An orthopedic insole is provided with an insole having a bottom portion for facing a sole of a shoe; one or more orthopedic pads disposed on the bottom portion of the insole at one or more judiciously selected locations to provide different heights and/or different physical properties. An orthopedic shoe is also provided having an upper; a sole attached to the upper, and the removable insole within the shoe. An orthopedic insole is provided with an insole having a bottom portion for facing a sole of a shoe; a first orthopedic pad disposed on the bottom portion of the insole at a location corresponding to at least one selected from the group consisting of a medial longitudinal arch, a lateral longitudinal arch, and a transverse metatarsal arch of a foot.

Describes are support elements for a sole of a shoe, in particular a sports shoe, a sole and a shoe with such a support element, as well as a method for the manufacture of a support element. As examples, the support element includes a first partial member formed of a first material, and a second partial member formed of a second material. The first partial member is mechanically joined to the second partial member in a connection region, wherein the connection region is configured to allow the first partial member to rotate or slide relative to the second partial member. The first partial member, the second partial member, and the connection region can be co-molded and joined together in a single fabricating step.

Sole structures and/or articles of footwear include: (a) a frame with a first sidewall that has an opening defined through it; and (b) an interior midsole component including a second sidewall that extends along the first sidewall of the frame. The interior midsole component includes an outwardly extending stem projecting sideways and into the opening. This stem: (a) may extend at least to a location at or adjacent an outer surface of the first sidewall, (b) may be complementary shaped with respect to an interior surface of the opening over at least 25% of an axial length of the opening, and/or (c) may extend beyond an outermost extent of the opening.

Describes are support elements for a sole of a shoe, in particular a sports shoe, a sole and a shoe with such a support element, as well as a method for the manufacture of a support element. As examples, the support element includes a first partial member formed of a first material, and a second partial member formed of a second material. The first partial member is mechanically joined to the second partial member in a connection region, wherein the connection region is configured to allow the first partial member to rotate or slide relative to the second partial member. The first partial member, the second partial member, and the connection region can be co-molded and joined together in a single fabricating step.

An improved article of footwear is disclosed herein. The article of footwear includes an upper and an internal harness disposed within the upper. The upper has a midfoot region, a forefoot region, a medial side, a lateral side, and an opening configured to receive a foot of a wearer. The harness extends between the midfoot region and the forefoot region, and may include a medial panel and a lateral panel. The medial panel and the lateral panel are coupled to the upper and movably coupled to each other. Moving the lateral panel and the medial panel together applies a compressive force to the foot of a wearer to secure the foot of the wearer in the upper. Consequently, the internal harness prevents the foot of a wearer from shifting or translating in the upper, such as during athletic activity like cutting.

An article of footwear that is adjustable so as to optimize the pressure distribution and pressure equalization on the foot surfaces. The footwear is configured to adjust to a user's anatomy so as to optimize pressure distribution and equalization on the foot, where the footwear is capable of adjusting the pressure distribution on the foot substantially in real time.

An orthopedic walking boot includes a housing configured to encompass at least a user's foot, a mechanically adjustable ramp insert including a ramp surface and disposed in the housing, an adjusting mechanism configured to adjust an elevation angle of the ramp surface, and a mechanically adjustable lift configured to cause the mechanically adjustable ramp insert to descend within the housing as the ramp surface is elevated such that vertical displacement of the user's foot caused by elevation of the ramp surface is substantially attenuated. Related methods are also provided.

An article of footwear can include an upper and a sole structure. The upper defines at least a portion of a foot-receiving cavity. The sole structure is coupled to the upper and includes a midfoot support member. The midfoot support member includes a lateral flange, a medial flange, a superior deck plate, and an inferior deck plate. The superior deck plate and the inferior deck plate span from the lateral flange to the medial flange. The superior deck plate and the inferior deck plate are spaced apart in a superior/inferior direction and define an opening therebetween. The opening extends unobstructed from the lateral flange to the medial flange, and the lateral flange extends farther in a superior direction than the medial flange.

A footbed system for footwear comprises an insole mechanism, a midsole mechanism, wherein the insole mechanism is positioned on the midsole mechanism, and the outsole mechanism is positioned under the midsole mechanism. The insole mechanism comprises a footbed insole, a heel pad and a forefoot pad. The footbed insole comprises a pad anatomically shaped to correspond to the sole of a human foot, wherein the heel pad is positioned in the hindfoot portion of the footbed insole, and the forefoot pad is positioned in the forefoot portion of the footbed insole. The outsole mechanism comprises an opening for exposing a natural gait line groove of the midsole mechanism.

Therapeutic devices and methods stretching the Achilles tendon. Each device includes base and wedge portions. The wedge portion has heel and toe ends, inside-foot and outside-foot edges, and an upper surface that includes a planar surface portion that lies in a wedge plane and an arcuate surface portion defined by a projection that extends out of the wedge plane. The wedge plane has a nonuniform elevation relative to the base portion as a result of the wedge portion having a fore-aft taper in the fore-aft direction and a lateral taper in the lateral direction. The fore-aft taper and the lateral taper are sufficient so that placement of a user's foot on the upper surface of the wedge portion causes supination and locking of the foot and enables stretching of the Achilles complex, while the arch of the user's foot is against and supported by the arcuate surface portion.