An insole is provided. This insole features a front end, a thickness, a top surface, a bottom surface, a heel receiving portion having a first end and a second end, a lateral longitudinal arch support section which has a width, and a medial longitudinal arch support section. Preferably, the medial longitudinal arch support section is made up of a partial spherical cap which has a radius and a height, and the medial longitudinal arch support section runs from the first end of said heel receiving portion to the lateral longitudinal arch support section.

An arch support may include a base plate having a base plate top surface. The arch support may further include a contoured arch plate attached to the base plate at a joint. The arch plate may include an arch plate bottom surface. The arch plate bottom surface may face and be separated from the base plate top surface, with an extent of the separation increasing toward a medial side of the arch support.

A shoe insole having a protruding portion for stimulating the plantar side of a foot, and both shoe insole surfaces are used. The insole contains: a flat plate-shaped base portion made of a flexible material; and a protruding portion from at least one of the first and second insole surfaces and stimulates the plantar side of a foot. The first and second insole surfaces stimulate the same portion of the right and left feet when a load is applied by the foot from the second surface where the insole is in one of right and left shoes with the first surface having the protruding portion in contact with the shoe mid-sole portion, and when a load is applied by the foot from the first surface where the shoe insole is placed in the other of right and left shoes with the second surface in contact with the mid sole portion.

A sole structure for an article of footwear includes a first midsole body and a second midsole body. The first midsole body defines a ground-facing surface and a foot-facing surface opposite the ground-facing surface and includes a first midsole material, which has a first hardness. The second midsole body extends through the first midsole body. As such, the second midsole body extends beyond the ground-facing surface of the first midsole body. The second midsole body includes a second midsole material, which has a second hardness, and the first hardness is greater than the second hardness.

The present invention discloses a sole structure of a high-heeled shoe that may have a walking mechanism similar to movement of human walking when a pedestrian wears and walks in high-heeled shoes.

A sole structure of a high-heeled shoe of the present invention includes: a front portion supported on the ground; a bending portion that extends from the front portion to be positioned at a rear side of a metatarsophalangeal joint and is bent in an opposite direction to the ground; and a rear portion extending from the bending portion.

Disclosure herein are protective bandage and methods of use and manufacture thereof. The protective bandages can include first and second flexible films and a shear-reducing element. The first flexible film may form a contact layer having a first side opposite a second side. The second flexible film may form a dome attached to and extending over a portion of the first side of the contact layer. The dome may have a height at least partially defined by a side wall and a top portion of the second flexible film. The contact layer may extend beneath the dome and the top portion being freely movable along the first side of the contact layer through a distance related to the height. The shear-reducing element is located inside the hollow dome.

A variable friction shoe includes a midsole and an outsole. The outsole includes at least a first high-friction surface and at least a first low-friction surface, wherein the first low-friction surface remains prominent if vertical ground reaction forces (GRFs) are low and wherein the high-friction surface is prominent in response to increasing GRFs.

A foot prosthetic having a pressure relieving, weight distribution pad having a convex surface and a concave surface. The pad includes a central portion having a maximum thickness, the pad gradually tapering from the central portion to an outer peripheral edge thereof, the pad providing a cushioning for the foot. An adhesive layer is formed on the concave surface. During use, the concave surface is affixed to a selected portion of the user's foot thus conforming to the unique shape of the selected portion of the user's foot. The gradual tapering provides a smooth transition being formed between the pad and the user's foot at the outer peripheral edge.

A foot prosthetic having a pressure relieving, weight distribution pad having a convex surface and a concave surface. The pad includes a central portion having a maximum thickness, the pad gradually tapering from the central portion to an outer peripheral edge thereof, the pad providing a cushioning for the foot. An adhesive layer is formed on the concave surface. During use, the concave surface is affixed to a selected portion of the user's foot thus conforming to the unique shape of the selected portion of the user's foot. The gradual tapering provides a smooth transition being formed between the pad and the user's foot at the outer peripheral edge.

A sole structure for an article of footwear is provided and includes a midsole having a first surface, a second surface formed on an opposite side of the midsole than the first surface, a first cavity formed in the first surface and tapering in a direction from the first surface toward the second surface, and a second cavity formed in the second surface and tapering in a direction from the second surface toward the first surface. A first quantity of particulate matter is disposed within the first cavity and a second quantity of particulate matter is disposed within the second cavity.