a nail along the lateral nail edge, wherein the slide groove 3A extends at least over a part of a length between the tip portion and the rear end portion of the adhesive plaster structure 1 in the longitudinal direction of the adhesive plaster structure 1, and the flexible wound adhesion surface is guided to a position of the wound caused by the ingrown nail when the adhesive plaster structure 1 is attached to the finger or the toe.

In device for placing a toe of a patient's foot in traction may broadly include a shoe portion (e.g., a sole, counter, and strap(s)); a toe attachment apparatus (e.g., a Chinese finger trap) having a cable extending therefrom; a pulley, with the cable wrapped about the pulley; and an apparatus (e.g., a ratchet, an actuator, and the like) configured to apply tension to the cable to create traction in the toe. A second actuator may adjust lateral positioning of the pulley relative to the shoe portion to set a desired angle of adduction for the traction provided to the toe by the cable. A meter may be coupled to the cable to indicate an amount of tension provided thereto. Another actuator may adjust elevational positioning of the pulley relative to the shoe portion to set a desired angle of dorsiflexion for the traction provided to the toe by the cable.

A heel float therapeutic footwear for people that spend a large amount of time in bed. The heel float therapeutic footwear includes a lower leg support portion, a foot support portion, and a wing support structure. The foot support portion extends from the lower leg support portion and includes a foot support platform. The wing support structure is permanently attached to the foot support platform. The wing support structure is adjustably fastenable to a side of the lower leg support portion to adjustably support a position and an angle of the foot support platform with respect to the lower leg support portion. A method of making a heel float therapeutic footwear is also disclosed.

In device for placing a toe of a patient's foot in traction may broadly include a shoe portion (e.g., a sole, counter, and strap(s)); a toe attachment apparatus (e.g., a Chinese finger trap) having a cable extending therefrom; a pulley, with the cable wrapped about the pulley; and an apparatus (e.g., a ratchet, an actuator, and the like) configured to apply tension to the cable to create traction in the toe. A second actuator may adjust lateral positioning of the pulley relative to the shoe portion to set a desired angle of adduction for the traction provided to the toe by the cable. A meter may be coupled to the cable to indicate an amount of tension provided thereto. Another actuator may adjust elevational positioning of the pulley relative to the shoe portion to set a desired angle of dorsiflexion for the traction provided to the toe by the cable.

A training device is provided for training a foot using the device. The training device includes a fulcrum placed at a center and four projections that project in different directions from the fulcrum. Each of the four projections have elastic members that are bendable. The training device is configured to improve foot muscle strength by bending and stretching the elastic members. At least two of the four projections have different degrees of elasticity in flexure as determined when a force is applied to a distal end of each of the at least two projections to bend the elastic members. The four projections project in cross directions from the fulcrum at the center. Each pair of projections that oppose each other across the fulcrum are arranged on a straight line.