Footwear for covering a foot of a wearer includes an outsole configured for supporting the foot of the wearer, an upper secured to the outsole and configured for covering the foot of the wearer, an insole located above the outsole within the upper, a midsole located above the outsole and below the insole and first and second laterally adjacent shanks located above the outsole and below the insole. The first shank angles forward and outward from the heel portion to a lateral side of the middle portion and the second shank angles forward and outward from the heel portion to a medial side of the middle portion to form an acute angle therebetween and provide balance and torsional stability for sides of the wearer's foot

Sole structures for articles of footwear (e.g., outsole components) have one or more of: a base plate having a V-shaped support structure with lateral and medial support members extending forward from a base support area located in a heel or rear midfoot area of the outsole component; a base plate having a matrix structure with recesses or openings formed between rib elements that make up the matrix structure; and/or a base plate having a rear heel support. The base plates may be made, at least in part, as unitary, one-piece constructions, using selective laser sintering or other three-dimensional printing and/or rapid manufacturing additive fabrication techniques.

Sole structures for articles of footwear (e.g., outsole components) have one or more of: a base plate having a V-shaped support structure with lateral and medial support members extending forward from a base support area located in a heel or rear midfoot area of the outsole component; a base plate having a matrix structure with recesses or openings formed between rib elements that make up the matrix structure; and/or a base plate having a rear heel support. The base plates may be made, at least in part, as unitary, one-piece constructions, using selective laser sintering or other three-dimensional printing and/or rapid manufacturing additive fabrication techniques.

A shoe comprising a sole and an upper secured to the sole. The sole has a lower sole member, a heel member, a shank member, a heel cushion, and a foot pad. The heel member extends downwardly from the lower sole member. The heel member includes a heel outer peripheral surface and an open top heel cavity. The lower sole member includes a top surface and a lower sole cavity extending downwardly from the top surface. The shank member has a shank midfoot portion and a shank heel portion. The shank midfoot portion is in the lower sole cavity and the shank heel portion is in the heel cavity. The heel cushion is in the heel cavity. The shank heel portion is sandwiched between the heel cushion and the heel member.

A shoe comprising a sole and an upper secured to the sole. The sole has a lower sole member, a heel member, a shank member, a heel cushion, and a foot pad. The heel member extends downwardly from the lower sole member. The heel member includes a heel outer peripheral surface and an open top heel cavity. The lower sole member includes a top surface and a lower sole cavity extending downwardly from the top surface. The shank member has a shank midfoot portion and a shank heel portion. The shank midfoot portion is in the lower sole cavity and the shank heel portion is in the heel cavity. The heel cushion is in the heel cavity. The shank heel portion is sandwiched between the heel cushion and the heel member.

An article of footwear may include various first strands and second strands. The cutting and second strands may extend from an area proximal to lace-receiving elements to an area proximal to the sole structure. The first strands may have a substantially vertical orientation and the second strands may have a rearwardly-angled orientation. The first strands may be located in a midfoot region of the footwear and the second strands may be located in both the midfoot region and a heel region of the footwear. Angles between the first strands and the second strands may be at least 40 degrees. Additionally, the second strands may have at least fifty percent greater tensile strength than the first strands.

A footwear article is provided comprising an upper and a wear guard. In at least one example, the wear guard may include an overlay formed with bellows positioned along a lacing structure of the footwear article, wherein the wear guard is a different material than the upper of the footwear article.

A shoe including a sole and an upper. The upper is coupled to the sole. The upper includes an outer layer and an inner layer. The outer layer has an outer surface and an inner surface. The inner surface of the outer layer is in direct contact with the inner layer. The outer layer is a hot melt thermoplastic material, and the inner layer is a material different from that of the outer layer. At least a portion of the outer layer is adhered to the inner layer, and the inner layer including a portion not covered by the outer layer.

Shoes and/or shoe elements facilitate natural foot motion and/or reduce forces tending to fight natural foot motion. In at least some such structures, a wearer's heel is secured to the hindfoot region of a shoe (e.g., by a strap system) in a manner that permits heel/forefoot rotation and that allows the lower leg to remain straight. In other structures, a shoe can include a heel supporting component that is separate from a midsole component, and this heel supporting component can move toward the lateral side and/or medial side of the shoe along an interface between the heel supporting component and the midsole component. Other suitable shoe and shoe component structures also are described.

Shoes and/or shoe elements facilitate natural foot motion and/or reduce forces tending to fight natural foot motion. In at least some such structures, a wearer's heel is secured to the hindfoot region of a shoe (e.g., by a strap system) in a manner that permits heel/forefoot rotation and that allows the lower leg to remain straight. In other structures, a shoe can include a heel supporting component that is separate from a midsole component, and this heel supporting component can move toward the lateral side and/or medial side of the shoe along an interface between the heel supporting component and the midsole component. Other suitable shoe and shoe component structures also are described.